CN108543223B - Remote detection type focusing electromagnetic pulse electronic acupuncture therapy machine - Google Patents

Abstract

A remote detection type focused electromagnetic pulse electronic acupuncture therapy apparatus comprises a machine shell, a power supply module, a control panel module, an operation and working state display module, a signal generator, a quasi-biological clock signal characteristic adjusting module, a signal characteristic correcting and processing module, a signal power amplifier, a quasi-biological clock time control module, a quasi-biological clock power signal shunt putting control module, a power signal putting duration control module, a power signal putting time interval control module, a power signal shunt putting relay group, a power signal output port, a power signal shunt putting control signal output port, a power supply input port and the like, wherein in a human body biological type regular mode, weak eddy currents generated by electromagnetic induction are used for non-invasive stimulation of meridians and collaterals of the acupoints to simulate acupuncture stimulation of related functions of a patient, so that the related functions of the patient can be repaired and perfected, has no wound and pain, and improves the simplicity, reliability and high efficiency of the effect of the operation.

Description

Remote detection type focusing electromagnetic pulse electronic acupuncture therapy machine

Technical Field

The invention belongs to the technical field of acupuncture equipment, and particularly relates to a remote detection type focusing electromagnetic pulse electronic acupuncture therapy machine.

Background

Acupuncture therapy is a part of the traditional Chinese medicine heritage, is one of the special treatment means in China, and is a medical technology for treating internal diseases by external therapy. Acupuncture regulates the functions of viscera through the stimulation of acupuncture points and the conduction of meridians and collaterals, realizes the functions of dredging meridians and collaterals and regulating qi and blood, leads the functions of viscera and the qi of yin and yang in vivo to be in harmony and balance, and realizes the effect and the purpose of treating diseases.

Traditional acupuncture utilizes mechanical wound stimulation to exert effect and realize effect. In fact, the effect of this operation is caused by the trauma it causes, and not by the operation itself. The termination of a wound is a healing process, and the duration of the healing process is unknown. Since the role of the operation is related to the trauma it causes, the role of the operation is continued with respect to the actual operation. If the requirements on the biological clock law are not strict or the biological clock law is not obvious, the effect can be obtained immediately if the traditional acupuncture method is used for treating diseases related to the biological clock law. However, if the visceral functions associated with the targeted disease are performed according to the apparent biological clock rules, the effects of such acupuncture manipulations are unknown or even counterproductive.

Research shows that diseases such as cancer, psoriasis, rheumatism and rheumatoid disease are related to certain visceral functions, and although the diseases occur on the body surface, the causes of the diseases are the problems of certain visceral functions, which is an appearance phenomenon of internal diseases. Therefore, to treat these diseases fundamentally, one can, and only can, begin by correcting these system functions. However, it is found from the research that the function of these zang-fu organs strictly follows the biological clock law, so to treat these diseases by correcting the function of these functional systems, the regulation of these diseases must follow the same law, otherwise, the effect is not certain, and the adverse effect is the best. The practice shows that the biological clock law is characterized by specific time and duration requirements for the operation of functional systems, and the biological clock law governs the operation states of the related functional systems according to a certain time starting point and a certain time, so that the functional systems operate according to a certain time and duration and show the rigor of 'prohibition of command'. Therefore, it is said that the continuation of the action of the conventional acupuncture makes it impossible to satisfy the requirement of biological clock law, so that it is unknown and limited to have an effect of treating these diseases.

Disclosure of Invention

In order to solve the problems, the invention designs and manufactures a remote detection type focusing electromagnetic pulse electronic acupuncture therapy machine by adopting a method which has completely synchronous action and actual operation and can follow the biological clock law. The acupuncture and moxibustion instrument is characterized in that a purpose-made machine is manufactured by modern technological means according to the traditional Chinese medicine acupuncture and moxibustion principle and the electromagnetic induction principle, pulse current signals with certain frequency band and signal characteristic characteristics are generated, the pulse current is converted into electromagnetic pulses through a purpose-made transmitting probe and is focused and transmitted to relevant acupuncture points of a patient, weak eddy currents are generated on the acupuncture points, the eddy currents stimulate the acupuncture points to generate the effect similar to or equal to that of traditional acupuncture, the acupuncture and moxibustion effect is achieved, the relevant visceral functions of the patient are directionally adjusted, the relevant immune system functions can be continuously repaired and perfected, the due height which is enough for actively defending and removing diseases is achieved, the target diseases of the patient can self-heal the diseases through the immune system of the patient, and the rehabilitation purpose is achieved.

The acupuncture effect generated by the method is caused by the eddy current generated by projecting the focused electromagnetic pulse to the acupuncture points of the patient, and the eddy current and the electromagnetic pulse are completely synchronous, so the effect of the operation is synchronous with the operation, and no effect continuation phenomenon exists. Therefore, the function of the viscera can be completely and synchronously controlled by a control operation mode to adapt to the biological clock law, so that the functions of the relevant viscera can be regulated in an optimal state in a targeted way. The invention provides, distributes and controls electromagnetic pulse current signals with specific characteristics automatically according to a program drawn by a special machine according to biological clock rules and response characteristics of a meridian acupoint system to the electromagnetic pulse signals, converts the current signals into electromagnetic pulses by a special transmitting probe and focuses and transmits the electromagnetic pulses to relevant acupoints of a patient, thereby realizing simulated acupuncture treatment of the patient, effectively and sustainably regulating visceral functions of the patient related to target diseases, realizing sustainable accumulation of treatment effects, gradually repairing and perfecting the functions of the relevant viscera of the patient, finally realizing the recovery or active defense and disease removal capability of the patient by conditioning, correcting, repairing and perfecting the functions of the relevant viscera, and realizing the purpose of disease rehabilitation.

The present invention is intended to provide a systematic treatment apparatus and an operation method for patients suffering from abnormal tissue proliferation and allergic diseases, such as cancer, psoriasis and rheumatism. The invention uses focused electromagnetic pulse with certain frequency band and specific signal characteristic as acupuncture entity according to the acupuncture principle of traditional Chinese medicine, under the mode of simulating biological species rule by electromagnetic induction, performs programmed simulation acupuncture stimulation to related meridian points of a patient, harmonizes qi of liver and kidney of the patient, enables the liver and kidney of the patient to be peaceful, kidney essence to be abundant and kidney qi to be sufficient, enables wind dryness to be moist, phlegm stasis to be evacuated and heat accumulation to be cleared, and finally enables related diseases of the patient to be gradually dissipated under the governing and dredging of healthy qi to recover. The therapy is actually a process of exciting, improving and perfecting the related inherent functions of the human body, or a cultivation process of the inherent self-healing capability of the human body. Through treatment, the patient can gradually have and maintain increasingly powerful self-healing capabilities such as active repair capability, dissolving capability and the like. The patient with better stability can be treated independently without depending on other treatment methods and means according to the degree of the patient's condition, the patient with heavier condition can be treated with the assistance of other treatment methods and means, or the other treatment methods and means can be used for treating the patient with the assistance of the treatment.

