CN211356723U - Multi-dimensional meridian balancing instrument - Google Patents

Abstract

The utility model discloses a multidimensional meridian balancing instrument, which comprises a balancing instrument shell and a control circuit, wherein at least six groups of output ends for outputting pulse signals are arranged on the balancing instrument shell, and each group of output ends comprises a positive pulse output end and a negative pulse output end; the control circuit comprises a voltage regulating circuit, a pulse regulating circuit and a pulse output circuit, wherein the voltage regulating circuit divides a power supply into a plurality of stable low-voltage power supplies by regulating voltage so as to control the pulse amplitude of a pulse signal, the pulse regulating circuit regulates the pulse time, the pulse frequency and the pulse width of the pulse signal, and the pulse output circuit outputs a plurality of groups of rectangular pulse signals with specific amplitude, time, frequency and broadband through an output end. By adopting the utility model, a plurality of channels and collaterals and a plurality of acupuncture points can be treated through the multi-path output end; meanwhile, rectangular pulses can be output by adjusting voltage, so that the blocked channels and collaterals or acupuncture points are oriented, routed and over-resistance is balanced and smooth, and a good effect of conditioning and treating diseases is achieved.

Description

Multi-dimensional meridian balancing instrument

Technical Field

The utility model relates to the technical field of medical treatment and health care, especially, relate to a multi-dimensional main and collateral channels balancing instrument.

Background

The channel therapeutic instrument is a modern instrument for conditioning and treating diseases by combining the modern bioelectronic motion balance theory, electronic vibration mechanics, electronic directional impact theory and traditional Chinese medicine channel theory according to the channel and yin-yang theory of the traditional Chinese medicine, and the modern conditioning therapeutic equipment of the traditional Chinese medicine, which is successfully developed by using a brand-new integrated circuit technology, can replace and be better than acupuncture and massage in some aspects to treat various diseases, and is needless in needle, painless, non-traumatic and free of side effect in the conditioning therapeutic process.

At present, most of the channels and collaterals therapeutic equipments at home and abroad use electronic technologies such as sharp pulse, low frequency, medium frequency, high frequency and the like to replace traditional Chinese medicine acupuncture, massage, acupoint pressing and the like, and part of the channels and collaterals therapeutic equipments use electromagnetic technology to generate heat energy and electromagnetic field to replace medicine thermotherapy and magnetic therapy. The meridian therapeutic apparatus is difficult to cure diseases fundamentally in the clinical application process, and can only play roles in relieving symptoms and health care through the physical therapy means.

Specifically, the existing meridian therapeutic apparatus has the following defects:

1. the existing electronic physiotherapy instrument only considers treating diseases through a single meridian or acupuncture point in design, so the number of output ports is small (the existing electronic physiotherapy instrument is mostly 1-2 groups of output ports), the existing electronic physiotherapy instrument can not meet the requirement of coexistence of difficult and complicated diseases and multiple diseases in the existing treatment, and simultaneously the existing electronic physiotherapy instrument also can not accord with the theory of integral treatment of traditional Chinese medicine.

2. In order to achieve the effect of simulating acupuncture, most of the existing electronic physiotherapy instruments stimulate acupuncture points or meridians by adopting sharp pulses, low frequency, medium frequency, high frequency and other modes, the sharp pulses stimulate weak pulses, the effective injection energy is low, the treatment effect is not obvious enough, and the pricking feeling and the poor treatment effect are easily formed due to the non-uniform injection of the treatment pulse capacity.

3. The existing electronic physiotherapy instrument generally adopts a current control pulse mode, and when the pulse needs to be increased, the current can only be increased, so that the requirements on components are high, the components are easy to damage, the service life of the components is short, the performance of an electric appliance is unstable, the reliability is poor, potential hazards exist in addition to safety, the design difficulty is not solved, the cost is increased, and the target design is not completed.

4. The existing electronic physiotherapy instrument usually adopts unipolar electronic pulses to stimulate the human body, and after a patient uses the unipolar electronic pulse meridian treatment instrument for multiple times, the treatment effect is not obviously improved.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a multi-dimensional meridian balancing instrument, which can treat multiple meridians and acupoints through a multi-way output end, and can play a role in conditioning and treating diseases through a single physical therapy means.

