CN206325120U - Transcutaneous electrical stimulation electrode needle, transcutaneous electrical stimulation device - Google Patents

Abstract

The utility model provides a kind of transcutaneous electrical stimulation electrode needle and transcutaneous electrical stimulation device, and the transcutaneous electrical stimulation electrode needle includes：The first electrode and second electrode for inputting opposed polarity pulsed current signal respectively are provided with needle handle, the needle handle；It is connected at least one first needle body and at least one second needle body on the needle handle, first needle body and second needle body include first end and the second end, the first end of wherein described first needle body is electrically connected with the first electrode, the first end of second needle body is electrically connected with the second electrode, make it that between the second end of first needle body and the second end of second needle body electric field can be produced.The utility model is provided with least two needle bodies, and the pulsed current signal of opposed polarity can be inputted on two needle bodies respectively, so as to produce the electric field of short distance between two needle bodies, electro photoluminescence is carried out to teleneuron, human body can be reduced for the inadaptable of electric current, electronic stimulation effect is lifted.

Description

Transcutaneous electrical stimulation electrode needle, transcutaneous electrical stimulation device

Technical field

The utility model is related to technical field of medical instruments, especially designs a kind of transcutaneous electrical stimulation electrode needle, percutaneous Nerve electric stimulation device.

Background technology

Transcutaneous electrical stimulation therapy (Transcuataneous Electrical Nerve Stimulation, referred to as TENS) (peripheral nerve crude fibre electrical stimulating therapy) is to input human body to treat pain by specific low frequency pulse current by skin The electrotherapeutic method of pain.This is a kind of diathermy risen the seventies, and preferable effect is received in terms of analgesic, thus clinically (especially in the U.S.) is widely used.TENS therapies and the difference of traditional neural stimulation therapy are：Traditional electricity Stimulate, mainly stimulus movement fiber；And TENS is then sensation fiber and is designed.

In all diseases of the mankind, there is 63% can voluntarily be restored by the biological energy source of the mankind in itself, 21% must rely on medicine Thing is treated, and remaining 16% is only the part that no medicine can be cured.The utility model of transcutaneous electrical stimulation (TENS), can recall certainly During ancient Roman, doctor treats headache and the arthritis of people with electric eel.Until before many decades after utility model machinery, Ren Mencai Electric eel therapy before departing from, is exported using relatively stable electric current, is more effectively treated.

So-called percutaneous formula nerve electric stimulation is exactly " electrical therapy ".So-called electrical therapy, is by appropriate intensity frequency Electric current, continuous, soft stimulation nerve, muscle and cell excite body to produce morphine naturally, blocks, the news for pain of releiving Breath.Because it is used electrically, a ring of " naturopathy " is also categorized as.Nerve irritation therapy promotees to health Enter with the value of physical treatment nearly ten years, the application of nerve irritation therapy has no longer only been confined to the function of analgesic, Scientist has found that micro, approximating anatomy electric current can also stimulate regeneration.Regeneration is a series of heat energy and electricity Chemistry is reacted, that is to say, that, it is necessary to a small amount of electric signal during cytothesis, as carrying out needed for regenerative process Energy.

The pioneer Dr.Robert O.Becker of nerve irritation therapy are with countless clinical researches, it was confirmed that micro-current Effect of therapy.It is relevant with human body recovery mechanisms that he delivers internal direct current electric signal first.He has found, utilizes current characteristics Nerve irritation therapy, handles the regeneration of lymph, promotes wound to restore and control pain, can play great help.

At present, the stimulating electrode used in transcutaneous electrical stimulation device is generally patch electrode, is stimulated in epidermis, The later traditional Chinese medical science is quoted, and using acupuncture needle as stimulating electrode, low frequency pulse current is inputted on acupuncture needle, to utilize the end of acupuncture needle End increase electrode stimulating, obtains good medical effect, and obtain the accreditation of traditional medical.

But, low frequency pulse current is inputted using acupuncture needle, is all that driving produces pulse stimulating current, this unipolarity The needle stimulus of pulse can cause electrochemistry to damage, and can destroy the autologous comprehensive physiological equilibrium of human body, cause internal sodium potassium etc. to occur Irreversible change, due to being pulse stimulating current, conducts, the size of pin pulse current between meeting and pin periphery tissue It can be restricted, the electric current very little to be controlled, if electric current, which crosses conference, causes skin electric injury, easily produce the spasm of muscle, cause Break in pin or other symptoms, and different people is very different for the adaptability of voltage；And electric current is too small, electro photoluminescence Therapeutic effect is poor.

Utility model content

The utility model provides a kind of transcutaneous electrical stimulation electrode needle, transcutaneous electrical stimulation device, can reduce Human body improves therapeutic effect for the inadaptable of electric current.

Technical scheme provided by the utility model is as follows：

A kind of transcutaneous electrical stimulation electrode needle, including：

The first electrode and second for inputting opposed polarity pulsed current signal respectively is provided with needle handle, the needle handle Electrode；

And, it is connected at least one first needle body and at least one second needle body, first pin on the needle handle Body and second needle body include first end and the second end, wherein the first end of first needle body and first electrode electricity Connection, the first end of second needle body is electrically connected with the second electrode, to cause the second end and the institute of first needle body Electric field can be produced between the second end for stating the second needle body.