The complete technical scheme of the invention comprises the following steps:

a remote-detection focusing electromagnetic pulse electronic acupuncture therapy apparatus comprises a host, a transmission line and a plurality of therapy units.

1. A host.

The host machine is a device which provides a specific power current signal to the electromagnetic pulse transmitting probe through a specific working mode according to a working program drawn by a biological clock law. The functional components can be roughly divided into the following parts:

(1) a signaling system. The device comprises a simulated biological clock signal characteristic adjusting module A, a signal generator B, a signal characteristic correcting processing module C and a signal power amplifier D;

(2) the signal distribution control system. The device comprises a power signal putting duration control module E, a power signal putting time interval control module F, an automatic-manual on-off function conversion selection control module G and a pseudo-biological clock time control module H; a simulated biological clock power signal shunt throwing control module L and a power signal shunt throwing control signal relay group J3 group;

(3) an accessory. The power supply comprises a machine shell, a power supply input port, a power supply switch, a protective tube, a power supply module P, a control panel module R, an operation and working state display module T and the like, a power signal output port X1 and a power signal shunt-launch control signal output port X2 (part of modules, components and elements are not shown in the figure).

2. A transmission line.

The transmission line can be divided into the following two types according to its function:

(1) and a control signal line. The control signal wire carries direct current control signal current, electromagnetic induction does not exist between the outside and each other, and a conventional multi-core cable or a plurality of strands of conventional wires can be used for being arranged in parallel.

(2) Electromagnetic pulse power signal transmission line. The current carried by the electromagnetic pulse power signal transmission line is pulse current, and the electromagnetic induction exists to cause signal leakage and cause mutual interference with other wires, so a shielding cable is adopted.

And 3, a treatment unit.

The treatment unit comprises a seat, a focusing electromagnetic pulse emission probe group S and a power signal shunt-throwing power signal relay group J4.

Secondly, the functional structure and the outline of the device are disclosed.

The power supply module P provides a DC24V power supply for the host, and a main power switch K controls a mains supply inlet; the control panel module R comprises an adjusting operation button for all functions of the whole machine, and the adjusting setting for all functions in the machine can be realized by operating the control panel; the operation and working state display module T is used for displaying the adjustment state of the machine function and displaying the working mode and the state of each functional component and module in the machine.

The analog biological clock signal characteristic adjusting module A is sequentially connected with a signal generator B, a signal characteristic correcting and processing module C and a signal power amplifier module D, and the signal power amplifier module D is connected with a power signal transmitting probe (a group S1 and a group S2.... multidot. Sn) through a power signal output port X1 and a contact group (a group K4 and a group K5... multidot. Kn) of a relay group J4 in a shunt way; the power signal shunt throwing control signals are sent by contact groups (K3-1 and K3-2.. K3-n groups) of a power signal shunt throwing control signal relay group J3 group and are respectively connected with electromagnetic coil groups (L4-1 and L4-2.. L4-n groups) of a shunt throwing power signal relay group J4 group corresponding to an output port X2 of the power signal shunt throwing control signal relay group to select and control a transmitting probe pulse current signal of a certain shunt; and a certain branch of an electromagnetic coil group (L3-1, L3-2.. the.. L3-n group) of the power signal branch throwing control signal relay group J3 group is respectively provided with an action potential by a certain port of a module L corresponding to the certain branch, and the opening and the closing of the certain branch are jointly controlled by relays J1(K1 and L1) and J2(K2 and L2) respectively controlled by a module E and a module H.

The module A presets the regulation information of the characteristics of the pulse signal generated by the control module B according to the requirements of the biological clock, so as to control the characteristics of the pulse signal generated by the module B according to the requirements of the biological clock. At this time, the signal generator module B works according to the mode set by the pseudo-biological clock signal characteristic adjusting module a, the pulse signal generated by the signal generator module B is further carved into a finished signal source through the signal characteristic correcting processing module C, and finally the finished signal source is input into the signal power amplifier D for power amplification and then output through the power signal output port X1.

One port of the pseudo-biological clock time control module H triggers the automatic power-on and power-off function of the module G, and when the preset power-on time is reached and the power is switched on, the automatic power-on function of the module G is triggered to switch on the power of the whole computer to enable the computer to enter a normal working state. The other port adjusts the timing duration of the module E and the module F according to preset information according to preset time, and the other port continuously provides standby action potential for the K1-L2 loop in a biological clock period. The automatic starting function of the module G is triggered to actively switch on the power supply of the whole machine for all parts and modules of the machine, and simultaneously, the module G also has a port for triggering the module F to start timing when the machine is started. And the module F is provided with a port which simultaneously triggers the module E to start timing when being triggered and repeatedly self-triggering at the timing end of the preset time length, so that the module E is triggered by the module G and simultaneously started to time by the module F. The preset timer duration of module E is within the timer duration of module F, as required by the design, so that no port is designed for triggering other modules, but a port is designed for automatically and continuously closing the L1 loop during the timing process.

The module L is also a clock with a preset time output port according to the biological clock as the module H, and after the module L is started, the module L can automatically select to provide standby action potential for a certain relay electromagnetic coil of the J3 group according to the preset time according to the requirement of the biological clock; when the power signal putting duration control module E is in a timing state, the power signal putting duration control module E switches on the electromagnetic coil L1 of the relay J1 to close the contact K1, so that the electromagnetic coil L2 of the relay J2 has current flowing through the contact K2, the electromagnetic coils of the relay of a certain branch of the J3 group form a current loop due to the standby action potential provided by the module L to close the contacts, and then the relays of all the treatment units belonging to the branch of the J4 group are closed to enable the electromagnetic pulse emission probes of all the treatment units of the branch to be switched on by electromagnetic pulse current signals to emit electromagnetic pulse treatment signals, and the simulated acupuncture treatment is started.

After the module E finishes timing, the module E opens an L1 loop, a K1-L2 loop, so that K2 is also opened, the J3 group main loop is opened, the relay contact of the preset shunt of the J3 group is opened, the relay solenoid loop of the J4 group preset shunt is opened, the contact of the relay solenoid loop is also opened, so that all the electromagnetic pulse emission probes belonging to the shunt lose power current signals and stop working, and the analog acupuncture treatment is finished.

When the preset time of the power signal putting time interval control module F is reached, the power signal putting time interval control module F can be triggered to restart timing, and simultaneously, the power signal putting time interval control module E is triggered to restart timing and repeat the above processes, and the simulated acupuncture treatment is restarted once again.

According to the requirement of a human body biological clock, the module H can modify the preset time length of the power signal putting time interval control module F and the power signal putting time length control module E at the preset moment.