The utility model aims to solve the technical problem still provide a multidimension main and collateral channels balancing instrument, accessible regulation voltage output rectangular pulse reaches definite direction, definite route, the balanced unobstructed of super resistance to obstructed main and collateral channels or acupuncture point to reach the good effect of taking care of treatment disease.

In order to solve the technical problem, the utility model provides a multi-dimensional meridian balancing instrument, which comprises a balancing instrument shell and a control circuit encapsulated in the balancing instrument shell, wherein the balancing instrument shell is provided with at least six groups of output ends for outputting pulse signals, and each group of output ends comprises a positive pulse output end and a negative pulse output end; the control circuit comprises a voltage regulating circuit, a pulse regulating circuit and a pulse output circuit, wherein the voltage regulating circuit divides a power supply into a plurality of paths of stable low-voltage power supplies by regulating voltage so as to control the pulse amplitude of a pulse signal, the pulse regulating circuit regulates the pulse time, the pulse frequency and the pulse width of the pulse signal, and the pulse output circuit outputs a plurality of groups of rectangular pulse signals with specific amplitude, time, frequency and broadband through an output end.

As an improvement of the above scheme, the voltage regulating circuit comprises a voltage stabilizing circuit and a power supply circuit; the input end of the voltage stabilizing circuit is connected with a power supply, and the voltage stabilizing circuit is used for performing electromagnetic compatibility and voltage stabilizing filtering processing on the power supply; the input end of the power supply circuit is connected with the output end of the voltage stabilizing circuit, and the power supply circuit is used for shunting the power supply processed by the voltage stabilizing circuit into a plurality of paths of low-voltage power supplies and controlling the pulse amplitude of the pulse signal by adjusting the voltage.

As an improvement of the scheme, the power supply circuit divides the power supply processed by the voltage stabilizing circuit into three paths of low-voltage power supplies.

As an improvement of the above scheme, the pulse adjusting circuit comprises a timing circuit and an oscillating circuit; the input end of the timing circuit is connected with the output end of the power supply circuit, and the timing circuit is used for adjusting pulse time; the input end of the oscillating circuit is connected with the output end of the power supply circuit, and the oscillating circuit is used for adjusting the pulse frequency and the pulse width.

As an improvement of the above aspect, the timing circuit includes: a timing sub-circuit for setting a pulse time; a cut-off sub-circuit for cutting off the low-voltage power supply for supplying power when the pulse time set by the timing sub-circuit is cut off; and the indicating sub-circuit is used for displaying the working state of the timing circuit.

As an improvement of the above scheme, the pulse output circuit includes at least six groups of output sub-circuits, each group of output sub-circuits includes an emitter follower, a transformer and an output electrode, and the output electrode includes a positive output electrode and a negative output electrode; the base electrode of the emitter follower is connected with the output end of the oscillating circuit, the collector electrode of the emitter follower is connected with the output end of the timing circuit, the emitter electrode of the emitter follower and the output end of the timing circuit are connected with the input end of the transformer, the output end of the transformer is connected with the positive output electrode and the negative output electrode, the positive output electrode is connected with the positive pulse output end, and the negative output electrode is connected with the negative pulse output end.

As an improvement of the scheme, every two groups of output sub-circuits are mutually linked to form a linkage output circuit, and when the pulse signal of any output electrode in the linkage output circuit is enhanced or weakened, the pulse signal of the other output electrode in the linkage output circuit is weakened or enhanced correspondingly.

As an improvement of the above scheme, the positive pulse output end and the negative pulse output end simultaneously contact the detection target, so that a directional pulse signal is formed.

As an improvement of the scheme, 6-28 groups of output ends for outputting pulse signals are arranged on the balancer shell.

As an improvement of the scheme, the frequency of the output electric pulse of the multi-dimensional meridian balancing instrument is continuously adjustable within 1-3 Hz, the amplitude of the output electric pulse is continuously adjustable within 10-480V, and the width of the output electric pulse is adjustable within 1-10 ms in multiple steps.