Further, the length of first needle body is more than the length of second needle body.

Further, the second end of first needle body is in tip-like, for being pierced into skin；

Second end of second needle body includes an electrode retaining collar for being used to be attached to the ring-type of skin surface, and first pin Body is located in the electrode retaining collar, enable to the second end of first needle body and second needle body electrode retaining collar it Between produce electric field.

Further, the length of first needle body is identical with the length of second needle body, and first needle body Second end and the second end of second needle body are in tip-like.

Further, there is the first spacing distance, first interval between first needle body and second needle body The span of distance is 0.2~2mm.

Further, first needle body and second needle body are one group of needle body, are set on the needle handle It is equipped with least two groups needle bodies.

Further, at least two groups needle bodies are in polygonal array, and each group of needle body is separately positioned on the polygon Diagonal position on.

Further, two groups of needle bodies are provided with the needle handle, two groups of needle bodies are arranged in corner prismatic.

Further, have between two needle bodies being located at least two groups needle bodies on two adjacent angles of the polygon Second spacing distance, the span of second spacing distance is 0.2~2mm.

Further, at least one in first needle body and second needle body is arranged on by length adjustment mechanism On the needle handle, adjusted with the length for enabling it to stretch out the needle handle.

Further, magnet coil is wound with the needle handle, the two ends of the magnet coil are electric with described first respectively Pole and second electrode electrical connection.

A kind of transcutaneous electrical stimulation device, including：

Pulse signal generating mechanism, including for two output ends of the pulsed current signal for exporting opposed polarity respectively；

And, transcutaneous electrical stimulation electrode needle as described above, in the needle handle of the transcutaneous electrical stimulation electrode needle First electrode and second electrode electrically connected respectively with two output ends of the pulse signal generating mechanism.

Further, the pulse signal generating mechanism includes：

Power supply, for providing AC power；

The commutation controller being connected with the power supply, for exporting sine-wave current；

The control unit being connected with the commutation controller, the output sine-wave current for controlling the commutation controller Output state, the output frequency and size of current of the output state including the sine-wave current；

And, the pulse signal generator being connected with the commutation controller, for receiving the commutation controller output Sine-wave current, and produce pulsed current signal.

Further, the pulse signal generating mechanism also includes：

Acquiring unit, for obtaining feedback information of the patient under the electro photoluminescence of current preset pulsed current signal；

Wherein described control unit is also connected with the acquiring unit, for the feedback information according to the acquiring unit, Control the output state of the output sine-wave current of the commutation controller.

Further, the acquiring unit includes：

Brain wave monitor, for obtaining brain wave letter of the patient under the electro photoluminescence of current preset pulsed current signal Number, and generate the first feedback signal send to described control unit；

And/or,

Infra-red vidicon, it is in place for obtaining electrode needle institute of the patient under the electro photoluminescence of current preset pulsed current signal Place's skin surface state is put, and generates the second feedback signal and is sent to described control unit.

The beneficial effects of the utility model are as follows：

At least two needle bodies, and two needle bodies are provided with transcutaneous electrical stimulation electrode needle provided by the utility model On can input the pulsed current signal of opposed polarity respectively so that between two needle bodies produce short distance electric field, to nerve End carries out electro photoluminescence, and compound acupuncture physiotherapy reaches the field effect physiotherapy of 3D a kind of；Because the electric field of short distance can be to stimulating The end of nerve carries out effective closed loop stimulation, and two needle bodies of setting can export electric current in time so that galvanism can To control in the shorter time, human body can be reduced for the inadaptable of electric current, and because electric current can be exported in time, and only Conducted between two needle bodies, pessimal stimulation will not be produced to other positions of human body, with pulse electro photoluminescence side in the prior art Formula is compared, and size of current can be bigger, so as to lift electronic stimulation effect.

Brief description of the drawings

Fig. 1 represents the structural representation of the first embodiment of transcutaneous electrical stimulation electrode needle provided by the utility model Figure；

Fig. 2 represents the structural representation of second of embodiment of transcutaneous electrical stimulation electrode needle provided by the utility model Figure；

Fig. 3 represents the structural representation of the third embodiment of transcutaneous electrical stimulation electrode needle provided by the utility model Figure；

Fig. 4 represents Fig. 3 upward view；

Fig. 5 represents the structural representation of the 4th kind of embodiment of transcutaneous electrical stimulation electrode needle provided by the utility model Figure；

Fig. 6 represents the structured flowchart of transcutaneous electrical stimulation device provided by the utility model.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belongs to the scope of the utility model protection.

It is that electro photoluminescence is carried out using single-pulse current signal for transcutaneous electrical stimulation device in the prior art, exists The problems such as being also easy to produce uncomfortable human body and poor therapeutic effect, the utility model provides a kind of transcutaneous electrical stimulation device, energy Enough reduction human bodies improve electronic stimulation effect for the inadaptable of electric current.