According to the preset quasi-biological clock information, when the module L reaches the preset time, the module L is automatically switched to the next preset shunt circuit to provide the preparatory action potential.

When the preset time of the biological clock simulating time module H is reached, an automatic shutdown function is triggered to stop the whole machine. If the module G is switched to the manual mode, the whole machine can still normally work according to a set program in the simulated biological clock working time period; however, if all the automatic programs stop working in the non-biological clock working period, the whole machine only outputs the pulse current signal with the characteristic characteristics set artificially.

For safety, the full-machine power supply voltage uses DC24V and is provided by a power module P, and the full-power isolation transformer is designed to be adopted to step down 220V mains supply to 24V, and then the voltage is output to all parts and modules of the machine after being processed by modules with corresponding power such as rectification, filtering, voltage stabilization and the like.

The focusing electromagnetic pulse transmitting probe is a device which converts pulse current signals provided by a host machine into electromagnetic pulses and directionally transmits the electromagnetic pulses to acupuncture points of a patient to realize the effect of simulating acupuncture. The transmitting probe structure comprises a shell, an auxiliary coil framework, an auxiliary coil, a main coil framework, a main coil, a reflecting focusing lens and an insulator coil, wherein the shell is arranged at the outermost layer of the transmitting probe and used for accommodating and fixing components; a cylindrical main coil is arranged in the upper main coil framework, and a circular focusing lens is arranged at the lower end of the upper main coil framework and is made of a planar non-magnetic metal sheet; an auxiliary coil which is slender compared with the main coil penetrates through the inner wall of the inner hole of the main coil and is tightly attached to the inner wall of the inner hole of the main coil, the upper end of the auxiliary coil framework is approximately flush with the upper end of the main coil framework, and the lower end of the auxiliary coil framework is close to the reflection focusing lens; an insulator washer is arranged between the main coil framework and the reflection focusing lens and used for fixing a specific distance between the main coil framework and the reflection focusing lens; when the main coil is switched on, the pulse current signal emits electromagnetic pulses with the same characteristic to the space according to the characteristic of the pulse current signal. The electromagnetic pulse will be reflected and focused as it reaches the reflective focusing optic and will then be launched out to a distance in the direction and path of the perpendicular to the reflective focusing optic on the center of the primary coil. The electromagnetic pulse has effective (can make acupuncture point produce simulation acupuncture action) emitting distance up to several meters or even ten meters along with the improvement of focusing degree. The function of the acupuncture needle breaks through the restriction that acupuncture must be in close contact with patients, and the convenience of operation space, distance and direction is greatly improved.

The electromagnetic pulse emission probe generates and emits electromagnetic waves by using an electromagnetic coil, and the electromagnetic pulse emission probe has certain inductance; parameters such as frequency, duty ratio and the like of pulse current signals output by the host are different in different biological clock time periods, and each electromagnetic pulse transmitting probe needs to be connected with a certain capacitor in order to balance signal parameters under various signal characteristics; because each branch circuit is provided with a transmitting probe of a plurality of treatment units, if the on-off of the branch circuit is controlled on the main control line of a certain branch circuit, all transmitting probes on the branch circuit are connected in parallel with each other through the capacitors on the respective branch circuits, so that an L-C oscillating circuit formed by a plurality of capacitors and inductors is formed, self-oscillation is formed under certain conditions, and particularly, the phenomenon is more obvious if harmonic interference exists. This phenomenon can cause the transmission probe to spontaneously emit electromagnetic waves with certain frequency characteristics due to resonance, and disturb the biological clock law of execution. In order to avoid this phenomenon, it is required that each transmitting probe is in an open circuit state when it is not in operation. The power signal shunt release relay group and the transmitting probes are arranged on a treatment unit together to implement one-to-one control, so that each transmitting probe is ensured to be kept in an open circuit state when in a non-working state;

the transmission line is divided into a control signal line and a power signal transmission line, the power signal transmission line is used for transmitting a power current signal from a signal power amplifier to the electromagnetic pulse probe, and the power signal transmission line is preferably a shielding line.

In conclusion, the essence of the apparatus and the treatment method disclosed by the present invention is based on the acupuncture principle of traditional Chinese medicine and utilizes the electromagnetic induction principle, setting up corresponding working program according to the requirements of human body biological clock rule, using special-made machine to produce, control and distribute pulse current signal, using special-made electromagnetic pulse transmitting probe to convert said pulse current signal into electromagnetic pulse, and making it be directionally focused and transmitted on the acupoint of patient to make it produce eddy current with a certain intensity, the eddy current is used as a stimulus source of the invention to cause acupuncture reaction on the acupuncture points, so as to carry out targeted regulation on related viscera functions, lead related viscera and immune functions to be continuously repaired and perfected, realize the practical and thorough control, alleviation and cure of related diseases, and provide a treatment device and an operation method for patients, which have reliable curative effect and can be used for independently treating the related diseases. The principle on which the invention is based is that of regulating the functions of the zang-fu organs through the meridians and acupoints in traditional Chinese medicine, the principle adopted is that of electromagnetic induction (embodied on a transmitting probe), the acupuncture entity adopted is that of focusing electromagnetic pulses (embodied on a transmitting probe), the rule followed is that of biological clock, all functions of the machine are operated according to the biological clock mode by inputting biological clock information to an electronic clock (embodied on modules E and F) and controlling related functional modules or components with the electronic clock (embodied on modules A, H and L), the design function is realized through the cooperation among the modules, the selection principle of the signal characteristics of the adopted electromagnetic pulse signals is preferably determined according to the response degree of the meridian system to electromagnetic waves with different signal characteristics (embodied on module C), and the accumulation of acupuncture effects is realized by establishing new sustainable response points for the meridian system (embodied on module A, B, C, E. F, H, L) to continue the treatment process by reusing limited signal characteristic resources in a manner that the signal of the same characteristic is reused for a period greater than the memory period of the meridian point system for its memory (represented at block A, E, F, H, L), by adopting the mode of focusing the electromagnetic pulse to improve the acupuncture effect and the effective projection distance (embodied on the emission probe), the focusing accuracy of the transmitting probe (embodied on the transmitting probe) is determined by accurately determining the distance between the focusing lens and the electromagnetic coil, natural noise (embodied on the transmitting probes) is eliminated by adding a drying coil, self-transmitting harmonic interference is avoided by keeping each transmitting probe in an open circuit state in a non-working state to execute a normal program (embodied on a J4 group), the patient is reminded in advance to keep the correct posture to receive the treatment in a certain way before each transmission of the treatment signal.

The invention is further summarized below according to the specific embodiments described above:

first, theoretical basis of invention

The invention is based on the principle of regulating the functions of viscera by the meridian points and the electromagnetic induction principle of the traditional Chinese medicine.

