radionic patents


![](0logo.gif)  
 **[rexresearch.com](http://rexresearch.com/index.htm)**

---

**Radionic // Radiesthesia // Dowsing** **Patents**

---

> **RADIESTHESIA ROD**  
> **RO123463**
>
>   
>
> The invention relates to a radiesthesia
> rod to be employed in biodetection, biolocation, measuring
> energetic and bioenergetic fields, diagnosing energetic
> anomalies, in qualitative and quantitative measurements,
> in all said applications the rod being used together with
> a special protractor. According to the invention, the
> radiesthesia rod consists of a cross-shaped assembly (1)
> made of metal wire along two perpendicular lines (D1 and
> D2), where one line (D1) contains two wire pieces of equal
> sizes (b), welded in the extension of each other, while,
> along a line (D2) there are similarly welded two other
> wire pieces, one of them having a size (a) and the other
> one having other size (I), the two half sizes (b) of the
> first arm of the rod cross being welded or soldered to the
> rod arm having a size (a+I), where the assembly (1) works
> together with a special protractor (2).
>
> ![](RO123463a.jpg)  ![](RO123463b.jpg)
>
>   
>
>
> ---
>
>   
>
> **Test device determining sensitivity
> to radiation**  
> **DE4116941**
>
>   
>
> A spring pendulum performs mechanical
> vibrations in a plane or rotations. It consists of a
> handle and metal tube (1) contg. an extractable spring
> element (4) in the form of an elastic wire with a wt. (5)
> on one end. The spring element can slide tightly in the
> tube and when extracted is held in the radial position by
> a rubber or plastics bearing acting as a slightly elastic
> clamp. The wt. is a ball of non-magnetic material.
> USE/ADVANTAGE - For determining energy and physical
> properties and influences of radiation for natural
> healing. Exhibits high sensitivity and reproducibility
> over long operating life and is insensitive to local
> magnetic fields. Radiesthesia, i.e. diagnosing sensitivity
> to radiation, e.g. magnetic or electric, by pendulum.  
>   
> The art of dowsing, the effect of radiation, magnetic and
> electric fields on the behavior and well-being of living
> organisms, constantly gaining in importance, so that also
> address the classical natural sciences with the relevant
> phenomena.  
>   
> Essential tool for qualitative and quantitative
> measurement is relatively pendulum, which was
> significantly enhanced in primitive forms in recent times.  
>   
> The invention is concerned with the development and
> perfection of the pendulum for use in dowsing towards
> smaller size, better handling, greater sensitivity,
> reliability and reproducibility of the measurement
> results, as well as lower maintenance, easier repair and
> longer life.  
>   
> In a narrower sense, the invention relates to a test
> device for determining the energetic and physical
> conditions and influences in the field of dowsing natural
> medicine, in the form of to mechanical vibrations in a
> plane or for rotation capable spring pendulum for use in
> human hand, preferably in a horizontal position,
> consisting of a handle and serves as a metallic protective
> tube sleeve mounted therein, extensible spring element in
> the form of an elastic wire and a mass element located at
> its end.
>
>   
>
> ![](de4116941.jpg)
>
>   
>
> **Art**  
>   
> In the art of dowsing of naturopathy are to determine
> energy flows, radiation effects, compatibility and
> incompatibility of substances, foods, and medicines to
> interact with living organisms or parts of the body
> subtle, highly sensitive instruments are needed.  
>   
> A substantial space is thus a pendulum, the spring
> pendulum swing towards other species is gaining more and
> more importance.  
>   
> Metal pendulum are both known as gravitational pendulum
> such as a spring pendulum in numerous designs.  
>   
> Among the latter win the plugged together or drawable
> structures of their relative small size and excellent
> maneuverability due to increases in importance.  
>   
> A really handy device for the hand of the doctor or the
> engineer is missing, however, is still on the market.  
>   
> Executed instruments are, for example, the "bio-tensor"
> and the "Bioantenne" for use in natural medicine.  
>   
> It cited the following publications:  
>   
> - Dr. Josef Oberbach: "The biotensor, Beagle of ill health
> and natural events"  
> - Dr. Josef Oberbach: "The biotensor, the universal
> tester"  
> - Hardy Burbaum: "The new dimension of Schwingpendelns in
> dowsing" and others, The Nature Doctor No. 3/1989.  
>   
> The commercially available devices can still
> unsatisfactory.  
>   
> There is therefore a great need for improvement,
> advancement and simplification of the pendulum for
> dowsing.  
>   
> **SUMMARY OF THE INVENTION**  
>   
> The invention has for its object to provide a spring
> pendulum to determine the physical conditions (energy
> flow, energy distribution) in the art of dowsing, which
> has a long life with maximum sensitivity and
> reproducibility, against disturbing local magnetic fields
> is insensitive and a high degree of maneuverability both
> in transport ensured at rest as in the handling during
> operation.  
>   
> The unit should be kept as small as possible in the
> dimensions to require little space during transport and to
> carry out measurements in the confined space area with
> sufficient accuracy in operating condition.  
>   
> This object is achieved in that the above-mentioned test,
> the spring element is longitudinally arranged tightly
> fitting slidable in the sleeve and that it is held in a
> radial position in the extended state in a substantially
> acting as a soft elastic fixed stock of rubber or
> plastics, and that the mass member of a ball of a
> non-magnetic material is.  
>   
> The invention is described by the following, explained in
> more detail by Figures embodiments.  
>   
> In the drawings:  
>   
> 1 shows a longitudinal section through a first embodiment
> of the pendulum with an elastic clamping of the spring
> element at one end,  
>   
> 2 shows a longitudinal section through a second embodiment
> of the pendulum with an elastic clamping of the spring
> member in a slidable piston.  
>   
> 1 shows a longitudinal section through a first embodiment
> of the pendulum with an elastic clamping of the spring
> element at one end. 1, serving as a handle sleeve and the
> protective tube made of a nonmagnetic stainless steel
> material, in this case from a corrosion-resistant
> austenitic Cr / Ni-steel. 2 illustrates a stopper formed
> as a rotational body made of a plastic  
>   
> In this case, nylon is selected.  
>   
> The plug 2 is the use of 3, preferably made of brass. 4 is
> a pull spring element in the form of a non-magnetic, bent
> at its inner end metal wire: spring hard, cold-worked
> austenitic Cr / Ni steel.  
>   
> The fixed end of the spring element 4, non-magnetic mass
> element 5 has the form of a metal ball, in this case also
> consists of Cr / Ni-steel. 6 is the other end of the
> sleeve 1 final gland (polyamide) comprising the bearing 7
> (elastic clamping) for the spring member 4 in the form of
> a rotation body concentric.  
>   
> This camp consists of 7 natural rubber a certain hardness
> and thus sets the arm span of the spring element 4 in the
> working position against fixed (rigid) clamping down
> considerably.  
>   
> The elasticity of the pendulum will be increased
> considerably.  
>   
> The bearing 7 is provided on its inner face with a stop
> (catch) 8th  
>   
> This is in this case made of brass.  
>   
> The stop plate is to ensure that the bent end of the
> spring element 4 does not dig into the working position in
> the comparatively soft bearing 7.  
>   
> Figure 2 refers to a longitudinal section through a second
> embodiment of the pendulum with an elastic clamping of the
> spring member in a slidable piston.  
>   
> The sleeve 1 and 4 correspond to the extendable spring
> element in their designs and materials virtually Figure  
>   
> 1 Also the plug with its 2 and 3 use the stuffing box 6
> correspond to those of FIG 1 The bearing 7 for the elastic
> clamping of the spring member 4 is here in a longitudinal
> direction of the sleeve with sliding fit displaceable
> severe, provided with a sealing ring as a friction element
> 11, piston 10 9 is located between a spring element and
> mass element 5 4 fastener which is no need to solder or
> weld connection.  
>   
> All other terms and symbols correspond to those of Figures
> 1 and require no further explanation.  
>   
> **Embodiment 1**  
>   
> See Figure 1  
>   
> It is made of a spring pendulum with retractable spring
> element.  
>   
> The casing 1 serving as a handle and the protective tube,
> consisting of a cold-drawn blank tube of 18 mm outer
> diameter, 17 mm inner diameter, 0.5 mm wall thickness and
> 180 mm length.  
>   
> The material was a non-magnetic corrosion-resistant steel
> with the material number nac 14 301 DIN (German standard).  
>   
> Both the plug 2, as 6 is a stuffing box for the plastic
> has been used on the basis of polyamide with tradename
> PA6.  
>   
> The plug 2 had an outer diameter of 17 mm and had a hole
> of 6.8 mm diameter for receiving the insert made of brass
> 3.  
>   
> The latter was 24 mm long and had a concentric blind hole
> of 4.2 mm diameter and 20 mm depth.  
>   
> The retractable spring element 4 consisted of a corrosion
> resistant non-magnetic spring tempered Cr / Ni steel wire
> (quality super hard) called 188 and had a diameter of 1
> mm.  
>   
> The mass element 5 had the shape of a ball diameter of 15
> mm and was made of stainless steel AISI 111 W 4,401th  
>   
> The camp 7 (elastic fixed) for the spring element 4 is
> made of natural rubber with the trade name Viton 75 SH A
> and had an outer diameter of 7 minutes, so it will be
> tight and adherent pressed into the bore of the stuffing
> box 6 of 6.8 mm diameter could.  
>   
> It had a central through hole of 0.5 mm diameter Which
> serves to lock the stop plate 8 consisted of brass and had
> a bore diameter of 1 mm, so that the spring element is
> able to move effortlessly gliding.  
>   
> In the fully extended operative condition, the entire
> pendulum including handle had a length of about 340 mm.  
>   
> **Embodiment 2**  
> See Figure 2  
>   
> Analogously to Example 1 is manufactured using a spring
> pendant of drawable spring element and the sliding piston.  
>   
> The sleeve 1 is composed of a bare tube of 20 mm outer
> diameter, 17 mm inner diameter, 0.75 mm wall thickness and
> 157 mm length from a corrosion resistant, non-magnetic
> steel of the same composition as in Example I. The plug 2
> of plastic was virtually identical with that of Example 1  
>   
> The same was true for the stuffing box 6 with the
> difference that this was not provided for the inclusion of
> an additional component, but only a central hole of 5 mm
> in diameter for the passage of the spring element 4 had.  
>   
> The latter was substantially the same as in Example 1 but
> had a thickness of 1.2 mm and a length of 145 mm.  
>   
> It was on both ends bent at right angles in order to lock
> or Fixation in the adjacent component.  
>   
> The use of 3 had a different stop function according to
> its flat shape with a flat front and back was made of
> brass.  
>   
> The mass element 5 was formed as a sphere of 18 mm
> diameter made of nonmagnetic stainless steel and had a
> slightly larger central hole of 5 mm diameter for
> receiving the cylindrical mounting member 9.  
>   
> The latter had been fastened tight fit in the mass element
> 5 and mediated the positive connection between this and
> the spring element 4  
>   
> The fastening member 9 also consisted of a stainless Cr /
> Ni-steel.  
>   
> The provided with an annular groove, and a frictional
> member 11 in the form of a sealing ring of rubber
> cylindrical piston 10 comprised of a plastic based on
> polyamide, having an outer diameter of 17 mm, such that a
> sliding fit was ensured in the sleeve 1.  
>   
> It contains in its interior the cylindrical bearing 7 of
> natural rubber with an outer diameter of 9.5 mm and a hole
> of 1.1 mm for receiving the spring element 4 When ready,
> the pendulum had a total length of about 295 mm.  
>   
> The invention is not limited to the embodiments.  
