JP2009279149A - Energy detector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an energy detector which speedily and accurately grasps information regarding diseases of a subject without touching the body of the subject. <P>SOLUTION: The energy detector 10 has a probe 5 detecting weak electromagnetic energy emitted from a living body and a main unit 8 connected electrically to the probe 5 via a cable 5e. The probe 5 has a multi-layer diodes formed by connecting in parallel respective terminals of a plurality of bridge diodes arranged in cross lamination, a ferrite core connected to the terminals of the laminated diodes, and connecting cords each extending from the terminal of the laminated diodes. The main unit 8 has a circuit or the like connecting a plurality of conducting members arranged at a plurality of positions on a grid-like grid ferrite with the terminals of the plurality of bridge diodes arranged on the respective conductive members in a cloth laminate fashion and combining them with a capacitor. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an energy detection device that can detect weak electromagnetic energy emitted from the body of a human being or an animal, and obtain information effective for finding and treating a disease.

  In general, when a doctor examines a patient, various examination methods such as inquiry, palpation, auscultation, X-ray examination, and MRI examination have been conventionally employed. On the other hand, in oriental medicine, except for injuries and burns, diseases are thought to be caused by abnormalities in any internal organs, and each internal organ is connected to acupoints through meridians. It is thought that “Acupuncture points” are points that generate “ki”, and it is considered that “medium” is a collective term for a path through which energy “ki” flows.

  The human body maintains a life by receiving instructions from each cell and organ by a weak current signal that flows through nerve cells. However, in recent years, there is an opinion that the current flowing in the body is disturbed due to the modulation of the body due to stress and the influence of electromagnetic waves, etc., causing various diseases. When internal organs or other parts of the body malfunction, abnormalities appear on the acupuncture points associated with the location. In other words, an acupuncture point is also considered a place where malfunctions and abnormalities such as internal organs appear on the surface of the body.

  When the human body is ill, an abnormality occurs in the flow of the “me” of the “meridian” corresponding to it, so that changes also appear in the “acupuncture points”. It is considered possible. In this way, it is called a conventional acupuncture method to correct internal organs malfunction by stimulating the “acupuncture points” at the site corresponding to the disease.

  “Ki” originally originated from the idea of oriental medicine, but in Western medicine it is also regarded as “wave” and research is being conducted. We think that the human body is a collection of tiny cells, and if we pursue the micro cells, everything is "wave". Then, by applying a stimulus to the acupuncture point using a device called a “wave regulator”, endorphins and dopamine, which are pleasant sensations, are released, and further, the wave is adjusted to adjust the inside of the meridians. There have been proposed therapies (for example, “wave adjustment therapy”) that restore the abnormalities of qi to normal and bring them into a well-balanced state.

  In this way, when appropriate stimuli such as heat, pressure, electric potential, and magnetic field lines are applied to the “acupuncture points” existing on the skin of the human body, they act on various organs and internal organs via the meridians, and immunity of the living body It is known that the function, defense function, and autonomic nervous system homeostasis maintenance function are activated, and abnormal biological functions are normalized. However, since it is difficult to accurately detect the positions of “acupuncture points” and “meridians”, conventionally, devices that can accurately detect these positions (see, for example, Patent Documents 1 to 4), An apparatus (for example, refer to Patent Document 5) that can perform potential treatment after detecting the position of the “acupuncture point” has been proposed.

Japanese Patent Laid-Open No. 10-33631 JP-A-11-192210 JP 2003-126055 A JP 2003-159306 A JP-A-2005-204774

  The use of the “acupuncture detector” described in Patent Documents 1 to 4 can detect the position of acupoints and meridians, but it is difficult to know the organ or pathology in which the disease occurs. In addition, in the case of the equipment described in Patent Documents 1 to 3, since a part of the equipment must be brought into contact with the subject's body, the detection accuracy may be deteriorated depending on the contact state with the skin or the presence or absence of sweating. .