Second, the principle of action of the invention

The invention adopts focused electromagnetic pulse as acupuncture entity to emit focused pulse electromagnetic wave with certain physical property to relative acupuncture points of a patient to simulate the traditional Chinese medicine acupuncture operation according to the electromagnetic induction principle, so that weak eddy current is generated on the acupuncture points, and the eddy current stimulates the acupuncture points to generate corresponding stimulation signals to generate the effect similar to or equal to the traditional acupuncture.

Third, the working mode of the invention

The invention utilizes a special machine to generate and output electromagnetic pulse power signals according to the requirements of biological clock rules and the response characteristics of meridian points to the signals so as to provide a signal source for an electromagnetic pulse transmitting probe; meanwhile, the machine outputs control signals according to a working program preset by a biological clock simulation rule, and the signal source is selectively connected with the corresponding transmitting probe branch circuit, so that the signal source transmits electromagnetic pulse signals to acupuncture points corresponding to a patient to implement acupuncture treatment.

Fourthly, the operation mode of the invention

The present invention arranges a special electromagnetic pulse focusing and emitting probe at the corresponding position of the chair according to the corresponding position and direction of the relevant acupuncture points on the chair when the patient sits on the chair, converts pulse current signals into electromagnetic pulses according to the program provided by the host computer and focuses and emits the electromagnetic pulses to the relevant acupuncture points of the patient to realize the simulated acupuncture therapy of the patient

Fifth, the operation characteristics of the invention

The acupuncture entity adopted by the invention is a focused electromagnetic pulse signal, and the operation mode is to use a specific electromagnetic pulse transmitting probe to transmit focused electromagnetic pulses with specific signal characteristic characteristics to related acupuncture points of a patient to realize the simulation of acupuncture action and effect. The electromagnetic wave can penetrate through any insulator such as clothes, so that the patient does not need to expose the skin of the limb, and the operation and the treatment are very convenient. The operation of the invention is actually the control of the electric signal, and the full-automatic programming operation can be completely realized by utilizing the prior scientific and technological means, so that the simplicity and convenience of the operation can be further improved.

Sixthly, the body feeling characteristics of the patient

Because the electromagnetic pulse transmitting power adopted by the invention is very small, the eddy current generated on the acupuncture point of the patient is very weak, the patient has no abnormal feeling at all and no pain and discomfort, and the patient can completely and unknowingly receive and finish the treatment.

Seventh, the mechanism of action of the invention

The invention has no direct therapeutic effect on target diseases, and the invention is used for regulating related viscera functions, repairing and perfecting related immune systems and accordingly resolving and removing the target diseases.

Eighthly, the invention has the function characteristics

The acupuncture entity adopted by the invention is focused electromagnetic pulse, and the treatment process is to emit the focused electromagnetic pulse to the acupuncture points of a patient to generate weak eddy currents on the acupuncture points as a stimulation source so as to realize the effect of simulating acupuncture. The eddy current causing the acupuncture effect is generated by the emitted electromagnetic pulse and disappears along with the stop of the electromagnetic pulse, and the phenomena of delay and continuation do not exist between the electromagnetic pulse and the emitted electromagnetic pulse and are completely synchronous.

Ninth, the effect characteristics of the invention

The invention utilizes the nondestructive property of electromagnetic pulse and the synchronism of eddy current generated by the electromagnetic pulse to avoid the action continuity of the electromagnetic pulse, and utilizes the characteristic to ensure that the action of the operation is adapted to the biological clock law and the reliability of the effect is ensured; meanwhile, according to the requirement of the human body meridian acupoint system on the response characteristic of the operation signal, the response of the meridian acupoint to the operation signal is always in the optimal state by timely and appropriately changing the characteristic of the signal according to a biological clock mode, the viscera function of a patient is subjected to sustainable target regulation, the sustainable accumulation of the operation effect is realized, the relevant functions of the patient are gradually repaired and perfected, the target disease is actively solved and removed, and the effect and the purpose of enabling the patient to recover by a conservative method are realized. Moreover, because the direct action objects of the invention are viscera functions and immune system, the essence of the treatment is that the relevant immunity functions are repaired and perfected by regulating the relevant viscera functions in a targeted way, so that the patient gradually has enough self-healing capacity to the target disease to express the treatment effect on the target disease, therefore, the treatment process of the invention is actually the cultivation process of the active defense capacity and the self-healing capacity of the patient, and the patient can have stable prognosis state after the disease is recovered.

Ten, the invention compares the advantage of the traditional acupuncture and moxibustion

1, the traditional acupuncture is a mechanical traumatic operation, and the operation requires the patient to expose the skin of the body, which is inconvenient for both the doctor and the patient; the invention can be operated in an air-separated mode completely, and the patient does not need to expose the skin of the body.

2, the trauma caused by the traditional acupuncture brings certain pain and discomfort to the patient, and the operation of the invention does not bring any abnormal feeling to the patient.

3, the conventional acupuncture has a possibility of causing infection and cross infection of some diseases between patients, and the invention can completely avoid the infection.

4, the traditional acupuncture is available, and the invention can completely avoid the phenomenon.

The traditional acupuncture has the phenomenon of action continuation, which prevents the traditional acupuncture from following the biological clock law, but the invention has no phenomenon of action continuation, and the action state can be completely controlled by a control operation mode to enable the traditional acupuncture to follow the biological clock law.

6, the conventional acupuncture has a limitation in its effect on treating diseases related to the biological clock law due to its continuation phenomenon of the operation action, and the present invention can achieve a sustainable accumulative improvement in the treatment effect by following the biological clock law, resulting in a sufficient reliability and thoroughness of the treatment effect.

Eleven, the invention compares the advantage of the prior art of the same kind.

1. And low-frequency electromagnetic pulse is adopted, so that the electromagnetic radiation hazard is reduced.

2. The lowest effective transmitting power of the adopted electromagnetic pulse is extremely low, is completely in the relevant national electromagnetic radiation standard range, and cannot cause any electromagnetic radiation harm to human bodies.

3. Any electric conductor can reflect electromagnetic waves, so that non-magnetic conductors can be adopted in practical application to easily and accurately focus used electromagnetic pulses, and the technical difficulty and cost for manufacturing the transmitting probe can be greatly reduced.

4. The effective distance of the focused electromagnetic pulse can reach several meters or even tens of meters, which further reduces the intensity of electromagnetic radiation, greatly reduces the limit on the operation space and distance and easily realizes remote treatment.

5. Each link included in the invention is properly integrated with biological clock information, so that the biological clock information works in a biological clock mode, the related viscera and immune functions of a patient are improved and perfected to the greatest extent and sustainably, the patient gradually has the capability of actively defending and dispelling diseases, and the aim of rehabilitation is finally achieved.