>   
> The test for determining the energetic and physical
> conditions and influences in the field of dowsing natural
> medicine, in the form of to mechanical vibrations in a
> plane or for rotation capable spring pendulum for use in
> human hand, preferably in a horizontal position consists
> of a handle and a conduit serving metallic shell 1, a
> mounted therein and extendable spring element 4 in form of
> an elastic wire, and an on-the end of mass element 5,
> wherein the spring element 4 fits slidably disposed
> tightly in the barrel 1 in the longitudinal direction and
> in the extended state in a substantially acting as a soft
> elastic clamping bearing 7 of rubber or plastics stated in
> the radial position and the mass element 5 consists of a
> ball of a non-magnetic material.  
>   
> In a first embodiment of the test apparatus, the sleeve 1
> is closed at one end by a plug 2 with insert 3 and is
> provided at the other end to a final packing box 6, in
> which the a resilient clamping of the extendable spring
> member 4 serving as a metal wire stock 7 is concentric and
> radially symmetric firmly pressed, the latter having a
> bore such that the spring member 4 is retained therein
> with a tight sliding fit in the extended state by the arm
> span is chosen so low that under the influence of a
> lateral force on the mass element 5 of the deflection of
> pendulum caused twice that value is at least the pendulum
> would otherwise expand at total rigid clamping of the
> spring member 4, and further comprising the bearing 7 on
> its inner side with a serving as a locking stop plate 8,
> and the spring element 4, at its inner, a mass element 5
> opposite end provided with a hook angle, or as a stop in
> the longitudinal direction.  
>   
> In a second embodiment of the test apparatus, the sleeve 1
> is terminated at one end with a plug 2 with insert 3 and
> provided at the other end with one final stuffing box 6,
> in which there is a central hole with a sufficiently large
> diameter so that the retractable spring element can be 4
> to move axially therein without touching and provide the
> inner end of the spring element 4 with a bracket or hook
> and elastically clamped in the bearing 7, which is coaxial
> in turn provided in an with a acting as a seal ring
> friction member 11, tightly displaceable with a sliding
> fit in the sleeve 1 piston 10 is located in, wherein the
> arm span of the spring element 4 is so low in the storage
> 7, that the deflection caused by the influence of a
> lateral force on the mass element 5 of the pendulum is at
> least twice that value, the pendulum otherwise in total
> rigid clamping of the spring member would show 4, further
> wherein the spring element 4 is provided at its outer end
> to a bracket or hook and is connected by a tight-fitting,
> the press-fit and force-locking connecting element 9
> adherent to the ground element 5.  
>   
> The sleeve 1, the spring member 4 and the mass element 5
> are preferably made of a diamagnetic or non-magnetic
> metallic material, wherein the mass member has a spherical
> shape 5.  
>   
> Advantageously, the sleeve 1 and mass element 5 of
> non-magnetic stainless Cr / Ni-steel, and the spring
> element 4 of non-magnetic stainless Cr-steel or
> spring-hardened spring hard Cr / Ni-steel.  
>   
> **Advantages of the Invention**  
>   
> - Handy, beanspruchendes for transporting little space
> instrument.  
> - High sensitivity despite the relatively short length of
> the spring element due to highly elastic soft clamping of
> the latter.  
> - Oxydationsbestandige, corrosion-resistant design long
> life.  
> - Unbeeinflussbarkeit otherwise interfering with local
> magnetic fields due to use of non-magnetic materials.  
>   
> **Designation List**   
>   
> 1 sleeve (handle, protection tube)  
> 2 plugs  
> 3 Applications  
> 4 Pull spring element (metal wire)  
> 5 mass element (metal ball)  
> 6 gland  
> The subject of the invention is a translucent pendulum
> suspended by a flexible thread and containing an
> electronic device which is both a detector and an
> amplifier with electronic components and novel components
> allowing high sensitivity, leading to better selection
> while providing the necessary electronic energy. This
> pendulum is highly reliable and completely independent of
> the use  
> 7 Storage (elastic fixed) for spring element  
> 8 stop (arrest)  
> 9 fastener for mass element  
> 10 piston  
> 11 friction element (sealing ring)
>
>   
>
>
> ---
>
>   
>
> **Radioelectric pendulum and electronic
> components for dowsing (radiesthesia)**  
> **FR2592961**
>
>   
>
> The subject of the invention is a
> translucent pendulum suspended by a flexible thread and
> containing an electronic device which is both a detector
> and an amplifier with electronic components and novel
> components allowing high sensitivity, leading to better
> selection while providing the necessary electronic energy.
> This pendulum is highly reliable and completely
> independent of the user.   
>   
> The object of the invention is a-clock for all research in
> all branches of dowsing.  
>   
> Various clocks that occur are all characterized by the
> fact that all their components are without dynamic action
> on our environment.  
>   
> Only events beyond control and to any extent, and as
> rotations or oscillations are visible, but not measurable
> or comparable to the operator or witnesses of a search.  
> This gives rise, despite some successes, to endless and
> fruitless controversy because these clocks are inert.  
>   
> The object of the present invention overcomes these
> disadvantages by providing the pendulum of a radio
> receiver, also producing the electricity needed to operate
> both daylight and artificial light.  
>   
> This receiver has a tuning circuit over a wide frequency
> band and various organs miniaturized electronic nature,
> also producing the electric current required to operate
> them, both natural light and artificial light.  
>   
> The object of the invention necessarily includes a
> receiver tuned to a broad band of frequencies determined
> by experiment and calculation.  
> This receiver has several floors of amplification allows
> both detection and resonance.  
>   
> Such a circuit will not be described as familiar to all
> technicians.  
>   
> A first patent had already elements and purpose of one
> invention that this patent does not change, either in its
> purpose or in its basic structure.  
>   
> But note that the miniaturization allow to use special
> products, in small amounts, but significant, which is
> never found in normal integrated circuits.  
>   
> These chemical constituents are organic products that
> facilitate both the detection of waves from organic
> bodies, such as the brain, and are generally found in the
> family of various hydrocarbons.  
>   
> The accompanying drawings show, for example, an embodiment
> of the invention.
>
> ![](fr2592961a.jpg)
>
> Fig.1 in the A is the lower part of the pendulum B
> translucent plastic, which encloses the electronic circuit
> can accommodate C.0n O nucleus of a soft iron.  
>   
> Freeze is the one type of a conventional circuit diagram
> with the conventional amplifiers receptor organs without
> power source.  
> This device provides, first, improving multiply by two
> million sensibxlite the early achievements.  
>   
> The pendulum is again able to detect waves whose 1>
> amplitude of less than ten picovolts.  
>   
> Made of or the extreme sensitivity of the device was able
> to increase the capacity of the frequency band in the
> ratio of three to one.  
>   
> The spreading of the band may further-much better
> selection of waves captured, which are maintained and
> unamortized nature, which ensures the rejection of
> unwanted frequencies, and makes the results more reliable.  
>   
> The structure of the integrated circuit allows for optical
> coupling with other devices.  
>   
> This optical coupling can also provide electrical energy
> that is necessary to one power of transitive circuit.  
>   
> To use the pendulum is hung by flexible wire E.  
>   
> The object of the invention is used in all cases to use
> the pendulum dowsing described remplagant remarkably inert
> dewlap straight through the reception with remarkable
> finesse of the new body were mentioned.  
>   
> This avoids misinterpretation of micro-perviennent signals
> to the operator.
>
>   
>
>
> ---
>
>   
>
> **PENDULUMS FOR RADIESTHESIA OR WATER
> DIVINING**  
> **GB1573007**
>
>   
>
> I, JEAN BORGNI, a French citizen of 4 Rue
> Xavier de Maistre, 06100 Nice, France, a French citizen,
> do hereby declare the invention, for which I pray that a
> patent may be granted to me, and the method by which it is
> to be performed, to be particularly described in and by
> the following statement:  
>   
> The invention relates to pendulums used in the various
> areas of radiesthesia: water divining, finding creatures
> (living or dead) and articles, and medical and
> parapsychological investigations. Various improvements
> have been made to inert pendulums of all kinds. In
> particular, some have been equipped with means for
> amplifying the waves received, so eliminating regrettable
> errors. However, the amplification is not selective, and
> this causes difficulties for the operator.  
>   
> To overcome these disadvantages the invention proposes
> that every device, with or without amplifying means,
> should be preceded by a sensor tuned to a frequency band
> encompassing the frequency of the subject of the
> investigations. This sensor, or antenna or scanner is
> followed by a conventional detecting device which can
> generally be followed by two electronic amplification
> stages comprising field effect transistors, as found
> commercially. The sensor will be set to select between 500
> and 600 MHz. In this way the user of the pendulum receives
> not a confused mass of signals, but only those relevant to
> his investigation.  
>   
> Thus according to the present invention there is provided
> a pendulum capable of detecting very small electric
> currents and adapted for use in radiesthesia or
> waterdivining, which comprises a pendulum bob and a thread
> or wire by means of which the pendulum bob is adapted to
> be suspended, characterised in that the pendulum bob
> contains an electronic circuit capable of selectively
> detecting radiation in which the bob is suspended thus to
> increase the discrimination of the pendulum, said circuit
> comprising a turned detector circuit adapted to detect
> radiation in the 500 to 600 MHz, followed by an amplifier
> stage.  
>   
> A device embodying the invention will now be described, by
> way of example, with reference to the accompanying
> drawings.
>
> ![](gb1573007.jpg)
>
> **Fig. 1 shows a cross-section through the pendulum, and**  
>   
> **Fig 2 is a circuit diagram of the detector,
> which is energised by a small battery.**  
>   
> A cavity or shell A in the bottom of the pendulum houses
> the battery B, for reasons of gravitational balance. The
> upper body part C of the pendulum contains an entry at the
> top for a suspending thread or wire D, which effects
> operation of a switch E (not shown in Fig 2) so that the
> battery does not supply current unless the pendulum is
> suspended, which connects F, G. The tuned detector-sensor
> assembly is shown installed at H but the miniaturised
> circuit (Fig 2) cannot be shown in the sectional drawing
> (Fig 1).  
>   
> The detector-sensor assembly H comprises a circuit
> arrangement of a sensor coil S, capacitors C1, C2, C3, C4,
> resistors R1, R2, R3, R4, field effect transistor T and
> diodes D1, D2, connected as shown in Fig 2 and tuned to
> the desired selection frequency in the range 500 to 600
> MHz.  
>   
> The sensor coil S may be subject to the effect of the
> earth's magnetic field only, but alternatively a
> controllable influence may be exerted by means of a
> diamagnetic mass or body I. The drawing does not show the
> amplifying means, if any, since this may be conventional;
> in one such embodiment a system employing two field effect
> transistor stages is employed for amplification purposes.  
>   
> The invention can be applied wherever conventional
> pendulums are used, and it replaces these in a remarkable
> fashion, eliminating errors in the interpretation of
> signals.
>
>   
>
>
> ---
>
>   
>
> **A new or improved apparatus for use
> in the study and practice of radiesthesia**  
> **GB626396**
>
>   
>
> Apparatus for use in radiesthesia
> comprises a light source 2, a collinating quartz rod 5
> directing light therefrom on to a slit 6 whence it is
> divided by a prism system 11 into a spectrum focused on a
> projection screen 1 inclined to the direction of the beam,
> and a holder 8 for specimen slides 10. The screen 1 is
> calibrated according to the Turenne, Lesourd or other
> radiesthesia rule and the spectrum produced by the
> specimen e.g. blood or urine, is visible on the screen.
> The apparatus may be combined with other apparatus used in
> radiesthesia e.g. that described in Specification 515,866.
