CN105816955A - Electrode plate used for foot drop treatment - Google Patents

Abstract

The invention discloses an electrode plate used for foot drop treatment, and belongs to a technical scheme of the field of foot therapeutic apparatuses. The electrode plate includes a bandage, conductive fabric is arranged on an inner side face of the bandage, the conductive fabric is electrically connected with an electrode, and the electronic is used for receiving power input and delivering the power input to the conductive fabric to be output. Since the conductive fabric in the technical scheme can directly conduct electricity, the whole process does not need to add water, thus the operation is convenient, and a user can be prevented from being wetted, thereby improving the comfort in the therapeutic process; and furthermore, the conductive fabric only needs to receive power supply through the electrode, and does not need an extra structure to cooperate, and compared with the prior art, the manufacturing technology is simpler.

Description

A electrode slice for drop foot treatment

Technical field

The present invention relates to a kind of electrode slice, particularly to a electrode slice for drop foot treatment.

Background technology

Individual with drop foot is due to the long-term serious pressurized of nerve root (common peroneal nerve, foot nerve, sciatic nerve, Lumbar-sacral nerve root, cerebral nerve), nerve root surface pressing continues to cause delayed ischemic neurological deficits in 2 minutes more than 50mmHg, and i.e. may result in foot peripheral nerve injury, spinal motor nerve damage, muscular dystrophy and flexion joint deformity at more than 100mmHg, and then add stiffness index and the generation activation of periarticular myoarchitecture and there occurs that biomechanics changes, soft tissue defects or cicatrix tractive are in a certain position, and it is embodied in:

1. gastrocnemius, musculus soleus do not produce the flexing of front metacarpus and can be seen that the obvious motion of calcaneus；

2. it is plantar flexion by tibialis posterior, and brevis, and brevis, front metacarpus relative to rear palma, has no the obvious motion of calcaneus；

3. compensatory by flexor digitorum longus, the stronger flexing of companion's toes；

4. compensatory by the female flexor digitorum longus of foot, the flexing of the female toe of companion's foot；

5. spinal canal stenosis, hypertrophy of ligamentum flavum, zygapophysial joints hypertrophy be cohesion, lateral crypt and nerve root canal narrow, add intercalated disc and highlight calcification, the front muscle group of shank and outside muscle group paralysis, and the change of flesh after shank, the forfeiture of sarcomere, the forfeiture of moisture, collagen deposition and viscosity change group spasm tractive, just cause drop foot.

The treatment common method of drop foot has foot thermotherapy, reconditioning, acupuncture and massage, wears lateral head reach in brace, tibialis anterior and tendon of extensor digitorum longus pedis suspention, posterior tibial muscle tendon transfer treatment drop foot, gastrocnemius, rebuilds and stretch apodization function art, excision, electricity irritation etc..

Wherein, drop foot therapeutic electrode sheet is a kind of conventional treatment tool, and it realizes treatment by common peroneal nerve carries out electricity irritation；And drop foot therapeutic electrode sheet is all split type at present, needs and bandage or other fixing band are with the use of just fitting in human body, and its operation is sufficiently complex；Further, the material of existing drop foot therapeutic electrode sheet is made up of with empire cloth conductive base, needs to add water or other solvent could realize the conducting function of empire cloth, and its processing technique is considerably complicated, and need often to add water during using, bring great inconvenience for user；To this end, be badly in need of a kind of drop foot therapeutic electrode sheet appearance processed simply and be easy to that user uses, the predicament current to solve prior art.

Summary of the invention

It is an object of the invention to provide a electrode slice for drop foot treatment, to solve the problem that prior art must use water to carry out conducting electricity.

In order to solve above-mentioned technical problem, the invention provides a electrode slice for drop foot treatment, including bandage, described bandage medial surface is provided with conductive fabric, described conductive fabric is electrically connected with electrode, and described electrode is used for accepting power supply input and the input of described power supply being delivered to the output of described conductive fabric.

Preferably, described conductive fabric includes the first conductive fabric and the second conductive fabric, and described first conductive fabric and described second conductive fabric part on the right side every arranged described bandage is upper left；

Described electrode includes that the first electrode and the second electrode, described first electrode are electrically connected with described first conductive fabric, and described second electrode is electrically connected with described second conductive fabric.

Preferably, the edge that described first conductive fabric is relative with described second conductive fabric includes interconnective first top and first following, described first top extends from the upper end of described first conductive fabric toward the inside of described first conductive fabric, described first extends from the lower end of described first conductive fabric toward the inside of described first conductive fabric below, so that the described first conductive fabric edge relative with described second conductive fabric is recessed；

The edge that described second conductive fabric is relative with described first conductive fabric includes interconnective second top and second following, described second top extends from the upper end of described second conductive fabric toward the outside of described second conductive fabric, described second below from the lower end of described second conductive fabric toward the outside extension of described second conductive fabric so that the described second conductive fabric edge relative with described first conductive fabric is standing shape.