  On the other hand, the “acupuncture detection potential treatment device” described in Patent Document 5 is a method of contacting the body of a subject, but after detecting the acupuncture point, the potential treatment can be performed by applying a voltage to the acupoint. . However, it is difficult for this “acupuncture detection type electric potential treatment device” to know the organ and the disease state in which the disease occurs, as in the devices described in Patent Documents 1 to 4.

  The problem to be solved by the present invention is to provide an energy detection device capable of quickly and accurately grasping information on a subject's disease without contacting the subject's body.

The energy detection device of the present invention includes a probe that detects weak electromagnetic energy emitted from a living body, and a main body that is electrically connected to the probe.
The probe includes a multilayer diode formed by connecting terminals of a plurality of bridge diodes arranged in a cross-stacked state in parallel, a ferrite core connected to the terminal of the multilayer diode, and a terminal of the multilayer diode. Each having an extended connection cord,
A plurality of conductive members attached to a plurality of locations of the grid-shaped grid ferrite, a plurality of bridge diodes arranged in a cross-stacked state on the respective conductive members, and a plurality of the bridge diodes And a connection terminal that is electrically connected to a circuit formed by connecting the terminals in parallel.

  With this configuration, the multilayer diode of the probe exhibits an antenna-like function that catches weak electromagnetic energy (such as electromagnetic waves) locally generated by the human body and resonates with it. Therefore, if the examiner holds the probe connected to the main body by hand and moves the ferrite core side along the meridian while keeping the non-contact state close to the subject's body, the meridian leading to the meridian When there is no abnormality, the probe moves smoothly along the meridian. However, if there is an abnormality in the acupuncture point, the probe receives a weak repulsive force, and the probe is detached from the meridian while moving, and smooth movement cannot be performed. It is assumed that such a phenomenon occurs because if the acupuncture point has an abnormality, the weak electromagnetic energy flowing through the meridian leading to it will be disturbed, and the probe that catches this will receive a weak repulsive force. The

  Therefore, if the probe cannot be moved smoothly along the meridian, it can be determined that an abnormality has occurred in the internal organs or body part related to the acupuncture points connected to the meridian. In this way, by moving the probe along various meridians in the body, it is possible to discover abnormalities in the body, so it is possible to quickly and accurately grasp information related to the subject's disease without touching the subject's body can do.

  Here, it is preferable that the probe is provided with a laser oscillation means capable of emitting laser light to the outside through a through hole provided in the ferrite core. With such a configuration, since the probe can be visually confirmed by moving the probe while irradiating the body with laser light, the probe can be accurately moved along the meridian. . In addition, since the movement or disturbance of the movement of the probe appears as the movement of the irradiation point of the laser beam on the body, it is possible to accurately grasp the abnormality of the meridians and acupoints.

  On the other hand, an oscillation circuit that supplies a pulse current to the ferrite core of the probe may be provided in the main body. With such a configuration, it is possible to apply a pulse voltage to the laser light emitted through the ferrite core, so by irradiating such a laser light to the acupuncture points, Organ treatment can also be performed.

  In this case, if the oscillation means is provided with an auto sweep oscillation circuit capable of oscillating a pulse current whose frequency continuously changes in the frequency range of 1 Hz to 17 kHz, a pulse voltage having a wide range of frequencies is applied to the laser light. Therefore, an excellent therapeutic effect can be obtained.

  On the other hand, if an oscillation circuit capable of selectively oscillating a pulse current of any frequency within a frequency range of 1 Hz to 17 kHz is provided in the main body, a pulse voltage of a specific frequency can be applied to the laser light. Therefore, an appropriate therapeutic effect can be obtained by selecting a frequency suitable for the medical condition.

  According to the present invention, it is possible to provide an energy detection device capable of quickly and accurately grasping information related to a subject's illness without contacting the subject's body.