As shown in Figures 1 to 5, a kind of transcutaneous electrical stimulation electrode needle is provided in the utility model embodiment, including：

The first electrode for inputting opposed polarity pulsed current signal respectively is provided with needle handle 100, the needle handle 100 And second electrode；

And, it is connected at least one the first needle body 201 and at least one second needle body 202, institute on the needle handle 100 Stating the first needle body 201 and second needle body 202 includes first end and the second end, wherein the first of first needle body 201 End is electrically connected with the first electrode, and the first end of second needle body 202 is electrically connected with the second electrode, described to cause Electric field can be produced between second end of the first needle body 201 and the second end of second needle body 202.

At least two needle bodies are provided with transcutaneous electrical stimulation electrode needle provided by the utility model, i.e. the first pin The needle body 202 of body 201 and second, and the pulsed current signal of opposed polarity, impulse generator can be inputted on two needle bodies respectively The pulse current of some cycles is sent, is flowed into by the first electrode for entering needle handle 100, second electrode outflow, in use, first Second terminal spine of at least one needle body enters below epidermis in the needle body 202 of needle body 201 and second, and the of the needle body of two close proximities Short distance closed loop electric microfield is produced between two ends, promotes the change that electric microfield occurs at acupuncture point, so as to stimulate the acupuncture point of correlation.

According to biological point position control principle, nerve to occur potential change is stimulated using short distance electric microfield, certain nerve is utilized Fluctuation such as Alpha's α ripples adjust out the stimulation of matrix ripple, and matrix ripple is advantageous in that the change of ripple can control continuation, by holding The length adjustment of continuous property can control human body for the tolerance of electric field, and the change of matrix ripple can reach effective than larger Change is stimulated, and produces a certain amount of control, is stimulated for of short duration high potential, can be reached that the effect reached is wanted in treatment, and It is very of short duration, it is ensured that the tolerance of body.For wavelength length change can in accordance with certain music ripple change, lead to The electric pulse for crossing test music ripple is more efficient for the fragrance of nerve.

In the utility model, it is advantageous in that using short distance electric field, the post-stimulatory effective loop of electric current is shorter, Ke Yi Electric current is guided after stimulation, the stimulation to nerve is prevented effectively from, and without the direct of human body heart and brain and other portion of electrical current Stimulate, reduce human injury, improve security feature.

In addition, short distance closed loop acupoint stimulation can reduce the electrochemistry damage to nerve fibre, and by setting at least two Electrode, then can ensure the overall charge balance of the pulse applied in single electrode, that is, ensure any time on nerve fibre The overall amount of electrostatic charge passed through is zero, also, short distance closed loop acupoint stimulation can reduce the neural fatigue produced in stimulation and show As that can there is orientation to stimulate nerve, control the change of nervous excitation.Only beneficial nerve stimulation just can be for treating To beneficial effect, neural stimulation can not only adjust sensation of pain, and can improve the secretion of hormone, by stimulating Hypothalamus, can adjust the secretion of hormone, be adjusted from the health generally to body, and the stimulation of orientation, can be right The weak and nerve fiber degeneration of nerve has certain inhibitory action.

As can be seen here, the electric current that transcutaneous electrical stimulation electrode needle provided by the utility model is produced after needle body energization In the presence of the short distance closed loop electric microfield acupuncture needle that produces can play promotion cell metabolism, promote the nerve cell of diseased region Current potential recovers normal alignment, and a kind of electric field of short distance carries out electro photoluminescence to teleneuron, and compound acupuncture physiotherapy reaches a kind of 3D's Field effect physiotherapy；Also, because the electric field of short distance can carry out effective closed loop stimulation to the end for stimulating nerve, setting Two needle bodies can export electric current in time so that galvanism can control that, in the shorter time, human body pair can be reduced In the inadaptable of electric current；Further, since electric current can be exported in time, and conducted only between two needle bodies, without to human body its He produces pessimal stimulation in position, compared with pulse electrical stimulus patternses in the prior art, and size of current can be bigger, so as to carry Rise electronic stimulation effect.

It should be noted that in transcutaneous electrical stimulation electrode needle provided by the utility model, the needle handle 100 can Being made of materials such as ceramics, the first electrode and the second electrode are set in the inside of the needle handle 100, and And, it is preferred that as shown in figures 1 and 3, magnet coil 1001, and the magnet coil 1001 are wound with the needle handle 100 Two ends connect the first electrode and the second electrode respectively, to cause in the first electrode and the second electrode When inputting the pulse current of opposite polarity, the magnet coil 1001 can produce electromagnetic field.Thus, can be in the institute of needle handle 100 Under the collective effect for the electric current that the magnetic field of generation and needle body are produced after being powered, more preferable physiotheraping effect is reached.

It should be noted that in transcutaneous electrical stimulation electrode needle provided by the utility model, the magnet coil The first electrode that 1001 first electrodes connected and first needle body 201 are connected can be same electrode, can also It is two electrodes individually set, similarly, second electrode that the magnet coil 1001 is connected and second pin The second electrode that body 202 is connected can be same electrode or two electrodes individually setting.

Illustrate several preferred embodiments of the needle body of transcutaneous electrical stimulation electrode needle provided by the utility model below.