>
>   
>
> ![](gb626396.jpg)
>
>   
>
> I, DOUGLAS WALTER ATKINSON, a British
> Subject, of " Hildaslea," Angmering, Sussex, do hereby
> declare the nature of this invention to be as follows:  
> In the study and practice of Radiesthesia, which is based
> on observation of effects produced by radiant energy
> emitted by the human body, various forms of apparatus have
> been used to locate physiological defects, diseased
> tissue, to determine the general state or health, and so
> on of patients under observation.  
>   
> One particular appliance which is used in this field is
> known as the Turenne Rule and comprises a linear scale
> which is marked at intervals representing critical
> wave-lengths of radiant energy corresponding to different
> physiological components or groups of organs of the human
> body. A similar appliance has been evolved by Lesourd for
> the same purpose.  
>   
> An object of this invention is to provide a new or
> improved apparatus for visually reproducing the effects of
> the radiant energy of the various parts of the body, my
> invention being based on the discovery that the
> wave-length of this energy has some relationship to the
> effect produced on a beam of light by a sample of blood or
> other matter taken from the patient's body.  
>   
> The apparatus according to this invention comprises a
> projection surface or plate of frosted glass or other
> rigid material etched or otherwise marked with divisions
> or other markings corresponding to the Turenne or Lesourd
> Rule, a light source mounted for producing a beam whose
> axis is transverse to the plane of said plate, a crystal
> prism arranged in front of said light source and adapted
> to break up the beam therefrom and project its spectrum on
> to said plate, an aperture-provided screen between said
> light source and prism, and a holder for the introduction
> of one or more slides into the path of the beam from said
> light source to the prism.  
>   
> The light source may be an electric lamp bulb or other
> suitable element and is preferably arranged within a
> closed housing, the light being able to pass out from this
> housing through a quartz rod which serves to direct a
> pencil of light, provided with an ultra violet component,
> in the required direction towards the prism.  
>   
> To enable the light beam, which is refracted by passage
> through the prism, to register with the desired range of
> the projection surface, the housing and/or the quartz rod
> thereof may be mounted so as to be angularly movable to
> vary the angle which the light pencil emergent therefrom
> initially makes with the projection surface.
> Alternatively, or in addition, the prism itself may be
> mounted in the apparatus so as to be rotatable for
> adjusting the position of the refracted beam in relation
> to the projection surface. Again, the prism and/or the
> light source may be mounted for movement towards or away
> from one another.  
>   
> With these aids, the parts can be adjusted until the
> correct "focus') on the projection surface is obtained,
> with the visible spectrum extending between the Turenne
> markings 5 to 80. Suitable clamping devices are provided
> for securing the parts in their appropriately-adjusted
> positions.  
>   
> The screen between the light source and prism is
> preferably provided with a narrow slot for the passage of
> light rays, and this screen can also be adjustable to
> compensate for adjustment of the light source or prism  
>   
> The holder previously referred to prefer ably is in the
> form of a frame, e.g., of rectangular shape, furnished
> with perimetrical grooves for receiving and retaining one
> or more slides.  
>   
> The whole apparatus is preferably so arranged that the
> projection plate is horizontally-disposed, the operator
> then observing this plate from above, i.e., from the
> opposite side from the light-source and prism. With such
> an arrangement, the use of material such as frosted glass
> is preferred for the plate, the markings being made on the
> upper side of the plate. It will be apparent, however,
> that other arrangements- are possible within the scope of
> this invention, and that the light source and prism could
> be located above the plate, or the plate could be disposed
> with its projection surface in a vertical plane.  
>   
> In using the apparatus described, a sample of the
> patient's blood or other matter, e.g., urine is placed
> between the two slides and these are then inserted in the
> holder so as to be at right angles to the light beam from
> the sourer. This produces a characteristic change in the
> spectrum indicated on the projection surface or plate and
> provides useful medical evidence.  
>   
> The apparatus which I have devised can be used on its own
> for observation or testing purposes, or can be combined
> with other apparatus at present in use in Radiesthesia;
> for instance it may be incorporated with electronic
> apparatus, used in Radiesthesia, for example, the
> so-called Drown or Delawarr apparatus.  
>   
> **SPECIFICATION**  
>   
> In the study and practice of Radiesthesia, which is based
> on observation of effects produced by radiant energy
> emitted by the human body and other forms of matter,
> various forms of apparatus have been used to indicate
> physiological conditions, diseased tissue, to determine
> the general state of health, and so on of patients under
> observation.  
>   
> One particular appliance which is used in this field is
> known as the Turenne Rule and comprises a linear scale
> which is marked at intervals representing critical
> wave-lengths of such radiant energy, see for example page
> 113 of "Les mineraux, Les andes des formes geometriques,
> etc.," by Turenne, 1935 Edition. Similar appliances have
> been evolved by Lesourd (see e.g., page 44 of "Vie
> Maladies Radiations," by G. Lesourd, 1937 Edition) and by
> others for the same purpose. These rules are generally
> used in conjunction with a swinging pendulum for carrying
> out the requisite tests.  
>   
> An object of this invention is to provide a new or
> improved apparatus for indicating the radiant energy of
> the various parts of the body, my invention being based on
> the discovery that the wave-length of this energy has some
> relationship to the effect produced on a beam of light by
> a sample of blood or other matter taken from the patient's
> body.  
>   
> The apparatus according to this invention comprises a
> projection surface, e.g., a plate, of frosted glass or
> other rigid material which is etched or otherwise
> furnished with divisions or other markings corresponding
> to the Turenne, Lesourd, or other Rules used in
> Radiesthesia, a light source, means for directing a light
> beam, from said source, in a direction inclined to the
> plane of said surface, an optical system arranged in the
> path of said light beam and adapted to break the latter up
> and project its spectrum on said surface, an
> aperture-provided screen associated with said optiCal
> system, and a holder for the introduction of one or more
> slides into the path of the ~ light beam, whereby the
> latter, after passage through said slide or slides and
> said optical system, will be projected on to said surface.  
>   
> The light source may be an electric lamp bulb or other
> suitable element and is preferably arranged within a
> closed housing which prohibits the issuance of light
> except through a quartz rod which serves to direct a
> pencil of light, provided with an ultra violet component,
> in the required direction towards the optical system.  
>   
> The optical system will be appropriately constructed so
> that the light beam, after dispersion by the system, will
> register with the desired range of the projection surface.
> To this end the system will comprise a plurality of
> crystal prisms. The housing and/or the quartz rod thereof
> may be mounted for adjustment to vary the distance between
> the housing and the optical system.  
>   
> The aperture in the screen between the light source and
> prism is preferably in the form of a slot of adjustable
> width for the passage of the light rays.  
>   
> The holder can also be adjustable to compensate for
> adjustment of the light source and permit correct focusing
> of the light beam on the projection surface.  
>   
> Parts of one form of apparatus according to the present
> invention are diagammatically illustrated in side view in
> the single figure of the accompanying drawing.  
>   
> In this drawing, 1 denotes a plate of frosted glass
> representing the projection surface. This plate 1 is
> horizontally disposed in a casing which, for convenience,
> has not been illustrated, and the plate is provided on its
> upper surface with graduated, etched markings
> corresponding to those on the Turenne Rule. These markings
> are actually furnished on the horizontal upper surface of
> the plate 1.  
>   
> The light source consists of an electric lamb bulb 2
> mounted in a socket 3 which is connected to a source of
> current in conventional fashion. The lamp 2 is arranged in
> a housing 4 of rectangular prismatic form the walls of
> which are closed and coated with darkening material so as
> to prohibit the emergence of light, except through a
> quartz rod 5 which passes through the front wall of tile
> housing. The rod 5 is so directed that the light pencil
> which issues from this rod has its axis directed obliquely
> to the plane of the plate 1. Mounted next to the housing 4
> is a holder 8 having a peripheral channel 9 for receiving
> and locating a pair of quartz glass plates or slides 10
> between which the sample to be tested is smeared.  
>   
> After passage through the plates 10, the light pencil
> reaches an optical system 11 which serves to disperse the
> beam and cast it on to the under surface of the plate 1.  
>   
> The system 11 is provided with a support 12 which also
> carries a pair of shutters or slides 7 which are mounted
> on the support 12 for movement towards or away from each
> other to vary the width of a slot 6 between them. This
> permits adjustment of the width of the light beam reaching
> the optical system 11.  
>   
> The optical system 11 is diagrammatically shown as
> comprising three quartz prisms 13, 14 and 15, these being
> so selected and arranged that the light beam, after
> refraction and dispersion by the passage therethrough,
> will be projected on to the plate 1 over the appropriate
> range. In the visible spectrum, this will extend from the
> marking 13, representing red, to the markings 78 to 80.
> representing the violet component.  
>   
> To assist in the initial " focusing," provision is made
> for adjustment of the respective distances apart of the
> optical system 11, the holder 8, and the housing 4 and its
> quartz rod 5. To these several ends, set screws 16 passing
> through slots 17 in flanges 18 and 19, on the holder 8 and
> the housing 4 respectively, permit adjustment of these
> components of the apparatus in the direction of the light
> beam.  
>   
> With these aids, the components can be adjusted until the
> correct " focus " on the projection surface is obtained,
> with the visible spectrum extending between the Turenne
> markings 5 to 80.  
>   
> As indicated by the drawing, the whole apparatus is
> preferably so arranged that the projection plate 1 is
> horizontally-disposed, the operator then observing this
> plate from above, i.e. from the opposite side from the
> light-source and prism. It will be apparent, however, that
> other arrangements are possible within the scope of this
> invention, and that the light source and prism could be
> located abore the plate, or the plate could be disposed
> with its projection surface in a vertical plane.  
>   
> In using the apparatus described, a sample of the
> patient's blood or other matter, e.g. urine, is placed
> between the two slides 10 and these are then inserted in
> tile holder S so as to be at right angles to the light
> beam from the source. This produces a characteristic
> change in the spectrum indicated on the projection plate 1
> and provides useful medical evidence.  
>   
> The apparatus which I have devised can be used on its own
> for observation or testing purposes, or can be combined
> will other apparatus at present in use in Radiesthesia :
> for instance it may be incorporated with electronic
> apparatus used in Radiesthesia, for example the so-called
> Drown apparatus (see British Patent No. 515,S66). Again
> the apparatus can be used in conjunction with the pendulum
> testing method.
>
>   
>
>
> ---
>
>   
>
> **Tensor to be used in radionics, made
> of fiber glass or carbon fibers with wooden handle**  
> **DE202005000519**
>
>   
>
> The new design of a tensor is a dowsing
> rod for single-handed use, assembled of a wooden handle
> (1), a fiber glass stick (2), a wooden cone (3), and a
> cover of polycarbonate (4). The traditional version is
> made of copper, brass, stainless steel, or wood causing a
> deviation of the acquired data because of the specific
> qualities of the material. The author Paul Schmidt relates
> the expansive forces of the vital energy of an individual
> to the negative influences of metal, which shall be
> excluded by the use of fiber glass or carbon fibers for
> the production of the new design of a tensor.  
>   
> [0001] The invention relates to a tensor is constructed
> such that metallic valuable materials are not necessary.  
>   
> [0002] The tensor or the single-handed rod is a commonly
> known in radionics device, be carried out with the
> measurements.  
>   
> [0003] For this device different metallic and non-metallic
> materials are used, such as copper alloys, brass,
> stainless steel, plastics and wood. The DE 201 05 120 U1
> discloses such a construction.  
>   
> [0004] As a result, that is just not always achieved or
> distorted by metallic materials the intended purpose,
> which can lead to an optimal testing does not occur or
> will be missed.  