6. Based on the unique treatment effect of the invention, the traditional Chinese medicine composition can be used independently as a treatment method to a certain extent, and can be used for independently completing the treatment of the relevant patient, or can be matched with other methods to complete the treatment of the relevant patient.

7. Although the biological clock law is very complex, the biological clock law has a relatively fixed mode, the full-automatic operation can be realized by using a machine through simulating a preset working procedure of the biological clock law, and the advantages of simplicity, accuracy, reliability, high efficiency and sustainable optimization of related viscera and system functions are embodied.

8. All modules and parts of the machine used by the invention can be easily obtained or manufactured by using the existing scientific and technological achievements or means, and the machine has low power consumption and embodies the advantages of relative simplicity and energy conservation.

The method specifically comprises the following steps:

1. the focused electromagnetic pulse with a certain frequency band is emitted to the related acupuncture point to generate weak eddy current on the acupuncture point, and the eddy current stimulates the acupuncture point to generate the effect similar to or equal to that of the traditional acupuncture, so that the acupuncture effect is realized.

2. Because the operation of the invention is realized by using the mode of emitting electromagnetic waves, the invention can carry out remote air-insulated operation, and the patient does not need to expose limbs, thereby improving the convenience of the operation.

3. The operation of the invention is to utilize the acupuncture principle of regulating the function of viscera to treat relevant diseases by meridian acupuncture points, and the mode of transmitting focused electromagnetic pulses to relevant acupuncture points of a patient by electromagnetic induction enables the relevant acupuncture points to generate weak eddy currents on the acupuncture points to serve as stimulus sources to realize the acupuncture effect and effect, and the strength of the eddy currents can be realized by controlling the strength of the electromagnetic pulses, so that the eddy currents are kept in a safe range under the condition of ensuring the effect and effect, thereby the damage of the patient is ensured, the avoidance of the operation is not damaged, any pain and discomfort can not be brought to the patient, and the invention is suitable for all people.

4. The acupuncture action of the acupuncture mode is completely synchronous with the acupuncture operation, and the action continuation phenomenon does not exist, so that the control of the state of the acupuncture action of the patient can be synchronously realized by controlling the state of the operation to adapt to the biological characteristics of the relevant viscera and the biological clock law followed.

5. Because the operation can satisfy the response characteristics of meridian points to electromagnetic pulse signals and follow the biological clock law, the accumulation of treatment effects can be realized by repeating the operation process, the effect of continuously optimizing the functions of related viscera can be realized, the related target diseases can be actively defended, dispelled and cured by sufficiently optimizing the functions of related viscera, the effect and the purpose of treating the diseases from the aspect of etiology can be realized, the natural, reliable, nonspecific and stable prognosis effects of the operation effect can be shown, the treatment process can be accelerated by fully utilizing the effective acting time, and the necessary treatment course can be shortened.

6. The control process of the whole operation is the control process of the electric signal in a certain mode, so that the full-automatic operation can be realized by programming by using modern technological means according to the requirement of a biological clock rule, the operation precision is improved, the operation effect and efficiency are improved, and the operation scale can be expanded according to actual requirements.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

FIG. 2 is a structural diagram of the host according to the present invention.

Fig. 3 is a schematic structural diagram of the probe of the present invention.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

The theoretical basis of the invention is that according to the principle of regulating the functions of viscera by the meridian points of the traditional Chinese medicine, under the mode of biological clock law, focusing electromagnetic pulses are adopted as acupuncture entities to simulate the traditional acupuncture operation, and the relevant meridian points are properly stimulated by an electronic acupuncture mode to correspondingly regulate the functions of the relevant viscera, thereby realizing the treatment purpose. The action principle is to simulate the traditional Chinese medicine acupuncture operation, and by utilizing the electromagnetic induction principle, focused pulse electromagnetic waves with certain physical characteristics are emitted to relevant acupuncture points of a patient to generate weak eddy currents on the acupuncture points, and the eddy currents stimulate the acupuncture points to generate corresponding stimulation signals to generate the effects similar to or equal to the effects of the traditional acupuncture.

As shown in fig. 1, the device mainly comprises a host, a transmission line and a plurality of treatment units. The working mode is that the main machine generates pulse power signals in a certain mode and transmits the pulse power signals to the treatment unit through the transmission line to carry out treatment in a simulated acupuncture mode on the patient.

As shown in fig. 2, the host machine mainly includes a housing (not shown), a power module P, a control panel module R, an operation and working state display module T, a signal generator B, a pseudo-biological clock signal characteristic adjustment module a, a signal characteristic correction processing module C, a signal power amplifier D, a pseudo-biological clock time control module H, a pseudo-biological clock power signal shunt-throwing control module L, a power signal throwing duration control module E, a power signal throwing time interval control module F, an automatic-manual on/off function conversion selection control module G, a power signal shunt-throwing control signal relay group J3 group (including a coil group L3 group and a contact group K3 group), a power signal shunt-throwing power signal relay group J4 group (including a coil group L4 and a contact group K4 group), a power signal output port X1, a power signal shunt-throwing control signal output port X2, and a power input port (not shown in the figure), A power switch (not shown) and the like.

The transmission line of the present invention is, as shown in fig. 2, transmitted using a shielded signal cable based on the fact that the signal used is an electromagnetic pulse signal in order to prevent signal leakage and interference thereof. And the shunt throwing control signal transmission line carries direct current and uses a conventional wire.

As shown in fig. 2, the treatment unit comprises a seat, power signal emission probe groups S1 and S2, a power signal shunt access relay group J4 and a power signal shunt access relay group J5. The emitting probe group is preset on the chair according to the corresponding position and direction of the relevant function acupuncture points of the human body when the patient sits on the chair according to the required posture, so that the patient can receive corresponding treatment signals when sitting on the chair according to the required posture.

The working principle of each functional component and module of the device disclosed by the invention is described as follows:

the functional composition, operation principle and general operation program of the host are described as follows:

the host computer is a device which provides necessary power signals for the electromagnetic pulse transmitting probe through a certain working mode. According to the function classification, the system mainly comprises a power signal generation system, a power signal distribution and control system and accessories, and specifically comprises the following components:

firstly, an accessory:

including electrical power generating system, casing, control panel and operation and operating condition display module, wherein:

1. a casing. The machine shell is used for accommodating and protecting all parts and modules forming the machine and preventing the internal circuit of the machine from harming and threatening the human body; the input/output port, the input power switch, the protective tube, the control panel, the display module and other components are fixed; an attractive appearance is formed by proper design.

2. A power source. The power supply voltage of the machine is designed to be DC24V, and the machine is output to all parts and modules of the machine after the 220V mains supply is reduced to 24V by adopting an isolation transformer and is subjected to the processes of rectification, filtering, voltage stabilization and the like.

3. A control panel. The control panel R includes an adjustment operation button for all functions of the entire machine, and the adjustment of all functions inside the machine can be realized by operating the control panel.