Embodiment 1

The structure that Fig. 1 show the first embodiment of transcutaneous electrical stimulation electrode needle provided by the utility model is shown It is intended to.As shown in figure 1, the transcutaneous electrical stimulation electrode needle that the present embodiment is provided includes：

The first electrode for inputting opposed polarity pulsed current signal respectively is provided with needle handle 100, the needle handle 100 With second electrode (accompanying drawing is unmarked)；And, it is connected at least one first needle body 201 and at least one on the needle handle 100 Individual second needle body 202, first needle body 201 and second needle body 202 include first end and the second end, wherein described the The first end of one needle body 201 is electrically connected with the first electrode, first end and the second electrode electricity of second needle body 202 Connection, wherein, the length of first needle body 201 is more than the length of second needle body 202, to cause first needle body Longitudinal electric field can be produced between 201 the second end and the second end of second needle body 202.

When the transcutaneous electrical stimulation electrode needle provided using the present embodiment is applied acupuncture, the first longer pin of length Second end of body 201 can be pierced into below skin, and the second end of the second shorter needle body 202 of length can then be close to skin table Face, can be in the first needle body 201 and second when by the pulsed current signal that opposite polarity is inputted in first electrode and second electrode Longitudinal electric field is produced between second end of needle body 202.

In the present embodiment, it is preferred that as shown in figure 1, the second end of first needle body 201 is in tip-like, for piercing Enter skin；Second end of second needle body 202 includes an electrode retaining collar 2020 for being used to be attached to the ring-type of skin surface, and described First needle body 201 is located in the electrode retaining collar 2020, is enabled at the second end of first needle body 201 and described Electric field is produced between the electrode retaining collar 2020 of two needle bodies 202.

In above-mentioned optimal technical scheme, the second end of the first longer needle body 201 of length is tip-like, is easy to be pierced into skin Below skin, and the second end of the second shorter needle body 202 of length is designed as ring-type, and its shape can be annular shape, enter the hand-manipulating of needle During moxibustion, the electrode retaining collar 2020 at the second end of the second needle body 202 can be close to skin surface, when first electrode and second is electric During the pulsed current signal of extremely upper input opposite polarity, can skin surface electrode retaining collar 2020 with through the electrode retaining collar 2020 Longitudinal electric field is produced between the second end (needle tip) of first needle body 201.

Using above-mentioned optimal technical scheme, the second end of second needle body 202 is designed as ring-type, on the one hand can be subtracted On the other hand small surface can increase the longitudinal direction electricity produced between the first needle body 201 and the second needle body 202 to skin surface injuries The scope of field.

It should be noted that the transcutaneous electrical stimulation electrode needle provided in the present embodiment can be used for skin thickness compared with Thickness, the more insensitive region of nerve ending, can lead to slightly larger electric current, typically in 90mA or so.

In order to be adapted to different patients, in the preferred scheme that the present embodiment is provided, first needle body 201 and described At least one in second needle body 202 is arranged on the needle handle 100 by length adjustment mechanism, make it that it stretches out the pin The length of handle 100 can be adjusted.

Using above-mentioned preferred scheme, needle handle 100 is stretched out by adjusting first needle body 201 and second needle body 202 Length, the fore-and-aft distance between the second end of the first needle body 201 and the electrode retaining collar 2020 of second needle body 202 can be caused It is adjustable, to be applicable different patients., can be by the length adjustment mechanism by the first needle body if patient skin is thicker The adjustment of the distance between 201 the second end and electrode retaining collar 2020 of second needle body 202 it is slightly larger, and if patient skin compared with It is thin, then can be by the length adjustment mechanism by the electrode retaining collar of the second end of the first needle body 201 and second needle body 202 The distance between 2020 adjustment it is slightly smaller.

Specifically, in the present embodiment, it is preferred that the length adjustment mechanism can include：

It is arranged on the movable passageway in the needle handle 100；

It is arranged on the sliding block in the movable passageway, the first of first needle body 201 and/or second needle body 202 End is stretched into the movable passageway, and is connected with the sliding block；

And, the position limiting structure of the shift position for limiting the sliding block.

In such scheme, a movement communicated with the movable passageway can be opened up on the periphery of the needle handle 100 Groove, the sliding block is protruded from outside the shifting chute, is easy to operation.When needing regulation first needle body 201 and/or described second During the length of needle body 202, the sliding block is promoted, you can so that the sliding block is moved in the movable passageway, it is described to drive The second end movement of first needle body 201 and/or second needle body 202, after the sliding block is moved on predeterminated position, then It is carried out using the position limiting structure it is spacing, so as to realize to first needle body 201 and/or second needle body The adjustment of 202 length stretched out outside the needle handle 100.

It should be noted that the above is only a kind of preferred embodiment of the length adjustment mechanism, in actual applications, The length adjustment mechanism can also be realized using other modes, to this without limiting.

In addition it is also necessary to explanation, in the present embodiment, it is preferred that first needle body 201 and second needle body There is the first spacing distance, the span of first spacing distance is 0.2~2mm between 202.