Implement the utility model discloses, following beneficial effect has:

the utility model discloses be equipped with six at least groups of outputs that are used for exporting pulse signal among the multi-dimensional main and collateral channels balancing instrument, can make things convenient for the doctor to treat many main and collateral channels, many acupuncture points simultaneously, can play the treatment disease effect of taking care of through single physiotherapy means to can realize that many diseases are treated simultaneously, the various demands of the clinical cure disease of fully provided medical treatment save treatment time and treatment cycle.

The utility model discloses well every group output includes anodal pulse output and negative pole pulse output, works as anodal pulse output and negative pole pulse output contact detection object simultaneously, then can form the directional pulse signal by anodal pulse output flow direction negative pole pulse output in the detection object to reach the orientation, decide the route to obstructed main and collateral channels or acupuncture point and stimulate.

The utility model discloses a undercurrent through the mode of voltage control pulse, has realized pulse amplitude, pulse frequency, pulse width's optimal combination, when needs increase pulse, need not the increase current, and electrical apparatus stable performance, good reliability, components and parts life are long, simultaneously, still can reach the balanced unobstructed of super resistance to the channel point of being obstructed, have the good effect of taking care of treatment disease.

The utility model discloses a rectangular pulse ripples for the energy that effectively pours into is higher, and pulse energy pours into the meridian of being obstructed evenly effectively, can produce the comfort that similar rubber hammer threw into.

Drawings

FIG. 1 is a schematic structural view of the multi-dimensional meridian balancing apparatus of the present invention;

FIG. 2 is a schematic structural diagram of a control circuit in the multi-dimensional meridian balancing apparatus according to the present invention;

FIG. 3 is a schematic structural diagram of a control circuit in the multi-dimensional meridian balancing apparatus according to a second embodiment of the present invention;

FIG. 4 is a circuit diagram of a voltage stabilizing circuit in the multi-dimensional meridian balancing apparatus of the present invention;

FIG. 5 is a circuit diagram of a power circuit in the multi-dimensional meridian balancing apparatus of the present invention;

FIG. 6 is a circuit diagram of the timing sub-circuit and the cutting sub-circuit in the multi-dimensional meridian balancing apparatus of the present invention;

FIG. 7 is a circuit diagram of an indicating sub-circuit in the multi-dimensional meridian balancing apparatus of the present invention;

FIG. 8 is a circuit diagram of an oscillating circuit in the multi-dimensional meridian balancing apparatus of the present invention;

fig. 9 is a circuit diagram of a pulse output circuit in the multi-dimensional meridian balancing apparatus of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

According to the theory of meridians and collaterals and yin and yang of traditional Chinese medicine, combining the modern bioelectronic motion balance theory, electronic vibration mechanics, electronic directional impact theory and traditional Chinese medicine meridians and collaterals theory, the utility model develops a multi-dimensional meridians and collaterals balancing instrument for conditioning and treating diseases, which is suitable for clinical application in large, medium and small medical units at all levels or family rehabilitation, health care, treatment, weight reduction, beauty treatment and the like.

Referring to fig. 1, fig. 1 shows a specific structure of the multi-dimensional meridian balancing apparatus of the present invention, which includes a balancing apparatus housing 1 and a control circuit packaged in the balancing apparatus housing 1. At least six groups of output ends (2a, 2b) used for outputting pulse signals are arranged on the balance instrument shell 1, and each group of output ends (2a, 2b) comprises a positive pulse output end 2a and a positive pulse output end 2 b. When the positive pulse output end 2a and the positive pulse output end 2b contact the detection target at the same time, a directional pulse signal can be formed in the detection target.

It should be noted that the treatment of diseases is an integrated process, and requires comprehensive regulation and treatment of multiple meridians and collaterals and multiple acupoints. The existing electronic physiotherapy instrument only considers treating diseases through a single meridian or acupuncture point in design, so that the number of output ports is small, and the aim of simultaneously treating multiple meridians and multiple acupuncture points cannot be fulfilled. Different from the prior art, the utility model discloses be equipped with six at least groups output (2a, 2b) that are used for output pulse signal in the multi-dimensional main and collateral channels balancing instrument, can make things convenient for the doctor to treat many main and collateral channels, many acupuncture points simultaneously, can play the treatment of taking care of disease effect through single physiotherapy means, broken the limitation of current electron physiotherapy instrument.

