DE2508692A1 - Apparatus detecting potential differences in tunable circuit - for potential differences caused naturally or artificially via capacitor - Google Patents

Abstract

At least two contacts or probes of electrically conductive materials of the same or a different kind are connected electrically either in parallel or in series with a measuring instrument. One contact (1) or probe consists of the metal to be sought and the other contact or probe (2) consists of the other metal. The contacts can be separated from one another by a high-resistance dielectric layer. One of the probes can be in a metal tube (6) covered with the dielectric layer (7). This coated metal tube is inserted telescopically in another metal tube (6a) consisting of the same or a different metal.

Description

Device for the detection of potential differences in a tunable Circle The invention relates to a device for the detection of by natural or artificial causes of potential differences caused by a probe in a tunable circle.

It is already a device for eating small potential differences known through certain conditions, such as those caused by follicle rupture occur in mammals can be measured. Such a device is in the G3-PS 1 268 183 described.

The object of the invention is to create a device with which it is possible is, potential differences that are a naturally or artificially created cause have to use to determine these causes and to detect metals, in particular natural or buried metal deposits, of plastics or to use to detect and switch off certain electrical states, whereby the device should work safely and reliably and be easy to use.

It is known that dowsers try to use a divining rod to i.e. a forked wire to detect underground metal deposits. This method but is by no means certain and therefore very controversial. It is therefore important and a need for technology, a need that is reliable and as versatile as possible To be able to use the search device for the purposes mentioned.

The object of the invention is achieved by a device that thereby is characterized in that at least two contacts, electrodes or probes are made electrically conductive, either the same or different materials either in parallel or are electrically connected in series with a measuring device.

A grounded contact or contacts is or are on such Measuring device or parts thereof or on a grid or screen that is used for Shielding the device from natural or artificially created causes serves for potential differences, connected.

The grounded contact or contacts can be either off same or different metals or other conductive materials, such as conductive Consist of silicone elastomers or conductive rubber. The contacts can be from each other be separated by a high-resistance dielectric layer.

In its simplest form, the device consists of two limbs or probes made of the same or different metals or conductive silicone elastomers or conductive rubber, which are connected to each other via a millivoltmeter responding to direct current are connected.

In a preferred embodiment, one of the conductive members be a copper pipe covered with a dielectric material such as an insulating Rubber solution, paraffin wax or a ceramic material. These Layer separates the copper pipe from a second conductive member, which is also a Copper pipe can be that is wide enough to pass over the coated first copper pipe to be pushed.

Such an arrangement has the advantage that the first copper tube ever be pushed more or less far into the second tube as required can be used to vary the operating characteristics of the device. One or the other conductive member is electrically connected to earth or the whole device becomes introduced into the earth.

The conductive alternative link is used as an antenna contact grid or power source is used, namely in the event of a potential difference to the earthed member, unless that the identity between the two surfaces touched by the conductive members is produced by electrical means.

For example, if two silver-plated electrodes are used as the end pole of one DC millivoltmeters high input impedance will be used when touched one pole with a non-silver body, for example one made of iron, in a conductive medium, such as earth, water or steam, opposite the return electrode a potential difference is displayed.

In this example, silver-to-silver contact does not occur Potential difference when a silver electrode touches silver. In this way, silver can work with a Silver electrode can be detected.

On the other hand, the two electrodes of the device can have different Metals consist, for example, of a silver and a gold-plated electrode. When the gold-plated electrode comes into contact with silver, it is between the Silver electrode and the touched silver body no potential difference can be determined. On the other hand, when a non-silver body touches between the gold and the Silver creates a potential difference across the body touched by the two electrodes on.

For example, the earth can be scanned by using two electrodes or probes made of different metals can be used. When a metal is in the earth is touched, which corresponds to that of the probes, sinks when inserted both probes into the earth between the two different metal probes generated potential difference.

If a gang or a probe is used as a pole of the device, may touch the other pole with a similar material, such as the ore vein to which the detector or device is tuned as waste of the Potential difference can be determined and displayed on the measuring device.

For example, if a zinc-bearing ore probe is used as a pole and a Copper probe used as the other pole of the device and the copper probe into the vein is introduced, from which the gangue ore originates, the potential difference is reduced between the pole inserted into the earth and the pole touching the gangue.

To detect a specific metal, such as the Investigation of ore veins, it is expedient to take a probe out of the searched and make the other probe from a different metal.