Embodiment 2

The structure that Fig. 2 show second of embodiment of transcutaneous electrical stimulation electrode needle provided by the utility model is shown It is intended to.As shown in Fig. 2 the transcutaneous electrical stimulation electrode needle that the present embodiment is provided includes：

The first electrode for inputting opposed polarity pulsed current signal respectively is provided with needle handle 100, the needle handle 100 And second electrode；And, it is connected at least one the first needle body 201 and at least one second needle body on the needle handle 100 202, first needle body 201 and second needle body 202 include first end and the second end, wherein first needle body 201 First end electrically connected with the first electrode, the first end of second needle body 202 is electrically connected with the second electrode, its In, the length of first needle body 201 is identical with the length of second needle body 202, to cause the of first needle body 201 Can produce transverse electric field between two ends and the second end of second needle body 202, and the second end of first needle body 201 and Second end of second needle body 202 is in tip-like.

When the transcutaneous electrical stimulation electrode needle provided using the present embodiment is applied acupuncture, the first needle body 201 and Second end of two needle bodies 202 can be pierced into below skin, when the arteries and veins by opposite polarity is inputted in first electrode and second electrode When rushing current signal, parallel transverse electric field can be produced between the second end of the first needle body 201 and the second needle body 202.This reality Apply the transcutaneous electrical stimulation electrode needle that example provided and can be used for the stimulation of stimulating acupoint neurological levels.

It should be noted that in order to be adapted to different patients, in the preferred scheme that the present embodiment is provided, described first At least one in needle body 201 and second needle body 202 is arranged on the needle handle 100 by length adjustment mechanism, so that Obtaining its length for stretching out the needle handle 100 can be adjusted.

Using above-mentioned preferred scheme, needle handle 100 is stretched out by adjusting first needle body 201 and second needle body 202 Length, the fore-and-aft distance between the second end of the first needle body 201 and the electrode retaining collar 2020 of second needle body 202 can be caused It is adjustable, to be applicable different patients., can be by the length adjustment mechanism by the first needle body if patient skin is thicker The adjustment of the distance between 201 the second end and electrode retaining collar 2020 of second needle body 202 it is slightly larger, and if patient skin compared with It is thin, then can be by the length adjustment mechanism by the electrode retaining collar of the second end of the first needle body 201 and second needle body 202 The distance between 2020 adjustment it is slightly smaller.

Specifically, in the present embodiment, it is preferred that the length adjustment mechanism can include：

It is arranged on the movable passageway in the needle handle 100；

It is arranged on the sliding block in the movable passageway, the first of first needle body 201 and/or second needle body 202 End is stretched into the movable passageway, and is connected with the sliding block；

And, the position limiting structure of the shift position for limiting the sliding block.

In such scheme, a movement communicated with the movable passageway can be opened up on the periphery of the needle handle 100 Groove, the sliding block is protruded from outside the shifting chute, is easy to operation.When needing regulation first needle body 201 and/or described second During the length of needle body 202, the sliding block is promoted, you can so that the sliding block is moved in the movable passageway, it is described to drive The second end movement of first needle body 201 and/or second needle body 202, after the sliding block is moved on predeterminated position, then It is carried out using the position limiting structure it is spacing, so as to realize to first needle body 201 and/or second needle body The adjustment of 202 length stretched out outside the needle handle 100.

It should be noted that the above is only a kind of preferred embodiment of the length adjustment mechanism, in actual applications, The length adjustment mechanism can also be realized using other modes, to this without limiting.

In addition it is also necessary to explanation, in the present embodiment, it is preferred that first needle body 201 and second needle body There is the first spacing distance, the span of first spacing distance is 0.2~2mm between 202.

Embodiment 3

Fig. 3 and Fig. 4 show the third embodiment of transcutaneous electrical stimulation electrode needle provided by the utility model Structural representation.As shown in Figure 3 and Figure 4, the transcutaneous electrical stimulation electrode needle that the present embodiment is provided includes：

The first electrode for inputting opposed polarity pulsed current signal respectively is provided with needle handle 100, the needle handle 100 And second electrode；And, it is connected at least one the first needle body 201 and at least one second needle body on the needle handle 100 202, first needle body 201 and second needle body 202 include first end and the second end, and the of first needle body 201 One end is electrically connected with the first electrode, and the first end of second needle body 202 is electrically connected with the second electrode, wherein, one Individual first needle body 201 and second needle body 202 are one group of needle body, and at least two are provided with the needle handle 100 Group needle body.

Using such scheme, at least two groups needle bodies are provided with the needle handle 100, except two pins in each group of needle body It can be produced between body outside electric field, electric field can also be produced between two groups of adjacent needle bodies, so that in acupuncture, can be in people Compound field is formed in vivo.When alloy material manufacture first needle body 201 and second needle body 202 using different resistances When,, can by hot pin and acusector Co stituation by the metal resistance for increasing subcutaneous position, it is possible to produce the syringe needle of heating There is certain therapeutic action with the pain to rheumatism and some typhoid fever prolonged illness.

In the present embodiment, it is preferred that as shown in Figure 3 and Figure 4, at least two groups needle bodies are in polygonal array, each Group needle body is separately positioned on the polygonal diagonal position.