  Hereinafter, embodiments of the present invention will be described. 1 is a perspective view showing an energy detection device according to an embodiment of the present invention, FIG. 2 is a schematic configuration diagram of the probe shown in FIG. 1, FIG. 3 is a partially exploded perspective view of the probe shown in FIG. FIG. 2 is a circuit diagram of the probe shown in FIG. 5 is a schematic configuration diagram of the main body shown in FIG. 1, FIG. 6 is a circuit diagram of the main body shown in FIG. 1, and FIG. 7 is a circuit diagram of a grid ferrite core built in the main body shown in FIG. 8 is a circuit diagram of the grid ferrite core portion shown in FIG. 7, FIG. 9 (a) is a partially cutaway perspective view of the grid ferrite core portion shown in FIG. 8, and FIG. 9 (b) is a Y- in FIG. 9 (a). It is sectional drawing in a Y line.

  As shown in FIG. 1, the energy detection apparatus 10 of this embodiment includes a probe 5 that detects weak electromagnetic energy generated by a living body, and a main body 8 that is electrically connected to the probe 5 via a cable 5e. And. The probe 5 has a substantially cylindrical gripping portion 5b and a cable 5e with a connector 5c extending from the base end thereof, and a portion of the outer peripheral surface of the gripping portion 5b near the base end will be described later. A switch 6 for emitting and stopping the laser beam is provided, a ferrite core 5d is attached to the tip of the grip portion 5b, and a through hole 5a for allowing the laser beam to pass through is opened at the center.

  The front panel 8a of the substantially rectangular parallelepiped main body 8 is provided with a rotating POWER switch 1, a SCHUMANN switch 2, a LASER switch 3, a frequency switching knob 4 and a connector connecting portion 7, and the POWER switch 1 and the LASER switch 3 On the upper side, pilot lamps 1p and 3p are provided, respectively. The connector 5c of the cable 5e extending from the probe 5 is detachably connected to the connector connecting portion 7 of the front panel 8a of the main body portion 8.

  By rotating the POWER switch 1, the power source of the energy detection device 10 can be turned ON / OFF and its operation mode can be switched (LASER mode, NORMAL mode, or AUTO mode). When the SCHUMANNN switch 2 is operated, a pulse current having the same frequency as the SCHUMANNN wave (electromagnetic wave having a resonance frequency of 7.8 Hz in the space between the earth's earth and the ionosphere) is supplied from the main body 8 to the probe 5 or stopped. can do. By operating the LASER switch 3, it is possible to switch between emitting and stopping laser light from the probe 5 by manual operation of the switch 6 or continuously emitting laser light from the probe 5. The frequency switching knob 4 is for selectively switching the frequency of the pulse current supplied from the main body 8 to the probe 5.

  As shown in FIGS. 2 to 4, the probe 5 includes a plurality of bridge diodes 11 formed of four diodes (see FIG. 4) arranged in a cross stacked state, and four terminals of each bridge diode 11. A laminated diode 12 formed by connecting 11a in parallel; four terminals 11a of the laminated diode 12; a ferrite core 5d connected via four electric wires 13; and four terminals of the laminated diode 12. And four connection cords 14 respectively extending from 11a.

  The probe 5 includes a laser oscillation unit 15 that can emit laser light through the through-hole 5a provided in the ferrite core 5d and an electric wire 16 for supplying power to the laser oscillation unit 15. And a switch 6 for turning the laser oscillation means 15 on and off. The laser oscillation means 15 is disposed between the multilayer diode 12 and the ferrite core 5d.

  As shown in FIGS. 5 to 9, the main body unit 8 includes a grid ferrite unit 18, a manual adjustment oscillation circuit 19, an auto sweep oscillation circuit 20, a phase inversion circuit 21, and a plurality of output circuits 22. The grid ferrite portion 18 includes a grid-like grid ferrite body 18a, conductive members 24 provided at a plurality of locations thereof, two bridge diodes 23 arranged in a cross-stacked state on the respective conductive members 24, and a plurality of grid ferrite portions 18a. In addition to connecting the terminals of each of the bridge diodes 24, there are four connection terminals 25 that are electrically connected to a circuit formed in combination with the capacitors C1 to C20. The four connection cords 14 of the probe 5 and the four connection ends 25 of the main body 8 are detachably connected.