In a preferred embodiment of such a detector or A third element is provided as a control against the potential differences can be compared between the other two poles. If now the earth, for example is scanned and examined with a copper and a steel probe and the potential difference sinks between these probes, either copper or iron is present in the earth. Now, with the help of the control probe, which can consist of aluminum, for example, it is determined what metal was actually found. If it is copper, there will be a voltage drop between the copper probe and the iron and aluminum probe. if on the other hand, a voltage drop from the copper to the steel probe but not between the steel and aluminum probe occurs, then copper is in abundance in that investigated terrain available.

A particularly advantageous control probe is made of graphite or Luster ore. Such a substance forms an ideal anode, against the metal electrodes as electron sources on their potential difference in different electrolytes can be compared.

Gold in a gold cyanide solution is about 0.36 V negative in terms of it Graphite. Furthermore, graphite is also an ideal electrode material to clad on the gold can be. The metal electrodes used in the ore in appropriate device can therefore consist of a metal-plated graphite core.

When using a device with an iron and a copper probe and the iron probe comes into contact with underground copper, is preferably a millivoltmeter, a copper-to-copper, or a Read the zero display. A rich content of copper ions in the soil decreases the voltage between the copper probe and the other metal probes. When using a control probe, the occurrence of larger amounts of copper than Voltage drop between the copper and control probe and between the copper and the iron probe.

An important field of application of a device according to the invention is the detection of metal deposits in the ground that are buried or embedded so deep are that they are practically impossible to find with conventional devices. Elongated probes are used for such an application. Furthermore can With such a device, metal ions contained in one of the probes are determined when the other probe comes into contact with such ions. It occurs a voltage drop between the probes.

The potential difference between a grounded copper rod and from The earth insulated copper can be measured using the earthed copper probe inserted into the ground and the other pole of the device either on the isolated one or connected to the earthed pole of the dipole of copper links isolated from one another will. The isolated copper we such a dipole can be used as an antenna and the grounded pole of the dipole can be used as a ground of a tunable circuit, such as a radio, radar or sonar device, television, telephone or the like Devices or systems that require a ground and X or antenna.

The earth antenna component from such a dipole uses the earth itself as the source of the potential difference between the isolated and the grounded conductive member of the dipole.

For example, if the dipole is inserted into the ground and be isolated member electrically connected to an antenna input of a radio set an improved signal can only be received / if the other one cannot member of the dipole used as an antenna is grounded.

The dipole can be electrically connected to a grid with its insulated member or a screen can be connected, for example to a container made of sheet material with alternating conductive and dielectric layers. If a senior Body, such as a person or another electrically charged biological source is placed in such a container, the surface charge of the body is increased the grid or screen is induced and the charge on the grounded member is on the screen and induced via this on the body located in it. To this Way, the earth potential is restored on the body and this is discharged, eliminating stored charge on its surface. As well as the surface charge is of endogenous origin on such a body, the endogenous source of charge also becomes decreased and charge dependent pathological conditions are cured.

Charge-dependent pathological conditions occur as an endemic disease in places where earth charge anomalies are present, e.g. on rich heavy metal deposits are due.

By shielding such places with antennas or screen grids, that on a member of a device according to the invention, which acts as a capacitor, electrically are connected while the other link is grounded, such stray fields tamed, thereby protecting the health of living beings in these areas. In the same way, facilities and equipment, like leaded, become underground Cable protected from corrosion.

Such a tamed potential can be used as a source of electrical power usable can be made, for example with a "von Graff accumulator" that stores the the isolated limb absorbs the charge induced by the earth's field.

The identification of substances, vibration, communication or other Data can only be done by measuring potential differences when the touched Bodies are electrically different. The identity of touched bodies becomes through Reduction of the potential difference between dissimilar electrodes noted. For example, if pure silver and pure gold electrodes are used and the If the silver electrode touches the surface of a gold plate, there is no potential difference between the gold electrode and the touched gold surface. That’s gold identified.

If the area touched by the silver electrode is not pure gold is the potential difference between the silver and gold electrodes measurable.

The device according to the invention has an important and practical application in the military, about projectiles buried or otherwise in the ground or something like that. For example, if a metal projectile is more than Is buried 1/2 m deep in the ground, it can be difficult with conventional detectors or cannot be found at all. With the help of geothermal probes that are long enough to Metal bodies are such metal bodies that they can be inserted more than 1 / '2 m into the earth Findable when one probe from the searched and the other probe from another Made of metal. When that other metal touches a metal that matches the metal of the corresponds to the other probe, the current flow between the two metal probes decreases, which occurs when the probes are inserted into the ground.

In a preferred embodiment of such depth finders are The geothermal probes are spring-loaded so that the springs put the probes in a roller housing move in when they come into contact with solids in the investigated area.