Using such scheme, because two needle bodies are separately positioned on polygonal diagonal position in every group of needle body, intersect Use, when applying acupuncture, the compound field that can be formed in human body is in alternative form, can produce certain fuel factor, right Rheumatic lumbocrural pain remission effect is more preferable.

As shown in Figure 3 and Figure 4, in a kind of specific embodiment that the utility model is provided, it is provided with the needle handle 100 Two groups of needle bodies, two groups of needle bodies are arranged in corner prismatic, wherein the He of the first needle body 201 in two groups of needle bodies in each group of needle body Second needle body 202 is separately positioned on the diagonal position of the corner prismatic.

It should be noted that in other embodiment of the present utility model, described states be also provided with two on needle handle 100 Group is with upper pin, for example：It is provided with three groups of needle bodies, the hexagonal arrangement of three groups of needle bodies, wherein the first needle body of same group of needle body 201 and second needle body 202 be located at hexagon diagonal position.

It should also be noted that, in the above-described embodiments, the number of the needle body on the needle handle 100 is even number, in this reality With in new other embodiment, the number of the needle body on the needle handle 100 can also be in odd number, and odd number needle body at least Including first needle body 201 and second needle body 202, for example：Three needle bodies are provided with the needle handle 100, wherein Two the first needle bodies 201 and second needle body 202, and the second needle body 202 is located at the position between two the first needle bodies 201, Make it that two the first needle bodies 201 can produce short distance electric field between second needle body 202.

In addition it is also necessary to which in explanation, the present embodiment, the first needle body 201 and the second needle body 202 in each group needle body can , can also be using provided in embodiment 2 to use the first needle body 201 and the second needle body 202 provided in embodiment 1 The first needle body 201 and the second needle body 202, in addition, as shown in figure 5, can with it is at least one set of be provided using embodiment 1 the One needle body 201 and the second needle body 202, at least another group using the first needle body 201 and the second needle body provided in embodiment 2 202。

In addition, being located at two pins on two adjacent angles of the polygon in the present embodiment, at least two groups needle bodies There is the second spacing distance, the span of second spacing distance is 0.2~2mm between body.

In addition, in order to be adapted to different patients, in the preferred scheme that the present embodiment is provided, first needle body 201 It is arranged on at least one in second needle body 202 by length adjustment mechanism on the needle handle 100, make it that it stretches out The length of the needle handle 100 can be adjusted.

Using above-mentioned preferred scheme, needle handle 100 is stretched out by adjusting first needle body 201 and second needle body 202 Length, the fore-and-aft distance between the second end of the first needle body 201 and the electrode retaining collar 2020 of second needle body 202 can be caused It is adjustable, to be applicable different patients., can be by the length adjustment mechanism by the first needle body if patient skin is thicker The adjustment of the distance between 201 the second end and electrode retaining collar 2020 of second needle body 202 it is slightly larger, and if patient skin compared with It is thin, then can be by the length adjustment mechanism by the electrode retaining collar of the second end of the first needle body 201 and second needle body 202 The distance between 2020 adjustment it is slightly smaller.

Specifically, in the present embodiment, it is preferred that the length adjustment mechanism can include：

It is arranged on the movable passageway in the needle handle 100；

It is arranged on the sliding block in the movable passageway, the first of first needle body 201 and/or second needle body 202 End is stretched into the movable passageway, and is connected with the sliding block；

And, the position limiting structure of the shift position for limiting the sliding block.

In such scheme, a movement communicated with the movable passageway can be opened up on the periphery of the needle handle 100 Groove, the sliding block is protruded from outside the shifting chute, is easy to operation.When needing regulation first needle body 201 and/or described second During the length of needle body 202, the sliding block is promoted, you can so that the sliding block is moved in the movable passageway, it is described to drive The second end movement of first needle body 201 and/or second needle body 202, after the sliding block is moved on predeterminated position, then It is carried out using the position limiting structure it is spacing, so as to realize to first needle body 201 and/or second needle body The adjustment of 202 length stretched out outside the needle handle 100.

It should be noted that the above is only a kind of preferred embodiment of the length adjustment mechanism, in actual applications, The length adjustment mechanism can also be realized using other modes, to this without limiting.

In addition, as illustrated, additionally provide a kind of transcutaneous electrical stimulation device in the utility model embodiment, including： Pulse signal generating mechanism 10, including for two output ends of the pulsed current signal for exporting opposed polarity respectively；And, this Transcutaneous electrical stimulation electrode needle 20 provided in utility model embodiment, the pin of the transcutaneous electrical stimulation electrode needle 20 First electrode and second electrode in handle 100 are electrically connected with two output ends of the pulse signal generating mechanism 10 respectively.