4. And an operation and working state display module. The operation and working state display module T is used for displaying the adjustment state of the machine function and displaying the working mode and state of each functional component and module in the machine.

Secondly, a power signal generating system:

the device comprises a signal generator B, a simulated biological clock signal characteristic adjusting module A, a signal characteristic correcting and processing module C and a signal power amplifier D. After the start-up, the signal generator B works according to the mode set by the analog biological clock signal characteristic adjusting module A, the pulse signal generated by the signal generator B is further carved into a finished product signal source through the signal characteristic correcting processing module, and finally the finished product signal source is input into the signal power amplifier D for power amplification and then is output through the power signal output port X1. The analog biological clock signal characteristic regulating module A is a functional module for properly regulating signal characteristics of frequency, duty ratio, waveform and the like of a signal according to the requirement of a biological clock rule, and in the actual working process, the analog biological clock signal characteristic regulating module A can set the signal characteristics generated by the module B according to preset biological clock information, so that the module B outputs the signal with the required characteristics according to the setting of the module A. The signal characteristic correcting and processing module C is a module for trimming the pulse signals generated by the module B according to the signal characteristics of the optimal response characteristics of the meridian points.

Thirdly, a power signal distribution control system:

the device comprises a biological clock time control module H, a power signal putting duration control module E, a power signal putting time interval control module F and an automatic-manual on-off function conversion selection control module G. The time control module H of the biological clock built in the host is a clock with a preset time output port. When the power is switched on and the preset starting time is reached, the starting module G is triggered to switch on the power of the whole computer to enter a normal working state. The module G is preset with a port for triggering the module F once when the module G is started. And module F has a port for triggering module E to start timing at the same time of self-triggering and triggered timing, and module E has no functions of self-triggering and triggering other modules. While the module H is triggered to start, the module E is provided with a port which automatically turns on the L1 loop in the timing process, and the module H continuously provides required action potential for the K1-L2 loop. At this time, module E closes the circuit of solenoid L1 of relay J1 to close contact K1, so that current flows through solenoid L2 of relay J2 to close contact K2. At this time, the module L has provided an actuating potential to the electromagnetic coil of the control signal control relay of a corresponding branch of the relay group J3 according to a preset program, and the closing of the K2 causes the corresponding relays of the relay control signal control relay group J3 and the power signal control relay group J4 to be closed successively to turn on the electromagnetic pulse power signal, so that the transmitting probe of the branch transmits a focused electromagnetic pulse signal. When the preset putting time of the power signal is reached, the module E closes the L1 loop, the K1 is disconnected, the L2 loses current, and then the K2 is also disconnected, so that no matter which branch of the L3 group is switched on by the module L, the relay contacts corresponding to the relay group J3 group and the relay group J4 group are released successively to stop the power signal and the electromagnetic pulse signal stops transmitting because the main loop is disconnected by the K2. When the preset time of the module F is reached, the module F triggers the timer to restart by itself and triggers the module E to restart the timer to repeat the above process. Of course, the time length presets of the modules F and E are modified by the module H at preset times according to the requirements of the biological clock during the whole biological clock cycle.

The biological clock power signal shunt-circuit throwing module L is a control module which throws the power signal to a certain preset shunt circuit according to the requirement of a biological clock rule according to a certain time period. When the preset time of the module L is reached, it will automatically switch to the next preset shunt to provide the action potential according to the requirement of biological clock.

When the preset time of the time adjusting module H of the simulated biological clock is reached, an automatic shutdown function is triggered to stop the whole machine; if the manual mode is switched, the whole machine can still normally work according to the biological clock mode in the simulated biological clock working time period; however, if all the automatic programs stop working in a time period outside the simulated biological clock working time period, the whole machine only outputs a pulse current signal with artificially set characteristic characteristics.

The transmission line of the present invention is divided into a control signal line and a power signal line. Each control branch in the equipment is respectively connected with the positive electrode of a direct current power supply in the host through a K3 group of a relay group J3 group, and the tail end of each control branch is respectively connected with one end of each electromagnetic coil of a relay group J4 group and used for transmitting a control signal of the relay group J3 to the relay group J4. The other ends of the electromagnetic coil group L4 of the relay group J4 share a common line to be connected with the negative pole of the inside of the main machine. The power signal transmission line is used for transmitting a power current signal from the signal power amplifier to the electromagnetic pulse probe, and a shielding line is used for the transmission line to avoid electromagnetic leakage of the electromagnetic pulse signal and interference with other transmission lines or magnetic fields due to the pulsating characteristic of the electromagnetic pulse signal.

The treatment unit of the invention can be a plurality of treatment units, and each treatment unit comprises a seat, a power signal access relay group J4 and an electromagnetic pulse emission probe group S (the structure diagram of the emission probe is shown in figure 3). When a pulse current signal passes through, the electromagnetic pulse transmitting probe starts to work.

In summary, the device makes the machine work according to the working program preset in the machine according to the characteristics of the biological clock law, and applies pulse current signals to the electromagnetic pulse transmitting probe to transmit focused pulse electromagnetic waves to relevant acupuncture points of a patient to implement simulated acupuncture treatment on the patient, so that the functions of relevant functional systems of the patient are excited, the relevant functions of the patient can be continuously and accumulatively improved, symptoms and diseases are actively improved, and the control, improvement and cure of target diseases of the patient are realized.

The specific connection relationship among the modules of the invention is as follows:

the biological clock signal characteristic adjusting module A is connected with a control signal generator B, a signal characteristic correcting processing module C and a signal power amplifier D in sequence, the signal power amplifier D is connected with a power signal emission probe set S1, an S2 set … … Sn and the like through a power signal output port X1 and a power signal control relay set J4 set, a J5 set and the like, each emission probe is divided into branches and respectively corresponds to a control line, one side of the control line, which passes through a K3 contact set of the relay set J3 set, is connected with the positive pole of a direct current power supply in a host, and the tail end of the control line is connected with one end of each electromagnetic coil of the relay set J4 set respectively and is used for transmitting a control signal of the relay set J3 set to the relay set J4 set. The other ends of the electromagnetic coil group L4 of the relay group J4 share a common line to be connected with the negative pole of the inside of the main machine. The power signal emission probe groups S1, S2 and the like are respectively accessed into corresponding relay groups J4, J5 and the like, and are respectively and sequentially connected with relays corresponding to a power signal branch throw-in relay group J3 group through a power signal branch throw-in control signal output port X2 and are sequentially controlled by a branch signal of the module L and K2.