>   
> [0005] As a system image 1 - 2 - 3 from the book by Paul
> Schmidt - Symphony of life forces the negative influences
> of metal are shown.
>
>   
>
> ![](de202005000519a.jpg)    
> ![](de202005000519b.jpg)
>
>   
>
> **[0006] Figure 1 - shows no metal
> influences a life force of about 1.5 m**  
>   
> **[0007] Figure 2 - shows with a metal chain -
> Item 1 - a life force of approximately 0.75 m**  
>   
> **[0008] Figure 3 - shows with metal chain -
> Item 1 - and metal bracelet - Pos 2, only 0.50 m**  
>   
>  **[0011] Figure 4 shows a metal-free tensor.**  
>   
> **The object of the invention**  
>   
> [0009] The object of the invention is to propose a device
> which is adapted to reduce the interference by metals in
> the testing.  
> These tasks [0010] achieved by the use of non-metallic
> materials such as carbon and glass fiber rods.  
>   
> **List of Reference Numerals**  
>   
> 1 Wood Handle  
> 2 fiberglass rod  
> 3 wooden cone (oscillating body)  
> 4 Cases of polycarbonate
>
>   
>
>
> ---
>
>   
>
> **Material for protection against
> radiation, detected by practitioners of elementals
> dowsing and radionics and radiesthetics**  
> **DE202004003563**
>
>   
>
> Material for shrouding against radiation
> is a sheet or film or board, with two or more layers,
> where each layer is composed of natural or synthetic
> rubber or their mixtures. The layers are stretched before
> bonding together in one or more direction by 5-40% of
> their length for a period of 0.1-2.5 hours. The natural
> rubber in each separate layer is a cis 1,4 unsaturated
> polymer or trans 1,4 gutta-percha. Material for shrouding
> against radiation is a sheet or film or board, with two or
> more layers, where each layer is composed of natural or
> synthetic rubber or their mixtures. The layers are
> stretched before bonding together in one or more direction
> by 5-40% of their length for a period of 0.1-2.5 hours.
> The natural rubber in each separate layer is an
> unsaturated polymer with fundamental units with rubber in
> the cis-1.4 configuration or gutta-percha in the trans-1.4
> configuration.  
>       
> **DESCRIPTION**  
>   
> [0001] The present invention relates to a device for
> shielding from radiation, especially of interference with
> the features stated in the preamble of the protective
> claim 1.  
>   
> [0002] Under the technical term "interference" refers
> mainly physically not properly measurable, possibly
> biological effects causing radiation, such as the
> emanations of geodetic areas of irritation, power lines,
> water lines, metal deposits, oil deposits, electronic or
> electrical devices, equipment and machinery as well as all
> other detectable radiation of diviners.  
>   
> [0003] These detectable by diviners and dowsers radiation
> can possibly exert adverse effects on human or animal
> organisms or organisms.  
>   
> [0004] From the Austrian Patent **AT 397 346 B** is an
> arrangement for protection against terrestrial radiation
> and to shield earth radiation emerges.  
>   
> [0005] This known arrangement for screening earth
> radiation comprises a coil having one end connected to an
> outlet of the ground line is connected, while the other
> end is connected through an intermediate metal foil, for
> example, on the wall or the floor to the ground potential.  
>   
> [0006] This known device for screening of terrestrial
> radiation is therefore particularly disadvantageous
> because they contact the ground wire to an electrical
> outlet requires a life-threatening manipulating a socket
> and their use is therefore dangerous, inconvenient and
> associated with a considerable design effort and
> craftsmanship.  
>   
> [0007] The Austrian Patent **AT 409 930 B** discloses
> a system for manipulation of the metal films, the
> influence of this arrangement with metal foils are used to
> shield from EMI.  
>   
> [0008] This from the Austrian Patent AT 409 930 B known
> arrangement also includes a coil, one end of which is
> connected to the ground wire in a socket connection and is
> spaced only slightly from the neutral conductor and phase
> of this outlet.  
>   
> [0009] The other end of the coil is connected there to a
> metal foil which is the other side to a container of
> "right-handed" water connection.  
>   
> [0010] [By "right-handed water" is there understood the
> technical term used by rod-goers and sensitive people.
> "Right Turn water" occurs in nature and can be identified
> by diviners and dowsers.  
>   
> [0011] The coil and the dextrorotatory water appear there
> at least three hours to the intermediate metal foil and
> metal foil are like this, the suppressive or the
> interference-suppressing properties lend.  
>   
> [0012] This from the Austrian Patent AT 409 930 B known
> device is also already so extremely disadvantageous
> because it making contact with the ground wire an
> electrical outlet requires a life-threatening manipulating
> an AC outlet and their use is therefore dangerous,
> complicated and with a considerable design and
> craftsmanship effort.  
>   
> [0013] The object of the present invention is therefore to
> provide a device for shielding from radiation, especially
> by diviners and dowsers detectable interference, which
> does not require a lethal tampering with an electrical
> outlet whose use is fast, simple and completely harmless
> and also people without knowledge in the field of
> Electrical and without distinctive craftsmanship is open
> and which is not associated with a distinct design effort
> and also has radiesthetically detectable, excellent
> anti-jamming or interference-suppressing properties, thus
> reducing the effects of interference on humans and / or
> animals be minimized or turned off, and where such
> protection is particularly intense and very long lasting.  
>   
> [0014] According to the invention this object is achieved
> by a generic device by the features specified in the
> characterizing part of the protective claim 1.  
>   
> [0015] Particularly preferred embodiments are the subject
> matter of the dependent claims.  
>   
> [0016] As a rule, the inventive device for shielding
> radiation from a two-or multi-layer sheet, foil, film or
> plate-like structure.  
>   
> [0017] Each individual layer can be, for example,
> synthetic rubber or natural rubber or latex or rubber, or
> mixtures thereof.  
>   
> [0018] Preferably, for each individual layer is a layer
> stretching.  
>   
> [0019] The stretch film may for example be stretched
> before its connection with its vertically adjacent single
> layer in one or more directions in the range of 5 to 40%
> of its length uniaxially, biaxially or multi-axially,
> preferably in the range of 7% to 30% of their length, in
> particular in the range of 8% to 25% of its length.  
>   
> [0020] In general, the apparatus of the invention for
> shielding is formed such that the individual layers for a
> period ranging from 0.1 hours to 2.5 hours, preferably in
> the range of 0.2 hours to 2.0 hours, in particular in
> range of from 0.3 hours to 1.5 hours have undergone
> stretching.  
>   
> [0021] The adjacent individual layers may have a right
> angle or an acute angle or an obtuse angle aligned
> stretching directions. Preferably, the stretching
> directions of vertically adjacent individual layers are
> aligned with each other at right angles.  
>   
> [0022] Alternatively, it may be comprising the inventive
> device for shielding radiation by a stretching apparatus
> in which two or more individual layers which after the
> combination of their individual layers together in one or
> more directions of stretching in the range from 5 to 40%
> of its length monoaxially, biaxially or multiaxially
> undergoes stretching, preferably in the range of 7% to 30%
> of their length, in particular in the range from 8% to 25%
> of its length.  
>   
> [0023] As a rule, the individual plies of a plurality of,
> multi-layer device according to the invention for
> screening then the stretching, for example for a period in
> the range of 0.1 hours to 2.5 hours, preferably in the
> range of 0.2 hours to 2.0 hours, in particular in the
> range of 0.3 hours to 1.5 hours exposure.  
>   
> [0024] Also in this case, the stretching directions may be
> perpendicular or at an acute angle or an obtuse angle to
> each other. Preferably, the two or more directions of
> stretching are then aligned substantially perpendicular to
> each other.  
>   
> [0025] A particular advantage of the inventive device for
> shielding radiation lies in its thinness and the related
> outstanding handling.  
>   
> [0026] For example, each individual layer has a thickness
> ranging from 0.1 mm to 2.0 mm, preferably in the range of
> 0.2 mm to 1.5 mm, in particular from 0.25 mm to 1.0 mm
> having.  
>   
> [0027] The total thickness of the inventive multi-layer
> device for shielding of radiation, for example in the
> range from 0.3 mm to 5 mm, preferably in the range of 0.4
> mm to 4 mm, in particular from 0.5 mm to 3 mm lie.  
>   
> [0028] The length and the width of the inventive
> multi-layer device for shielding of radiation, for example
> in the range from 0.5 cm to 3.5 m, preferably in the range
> of 1.0 cm to 3.0 m, in particular from 1.5 cm to 2.5 m
> lie.  
>   
> [0029] The length and the width of the multilayer device
> according to the invention may be the same or different.  
>   
> [0030] In particularly preferred embodiments of the
> inventive device for shielding radiation, the nature of
> each individual layer, for example, rubber, an unsaturated
> polymer (polyisoprene) with  
>   
> [0031] as the repeating units be that (rubber) or is
> present in the cis-1 ,4-configuration, in the trans-1
> ,4-configuration (gutta percha).  
>   
> [0032] The synthetic rubber which may be included in the
> inventive device for shielding radiation can for example
> be selected from the group of acrylate rubber,
> polyester-urethane rubber, brominated butyl rubber,
> polybutadiene, chlorinated butyl rubber, chlorinated
> polyethylene, epichlorohydrin (homopolymer)
> polychloroprene, sulfurized polyethylene, ethylene
> acrylate rubber, epichlorohydrin (copolymers), sulfur
> cross-linked ethylene-propylene terpolymers, peroxide
> crosslinked ethylene-propylene copolymers,
> polyether-urethane rubber, ethylene-vinyl acetate
> copolymer, fluoro rubber, fluoro silicone rubber
> hydrogenated nitrile rubber, vinyl-containing butyl
> rubber, dimethylpolysiloxane, nitrile rubber having a low
> ACN content, medium ACN content or high ACN content,
> natural rubber (synthetic polyisoprene), thioplasts,
> Polyfluorphosphazene, polynorbornene, styrene-butadiene
> rubber, or carboxyl group-containing natural rubber or
> mixtures thereof, comprising.  
>   
> [0033] A particular advantage of the inventive multi-layer
> device for shielding radiation is the fact that their
> molecules or molecules of each individual stretch film may
> be longitudinally oriented by drawing in the direction of
> stretching, so that each single layer of the inventive
> multi-layer device or the multi-layer with respect to the
> apparatus itself optionally may come to be reduced or the
> function of a filtering and / or absorbing device for
> eliminating polarization interference.  
>   
> [0034] In preferred embodiments of the inventive device
> for shielding radiation, one or more individual layers
> which comprise one or more pigments, organic or inorganic
> dyes, lithopone, titanium dioxide, iron oxides, chromium
> compounds or its compounds or mixtures thereof.  
>   
> [0035] The two or more individual layers of the inventive
> multilayer device for shielding radiation can be
> irreversibly connected to one another through a
> vulcanization process.  
>   
> [0036] Alternatively, the two or more individual layers
> can be reversibly releasably connected with each other.  
>   
> [0037] For this purpose, two or more individual layers can
> be brought reversibly example by Velcro fasteners,
> magnets, buttons, or a zip fastener with each other.  
>   
> [0038] In the inventive multilayer device to be reduced,
> to filter or even completely shielded against radiation,
> it is preferably detectable by diviners and / or dowsers
> interference which or from water veins, power lines,
> electrical or electronic devices, equipment and machinery
> geodesic emanating from areas of irritation.  
>   
> [0039] In particularly preferred embodiments, the
> inventive device for complete or partial shielding
> particular interference one or more port facilities or
> port areas for one or more electrically conductive,
> temporarily or permanently attachable, can be clamped,
> anchored, or other connections to one or more metal
> plates, metal vessels or containers.  