With the development of the traditional Chinese medicine channels and collaterals, the medical field realizes that the etiology and pathogenesis of diseases can be solved without depending on a plurality of groups of acupuncture points; the treatment of a single disease requires multiple meridians and collaterals and multiple acupoints, and different acupoints are matched according to different years, hours, sexes, ages and regions. The treatment of multiple diseases needs to be designed from the perspective of multidimensional channels and collaterals.

For example: the treatment of diabetes not only needs to reduce blood sugar and insulin resistance, but also needs to solve the problem of liver, spleen and kidney function recovery. The treatment of gout not only aims to solve the problems of high uric acid and crystallization of uric acid, but also aims to solve the problems of heart, liver, spleen, lung and kidney metabolism.

Therefore, the utility model discloses should bring, be equipped with six at least groups of output (2a, 2b) that are used for output pulse signal on the balancing instrument casing 1, preferably 8-28 groups, further preferred 8-18 groups, treat many main and collateral channels, many acupuncture points simultaneously through the multichannel output to the realization adopts singlely the utility model discloses multidimension main and collateral channels balancing instrument need not to cooperate other physiotherapy instruments, can play the treatment disease effect of taking care of.

However, if the number of the output ends of the existing balancing instrument is simply changed, the pulse needs to be increased due to the increase of the output ends, but the existing balancing instrument can only increase the pulse in a current increasing mode, so that the problems of unstable performance, poor reliability, poor safety, easy damage of components and the like of the electric appliance are caused. Moreover, the existing balancing instrument has a single function, cannot simultaneously realize the adjustment of pulse time, pulse frequency and pulse width, and cannot realize effective conduction on the blocked channels and acupoints through the optimized combination of pulse amplitude, pulse frequency and pulse width.

Therefore, the utility model discloses redesign the circuit of balancing appearance, made its adaptation in above-mentioned multiunit output pulse signal's output. Specifically, the utility model discloses well every group output (2a, 2b) is including positive pulse output 2a and positive pulse output 2b, works as positive pulse output 2a and positive pulse output 2b contact the detection target simultaneously, then can form the directional pulse signal by positive pulse output 2a flow direction positive pulse output 2b in the detection target. Therefore, the utility model can achieve the targeted stimulation of fixed direction and fixed route to the blocked channels and collaterals or acupuncture points.

As shown in fig. 2, the control circuit includes a voltage regulating circuit 3, a pulse regulating circuit 4, and a pulse output circuit 5. During operation, voltage regulating circuit 3 shunts power supply into the stable low voltage power of multichannel through the regulation voltage with control pulse signal's pulse amplitude, pulse regulating circuit 4 adjusts pulse signal's pulse time, pulse frequency and pulse width, pulse output circuit 5 passes through the rectangular pulse signal of the specific range of output, time, frequency of output multiunit and broadband.

The utility model discloses multidimensional main and collateral channels balancing instrument adopts brand-new integrated circuit technique, combines together voltage regulating circuit 3, pulse adjusting circuit 4 and pulse output circuit 5 and establishes the control circuit who has pulse regulatory function. Specifically, the utility model discloses a voltage regulation has realized pulse amplitude, pulse frequency, pulse width's optimal combination, can reach definite direction, definite route, the balanced unobstructed of super resistance to the channel acupoint that is obstructed to reach the good effect of taking care of treatment disease.

The current control pulse mode is generally adopted by the existing electronic physiotherapy instrument, when the pulse needs to be increased, the current can only be increased, the performance of the electric appliance is unstable, the reliability is poor, and components and parts are easy to damage. Different from the prior art, the utility model discloses a mode of regulating voltage realizes the adjustment of pulse, when needs increase pulse, need not increase current, and electrical apparatus stable performance, good reliability, components and parts life are long.