One line of the biological clock time control module H is sequentially connected with a power signal putting time interval control module F and a power signal putting time control module E through an automatic-manual on-off function switching selection control module G, and the other line of the biological clock time control module H controls the preset time of the module E and the module F. When the startup is triggered, the module H can continuously switch on the K1-L2 loop at the same time; meanwhile, the module E will automatically turn on the L1 loop during the timing process;

the structure diagram of the transmitting probe is shown in figure 3, and the transmitting probe comprises a shell 1, an auxiliary coil support 4, an auxiliary coil 5, a main coil support 2, a main coil 3, a reflection focusing lens 7 and an insulator coil 6, wherein the shell is arranged on the outermost layer of the transmitting probe, a cylindrical auxiliary coil support is arranged in the center of the transmitting probe, the auxiliary coil for noise removal is wound on the auxiliary coil support, the main coil support is arranged outside the auxiliary coil, the main coil, namely an electromagnetic pulse coil, is arranged in the main coil support, the longitudinal height of the main coil is smaller than that of the auxiliary coil, the reflection focusing lens is arranged below the auxiliary coil, the reflection focusing lens is a non-magnetic metal sheet. The electromagnetic pulse has the effective (capable of making acupuncture point produce simulation acupuncture effect) transmitting distance up to several meters or even tens of meters according to the improvement of focusing degree; the function of the acupuncture needle breaks through the restriction that acupuncture must be in close contact with patients, and the convenience of operation space, distance and direction is greatly improved;

when a pulse current signal passes through, the electromagnetic coil can generate a pulsating magnetic field. The pulsating magnetic field is reflected by the mirror and then focused and reflected. When the electromagnetic pulse signal is focused and transmitted to the relevant acupuncture point of the preset patient, a weak eddy current is formed on the acupuncture point, and the eddy current stimulates the acupuncture point to realize the acupuncture effect.

In summary, the device applies pulse current signals to the electromagnetic pulse emission probe according to the characteristics of the human body biological clock law to emit focused electromagnetic pulses to the meridian acupoint system of the patient to implement simulated acupuncture treatment, so that the relevant functions of the patient are stimulated, the relevant functions of the patient are promoted to be continuously and accumulatively improved, and then the relevant organs and system functions of the patient are repaired to realize the control, improvement and cure of the target diseases of the patient.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and all simple modifications, changes and equivalent structural changes made to the above embodiment according to the technical spirit of the present invention still fall within the protection scope of the technical solution of the present invention.

Claims (8)

1. A long-distance detection type focusing electromagnetic pulse electronic acupuncture therapy machine is characterized in that: including host computer, transmission line and treatment unit:

the host machine is a device which generates and provides a specific power signal for the electromagnetic pulse transmitting probe according to a working program drawn up according to a biological clock rule in a specific working mode, and is divided into a signal system, a power signal distribution and control system and accessories according to the function composition of the device;

the signal system comprises a simulated biological clock signal characteristic adjusting module A, a signal generator B, a signal characteristic correcting and processing module C and a signal power amplifier D;

the power signal distribution and control system comprises a pseudo-biological clock time control module H, a power signal putting duration control module E, a power signal putting time interval control module F, an automatic-manual on-off function conversion selection control module G and a pseudo-biological clock power signal shunt putting module L;

the accessory comprises a shell, a power supply system, an input/output port, a control panel module and an operation and working state display module, and the specific connection relationship is as follows:

the simulated biological clock signal characteristic adjusting module A is sequentially connected with a signal generator B, a signal characteristic correcting processing module C and a signal power amplifier D, the signal power amplifier D is connected with a power signal transmitting probe group through a power signal output port X1, the power signal transmitting probe group is respectively connected with corresponding relays in a corresponding power signal shunt throwing-in power signal relay group J4 group, and is sequentially connected with a simulated biological clock power signal shunt throwing-in control module L through a power signal shunt throwing-in control signal output port X2, a power signal shunt throwing-in control signal relay group J3 group and a contact K2;

one line of the biological clock time control module H is sequentially connected with a power signal putting time interval control module F and a power signal putting time control module E through an automatic-manual on-off function conversion selection control module G, the other line of the biological clock time control module H is directly connected with the control time interval control module F and the power signal putting time control module E, meanwhile, the biological clock time control module H is provided with a port for automatically switching on a K1-L2 loop in a biological clock period, and the power signal putting time control module E is provided with a port for switching on a control coil L1 loop in a timing period;

the power supply module P supplies power to the host; the control panel module comprises an adjusting operation button for adjusting all functions of the whole machine, and all functions in the machine are adjusted by operating the control panel; the operation and working state display module is used for displaying the adjustment state of the machine function and displaying the working mode and state of each functional component and module in the machine;

the time control module H is a clock with a preset time output port, when the power is switched on and the preset starting time is reached, the time control module H triggers the starting to switch on the power of the whole machine and enters a normal working state, at the moment, the signal generator B works according to the mode set by the signal characteristic adjusting module A of the biological clock,

the analog biological clock signal characteristic adjusting module A is a module which presets control information of the signal output characteristic of the module B so as to control the signal generator B to generate a pulse signal with corresponding signal characteristic; the pulse signal generated by the module B is cut by a signal characteristic correction processing module C according to specific setting to form a finished product signal source, the finished product signal is input to a signal power amplifier D to be subjected to power amplification processing to form a finished product power signal, the finished product power signal is output through an output port X1 of the finished product power signal, an electromagnetic pulse power signal transmission line is connected with an electromagnetic pulse transmitting probe through a contact group of a power signal shunt throwing relay group J4 group, and a pulse current power signal is provided for a shunt preset by a quasi-biological clock power signal shunt throwing module L for standby of the shunt electromagnetic pulse transmitting probe;

in the signal control distribution system, after the system is started, a simulated biological clock power signal shunt throwing module L continuously provides action potential for a shunt according to a preset simulated biological clock program in a certain biological clock period, and the on-off is controlled by a main loop switch K2; when the pseudo biological clock time control module H reaches the starting-up time, the K1-L2 loop is automatically switched on, and the automatic starting-up function of the automatic-manual switching-on and switching-off function selection control module G is triggered to switch on the full-automatic power supply; the automatic-manual power on/off function conversion selection control module G is provided with a port for starting up and triggering the power signal putting time interval control module F once, and the power signal putting time interval control module F is provided with a port for triggering and self-triggering the power signal putting time interval control module E at the same time to start timing; when the power signal releasing time interval control module F is triggered by the automatic-manual power on-off function switching selection control module G to start timing after the power is turned on, and meanwhile, the power signal releasing time duration control module E is also triggered by the module F to start timing in sequence;