>   
> [0040] Preferably, in these metal plates or metal
> containers or containers in these one or more identical or
> different gems or minerals be provided.  
>   
> [0041] These gems or minerals can for example be selected
> from the group consisting of agate, adularia, African
> jade, actinolite, alexandrite, almandine, Amazonite,
> Amethyst, Ametrine, Amorspfeil, amphibole, andalusite,
> Andenopal, andradite, anhydrite, stibnite, Apache Tears ,
> Apatite, Apophyllite, apricot agate, aquamarine,
> aragonite, Astrophyllite, eye agate, augite, Australian
> rhyolite, Australit, Aventurine, Azurite, azure-malachite,
> carnelian, barite, Bediasit, rock crystal, amber, beryl,
> Billitonit, biotite, Bixbite, Blue John , Bloodstone,
> Bohemian garnet, bornite, Botswana Agate, Boulder Opal,
> brazilianite, Bronzite, Bytownite, calcite, Cavansite
> Chalcedony Chalcedonrose, chiastolite, Chloropal, chrome
> diopside, chrysoberyl, chrysocolla, peridot, Chrysopal,
> chrysoprase, citrine, celestite, cordierite, covellite,
> kyanite, Cymophan, demantoid, Dendritenachat,
> Dendritenchalcedon, Dendritopal, Diamond, Diopside,
> Dioptase, kyanite, dolomite, dravite, Dumortierite, opal,
> iron pebbles, iron meteorite, iron, quartz, elbaite,
> enstatite, epidote, eudialyte, Euclase, Hawkeye,
> Television stone, fire agate, fire opal, flint,
> Fleischopal, flint, fluorite, fossilized tree resin, peace
> agate, Fuchsite, jet, galena, Girasol, gold, garnet,
> grossular, hematite, halite, Heliodorus, heliotrope,
> Herkimer Quartz, Herman Over balls, Hessonite, Hiddenite,
> Holzopal, Hornstein, howlite, Hyalite, Hyacinth, Imperial,
> Indicolite, Indochinit, Iolite, Irgisit, Icelandic lime,
> Ivorit, jadeite, jargon, Jasper, Javait, carnelian,
> Kascholong, cassiterite, silica wood, coral, Kunzite,
> copper, Kupferchalcedon , azurite, labradorite, Lace
> Agate, Picture Jasper, Lapis Lazuli, Larimar Lazurite,
> Lazulite, Living Stones, Leopardenjaspis, lepidolite,
> Libyan glass, Liddicoatite, limonite, magnesite,
> magnetite, mahogany obsidian, malachite, Manganocalcit,
> marcasite, Maramures Diamond , Matura diamond, Melanite,
> meteorites, microcline, milk opal, milky quartz,
> moldavite, moonstone, Mookaite, moss agate, Moosopal,
> Moqui Marbles Morganite, Morion, muscovite, jade,
> obsidian, oligoclase, olivine, onyx, opal, orthoclase,
> Padparadscha, Pectolite, peridot, pearls, Petalite,
> phantom quartz, Philip Init, Pietersite, plagioclase,
> plasma, platinum, pleonaste, Popjaspis, porcellanite,
> prase, Prasopal, Purpurite, Pyknit, pyrite, pyromorphite,
> pyrope, quartz, quartz cat's eye, quartz substances, smoky
> quartz, active arc obsidian, rhodochrosite, Rhodolite,
> Rhodonite, Rhyolite, Rizalit, Rose Quartz, Rubellite,
> Ruby, Rutile, Rutile Quartz, Sagenit, sapphire, carnelian,
> onyx, snowflake obsidian, black tourmaline, black opal,
> sulfur, selenite, septaria, serpentine, siderite , silver,
> skeletal quartz, emerald, Smithsonite, Sodalite, Sunstone,
> Spectrolite, spessartine, sphalerite, Shen, spinel,
> spodumene, Starlit, staurolite, rock salt, star agate,
> star sapphire, bulls eye, Sugilite, Tanzanite, Tektite,
> Thulite, Tiger Eye, Tiger Iron, titanite , Topaz, Topaz
> Imperial, debris Agate, Tsavorite, charoite, Turquoise,
> Turitella Agate, Tourmaline, Tourmaline, ulexite, unakite,
> Uvite, Uvarovite, Vanadinite, variscite, Venus Hair,
> verdelite, Petrified wood, vivianite, volcanic glass,
> Wachsopal, Watermelon tourmaline, Wavellite, wolframite,
> cloud agate, Worobjewit, Wulfenite, zircon and zoisite or
> mixtures thereof comprises.  
>   
> [0042] The direct or indirect connection between the novel
> multi-layer device for shielding radiation on the one hand
> and one or more gemstones or minerals on the other hand
> can cause to the so-called chakra teachers and according
> to gemstone therapy, the energy of gems or minerals the
> inventive multilayer device for shielding passes and the
> inventive multilayer device is therefore also applicable
> to the gemstone therapy or after the chakra teachers.  
>   
> [0043] In particularly preferred embodiments of the
> inventive multi-layer device for shielding particular
> interference can or metal containers, metal plates or
> containers for gemstones and minerals with the multilayer
> device for shielding or with the individual layers prior
> to bonding to one another over a period, for example, in
> range of from 0.1 hours to 5.0 hours, preferably in the
> range of 0.2 hours to 4.0 hours, in particular in the
> range of 0.3 hours to 3.0 hours, and temporarily
> reversibly directly or indirectly connected to one another
> be brought.  
>   
> [0044] The inventive multi-layer device for shielding in
> particular interference, for example in the form of a bed
> pad, a covering for a housing of an electronic or
> electrical device, an anti-slip mat of sound insulation, a
> wallpaper, a sheet or in the form of a small fibers (lint)
> receiving device shaft be designed for apparel or pet
> care.  
>   
> [0045] If, for example, for laying or for assembly
> purposes is required, the inventive multi-layer device for
> partial or complete shielding particular interference for
> reinforcing carbon fibers, plastic fibers, natural fibers
> or glass fibers in a separate backing layer or in
> individual layers, or between the individual layers may
> comprise.  
>   
> [0046] In summary, it should be noted that due to the
> inventive device in particular for EMI shielding of a
> hitherto absolutely required, lethal manipulation of a
> socket is no longer required for the first time.  
>   
> [0047] The use of the inventive device, for example, by
> putting under the protected object or wrapping the
> interference-emitting object is very fast and simple and
> also completely harmless.  
> Even people without knowledge in the field of Electrical
> and without strong technical skills can bring to use the
> apparatus of the invention.  
>   
> [0048] A further significant advantage of the inventive
> device is that it requires no design effort.  
>   
> [0049] It is particularly advantageous in the case of the
> present invention means that it has excellent,
> radiesthetically detectable anti-jamming or
> interference-suppressing properties.
>
>   
>
>
> ---
>
>   
>
> **Fluid transformation using a tachyon
> beam**  
> **GB2499254**
>
>   
>
> Apparatus 1 for the transformation of
> fluids, particularly water, comprises a generally ovoid
> container made primarily of copper. Preferably, the
> internal fluid-contacting surface of the container has a
> silver coating. The container may be substantially free of
> ferrous metal and can comprise two half shells 2, 3. A
> method of positioning the apparatus comprises the steps of
> divining, preferably by dowsing, the location and
> orientation of a tachyon beam 8 striking the earth and
> subsequently positioning the apparatus within the tachyon
> bean. The major axis 11 of the apparatus can be oriented
> at an angle of between 15 and 20A DEG to the angle of the
> tachyon beam, whilst the centre of gravity of the
> apparatus may be located at a height of between 50 and 75
> cm from the surface 10 of the earth. A method of treating
> water by placing the water in such a positioned apparatus
> is claimed, wherein the apparatus is left in position for
> at least a day. The use of such treated water in medicine,
> particularly for relief of the symptoms of diarrhoea,
> malaria or HIV infection is also claimed.
>
>   
>
> ![](gb2499254a.jpg)  ![](gb2499254b.jpg)![](gb2499254c.jpg)
>
>   
>
> **Field of the Invention**  
>   
> The invention relates to methods and apparatus for the
> transformation of fluids, especially water. Fluids so
> transformed may be used as part of a treatment or
> prophylaxis regime for a range of disorders.  
>   
> **Background**  
>   
> The treatment of disease and other malaise in humans, and
> in animals, is complex, and therc are many thcrapeutic
> regimens that prove effective although their mode of
> action is unknown. In some cases, such as homeopathy, the
> results obtained appear to be at odds with established
> scientific principles. It is undoubted that many patients
> value the effect that homeopathic treatments have on their
> conditions, and it is demonstrable that homeopathy is
> practiced by many scientifically-qualified medical
> practitioners as an adjunct to their more conventional (in
> the context of developed Western Medicine) treatments. The
> prevailing view amongst the established scientific
> community is that any benefits of such treatment must be
> the result of a placebo effect. Other commentators posit
> alternative explanations, e.g. based upon hitherto unknown
> properties of water.  
>   
> Whatever the truth about these treatments may turn out to
> be, such interventions are widely practiced, not only by
> independent practitioners, but also by national heath
> services in many countries, including the National Health
> Service in the United Kingdom.  
>   
> A body of expertise has been developed over the years, and
> methodologies for the practice of the therapy and the
> production of the therapeutic materials used are well
> developed, documented and repeatable.  
>   
> Within the context of conventional Western medicine also,
> there are drugs in common usage whose mechanism of action
> is unknown, and many whose efficacy is still a matter of
> debate, but which nonetheless find widespread usage.  
>   
> There are also many methodologies (both in the healthcare
> context and elsewhett) undertaken by practitioners who
> seem to posscss a desirable capability, but which othcr
> people find hard, if not impossible, to master. Such
> people may be described as gifted, talented, or merely
> skilled; but whatever the words chosen they, and others
> like them, Is appear to be able to perform tasks that
> others cannot.  
>   
> The inventor has a desire to both protect and share the
> present invention with the world.  
>   
> Methodologies for transforming water will be described in
> a way which will enable reproduction by others skilled in
> the relevant art. Apparatus used in the method will also
> be described that can be readily reproduced. Water
> transfbmied by the methods and apparatus described herein
> may be used in a trealment or prophylactic regimen, and
> results from confidential trials will be presented to
> demonstrate its effect.  
>   
> **Summary of thc Invention**  
>   
> Accordingly, the invention provides, in a first aspect,
> apparatus for transforming fluids, particularly water,
> comprising a generally ovoid container and being made
> primarily of copper. Preferably, said copper is between 1
> and 3 mm thick most preferably approximately 2mm thick.  
>   
> More preferably, the internal fluid-contacting surface of
> said container is coated with silver, and more preferably
> still, said container is substantially free of ferrous
> metal.  
>   
> In any apparatus of the first aspect it is preferred that
> said container has a volume of between I and S litres, and
> preferably approximately 2.25 litres.  
>   
> In any apparatus of the first aspect it is preferred that
> said container comprises two half shells. This facilitates
> manufacture, and provides access to the interior of the
> container for cleaning.  
>   
> It is further preferred that said apparatus further
> comprises valve means providing controllable fluid
> communication between the interior and exterior of the
> container. In prefeffed embodiments, an inlet and an
> outlet valve is provided, each located on respective
> halves of a two part container.  
>   
> In a second aspect, the invention provides a method of
> positioning apparatus according to the first aspect
> comprising the steps of: divining the location and
> orientation of a tachyon beam striking the Earth; and
> positioning said apparatus within said taehyon beam. Said
> divination is preferably carried out by dowsing, and more
> preferably by use of a dowsing pendulum.  