Meanwhile, in order to achieve the effect of imitating acupuncture, most of the existing electronic physiotherapy instruments adopt sharp pulses to stimulate acupuncture points or meridians, so that the acupuncture feeling is easily formed and the curative effect is poor. Different from the prior art, the utility model discloses after control circuit handles, can export stable rectangle pulse signal, adopt the rectangle pulse ripples for effectively the energy of pouring into is higher, and pulse energy pours into the meridian of being blocked evenly effectively into, can produce the comfort that similar rubber hammer was beaten.

In addition, voltage regulation circuit 3 shunts power supply to multichannel stable low voltage power supply through the regulation voltage, can guarantee treatment security and travelling comfort.

Preferably, referring to fig. 3-5, fig. 3-5 show the circuit principle of the medium voltage regulating circuit 3 of the present invention.

As shown in fig. 3, the voltage regulator circuit 3 includes a regulator circuit 31 and a power supply circuit 32. The input end of the voltage stabilizing circuit 31 is connected to a power supply, and the voltage stabilizing circuit 31 is used for performing electromagnetic compatibility and voltage stabilizing filtering processing on the power supply. The input end of the power circuit 32 is connected to the output end of the voltage stabilizing circuit 31, and the power circuit 32 is configured to shunt the power supply processed by the voltage stabilizing circuit into multiple low-voltage power supplies and control the pulse amplitude of the pulse signal by adjusting the voltage.

In the utility model, after the current power supply (and power supply) of 85V-265V/50-60Hz is connected to the input end of the voltage stabilizing circuit 31, the voltage stabilizing circuit 31 carries out electromagnetic compatibility and voltage stabilizing filtering to form a stable DC power supply; then, the dc power is output from the output terminal of the voltage stabilizing circuit 31 to the input terminal of the power circuit 32, and the power circuit 32 performs a shunting process on the dc power to shunt the dc power into three stable and reliable low voltage power supplies, wherein the voltages of the three low voltage power supplies are 24V, 12V and 5V, respectively. Therefore, the utility model discloses even adopt high voltage, instantaneous pulse current to be used for balanced unobstructed some resistance very high not leading to main and collateral channels, also can guarantee the inside safe power supply that adopts 1.3V-24V of balancing apparatus, further ensure treatment security and travelling comfort.

As shown in fig. 4, the voltage regulator circuit 31 can stably implement voltage filtering processing by an electromagnetic compatibility circuit and a voltage stabilizing filter circuit, and has high stability. Specifically, the utility model discloses well control chip LH60-20B24, adjustable resistor (MOV1/MOV2), thermistor (NTSC-1/MOV NTSC-2), resistance (RT1, RT2), fuse (F1/F2) and diode (TVS1/TVS2), each component interact, form stable electromagnetic compatibility circuit; meanwhile, the control chip (FC-LX1D2/LHE15-20B24), the adjustable resistor (MOV 3/MOV 4), the fuse (F3/F4) and the diode (TVS3/TVS4) interact with each other to form a stable voltage stabilizing filter circuit.

As shown in fig. 5, the power circuit 32 achieves effective regulation of voltage by the power management chips (U4, U5). It should be noted that the pulse amplitude refers to a value between the bottom and the top of the pulse wave, which is represented by the voltage intensity of the output pulse. Therefore, the voltage is adjusted by the power supply circuit 32, and the effective control of the pulse amplitude can be realized.

Specifically, the power circuit 32 combines a power management chip (U4/U5), electrolytic capacitors (C17, C19, C20, C21, C29/C23, C25, C26, C27, C30), capacitors (C18, C22/C24, C28), zener diodes (D10/D11), potentiometers (W1/W2) and resistors (R31-35/R41-R45) to realize stable pulse amplitude adjustment, and a user can realize flexible adjustment of pulse amplitude by adjusting voltage. Preferably, the pulse amplitude may be continuously adjustable in the range of 10-480V.

Referring to fig. 3, 6, 7 and 8, fig. 3, 6, 7 and 8 show the circuit principle of the pulse adjusting circuit 4 of the present invention.