  In the grid ferrite portion 18, as shown in FIG. 9, a copper plate conductive member 24 is wound around the grid portion of the grid ferrite body 18 a, and two bridge diodes 24, which are cross-laminated, are adhered to the outer surface thereof. The 24 terminals are soldered to the conductive member 23.

  A pulse current can be supplied to the ferrite core 5 d of the probe 5 by the manual adjustment oscillation circuit 19 and the auto sweep oscillation circuit 20 provided in the main body 8. In this case, the auto sweep oscillation circuit 20 has a function of generating a pulse current whose frequency continuously changes in the frequency range of 1 Hz to 17 kHz, and the manual adjustment oscillation circuit 19 has any function within the frequency range of 1 Hz to 17 kHz. It has a function of selectively generating a pulse current of a certain frequency.

  When the POWER switch 1 on the front panel 8a of the main body 8 is set to the NORMAL mode, the manual adjustment oscillation circuit 19 is activated. Therefore, by adjusting the rotation of the frequency switching knob 4, any frequency within the range of 1 Hz to 17 kHz is set. Is supplied to the probe 5. On the other hand, when the POWER switch 1 is set to the AUTO mode, the auto sweep oscillation circuit 20 operates, so that a pulse current whose frequency continuously changes within a frequency range of 1 Hz to 17 kHz is supplied to the probe 5.

  Next, how to use the energy detection device 10 will be described with reference to FIGS. 1, 10, and 11. 10 and 11 are diagrams illustrating the usage state of the energy detection device 10.

  The multilayer diode 12 (see FIG. 3) built in the probe 5 of the energy detection apparatus 10 catches weak electromagnetic energy (such as electromagnetic waves) locally generated by the body M of the subject and resonates with the antenna. It also has functions. Therefore, if the examiner holds the probe 5 connected to the main body 8 by hand and moves the ferrite core 5d side close to the body M of the subject and moves along the meridian (not shown), the acupuncture point that leads to the meridian When there is no abnormality in (not shown), the probe 5 moves smoothly along the meridian.

  On the other hand, when there is an abnormality in the acupuncture point, if the probe 5 is moved along the meridian connected to the acupuncture point, the probe 5 receives a weak force, and the moving probe 5 is shaken. Therefore, the probe 5 moves smoothly along the meridian. I can't. The reason why such a phenomenon occurs is partly unknown, but if there is an abnormality in the acupuncture point, the weak electromagnetic energy flowing through the meridian leading to it is disturbed, and the probe 5 that catches this is weak. It is speculated that it might be due to repulsion.

  Therefore, when the probe 5 cannot be moved smoothly along the meridian, it can be determined that an abnormality has occurred in the internal organs or body part related to the acupuncture points connected to the meridian. Thus, since the abnormality of the body M can be found by moving the probe 5 along various meridians existing in the body M, information on the subject's disease can be obtained without contacting the body M of the subject. It is possible to grasp quickly and accurately.

  Further, since the probe 5 has the laser oscillation means 15, if the probe 5 is moved while irradiating the body M with the laser light L emitted from the through hole 5a of the ferrite core 5d, the moving path of the probe 5 is visually confirmed. Therefore, the probe 5 can be accurately moved along the meridian. In addition, since the movement blur or disturbance of the probe 5 that occurs during the movement appears as the movement of the irradiation point P of the laser beam on the body M, it is possible to accurately grasp the abnormality of the meridians and acupoints.

  On the other hand, since the oscillation circuit (manual adjustment oscillation circuit 19 and auto sweep oscillation circuit 20) for supplying a pulse current to the ferrite core 5d of the probe 5 is provided in the main body 8, the oscillation circuit is operated to activate the ferrite core 5d. A pulse voltage can be applied to the laser beam L emitted through the beam. By irradiating the acupuncture point with such a laser beam L and giving a predetermined stimulus, it is possible to treat a site related to the acupuncture point. That is, the energy detection device 10 also has a function as a treatment device.