>   
> Preferably said method further comprises the step of
> orienting the major axis of said apparatus at an angle of
> between 15 and 200 to the angle of the taehyon beam, and
> more preferably at about 170 to the beam.  
>   
> More preferably the method of the second aspect further
> comprises the step of locating the centre of gravity of
> said apparatus at a height of between 50 and 75cm from the
> surface of the Earth. Most preferably said apparatus is
> positioned at a height of approximately 63 cm from the
> surface of the Earth.  
>   
> In a third aspect, the invention provides a method of
> treating water comprising the steps of instilling said
> water into apparatus according to any apparatus of the
> first aspect; positioning said apparatus according to a
> method of the second aspect; and leaving said apparatus in
> substantially the same position for a period of at least 1
> day.  
>   
> Preferably said apparatus is left in position for between
> 2 and 3 days.  
>   
> Also included within the scope of the invention is
> apparatus for transforming fluids substantially as
> described herein with reference to and as illustrated by
> any appropriate combination of the accompanying drawings.  
>   
> Also included within the scope of the invention is a
> method of positioning apparatus for transforming fluids,
> said method being substantially as described herein with
> reference to and as illustrated by any appropriate
> combination of the accompanying drawings.  
>   
> Also included within the scope of the invention is a
> method of treating water substantially as described herein
> with reference to and as illustrated by any appropriate
> combination of the accompanying drawings.  
>   
> In a fourth aspect, the invention provides the use of
> water transformed by a method according to the second
> aspect of the invention, in medicine.  
>   
> More preferably, said use comprises use for the reliefof
> symptoms of diarrhoea, malaria or HP! infection.  
>   
> In any use herein, it is preferred that said treated water
> is used within three days of transformation, and
> immediately the dose is removed from the apparatus.  
>   
> **Brief Description of the Drawings**  
>   
> The invention will be described with reference to the
> accompanying drawings, in which: Figures 1 and 2
> illustrate, in schematic cross-sectional form, apparatus
> of the present invention; Figure 3 illustrates the
> positioning of apparatus of the present invention within a
> tachyon beam; and Figures 4-6 show the effect of water
> treated according to the present invention on volunteers
> having FIIV infection.  
>   
> **Description of Prcfcrred Embodimcnts**  
>   
> The invention has its origin in a discovery by the
> inventor that there are regions in the world where an
> unexpected dowsing response maybe obtained, having the
> form of an elliptical shape on the ground. Dowsing is a
> skill that has been practiced over many years, and has
> found application in many fields including, and perhaps
> most common in the public perception, the discovery of
> water sources. However, dowsing (a form of divination)
> may, by concentration of the dowser, be used to answer
> other questions as well as thosc relating to the prescncc
> or absence of water.  
>   
> Practitioners of the art will have their own techniques
> and apparatus, often in the form of a pcndulum whosc
> swinging motion providcs the rcsponsc to the concentration
> poscd by the dowsing practitioner. For example, a
> clockwise rotation of a pendulim might (for a particular
> practitioner) indicate a positive response (e.g. "yes" to
> concentrated thought), an anticlockwisc motion indicating
> a negative response, and no rotation might indicate that
> there is no response, or the practitioner is not entitled
> to know the thought. Whatever the particular form of
> response, people skilled in the art of dowsing will know
> the response that is appropriate in their own practice,
> and will be able to find these dowsing response fields,
> Indeed, confidential trials carried out by the inventor
> with two other skillod dowsers confirmed that thcy were
> also ablc to detect the dowsing responsc field dcscribcd
> hcrcin.  
>   
> The inventor believes that the response field is the
> result of a tachyon beam normally striking the Earth.
> Tachyons are believed to be subatomic particles that
> travel faster than light, a property that, of course,
> seems to challenge cunently established views of the
> physical world. However, recent experimental evidence from
> CERN (Organisaiion Europeenne pour ia Recherche Nucleaire)
> appears to be consistent with neutrinos travelling faster
> than light, and this is receiving serious scientific
> scrutiny around the world. Whatever the outcome of those
> studies, and whatever the nature of the phenomenon causing
> the dowsing response field, it remains that it may be
> detected by a person ski lied in the art of dowsing. For
> the purpose of this application, we shall refer to the
> phenomenon as being caused by a contribution from a
> tachyon beam interacting with an earth force or forces.
> Should this turn out not to be the causal agent, the
> invention may still be worked as described.  
>   
> The tachyon beam strikes the surface of the Earth at an
> angle of approximately 51[deg.] to the horizontal. The
> beam itself typically has a circumference of between 8.5
> and 9 inches (ca. 21.6 to 22.9 cm), and results in an
> elliptical dowsing response field approximately S feet
> (ca. 2.4m) across at ground level. In the parlance of
> dowsing, as would be understood by a person skilled in the
> art, the tachyon beam has a positive dowsing response. The
> beam and the ovoid dowsing response field may be detected
> by divination with e.g. a pendulum or rods. A dowser may
> find the response field (and the orientation of the
> tachyon beam) by asking questions about the location of
> the beam perimeter and orientation, and seeking a response
> using their preferred dowsing apparatus.  
>   
> There is an additional elliptical dowsing response field
> is also associated with a generally vertical beam
> emanating from the Earth. These Earthly beams have a
> negative character.  
>   
> In some cases, the response field comprises four such
> Earthly beams, one from each of the cardinal points. In
> this case, it is common that the North (and West beams)
> have a positive character, the South (and East beams)
> being negative.  
>   
> In further instances, the dowsing response field appears
> to be associated with two cosmic rays, one having a
> positive character, the other negative. The inventor has
> determined that the energy of the rays has an equivalence
> of approximately 153 Gd\'. This figure is within the range
> postulated for the mass equivalence of the Higgs Boson
> (having a mass equivalence range of between 115 and 185
> GeV/c2), whose existence and characteristics are yet to be
> confirmed by conventional physics. This correlation might
> be coincidental, but it is nonetheless interesting, and
> might shed some light on the mechanism of action of the
> methods described herein.  
>   
> The inventor has found that water, placed within a
> receptacle located within the tachyon beam, and orientated
> in a particular way, is transformed over time, typically
> over a period of one to three days. The transformation of
> the water may be detected by a change in the dowsing
> response to the water. The inventor has found that the
> optimum position for the receptacle is approximately 25
> inches (ca. 63.5 cm) from the ground surface. The optimum
> orientation of the receptacle containing the water is to
> orient the major axis of the container at an angle of
> 19[deg.] to the tachyon beam, away from the horizontal,
> thereby assuming an orientation of approximately 700 from
> the horizontal. It might be coincidental, but 19[deg.] is
> approximately the value of Kelvin's Wedge, a well known
> phenomenon in fluid dynamics. Whether there is a
> mechanistic effect underlying this association is not
> relevant to the ability to position the container in the
> correct way.  
>   
> Containers particularly suitable for the transformation
> process arc described herein.  
>   
> Figure 1 illustrates, in schematic cross-section,
> apparatus particularly suitable for containing fluid (such
> as water) for treatment in a tachyon beam. The apparatus,
> generally indicated by 1, comprises an ovoid receptacle of
> approximately 2.25 litres capacity, and formed
> predominantly of copper, although other volume capacities
> are envisaged. For convenience in manufacturing, the
> container comprises an upper shell 2 and a lower shell 3,
> each having a flange portion 4 miming around the perimeter
> of the open end of the shells 2, 3. The shells may be
> formed by a copper spinning process and clamped together
> using the flanges 4 to form a watertight seal. The walls
> of each shell are approximately 2 mm thick.  
>   
> In particularly preferred embodiments of the container,
> the inner surface 5 of the shells is coated with a layer
> of silver (not illustrated), for example by
> electroplating.  
>   
> The container also comprises an inlet valve 6 to allow
> water to be introduced to the interior of the container,
> and an outlet valve 7 to allow treated water to be
> conveniently removed. The inlet valve 6 is located to one
> side, and near the top of the upper shell 2.  
>   
> The outlet valve 7 is located centrally at the bottom of
> the lower shell 3.  
>   
> Figure 2 illustrates, again in schematic cross-sectional
> form, the ovoid container of Figure 1 orientated at an
> angle 0 to the vertical. Like components are numbered
> accordingly. The angle 0 is measured between the major
> axis of the ellipse and a vertical datum.  
>   
> Figure 3 illustrates, again in schematic cross-sectional
> form, apparatus of the present invention located within a
> tachyon beam. Like elements of the apparatus arc
> correspondingly numbered. In the diagram, the tachyon beam
> 8 is illustrated schematically by the two dashed lines 9A
> and 9B. The tachyon beam is shown to be orientated at an
> angle of DT to the horizontal ground level 10. The major
> axis 11 of the container is oriented at an angle e to the
> tachyon beam. The inventor has found that the tachyon
> beams generally subtend an angle of 510 to the horizontal
> (i.e. j = 510) optimum value for t, is approximately
> 19[deg.], making the angle between the major axis 11 of
> the container and the horizontal 7O0 The centre of gravity
> ofthe container is positioned at a height h above ground
> level 10.  
>   
> An optimum height is approximately 25 inches (cci. 63.5
> cm).  
>   
> In order to treat water using the method of the invention,
> an elliptical dowsing response field is first detected by
> divination. To avoid erroneous effects, the location
> should be free of electrical interference such as
> oversailing power lines, metal fences, vibrating machinery
> and the like. The correct location is preferably
> determined using sense searching", aided by spinning
> hand-held pendulums, and the concentration of thc dowsing
> practitioner. As an aid to the dowsing practitioner, the
> pertinent locations are where one (or more) cosmic rays
> and Earth Rays coincide to produce a vortex to which they
> all contribute. The term "vortex" is not necessarily to be
> construed in the technical sense of spirally spinning
> fluid, but is more a wave property of the Cosmic and
> Earthly wave combination.  
>   
> Once the tachyon beam is detected from the elliptical
> dowsing response field, the container is charged with
> water, and suspended within the tachyon beam at the
> required angle. Normal tap water may be used, and this is
> nominally positively charged, as determined by its dowsing
> response. When positioning the container, ferrous metals
> such as iron should be avoided as e.g. support materials.
> For example, no iron nails or fittings should be used.  
>   
> The "concentration point" of the intersecting beams is
> "captured" within the copper egg-shaped vessel. The shape
> of the container (egg-shaped) confines the parameters of
> the trees and ensures that they are captured to mature.
> The maturing process (i.e. the transformation process)
> takes approximately two and a half days. When matured, the
> water is nominally negatively charged.  
>   
> Use of the Transformed (Mature' Water Initially, the
> inventor was asked to supply water treated by the method
> and apparatus disclosed herein, referred to hereafter as
> "mature water", to see whether ft might have any Is effect
> on children suffering front diarrhoea, and!br whom no
> other treatment was available. Believing that, at wont,
> the mature water would do no harm to the children, the
> inventor agreed. One teaspoon (cxi. 5m1) of the mature
> water was given to each of 160 children on a daily basis
> in an orphanage in Zambia for whom diarrhoea was endemic.  
>   
> The dosage had good results with a reduction of around 80%
> in the number of children afflicted, and over the
> subsequent two years there was little occurrence of
> diarrhoea in the orphanage school. Following repositioning
> of the vessel to a more effective location, the remaining
> 20% of children suffering from diarrhoea indicated it was
> no longer a problem and that thcir health had improvcd. It
> is believed that the potency of the water from the second
> location is that of 2.1 times.  