As shown in fig. 3, the pulse adjusting circuit 4 includes a timing circuit 41 and an oscillation circuit 42. Specifically, the method comprises the following steps: the input end of the timing circuit 41 is connected with the output end of the power circuit 32, and the timing circuit 41 is used for adjusting the pulse time. The input end of the oscillation circuit 42 is connected to the output end of the power circuit 32, and the oscillation circuit 42 is used for adjusting the pulse frequency and the pulse width.

The utility model discloses in, among the three routes low voltage power that power supply circuit 32 exported, 24V low voltage power exports to timing circuit 41 and is used for supplying power to timing circuit 41, and 12V low voltage power exports to timing circuit 41, and 5V low voltage power exports to oscillating circuit 42.

Specifically, the timing circuit 41 includes a timing sub-circuit, a cut-off sub-circuit, and an indication sub-circuit.

As shown in fig. 6, the timing sub-circuit is used to set the pulse time, such as timing for 30 minutes, 60 minutes, or 90 minutes; the cut-off sub-circuit is used for cutting off the low-voltage power supply for supplying power when the pulse time set by the timing sub-circuit is cut off, namely, the cut-off sub-circuit can automatically cut off the 24V low-voltage power supply after the pulse time is cut off. Specifically, logic judgment is realized through the control chip U2 in the cut-off sub-circuit, and when the cut-off sub-circuit judges that the set timing of the timing sub-circuit is finished, the power supply is cut off immediately, so that accurate control of the pulse time is ensured. Preferably, after the timing is finished, the user may be notified by a buzzer.

As shown in fig. 7, the indication sub-circuit is used for displaying the operating status of the timing circuit, and the indication sub-circuit is provided with a plurality of light emitting diodes (LEDs 11-30) and a control chip U6, and the level status can be displayed in real time through the light emitting diodes (LEDs 11-30), so that the operating status can be displayed.

As shown in fig. 8, the oscillation circuit 42 includes a pulse frequency adjustment sub-circuit and a pulse width adjustment sub-circuit. Specifically, the method comprises the following steps:

the pulse frequency adjusting sub-circuit comprises a potentiometer W6 and a fixed resistor R13B, and the pulse frequency can be flexibly controlled by adjusting the potentiometer W6. Preferably, the pulse frequency is ultralow frequency (adjustable at 1-3 Hz).

The pulse width adjusting sub-circuit is provided with a selection switch SW1, and the corresponding channel (R21-R30) can be selected according to actual conditions through the selection switch SW1 to adjust the pulse width. Preferably, the instant pulse electrifying time is extremely short (1-10 ms ten-gear adjustable).

Further, the oscillation circuit 42 further includes a general modulation sub-circuit, and the general modulation of the pulse width and the pulse frequency of the pulse amplitude can be realized by the general modulation sub-circuit. Specifically, the general tone sub-circuit comprises a control chip U1 and a peripheral circuit, wherein the peripheral circuit is composed of a plurality of triodes, diodes, resistors, capacitors and other elements. The pulse signal output from the power circuit 32 is processed by the general modulation sub-circuit, the frequency modulation sub-circuit and the pulse width modulation sub-circuit, and then a stable pulse signal with a specific width, a specific frequency and a specific width can be formed.

Referring to fig. 3 and 9, fig. 3 and 9 show the circuit principle of the pulse output circuit 5 according to the present invention.

As shown in fig. 3, the pulse output circuit 5 includes at least six sets of output sub-circuits, each set of output sub-circuit includes an emitter follower D, a transformer T and output electrodes (a, B), the output electrodes (a, B) include a positive output electrode a and a negative output electrode B; the base of the emitter follower D is connected with the output end of the oscillating circuit 42, the collector of the emitter follower D is connected with the output end of the timing circuit 41, the emitter of the emitter follower D and the output end of the timing circuit 41 are connected with the input end of the transformer T, the output end of the transformer T is connected with the positive output electrode A and the negative output electrode B, the positive output electrode A is connected with the positive pulse output end 2a, and the negative output electrode B is connected with the positive pulse output end 2B.