Preferably, the length of described first top less than described first below so that the described first conductive fabric edge relative with described second conductive fabric is recessed on top；

The length of described second top less than described second below so that the described second conductive fabric edge relative with described first conductive fabric is standing shape on top.

Preferably, the edge that described first conductive fabric is relative with described second conductive fabric also includes concave arc limit, and described first top is connected with described first below by described concave arc limit；

The edge that described second conductive fabric is relative with described first conductive fabric also includes convex arc limit, and described second top is connected with described second below by described convex arc limit.

Preferably, a side of described bandage inside cave in formation the first recess, another side inside cave in formation the second recess, described first recess and the second recess are positioned opposite.

Preferably, described bandage includes interconnective positioning belt and electromedical belt, described first recess is located at described positioning belt and the top of described electromedical belt junction, described second recess is located at described positioning belt and the lower section of described electromedical belt junction, described conductive fabric is located on the medial surface of described electromedical belt, described electrode is located on the lateral surface of described electromedical belt, and described electrode through described electromedical belt and is electrically connected with described conductive fabric.

Preferably, the end of described electromedical belt connects and twines bandage, described in twine the outer surface of strap end and be provided with VELCRO generatrix；

Described bandage outer surface is additionally provided with magic notice face, and described magic notice face is arranged along described electromedical belt and the described upper edge twining bandage；

Described twine equipped with bracelet on bandage, described bracelet for for described in twine bandage through and turn back so that described in twine bandage can be by described VELCRO generatrix and the face bonding of described magic notice after turning back；

The outer surface of described positioning belt is provided with buckle lock, and described buckle lock is for coupling with described bracelet, so that the described electrode slice for drop foot treatment can surround ring-type.

Preferably, the inner surface of described conductive fabric is coated with sponge.

Preferably, described bandage is the bandage being made up of spandex fibre.

Beneficial effects of the present invention is as follows:

Owing to conductive fabric can directly conduct electricity, whole process is without adding water, the most easy to operate, and avoids bedewing user, improves the comfort of therapeutic process；Further, conductive fabric only need to just may be used by electrode acceptance power supply, it is not necessary to other supernumerary structures coordinate, and compared to prior art, its processing technology is the simplest.

Accompanying drawing explanation

In order to be illustrated more clearly that technical scheme, the accompanying drawing used required in embodiment will be briefly described below, apparently, accompanying drawing in describing below is only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the electrode slice structural representation that the preferred embodiment for the present invention provides for drop foot treatment；

Fig. 2 is the first conductive cloth structure schematic diagram that the preferred embodiment for the present invention provides the electrode slice for drop foot treatment；

Fig. 3 is the second conductive cloth structure schematic diagram that the preferred embodiment for the present invention provides the electrode slice for drop foot treatment.

Reference is as follows:

1, bandage；11, positioning belt；12, electromedical belt；13, bandage is twined；

21, the first conductive fabric；211, the first top；212, first is following；213, concave arc limit；22, the second conductive fabric；221, the second top；222, second is following；223, convex arc limit；

31, the first electrode；32, the second electrode；

41, the first recess；42, the second recess；

51, VELCRO generatrix；52, magic notice face；

6, VELCRO district；

71, metallic channel；72, wire outlet；

8, band fore shaft.

Detailed description of the invention

Below in conjunction with the accompanying drawing in embodiment of the present invention, the technical scheme in embodiment of the present invention is clearly and completely described.

Knowable to Fig. 1 is to 3, electrode slice for drop foot treatment of the present invention includes bandage 1, described bandage 1 medial surface is provided with conductive fabric, and described conductive fabric is electrically connected with electrode, and described electrode is used for accepting power supply input and the input of described power supply being delivered to the output of described conductive fabric.

In use, control main frame is often used to be powered, i.e. control main frame to be electrically connected with described electrode, so the electric power controlling main frame output will deliver to conductive fabric output through electrode, if the most bandage 1 being bundled in user affected part, then conductive fabric can directly stimulate affected part, thus drop foot is realized treatment.During whole use, it is not necessary to add substantial amounts of water and realize conduction, the most easy to operate, also avoid bedewing user, improve the comfort of therapeutic process.

It may be noted that the mode that bandage 1 is bound, for being bundled in the affected part of user, and is had multiple, as being respectively provided with VELCRO primary and secondary face at bandage 1 two ends, so that bandage 1 can be bonded as end to end state by VELCRO by described bandage 1；Or be respectively provided with primary and secondary snap close at bandage 1 two ends, so that bandage 1 can be bonded as end to end state by snap close；The most existing bandage all can realize being bundled in the effect in user affected part, so how bandage 1 realizes binding should not be construed as limiting the scope of protection of the invention.