>   
> At a later date time, the headmaster of the school
> contacted the inventor, explaining that he believed he had
> malaria. He was aware of the effect on the incidence of
> diarrhoea, and asked whether he could also take some of
> the water to see whether it had any effect. The inventor
> agreed, and requested to monitor the headmaster's blood
> stream, remotely, using so a dowsing technique. He
> obtained a numerical result from the dowsing activity and
> recorded it. The headmaster took one tablespoon (ca. 15
> ml) of the mature water twice daily. Successive remote
> monitoring the headmaster's blood showed changes in the
> dowsing response and after two days the change in the
> response was particularly apparent.  
>   
> The inventor contacted the headmaster who told him that he
> had had the best night's sleep for a long time, and that
> he felt much better. The headmaster was very grateful and
> believed that the mature water was the cause ofhis
> recovery.  
>   
> The headmaster then asked whether he could give some of
> the mature water to a friend, a 66 year old lady, who was
> bedridden, and suffering from FIIV infection. She gave the
> inventor the consent to remotely monitor her by dowsing.
> In order to treat her, water obtained according to a
> further aspect of the invention was used. In this aspect
> it is envisaged that the water in the vessel is
> distributed in like manner to the inside of an egg.  
>   
> Namely that there is a central volume of more effective
> water, typically around 4.2 times as potent as "normal"
> water, said central volume being surrounded by a layer of
> less potent, typically around 2.1 times as potent as
> "normal" water. Water of desired potency can be extracted
> using a syringe. After three days, the lady was able to
> stand, and after 97 days of treatment her disease appeared
> to be in remission. She consulted her local doctor who
> tested her immune system, and was very surprised by how
> strong it appeared to be.  
>   
> The remote monitoring results, which monitored "excess
> positive ions", during this initial study showed the
> readings to be descending in a form closely resembling a
> logarithmic curve.  
>   
> This is clearly not a controlled study, but prompted the
> inventor to allow further subjects with HIV infection to
> take the water. Again, the inventor had no reason to
> believe that the mature water could do any harm to the
> subjects, and no other medication available to them was
> withheld in the tests.  
>   
> A number of other subjects took daily doses of the mature
> water, and the state of the blood was again monitored
> remotely by dowsing, on approximately a twice-daily basis.  
>   
> Results from three of the subjects are presented in
> Figures 4-6. It can be seen that, in all cases, the
> remotely-dowsed state of the blood (presented graphically
> as a percentage excess of positive ions) changed
> dramatically, with the "excess ions" falling progressively
> over a period of approximately 10 days.  
>   
> The data were collected remotely by dowsing, with no
> contact from the inventor to the subjects, or to the
> person overseeing the study. When collating and analysing
> the data, the inventor was surprised to see, in each case,
> that around six days into the treatment the excess
> positive ions fbr each subject appeared to increase for a
> short while, before returning to a continual decline
> towards a "normal" ionic balance. When this finding was
> related to the person overseeing the study, he revealed
> that that corresponded to a period when they had run out
> of the mature water, and so the treatment had been briefly
> suspended. This fact was unknown to the inventor (who
> carried out the remote monitoring) until the study was
> complete.  
>   
> The subjects in the study reported improvements in their
> symptoms during the period of administration of the mature
> water.
>
>   
>
>
> ---
>
>   
>
> **APPARATUS FOR DETECTING NATURAL
> RESOURCES, NATURAL ASSETS, AND DETECTION METHOD.**  
> **MX2008015092**
>
>   
>
> The present invention refers to an
> apparatus and method for the detection of natural
> resources and assets, said device being formed by two
> hollow rods structured by a stopper (1) having an inner
> thread (2) which is threaded. The rod has an external
> thread (3) located at the inner portion (4) thereof, the
> rod being simultaneously formed by an upper end portion
> (5), which has an external thread (6) at the end portion
> thereof that is threaded to the inner thread (7) of the
> stopper (8). For instance: For dollars, a dollar note is
> located at the upper inner portion of each dowsing-rod
> (5), a stopper (8) being also located therein. For finding
> oil, crude oil is located at the upper portion of the
> dowsing-rods (5), a stopper (1) and (8) being previously
> located therein upon filling the rods for finding any
> material. For finding gold, approximately 10 g of gold are
> located at the upper portion of the rods (5) and
> subsequently threaded (6)(7) by locating the stopper (8)
> of each rod. The rods a re characterised in that they may
> be made of any material. For finding the natural resources
> and assets under the surface, the sections (3) of each rod
> are gripped with both hands, in such a manner that one rod
> is gripped by each hand, maintaining the sections (5) of
> each rod parallel to the ground, the rods spinning freely
> and indicating the displacing direction; if the sections
> (5) of each rod are slightly crossed while displacing,
> they indicate that the target is being reached, but when
> the sections (5) are completely crossed, they indicate the
> right place or area where the material is located, and
> according to the distance, the section (5) of the rods
> being raised indicating that the target is at a longer
> distance, obstacles not being an inconvenient for the
> accuracy of the place, either in land, sea or at distance.
> Hot water, cold water and oil are located approximately at
> 450 m, at an approximate distance of 400 m; the distance
> for founding gold, silver and metals depends on the amount
> thereof in the subsoil, which may be of from about 2 Km to
> about 3 Km and the depth being more than 450 m; in the
> ocean, the distance and depth depend on the amount, for
> example, in an area of 500 m2 the distance may be of about
> 4000 m and the depth of up to 1000 m.
>
>   
> ![](MX2008015092a.jpg) 
> ![](MX2008015092b.jpg) 
> ![](MX2008015092c.jpg) 
> ![](MX2008015092d.jpg)![](MX2008015092f.jpg)  
>   
>
>
> ---
>
>   
>
> **Pendulum for use as compass for
> dowsing**  
> **CH699417**
>
>   
>
> The pendulum comprises an overhead wire
> (2) made of copper along with a common pendulum (1) made
> of common metal, which is connected at three
> interconnected metal rings (3,4,5) in freely movable
> manner. A holding unit is provided, which comprises a cord
> contactor (6,7) of the electric branch, in which a lower
> wire piece (8) is fixed at the lower wire connection of
> the cord contactor. The cord contactor is connected with a
> wrapping loop to the upper metal ring, such that an upper
> wire piece (9) is fixed to the upper wire connection.
>
>   
>
> ![](ch699417.jpg)
>
>   
>
> **DESCRIPTION**  
>   
> [0001] In the dowsing dowsing rods and pendulums are now
> mainly used as a tool for water lines to locate so-called
> interference fields of earth radiation or to get a mental
> commuting answers to various questions, such as
> personality traits, interpersonal relations, etc..  
>   
> Subject of the invention is a pendulum which, although is
> also suitable for the above purposes, but mainly for the
> detection of electrical, electromagnetic and geomagnetic
> waves or Charges.  
>   
> It is assumed here that all matter and all living things,
> including man, earth's magnetic charge has a specific
> quantity.  
>   
> [0002] For example, If you hold a regular pendulum above a
> ferromagnet, it beats at a north pole magnet first time in
> 120 turns to the left and then 120 times in right turns ..  
>   
> In a magnetic south pole, it turns first to the right and
> then 120 times 120 times to the left.  
>   
> This indicates that negative magnetic charge with links,
> plus magnetic charge will be displayed with right turns
> through the swing.  
>   
> But the pendulum rotates about iron first 120 times 120
> times to the left and then to the right.  
>   
> The specific magnetic charge of iron is therefore
> indicated with 120/120 Links-/Rechtsdrehungen.  
>   
> If you hold the pendulum over each one juxtaposed minus or
> Plus magnet as it swings back and forth between the two,
> and it therefore shows opposite polarity magnetic fields.  
>   
> [0003] On the outside, the subject of the invention is
> different - in the following> Magnetic Spherical <or
> > MF pendulum> called - from the normal pendulum
> mainly by a special fixture and metal rings.  
>   
> The pendulum itself can consist of metals commonly used
> for aligning, for example copper or brass.  
>   
> As a holding device is a cord switch, as used in power
> cables.  
>   
> The fixed through a screw plug with a hole in the pendant
> copper wire is so fixed on three metal rings, same or
> different sizes, such as key rings, which are connected
> together with a wrapped loop that it can move freely on
> the fixed ring.  
>   
> The cord switch two copper wire members are used so that
> one is connected to the three rings by a coiled loop
> forming the other top end with copper wire windings and a
> metal ring at the top end of the cord switch.  
>   
> Both pieces of wire are in the same fixed line switches
> such as power cables.  
>   
> By the switch button allows the copper contact between the
> two parts of copper wire in the cord switch to interrupt
> what the <MF-Pendel< fur die Unterbrechung der
> Verbindung zum erdmagnetischen Feld, die durch den oberen
> Drahtteil mit Windungen zustande kommt, wesentlich ist.  
>   
> [0004] In the following schematic drawing of the features
> of the subject invention are shown, and show namely:  
>   
> [0005] Point  
>   
> 1 <sep> senkbleiformige the pendulum with locking
> screw  
>   
> 2 <sep> the suspension wire of copper with wrapped
> loop at the bottom metal ring  
>   
> 3 <sep> the lower metal ring  
>   
> 4 <sep> the central metal ring  
>   
> 5 <sep> the top metal ring  
>   
> 6 <sep> the lower part of the cord switch and
> connections to the wire fixing screws (1,2) and the
> shut-off switch (3)  
>   
> 7 <sep> the upper part of the cord switch to the
> switch knob (4)  
>   
> 8 <sep> the lower connection piece of wire to the
> connection strap to the metal rings (5)  
>   
> 9 <sep> the upper connecting piece of wire having
> end turns (6) and the metal ring at the outlet of the cord
> switch (10)  
>   
> 11 <sep> the whole magnetic pendulum  
>   
> [0006] In the following embodiments are described the
> different functions of the magnetic pendulum:  
>   
> 1 The specific magnetic field.  
>   
> [0007] To determine how much geomagnetic charge a certain
> material, such as iron contains, the lower ring (3)
> between the thumb and index finger is held.  
> The pendulum starts to kick in left turns.  
>   
> After 120 turns to the left, it suggests to 120 right
> turns.  
>   
> When Rose quartz is 70/70 at Onyx 100/100 Left / right
> turns.  
>   
> 2 Electrostatic waves  
>   
> [0008] In a conductor can with the <MF-Pendel<
> konnen sowohl die elektrostatischen als auch die
> statischen elektromagnetischen Wellen gemutet werden.  
>   
> The electrostatic waves with the central metal ring (4),
> held between the thumb and index finger measured.  
>   
> The pendulum rotates here 220 times 220 times to the left
> and then to the right.  
>   
> The measurement can also be made in a room, whether the
> electric light or electrical devices are turned on or not.  
>   
> 3 Static electromagnetic waves  
>   
> [0009] Holding the <MF-Pendel< am oberen Metallring
> (5) mit ausgeschaltetem Schalterknopf (4), so konnen damit
> beispielsweise vor einem eingeschaltetem TV-Gerat die von
> der Stromquelle unabhangigen, statischen
> elektromagnetischen Wellen gemessen werden.  
>   
> There may always be the same amount of left / right turns
> shown, but the number of turns may vary.  
>   
> Normally, there are 240/240 Left / right expansions.  
>   
> When the power is supplied through an overhead line,
> depending on the humidity part of the electromagnetic
> charge to the atmosphere can be derived, which is shown
> with the MF pendulum by a reduced number of turns.  
>   
> 4 The geomagnetic field  
>   
> [0010] Holding the cord switch (6.7) with off switch
> button (4) in hand, the Nord-/Sudpolachse is constantly
> displayed, namely by the pendulum swings in this direction
> back and forth.  
>   
> Considering a compass under the swinging pendulum, the
> accuracy of the swing direction can be checked and
> verified.  