The identification of non-metallic substances, such as Plastic mines and the like are also possible with the ore in the device according to the invention. Here a sample of the material is used as a gangue on which the device is directed or the detector is tuned.

To examine or to find tunnels, the electric Condition of the inner surface of the stud is essential and enables one to be traced Stollen. This becomes apparent when there is a source of electrical charge in the adit introduced and thereby the charge on the inner surface of the tunnel is neutralized. In this case, the tunnel is difficult or impossible to find. At a The embodiment of a tunnel detector is an amber body on a pendulum provided, which is synchronized with a stroboscope, such that the response of the amber body on the unit or standardized gravitational field above the Stollen is coordinated and different from other places. The deviation in the Responses can then be measured as the synchronization between the strobe and the pendulum depends on the standardized gravitational field on which the pendulum is placed is matched.

Such a device can also be used to work above or below ground Show lines of force.

The basic construction of the electric eel is a Zoelenterat, by which the principle for underwater discovery and prevention of the same can be recognized is. As well as finding a tunnel can be prevented if within it an electrical charge is generated which is induced on the inner surface of the cleat The charge is neutralized Zoelenterat construction, for example of a submarine to prevent it from being found.

The Zoelenterat construction consists of two conductive layers an inner and an outer tube, separated from each other by one or more high-resistance dielectric layers are electrically separated.

Objects located on or in the seabed can also be found such as those buried or embedded in the ground. With a double pendulum, like a magnet and an amber body synchronized on pendulums, a phase shift occurs when it is over a metal object such as a submerged submarine, which does not inhibit a magnetic field. The metal of the submarine acts selectively on the magnet and not on the amber pendulum, as an iron metal vein does. To the A micrometer screw is used to precisely tune such a device to change the center of gravity of the pendulum weight.

The proximity and proximity of objects is just like height and depth, ascertainable by the action on the pendulum. The static charge in the air is part of the unit gravitational field on which the pendulum acts speak to.

This charge varies with altitude and is wingtip to wingtip or stabilizer to stabilizer detectable.

The photoelectric effect can be achieved by using a high-resistance DC voltmeter monitored or controlled as it is used to monitor exposure to sunlight used on living plants. As the light fades, it falls Tension across the leaf of a plant decreases from its upper to its lower surface.

An example of this photoelectric effect can be seen in red cabbage carried out will. The transmission of emissions from the visible red of the retina through a quartz window into an evacuated tube in which the two poles of the detector are arranged and Having different voltages creates a flow of current when the rays are on the negative or high voltage electrode will drop.

Underwater communication is done through a brain wave sminulator. The transmitter looks into a quartz window while it receives the signal it has in mind makes visible. The image of its sampling frequency of 13 Hertz, or 0.077 seconds per period of oscillation is applied to the zinc plates or the like via the quartz window Transfer electrodes made of dissimilar or identical metals. For example, if one plate made of silver and the other plate made of gold will be upon impact the rays on the silver plate will release electrons on the gold plate and it will Generates electricity. The image of this stream is compared with that which passes through one or the other of alternative signals black to white; long too short; zero to one, is generated.

The device may consist of dissimilar metal electrodes that are too touch the identifying sample, with the general rule that the equality of the Samples do not cause a potential difference, while inequality causes such a potential difference evokes. A wide variety of electrical signal sources, such as the voice, photographs, fingerprints, electrograph, phonograph or the like can be used.

The invention is based on a few exemplary embodiments that are schematically illustrated are shown in the drawings, explained in more detail. Show it: Fig. 1 is a schematic view of a simplest device with two probes and a millivoltmeter; FIG. 2 is a view similar to FIG. 1 of a device using a dipole will; Fig. 3 is a schematic side view of a drum or or roller with radial arranged limbs or probes; and FIG. 4 is a schematic view of one with drum or roller section equipped with two probes.

In its simplest form, the device or detector consists of two Probes 1 and 2, made of either the same or different metals or different conductive substances are made. These probes are connected to a measuring device by cable 4 3, for example a millivoltmeter.

If the probes are made of different metals, the following results Way of working. Suppose the probe 1 consists of a base metal and the probe 2 made of a precious metal, e.g. gold. If these probes in the earth or another conductive medium are introduced, a voltage difference occurs, unless the probe 1 touches a precious metal M.

In this case the potential difference goes back to zero.

If there is gold in the sample collector, there is a potential difference between the gold in the sample collector and the base metal probe 1, unless touched Gold. The sample collector does not have to be inserted into the earth.