  In this case, if the POWER switch 1 is set to the AUTO mode and the auto sweep oscillation circuit 20 is operated, a pulse voltage based on a pulse current whose frequency continuously changes in a frequency range of 1 Hz to 17 kHz is applied to the laser light L. Since it can be applied, an excellent therapeutic effect is obtained. On the other hand, if the POWER switch 1 is set to the NORMAL mode and the frequency switching knob 4 is operated, the manually adjusted oscillation circuit 19 is activated and a pulse voltage of a specific frequency can be applied to the laser light L. By selecting a frequency suitable for the treatment, the therapeutic effect for a specific disease can be enhanced.

  The present invention can be widely used in various medical institutions such as a clinic and a hospital where a patient's disease is examined and treated.

It is a perspective view which shows the energy detection apparatus which is embodiment of this invention. It is a schematic block diagram of the probe shown in FIG. FIG. 2 is a partially exploded perspective view of the probe shown in FIG. 1. It is a circuit diagram of the probe shown in FIG. It is a schematic block diagram of the main-body part shown in FIG. It is a circuit diagram of the main-body part shown in FIG. It is a circuit diagram of the grid ferrite core built in the main-body part shown in FIG. It is a circuit diagram of the grid ferrite core part shown in FIG. (A) is a partially cutaway perspective view of the grid ferrite core portion shown in FIG. 8, and (b) is a cross-sectional view taken along line YY in (a). It is a figure which shows the use condition of the energy detection apparatus shown in FIG. It is a figure which shows the use condition of the energy detection apparatus shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 POWER switch 1p, 3p Pilot switch 2 SCHUMANN switch 3 LASER switch 4 Frequency switching knob 5 Probe 5a Through-hole 5b Gripping part 5c Connector 5d Ferrite core 5e Cable 6 Switch 7 Connector connection part 8 Main part 8a Front panel 10 Energy detection apparatus 11 , 24 Bridge diode 11a terminal 12 Multilayer diode 13, 16 Wire 14 Connection cord 15 Laser oscillation means 18 Grid ferrite section 18a Grid ferrite body 19 Manual adjustment oscillation circuit 20 Auto sweep oscillation circuit 21 Phase inversion circuit 22 Output circuit 23 Conductive member 25 Connection End C1-C20 Capacitor L Laser light M Body P Irradiation point

Claims (5)

A probe for detecting weak electromagnetic energy emitted by a living body, and a main body electrically connected to the probe,
The probe includes a multilayer diode formed by connecting terminals of a plurality of bridge diodes arranged in a cross-stacked state in parallel, a ferrite core connected to the terminal of the multilayer diode, and a terminal of the multilayer diode. Each having an extended connection cord,
A plurality of conductive members attached to a plurality of locations of the grid-shaped grid ferrite, a plurality of bridge diodes arranged in a cross-stacked state on the respective conductive members, and a plurality of the bridge diodes And a connection terminal that is electrically connected to a circuit formed by connecting the terminals in parallel.   The energy detection device according to claim 1, wherein the probe is provided with laser oscillation means capable of emitting laser light toward the outside through a through hole provided in the ferrite core.   The energy detection device according to claim 1, wherein an oscillation circuit that supplies a pulse current to the ferrite core of the probe is provided in the main body.   4. The energy detection device according to claim 3, wherein the oscillation means is provided with an auto sweep oscillation circuit capable of oscillating a pulse current whose frequency continuously changes in a frequency range of 1 Hz to 17 kHz.   The energy detection device according to claim 3 or 4, wherein an oscillation circuit capable of selectively oscillating a pulse current of any frequency within a frequency range of 1 Hz to 17 kHz is provided in the main body.

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