through the mutual relations, after the power-on, the pseudo-biological clock time control module H, the automatic-manual power-on and power-off function conversion selection control module G, the power signal putting time interval control module F and the power signal putting time duration control module E sequentially enter a normal working state, and the power signal putting time duration control module E is provided with a port for connecting the L1 during the timing period, so that the K1 is in a closed state at the moment, the K1 and the K2 are sequentially closed, a preset shunt circuit of the pseudo-biological clock power signal shunt circuit putting module L is also sequentially closed, and an electromagnetic pulse emission probe of the shunt circuit starts to work; when the power signal throwing time control module E reaches the timing end point, K1 and K2 are cut off successively, so that the quasi biological clock power signal shunt throwing module L is cut off no matter which shunt is preset, and the electromagnetic pulse emission probe of the corresponding shunt stops working; the power signal putting duration control module E is not provided with any trigger function, so that it will close the L1 loop after timing is completed to wait for being triggered next time; at the moment, the power signal putting time interval control module F continues to time, and when the power signal putting time interval control module F reaches the timing end point, the power signal putting time interval control module F is triggered by self triggering and simultaneously triggers the power signal putting time interval control module E to start to time again and repeat the working process; during normal working, the simulated biological clock time control module H can automatically modify the preset timing time length setting of the power signal putting time length control module E and the power signal putting time interval control module F according to the preset biological clock time information; meanwhile, the module A can adjust the signal output characteristic of the control module B at a preset moment; the quasi-biological clock power signal shunt putting module L can automatically switch on the action potential of the next preset shunt at a preset moment according to preset biological clock information;

the electromagnetic pulse emission probe generates and emits electromagnetic waves by using an electromagnetic coil, and the electromagnetic pulse emission probe has certain inductance; parameters such as frequency, duty ratio and the like of pulse current signals output by the host are different in different biological clock time periods, and each electromagnetic pulse transmitting probe needs to be connected with a certain capacitor in order to balance signal parameters under various signal characteristics; because each branch circuit is provided with one transmitting probe of a plurality of treatment units, if the on-off of the branch circuit is controlled on the master control line of a certain branch circuit, all the transmitting probes on the branch circuit are mutually connected in parallel through the capacitors on the respective branch circuits, so that an L-C oscillation loop formed by a plurality of capacitor inductors is formed, and self-oscillation can be formed under a certain condition; the phenomenon can cause the transmitting probe to spontaneously transmit electromagnetic waves with certain frequency characteristics due to resonance, and disturb the biological clock execution rule; therefore, in order to avoid this phenomenon, it is required that each transmitting probe is in an open circuit state when it is not in operation; therefore, the power signal shunt-feeding relay group and the transmitting probes are arranged on a treatment unit together to carry out one-to-one control, so as to ensure that each transmitting probe is kept in an open circuit state when in a non-working state.

2. The remote-probing-type focused electromagnetic pulse electronic acupuncture therapy apparatus according to claim 1, wherein the module G is provided with a port for controlling the time interval for single-time triggering of power signal delivery when the apparatus is turned on and for controlling the time duration for sequential triggering of power signal delivery when the apparatus is turned on; after the start-up, the pseudo biological clock time control module H continuously provides the required standby potential for the K1-L2 loop; the power signal putting time control module E is provided with a port for switching on a loop of the relay coil L1 during timing; therefore, the closing of K1 can make K2 close successively, at this time, the biological clock power signal shunt throwing control module L has provided standby action potential to the electromagnetic coil of a relay of a corresponding shunt according to the requirement of the biological clock, the closing of K2 can make the electromagnetic coil of the relay of the shunt have current to flow, then the relay contact is closed, the electromagnetic pulse power signal is switched on, and the transmitting probe of the shunt emits focusing electromagnetic pulse signals; after the preset power signal putting duration is reached, the control module E finishes timing to close the L1 loop, so that the K2 is also disconnected in sequence, the relays corresponding to the branches are also disconnected in sequence, and the electromagnetic pulse signals stop transmitting; when the preset time of the power signal putting time interval control module F is reached, the power signal putting time interval control module F is triggered by itself to restart timing according to the preset time length, and simultaneously, the power signal putting time control module E is triggered to restart timing and repeat the above processes.

3. The apparatus according to claim 1, wherein the preset time intervals of the power signal applying time interval control module F and the power signal applying time duration control module E are modified at preset times by the biological clock time simulation control module H according to different requirements of the human biological clock.

4. The apparatus according to claim 1, wherein the preset biological clock mode is adapted to automatically switch on the action potential of the next preset branch when the preset time of the control module L is reached.

5. The remote-detection-type focused electromagnetic pulse electronic acupuncture therapy apparatus as claimed in claim 1, wherein when the preset time of the biological clock time control module H is reached, an automatic shutdown function is triggered to stop the whole apparatus; if the manual on-off is converted, the host can work according to the time period manually required, but any preset biological clock information cannot be changed; if the time is not in the biological clock time interval, the K1-L2 loop can not be switched on, so that if the manual mode is switched, the whole machine can still normally work according to a set program in the simulated biological clock working time interval; however, if all the automatic programs stop working in a time period outside the simulated biological clock working time period, the whole machine only outputs a pulse current signal with artificially set characteristic characteristics.

6. The apparatus according to claim 1, wherein the full-machine power supply voltage is DC24V supplied by the power module P for safety, and the apparatus is designed to use a full-power isolation transformer to step down 220V commercial power to 24V, and then output the voltage to all parts and modules of the apparatus after being processed by modules of rectification, filtering and voltage stabilization with corresponding power.

7. The apparatus according to claim 1, wherein the electromagnetic pulse emitting probe is a device for converting a pulse current signal provided by a host into electromagnetic pulses and directionally emitting the electromagnetic pulses to the acupuncture points of the patient to simulate acupuncture; the transmitting probe structure comprises a shell, an auxiliary coil framework, an auxiliary coil, a main coil framework, a main coil, a reflecting focusing lens and an insulator coil, wherein the shell is arranged at the outermost layer of the transmitting probe and used for accommodating and fixing components; a cylindrical main coil is arranged in the upper main coil framework, and a circular focusing lens is arranged at the lower end of the upper main coil framework and is made of a planar non-magnetic metal sheet; an auxiliary coil which is slender compared with the main coil penetrates through the inner wall of the inner hole of the main coil and is tightly attached to the inner wall of the inner hole of the main coil, the upper end of the auxiliary coil framework is approximately flush with the upper end of the main coil framework, and the lower end of the auxiliary coil framework is close to the reflection focusing lens; an insulator washer is arranged between the main coil framework and the reflection focusing lens and used for fixing a specific distance between the main coil framework and the reflection focusing lens; when the main coil is switched on by the pulse current signal, the main coil emits electromagnetic pulses with the same characteristic characteristics to the space according to the characteristic characteristics of the pulse current signal; the electromagnetic pulse will be reflected and focused as it reaches the reflective focusing optic and will then be launched out to a distance in the direction and path of the perpendicular to the reflective focusing optic on the center of the primary coil.

8. The apparatus according to claim 1, wherein the transmission line is divided into a control signal line and a power signal transmission line, the power signal transmission line is used for transmitting a power current signal from the signal power amplifier to the electromagnetic pulse probe, and the power signal transmission line is a shielded line.

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