The electrode needle that the transcutaneous electrical stimulation device that the utility model embodiment is provided is used is the utility model The transcutaneous electrical stimulation electrode needle that embodiment is provided, can be by the pulse signal generating mechanism 10 on needle handle 100 First electrode and second electrode on input the pulsed current signal of opposite polarity respectively, impulse generator sends some cycles Pulse current, is flowed into by the first electrode for entering needle handle 100, second electrode outflow, in use, the first needle body 201 and second Second terminal spine of at least one needle body enters below epidermis in needle body 202, is produced between the second end of the needle body of two close proximities Short distance closed loop electric microfield, promotes the change that electric microfield occurs at acupuncture point, so as to stimulate the acupuncture point of correlation.Because the electric field of short distance can To carry out effective closed loop stimulation to the end for stimulating nerve, two needle bodies of setting can export electric current in time so that electricity Stream is stimulated and can controlled in the shorter time, can reduce human body for the inadaptable of electric current；Further, since electric current can be in time Export, and conducted only between two needle bodies, without producing pessimal stimulation to other positions of human body, with simple venation in the prior art Rush electrical stimulus patternses to compare, size of current can be bigger, so as to lift electronic stimulation effect.

As shown in fig. 6, in transcutaneous electrical stimulation device provided in the utility model embodiment, the pulse letter Number generating mechanism 10 includes：

Power supply 11, for providing AC power；

The commutation controller 12 being connected with the power supply 11, for exporting sine-wave current；

The control unit 13 being connected with the commutation controller 12, for controlling the output of the commutation controller 12 sinusoidal The output state of ripple electric current, the output state includes the output frequency and size of current of the sine-wave current；

And, the pulse signal generator 14 being connected with the commutation controller 12, for receiving the commutation controller The sine-wave current of 12 outputs, and produce pulsed current signal.

In transcutaneous electrical stimulation device provided in the utility model embodiment, rectification control is given by AC power 11 Device 12 processed is powered, and commutation controller 12, can be by changing sine wave electricity to the input sine wave electric current of pulse signal generator 14 The fluctuation of the incoming frequency control pulse current of stream changes and pulse electricity is controlled by changing the size of sine-wave current The size of stream, the connection transcutaneous electrical stimulation electrode needle of pulse signal generator 14, the first of transcutaneous electrical stimulation electrode needle Streaming current is formed by field-effect between the needle body 202 of needle body 201 and second.

In embodiment provided by the utility model, it is preferred that as shown in fig. 6, the pulse signal generating mechanism 10 Also include：Acquiring unit 15, for obtaining feedback information of the patient under the electro photoluminescence of current preset pulsed current signal；Wherein Described control unit 13 is also connected with the acquiring unit 15, for the feedback information according to the acquiring unit 15, controls institute State the output state of the output sine-wave current of commutation controller 12.

Using such scheme, electronic stimulation can be carried out to patient, obtained by described under predetermined pulse current signal Unit 15 is taken to monitor the feedback information of patient in real time, control unit 13 integrates the feedback information number that the acquiring unit 15 is sent It is believed that number, control commutation controller 12 produces the electric current of respective strengths, so as to realize by human body adaptability to adjust pulse electricity The purpose of intensity of flow.Thus, the individual difference of different patients can be directed to, it is strong to determine the pulse current for adapting to different patients Degree.

Wherein, it is preferred that as shown in fig. 6, the acquiring unit 15 includes：

Brain wave monitor 151, for obtaining brain wave of the patient under the electro photoluminescence of current preset pulsed current signal Signal, and generate the first feedback signal send to described control unit 13；

And/or, infra-red vidicon 152, for obtaining electricity of the patient under the electro photoluminescence of current preset pulsed current signal Skin surface state at the pin position of pole, and generate the second feedback signal send to described control unit 13.

Using such scheme, the brain wave monitor 151 can monitor patient at any time to be believed in current preset pulse current Number electro photoluminescence under produced by eeg signal, to monitor the tolerance degree of patient, commutation controller 12 is according to brain electricity The eeg signal that ripple monitor 151 is monitored, controls the pulse current of the pulse signal generator 14 to change, to get The pulsed current signal of suitable current patents.

In addition, the infra-red vidicon 152 can monitor electro photoluminescence of the patient in current preset pulsed current signal at any time Skin surface state at bottom electrode pin position, to monitor the tolerance degree of patient, commutation controller 12 is according to described red The skin surface state that outer pick-up tube 152 is monitored is (such as：The temperature of skin), control the arteries and veins of the pulse signal generator 14 Electric current change is rushed, to get the pulsed current signal of suitable current patents.

Wherein it is possible to after being handled using commutation controller 12, cutaneous nerve is applied to, can be by first weak rear strong Pattern is applied, during application, is carried out eeg signal monitoring to patient using brain wave monitor 151, may be used also To carry out the monitoring of skin temperature using infra-red vidicon 152, the skin temperature at electrode needle position after monitoring electro photoluminescence Degree change, to adjust the size of current for adapting to human body.

Of course, it should be understood that in other embodiment of the present utility model, the acquiring unit 15 can not only office It is limited to above-mentioned brain wave monitor 151 and infra-red vidicon 152, it would however also be possible to employ other modes are realized, are not arranged one by one herein Lift.