It should be noted that, in the prior art, one transformer is usually adopted to control all output terminals simultaneously, and the circuit structure is complex, so that the volume of the balancing instrument is increased. What is different from the prior art, the utility model discloses in, a set of output electrode corresponds a transformer, and whole circuit structure is more succinct, when guaranteeing that a plurality of transformers realize multichannel vary voltage, the volume of balancing instrument also significantly reduces. And simultaneously, the utility model discloses in through the isolation of transformer, can realize high-voltage pulse's safe output, stopped the possibility of electric leakage.

As shown in fig. 9, each two sets of output sub-circuits are interlocked with each other to form a interlocked output circuit. When the pulse signal of any output electrode in the linkage output circuit is enhanced, the pulse signal of the other output electrode in the linkage output circuit is weakened; when the pulse signal of any output electrode in the linkage output circuit is weakened, the pulse signal of the other output electrode in the linkage output circuit is strengthened.

As can be seen from fig. 9, the present invention has 14 sets of output sub-circuits, each set of output sub-circuit includes 1 emitter follower, 1 transformer, 1 positive output electrode (Q1-1.14C), and 1 negative output electrode (D0-1.14-), wherein one set of output electrodes (Q1-1.14C and D0-1.14-) corresponds to one transformer; meanwhile, 7 groups of linkage output circuits are formed in total, and two groups of output sub-circuits in the same linkage output circuit are linked with each other, so that the flexibility is strong.

The frequency of output electric pulses of the multi-dimensional meridian balancing instrument is continuously adjustable within 1-3 Hz, the amplitude of the output electric pulses is continuously adjustable within 10-480V, the width of the output electric pulses is adjustable within multiple steps of 1-10 ms, the safety of a product can be guaranteed, and the energy of the electric pulses is effectively injected into non-conducted meridians of a patient.

To sum up, the utility model discloses multi-dimensional main and collateral channels balancing instrument has following characteristics:

1. ultra-high pressure pulse therapy:

the utility model discloses multi-dimensional main and collateral channels balancing instrument compares with other therapeutic apparatus, so have more showing curative effect, its main key is nearly 500 volts of high voltage, instantaneous pulse current are used for balancing unobstructed some resistance super high not leading to the main and collateral channels.

2. Treatment safety and comfort:

for the safety of guaranteeing patient when the treatment, the utility model discloses an ultralow frequency (1 ~ 3Hz is adjustable), rectangular pulse ripples (10 ~ 480V is adjustable), because instantaneous pulse circular telegram time is extremely short (1 ~ 10ms is adjustable), the average total power that patient received is minimum (about 0.5W at most), average total current is minimum (about 6mA), is less than human safe electric current (20 ~ 30mA), not only does not have any danger, and these electric pulse energy pour into the main and collateral channels that the patient does not switch on effectively into moreover.

3. Therapeutic efficacy and comfort:

at present, waveforms generated by a 'meridian guiding instrument', a 'meridian conduction instrument', a 'plane guiding instrument' and the like in the market are sharp pulses, and the like, the electronic sharp pulses replace acupuncture, so that the effective injection energy is low, and the treatment effect is poor; and because the therapeutic pulse is injected non-uniformly, the result of stabbing pain and poor curative effect is easily formed. The product adopts rectangular pulse waves, and the effective injection energy is high; and the electric pulse energy is effectively and uniformly injected into the blocked channels and collaterals, so that the patient does not feel any discomfort and only generates the comfortable sensation similar to that of hammering by a rubber hammer.

4. High voltage-stabilizing and high-reliability output

The utility model discloses power input scope is from 100 ~ 240VAC 50 ~ 60Hz, and compatible china, japan and the national family electricity of Europe and America use electricity, and this machine power output is stable unchangeable, and need not do any setting and change, overcomes some products in the past sometimes unstable or the voltage can't the defect of treatment when crossing excessively completely.