>   
> When the switch button, the pendulum of the
> Nord-/Sudpolrichtung to Ost-/Westrichtung, which can be
> verified with the compass changes.  
>   
> Can therefore be used as a compass, as a special feature
> the special spherical. However, the air is charged
> electromagnetically, so the MF pendulum deviates to the
> west of the Nord-/Sudpolachse from, corresponding to the
> strength of the electromagnetic emmission.  
>   
> For example, the electromagnetic immission of air displays
> with 120 swing left or right-turns, the pendulum deviates
> from 160 degrees from the Nord-/Sudpolachse in the compass
> function.  
>   
> With the metal ring at the outlet of the cord switch (7),
> the earth's magnetic field is measured.  
>   
> If you hold this ring when the switch is off button (4)
> rotates the pendulum 240 times to the left, making the
> magnetic North Pole, with the switch button (4) it rotates
> 240 times to the right, making the magnetic south pole is
> displayed.  
>   
> [0011] In summary, one can say that specific magnetic
> charges in fabrics as well as the electrostatic or the
> independent, static electromagnetic waves in conductors
> and in the air are muted by aligning spins with the
> magnetic field oscillating in a new way, and that it with
> the function mentioned sites can be employed as a novel
> compass, both Nord-/Sudpolachse and the east / west
> direction and the global magnetic field by oscillations in
> the corresponding directions or Turns display.
>
>   
>
>
> ---
>
>   
>
> **ELECTRONIC DOWSING SYSTEM**   
> **JP2007307321**
>
>   
>
> The present invention relates to a system
> using the same electronic device and an object managing
> down divination is one divination technique utilizes the
> wave energy of the person.  
>   
> Tuning each other it recognizes letters, numbers, shapes,
> colors, etc., wave energy emitted from the human body, to
> rebound.  
>   
> Therefore, it is down to managing method of divination
> that uses it.  
>   
> The down Managing, and hanging down on character drawn on
> the paper, the pendulum the user gave a thin thread,
> number, and picture, the user praying the worries and
> wishes, and on the paper in question form This is what you
> get answers to questions from the motion of the pendulum
> which moves while tracing the shape.  
>   
> However, it is for the movement of the pendulum but are
> not saved as' trajectory, determines that a standardized
> fortune Therefore not be able to pattern recognition its
> movement is not possible in this case.  
>   
> This means that the user was going to judge by intuition
> each time.  
>   
> Such systems come it is necessary to incorporate into the
> computer by numerical data of measuring the movement of
> the pendulum in order to improve this point is not yet
> been provided.  
>   
> In the case of performing various fortune, there is
> inconvenience such must be replaced each time the pattern
> of the down Zing for.  
>   
> The present invention has been made in view of the above
> circumstances, and has as its object, the divination soft
> various prepared in user side uptake by converting the
> numerical data to the computer body movement amount of the
> pendulum by down Zing it is to be used as the original
> data.  
>   
> The present invention is intended to be performed in order
> to solve the above problems, characteristic of the main
> personal computer series manner when the numerical data of
> this taken out as an electric signal the movement of the
> pendulum is improved down managing conventional methods
> down using Zing It is that fetching the body.
>
>   
>
> ![](JP2007307321a.jpg)  ![](JP2007307321b.jpg)
>
>   
>
> **"Managing Electronic Down System"**  
>   
> Is characterized in that the mounting at the same time or
> one of the light receiving device or a light source at the
> tip of the pendulum is improved down managing method that
> is configured with a pendulum and thin thread conventional
> were handled as an electric signal the movement of the
> pendulum.  
>   
> The light emitted from the light source is transferred to
> the computer as numeric data momentum pendulum is
> converted into an electric signal captured by the light
> receiving device, is measured, the amount of rotation.  
>   
> It should be noted that it does not matter even one
> wireless, wired data transfer mode to a PC.  
>   
> Next will be described first aspect of the present
> invention, a fourth embodiment the second, third and with
> reference to the drawings.  
>   
> **(The first embodiment)**  
>   
> Will be described below with reference to FIG 1 a first
> embodiment of the present invention.  
>   
> Is characterized in that it incorporates a light receiving
> device 10 in the seat panel B This embodiment.  
>   
> Mechanism for receiving the light-receiving device 10 is
> formed from a data transmission mechanism for the computer
> C and the conversion mechanism for converting it into an
> electrical signal to detect the direction of the light
> source in this mechanism.  
>   
> I also incorporate the light source 20, a battery 30 in
> the pendulum A.  
>   
> Light source 20 is used light-emitting diode, and a light
> bulb.  
>   
> Note that I keep to emit light always on when using the
> light source 20.  
>   
> A pendulum is suspended in a circle 01 hanging by the
> filament 02.  
>   
> Cable 03 is an electrical signal cable that connects the
> PC and C light receiving device 10.  
>   
> **Second Embodiment**  
>   
> Will be described below with reference to FIG 2 a second
> embodiment of the present invention.  
>   
> There is featured in that the light source 20, the battery
> 30 is incorporated into the light receiving device 10, a
> seat panel B in pendulum A feature of this embodiment.  
>   
> Light receiving device 10 of the pendulum is A, are fed to
> the computer C via the cable 03 to be converted into an
> electrical signal receives the light emitted from the
> light source 20 of the seat panel B.  
>   
> **Third Embodiment**  
>   
> Will be described below with reference to FIG 3 a third
> embodiment of the present invention.  
>   
> A feature of this embodiment is characterized in that it
> incorporates features a light receiving device 10 a light
> source 20 in the seat panel B.  
>   
> Note that it is obtained from the PC power in order to
> illuminate the light source 20 in this case.  
>   
> Light emitted from the light source 20 is captured by the
> light receiving device 10 was placed on the seat Release B
> reflected by the mirror 40 provided on the pendulum A.  
>   
> Optical signal taken is fed to the computer C via the
> cable 03 is an electrical signal by the conversion
> mechanism of the light-receiving device 10.  
>   
> Note that changing this embodiment, it is placed in the
> seat panel B the mirror 40 Further, in the pendulum A
> light receiving device 10 a light source 20, the cable 03
> is that the same effect can be expected to be linked to
> the pendulum A It goes without saying.  
>   
> **(Fourth embodiment)**  
>   
> Will be described below with reference to FIG 4 a fourth
> embodiment of the present invention.  
>   
> Is characterized in incorporating the electronic camera 50
> in a pendulum A feature of this embodiment.  
>   
> Image you want to capture to the computer, to put on the
> seat plate 10, for example drawing on paper 60 image
> composed picture printed or hand-written on the
> fortune-telling, characters, and numbers from the seat
> panel B.  
>   
> Information of various drawn on a piece of paper 60 by 50
> this electronic camera is used in divination software to
> be downloaded to your computer as an image C image.  
>   
> User when performing a down Managing divination according
> to the present proposal, I keep running in advance
> divination software which has been introduced into the
> personal computer in the first.  
>   
> The user performs a display on the computer screen to
> select an image corresponding to the purpose because it
> Prepare multiple images to be used for purposes of
> divination fortune in software.  
>   
> Here can also be utilized to display to another image
> fortune one has finished as a method of divination then
> doing the divination while displaying on the computer
> screen image at the same time is also possible.  
>   
> The light source 20 at all times, the user is irradiated
> toward the center of the light receiving device 10.  
>   
> User bring down Managing the pendulum A and praying while
> staring at the computer screen.  
>   
> A pendulum begins to swing down by the Managing phenomenon
> after a while.  
>   
> This shaking will be downloaded to your computer in the
> converted electrically as numerical data as the amount of
> movement is caught by the light receiving device 10.  
>   
> It can be considered as a locus which shows the movement
> of the pendulum A is stored in the computer in a
> time-series data in this case.  
>   
> Divination software can be displayed on the screen of
> divination answer the user determined by pattern analysis
> to analyze the movement and use the basic data of
> divination this numerical data.  
>   
> Note that in the fourth embodiment, which is an image data
> of divination soft as it reads from the paper placed on
> the seat board B in the electronic camera 50 image images
> for performing a fortune.  
>   
> Is a block diagram of components related to the first
> embodiment of the present invention.  
>   
> Is a block diagram of components related to the second
> embodiment of the present invention.  
>   
> Is a block diagram of components related to the third
> embodiment of the present invention.  
>   
> Is a block diagram of components related to the fourth
> embodiment of the present invention.  
>   
> A pendulum  
> B The board  
> C PC  
> Wheel hanging 01  
> 02 filament  
> 03 Cable  
> 10 light receiving device  
> 20 light source  
> 30 battery  
> 40 mirror  
> 50 electronic camera  
> 60 piece of paper
>
>   
>
>
> ---
>
>   
>
> **METHOD OF DIVINATION**  
> **JP2003311017**
>
>   
>
> To provide a method of divination which
> is performed by converting the undulatory energy (the soul
> of language) of the Japanese language into numeric values
> and using the numeric values, because there is no
> divination for being performed by focusing attention on
> undulations of a language and converting them into the
> numeric values, though a locution naturally varies with
> different kinds of consciousness and difference attitudes
> of a heart and verbalization makes desires of individuals
> and the like delicately different from one another in
> spite of their homogeneousness. ; SOLUTION: The numeric
> values of respective Japanese syllabary characters are
> determined by dowsing; the numeric values corresponding to
> the respective characters of contents to be divined, which
> are constructed as sentences, are added together. When
> numeric values, which are obtained by addition, are 12 or
> less, the numeric values themselves are applied to twelve
> kinds of energy. In the case of 13 or more, until
> respective digit numbers are added together so that
> numeric values, which are obtained by addition, can reach
> 12 or less, they are repeatedly added together, and the
> numeric values, determined by the repeated addition, are
> applied to the above energy.  
>   
> The present invention relates to the wave energy of the
> Japanese word has - about divination divine every thing by
> using the (soul of language).  
>   
> There was no divination to quantify (Kotodama), is
> performed using that number - wave energy words Japanese
>
>   
>
> ![](JP2003311017.jpg)
>
>   
>
> **BACKGROUND ART**  
>   
> Movement of fluctuations fundamental things all have,
> energy and wave [0005] -, and that the consciousness of
> the human characters and graphics, color, sound, or even
> viewed as wave in the fundamental I could.  
>   
> You can rebound or tuned to each other, each wave is
> emitted or affect, or away or attract each other each
> other.  
>   
> To exist - wave energy also words emanating from the
> consciousness of our own course.  
>   
> It is what is called (once in a while and a call) Kotodama
> since ancient times.  
>   
> We or the mouth actually or words in my head it when doubt
> and desire, trouble, etc. came into being in mind.  
>   
> At that time, the words emanating from the consciousness
> of our own wave energy of the word - is have a.  
>   
> By try substituting the words doubt and desire, the
> trouble is, can be the hazy feeling, but to reveal the
> conviction.  
>   
> So of mind and consciousness have different, wording also
> come naturally different, or that it into words, desire of
> the individual person may differ in subtle yet
> homogeneous.  
>   
> However, there was no divination is performed to quantify
> this by focusing the wave with the words.  
>   
> Therefore, the wave energy of words Japanese have in the
> present invention - it is intended to quantify (Kotodama),
> there is provided a method of divination is performed
> using the number.  
>   
> To obtain a numeric value of each hiragana by down Zing
> [Means for Solving the Problems], it adds a number
> corresponding to each letter of the desired content
> divination was documented in 13 or more, that number as it
> is if the number of 12 or less It is fitted into the -
> energy 12 different numerical values ??obtained by
> repeating this until 12 or less by adding st, if there is
> any.  
>   
> First embodiment of the invention], I ask a number
> Japanese (Hiragana) for each.  
>   
> For example, we down Managing on the letter "A", mos