In addition it is also necessary in the transcutaneous electrical stimulation device provided in explanation, the utility model embodiment, it is described Control unit 13 can be PL control units 13, and it is also provided with memory, for when the current feedback for getting patient When information is in preset range, current preset pulsed current signal is stored.Thus, when same patient carries out electro photoluminescence again During treatment, electronic stimulation directly can be carried out to it according to the predetermined pulse current signal of storage.

Embodiment of above is merely to illustrate the utility model, and is not limitation of the utility model, relevant technology neck The those of ordinary skill in domain, in the case where not departing from spirit and scope of the present utility model, can also make a variety of changes and Modification, therefore all equivalent technical schemes fall within category of the present utility model, scope of patent protection of the present utility model should It is defined by the claims.

Claims (15)

1. a kind of transcutaneous electrical stimulation electrode needle, it is characterised in that including：

The first electrode and the second electricity for inputting opposed polarity pulsed current signal respectively are provided with needle handle, the needle handle Pole；

And, be connected at least one first needle body on the needle handle and at least one second needle body, first needle body and Second needle body includes first end and the second end, wherein the first end of first needle body is electrically connected with the first electrode Connect, the first end of second needle body is electrically connected with the second electrode, to cause the second end of first needle body and described Electric field can be produced between second end of the second needle body.

2. transcutaneous electrical stimulation electrode needle according to claim 1, it is characterised in that

The length of first needle body is more than the length of second needle body.

3. transcutaneous electrical stimulation electrode needle according to claim 2, it is characterised in that

Second end of first needle body is in tip-like, for being pierced into skin；

Second end of second needle body includes an electrode retaining collar for being used to be attached to the ring-type of skin surface, and first needle body is worn It is located in the electrode retaining collar, enables to produce between the electrode retaining collar of the second end of first needle body and second needle body Raw electric field.

4. transcutaneous electrical stimulation electrode needle according to claim 1, it is characterised in that

The length of first needle body is identical with the length of second needle body, and the second end of first needle body and described Second end of two needle bodies is in tip-like.

5. the transcutaneous electrical stimulation electrode needle according to any one of Claims 1-4, it is characterised in that first pin There is the first spacing distance, the span of first spacing distance is 0.2~2mm between body and second needle body.

6. transcutaneous electrical stimulation electrode needle according to claim 1, it is characterised in that

One first needle body and second needle body are one group of needle body, and at least two groups pins are provided with the needle handle Body.

7. transcutaneous electrical stimulation electrode needle according to claim 6, it is characterised in that

At least two groups needle bodies are in polygonal array, and each group of needle body is separately positioned on the polygonal diagonal position.

8. transcutaneous electrical stimulation electrode needle according to claim 6, it is characterised in that

Two groups of needle bodies are provided with the needle handle, two groups of needle bodies are arranged in corner prismatic.

9. transcutaneous electrical stimulation electrode needle according to claim 7, it is characterised in that

There is the second spacing distance between two needle bodies being located at least two groups needle bodies on two adjacent angles of the polygon, The span of second spacing distance is 0.2~2mm.

10. transcutaneous electrical stimulation electrode needle according to claim 1, it is characterised in that

At least one in first needle body and second needle body is arranged on the needle handle by length adjustment mechanism, with Its length for stretching out the needle handle is adjusted.

11. transcutaneous electrical stimulation electrode needle according to claim 1, it is characterised in that

Be wound with magnet coil on the needle handle, the two ends of the magnet coil respectively with the first electrode and second electricity Pole is electrically connected.

12. a kind of transcutaneous electrical stimulation device, it is characterised in that including：

Pulse signal generating mechanism, including for two output ends of the pulsed current signal for exporting opposed polarity respectively；

And, the transcutaneous electrical stimulation electrode needle as described in any one of claim 1 to 11, the transcutaneous electrical stimulation electricity First electrode and second electrode in the needle handle of pole pin are electrically connected with two output ends of the pulse signal generating mechanism respectively.

13. transcutaneous electrical stimulation device according to claim 12, it is characterised in that

The pulse signal generating mechanism includes：

Power supply, for providing AC power；

The commutation controller being connected with the power supply, for exporting sine-wave current；

The control unit being connected with the commutation controller, for control the commutation controller output sine-wave current it is defeated Do well, the output state includes the output frequency and size of current of the sine-wave current；

And, the pulse signal generator being connected with the commutation controller, for receiving the commutation controller output just String ripple electric current, and produce pulsed current signal.

14. transcutaneous electrical stimulation device according to claim 13, it is characterised in that

The pulse signal generating mechanism also includes：

Acquiring unit, for obtaining feedback information of the patient under the electro photoluminescence of current preset pulsed current signal；

Wherein described control unit is also connected with the acquiring unit, for the feedback information according to the acquiring unit, control The output state of the output sine-wave current of the commutation controller.

15. transcutaneous electrical stimulation device according to claim 14, it is characterised in that

The acquiring unit includes：

Brain wave monitor, for obtaining eeg signal of the patient under the electro photoluminescence of current preset pulsed current signal, and The first feedback signal is generated to send to described control unit；

And/or,

Infra-red vidicon, for obtaining patient at the electrode needle position under the electro photoluminescence of current preset pulsed current signal Skin surface state, and generate the second feedback signal send to described control unit.