5. Product self-security

The safety voltage (5-24V) is adopted in the product, so that absolute safety can be guaranteed, and no electric leakage occurs; the therapeutic electrode part contacting with the channels and collaterals of the focus of the patient adopts a high-voltage pulse transformer to isolate the output, thereby avoiding the possibility of electric leakage. In addition, even if the output electrode is completely short-circuited, the power supply cannot be overheated, and the safety of the product is ensured.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (10)

1. A multi-dimensional meridian balancing instrument comprises a balancing instrument shell and a control circuit packaged in the balancing instrument shell, and is characterized in that at least six groups of output ends used for outputting pulse signals are arranged on the balancing instrument shell, and each group of output ends comprises a positive pulse output end and a negative pulse output end;

the control circuit comprises a voltage regulating circuit, a pulse regulating circuit and a pulse output circuit, wherein the voltage regulating circuit divides a power supply into a plurality of paths of stable low-voltage power supplies by regulating voltage so as to control the pulse amplitude of a pulse signal, the pulse regulating circuit regulates the pulse time, the pulse frequency and the pulse width of the pulse signal, and the pulse output circuit outputs a plurality of groups of rectangular pulse signals with specific amplitude, time, frequency and broadband through an output end.

2. The multi-dimensional meridian balancing apparatus of claim 1, wherein the voltage regulating circuit includes a voltage regulator circuit and a power circuit;

the input end of the voltage stabilizing circuit is connected with a power supply, and the voltage stabilizing circuit is used for performing electromagnetic compatibility and voltage stabilizing filtering processing on the power supply;

the input end of the power supply circuit is connected with the output end of the voltage stabilizing circuit, and the power supply circuit is used for shunting the power supply processed by the voltage stabilizing circuit into a plurality of paths of low-voltage power supplies and controlling the pulse amplitude of the pulse signal by adjusting the voltage.

3. The multi-dimensional meridian balancer of claim 2, wherein the power circuit divides the power supply processed by the voltage regulator circuit into three low-voltage power supplies.

4. The multi-dimensional meridian balancing apparatus of claim 2, wherein the pulse adjusting circuit includes a timing circuit and an oscillating circuit;

the input end of the timing circuit is connected with the output end of the power supply circuit, and the timing circuit is used for adjusting pulse time;

the input end of the oscillating circuit is connected with the output end of the power supply circuit, and the oscillating circuit is used for adjusting the pulse frequency and the pulse width.

5. The multi-dimensional meridian balancing apparatus of claim 4, wherein the timing circuit includes:

a timing sub-circuit for setting a pulse time;

a cut-off sub-circuit for cutting off the low-voltage power supply for supplying power when the pulse time set by the timing sub-circuit is cut off;

and the indicating sub-circuit is used for displaying the working state of the timing circuit.

6. The multi-dimensional meridian balancer of claim 4, wherein the pulse output circuit includes at least six sets of output sub-circuits, each set of output sub-circuits including an emitter follower, a transformer, and an output electrode, the output electrode including a positive output electrode and a negative output electrode;

the base electrode of the emitter follower is connected with the output end of the oscillating circuit, the collector electrode of the emitter follower is connected with the output end of the timing circuit, the emitter electrode of the emitter follower and the output end of the timing circuit are connected with the input end of the transformer, the output end of the transformer is connected with the positive output electrode and the negative output electrode, the positive output electrode is connected with the positive pulse output end, and the negative output electrode is connected with the negative pulse output end.

7. The multi-dimensional meridian balancing apparatus of claim 6, wherein each two sets of output sub-circuits are linked to each other to form a linkage output circuit, and when the pulse signal of any one output electrode of the linkage output circuit is increased or decreased, the pulse signal of the other output electrode of the linkage output circuit is decreased or increased accordingly.

8. The multi-dimensional meridian balancing apparatus of claim 1, wherein the positive pulse output terminal and the negative pulse output terminal simultaneously contact a detection target, thereby forming a directional pulse signal.

9. The multi-dimensional meridian balancing apparatus of claim 1, wherein the balancing apparatus housing is provided with 6-28 sets of output terminals for outputting pulse signals.

10. The multi-dimensional meridian balancing instrument according to claim 1, wherein the frequency of the output electric pulses of the multi-dimensional meridian balancing instrument is continuously adjustable within 1 to 3Hz, the amplitude of the output electric pulses is continuously adjustable within 10 to 480V, and the width of the output electric pulses is adjustable within 1 to 10ms for multiple steps.

Images