In the embodiment according to FIG. 2, a dipole is used. the a probe consists, for example, of a copper tube 6, which is inserted into a second probe is pushed out of a copper pipe 6a, the diameter of which is larger than that of the first copper pipe There is a dielectric in the space between the two pipes 7 arranged so that the two copper pipes are isolated from each other. they are furthermore individually via voltmeter 9 or 10 with probe D, for example made of iron, tied together. In this way, the first copper pipe 6 forms one High-voltage antenna pole and the second copper pipe ba a low-voltage earth pole. Via the antenna 8, the antenna pole is attached to, for example, a screen grid or the like (not shown) connected. As described above, electric fields are influenced and various investigations are carried out.

The probes 1 and 2 can also consist of the same metals.

For example, if two silver-plated probes are used, no voltage difference is measured between the probes when silver is touched will. However, a potential difference occurs immediately if the metal in contact does not Silver is.

For example, if one of two identical silver-plated probes has one with iron comes into contact, something negative arises at this pole compared to the other pole Potential.

The device can also be used to detect non-metals will. In this case a sample of the non-metal is used as a 'gangue', which is displayed as a find when the other probe touches the non-metal where the other pole exists. This is especially useful for finding plastic mines important.

The probes can be in any appropriate depending on the application Device to be installed. An expedient version consists of a drum or roller 10, on the shell of which the links or probes 1, 2 are arranged radially in pairs are. Two, four, six or more pairs can be provided (FIG. 3).

In Fig. 4 a section of a drum or roller is shown schematically, on which a pair of probes 11 and 12 is arranged.

These probes are mounted on the drum or roller shell, which is used as a Dielectric 15, such as "Perspex", is formed. The probes are preferably tensioned by springs 16 and resiliently mounted in this way. Of the distance between the two probes 11 and 12 of a probe pair is chosen so that both can be introduced into the soil E at the same time. If a control probe (not shown) made of aluminum, graphite or the like is provided, this is introduced into the ground before the probe 11, for example an iron probe, is pulled out.

The probes 11 and 12 are connected to a measuring device via cables 14 15 connected. In this embodiment, a control probe (not shown) be used.

Claims (12)

Expectations 1. Device for the detection of natural or artificial causes potential differences caused across a capacitor and their change in a tunable circle, which does not indicate that at least two contacts or probes made of electrically conductive, either the same or different Materials either in parallel or in series with a measuring device electrically are connected. 2. Apparatus according to claim 1, characterized in that a grounded Contact or contacts on such a measuring device or parts thereof or on a grid or screen, which is used to shield the device from of course or artificially created causes caused potential differences is connected is or are. 3. Apparatus according to claim 2, characterized in that the grounded Contact or contacts made of either the same or different metals or different conductive materials such as conductive silicone elastomers or conductive rubber. 4. Apparatus according to claim 3, characterized in that the contacts are separated from each other by a high-resistance dielectric layer. 5. Apparatus according to claim 1, characterized in that a contact or a probe (1) from the metal to be searched and the other contact or the other probe (2) is made of a different metal. 6. Device according to one or more of claims 1 to 5, characterized marked, that a third link or a third probe is provided as a control link. 7. Apparatus according to claim 6, characterized in that the control member consists of aluminum, graphite or bright ore. 8. Apparatus according to claim 4, characterized in that one of the conductive Probes in the metal tube (6) is covered with a dielectric layer (7), such as a insulating rubber solution, paraffin wax or a ceramic material is, and that this coated metal pipe (6) in a second metal pipe (6a), which consist of the same or a different metal as the first metal pipe can, is inserted telescopically displaceable. 9. Apparatus according to claim 8, characterized in that the first metal tube (6) via a voltmeter (10) and the second metal tube (6a) via a voltmeter (9) with a probe (5) made of a less noble metal than the first and second metal tubes (6 and 6a) are connected in such a way that the first metal tube (6) has a high-voltage antenna pole and the second metal pipe (6a) forms a low-voltage earth pole. 10. Device according to one or more of claims 1 to 9, characterized characterized in that the contacts or probes (1, 2; 5, 6, 6a; 11, 12) are spring-loaded are. 11. Device according to one or more of claims 1 to 10, characterized marked that the contacts or probes on the jacket of a drum or Roller (10) are arranged and protrude radially from this, each on one Probe (1) from one metal followed by a probe (2) from the other metal and this one Probes each form a pair of probes (1, 2), which simultaneously penetrate the soil (E) is insertable. 12. Apparatus according to claim 12, characterized in that next to each Probe pair (1, 2) a control probe is arranged. Blank page