Further, as it is shown in figure 1, described conductive fabric includes the first conductive fabric 21 and the second conductive fabric 22, described first conductive fabric 21 and described second conductive fabric 22 part on the right side every arranged described bandage 1 is upper left；Described electrode includes the first electrode 31 and the second electrode 32, and described first electrode 31 is electrically connected with described first conductive fabric 21, and described second electrode 32 is electrically connected with described second conductive fabric 22.

In use, conductive fabric needs to fit with affected part, the i.e. both sides in leg affected part, so above-mentioned embodiment is provided with the first conductive fabric 21 and the second conductive fabric 22 simultaneously, owing to the first conductive fabric 21 and the second conductive fabric about 22 partitioned arrangement are arranged, so after bandage 1 is bound, first conductive fabric 21 and the second conductive fabric 22 will be respectively arranged on the both sides in leg affected part, now electric current will flow to patient legs from the first conductive fabric 21, flow to the second conductive fabric 22 the most again, i.e. make the first conductive fabric 21, patient legs, second conductive fabric 22 forms the path of a connection, the electronic stimulation to patient is realized with this.

Further, as shown in Figures 2 and 3, the edge that described first conductive fabric 21 is relative with described second conductive fabric 22 includes interconnective first top 211 and first following 212, described first top 211 extends from the upper end of described first conductive fabric 21 toward the inside of described first conductive fabric 21, described first following 212 extends from the lower end of described first conductive fabric 21 toward the inside of described first conductive fabric 21, so that described first conductive fabric 21 edge relative with described second conductive fabric 22 is recessed；The edge that described second conductive fabric 22 is relative with described first conductive fabric 21 includes interconnective second top 221 and second following 222, described second top 221 extends from the upper end of described second conductive fabric 22 toward the outside of described second conductive fabric 21, described second following 222 from the lower end of described second conductive fabric 22 toward the outside extension of described second conductive fabric 22 so that described second conductive fabric 22 edge relative with described first conductive fabric 21 is standing shape.

It is arranged on as a example by right lower limb by foot drop therapeutic apparatus, now fitted in the inner side with right lower limb by the first conductive fabric 21, second conductive fabric 22 will be fitted with the outside of right lower limb, and now the first conductive fabric 21 and the second conductive fabric 22 just cover with on the common peroneal nerve of right lower limb, thus reach the effect accurately treated.So the shape of above-mentioned embodiment the first conductive fabric 21 and the second conductive fabric 22 specially designs, it is therefore an objective to make the first conductive fabric 21 and the second conductive fabric 22 can cover as far as possible on the position of common peroneal nerve process, to improve therapeutic effect.

Further, as shown in Figures 2 and 3, the length of described first top 211 is less than described first following 212, so that described first conductive fabric 21 edge relative with described second conductive fabric 22 is recessed on top；The length of described second top 221 is less than described second following 222, so that described second conductive fabric 22 edge relative with described first conductive fabric 21 is standing shape on top.

In like manner, the purpose of this embodiment is so that the first conductive fabric 21 and the second conductive fabric 22 can cover on the position of common peroneal nerve process, further to improve therapeutic effect.

Further, as shown in Figures 2 and 3, the edge that described first conductive fabric 21 is relative with described second conductive fabric 22 also includes that concave arc limit 213, described first top 211 are connected with described first following 212 by described concave arc limit 213；The edge that described second conductive fabric 22 is relative with described first conductive fabric 21 also includes that convex arc limit 223, described second top 221 are connected with described second following 222 by described convex arc limit 223.

In like manner, the purpose of this embodiment is so that the first conductive fabric 21 and the second conductive fabric 22 can further cover on the position of common peroneal nerve process, to improve therapeutic effect.

Further, as it is shown in figure 1, a side of described bandage 1 caves in inside, formation the first recess 41, another side cave in inside and form the second recess 42, and described first recess 41 is positioned opposite with the second recess 42.

It is the premise realizing treatment that conductive fabric is directed at affected part, but the expert in user not drop foot treatment field, if desired user judges that the position that conductive fabric is fitted is the most inaccurate voluntarily；For solving this problem, first recess 41 of present embodiment and the second recess 42 bring reference for user, first recess 41 and the second recess 42 only need to be directed at tibia position, knee front and just may be used by user, conductive fabric will be made after alignment to fit with common peroneal nerve voluntarily, bring great convenience for user, and this structure also complies with body mechanics's engineering so that user is more comfortable in donning process.Wherein, the first recess 41 and the second recess 42 all could be arranged to V-type, more to meet body mechanics's requirement, improve user comfort level in donning process further.

Further, as shown in Figure 1, described bandage 1 includes interconnective positioning belt 11 and electromedical belt 12, described first recess 41 is located at described positioning belt 11 and the top of described electromedical belt 12 junction, described second recess 42 is respectively arranged on described positioning belt 11 and the upper and lower of described electromedical belt 12 junction, described conductive fabric is located on the medial surface of described electromedical belt 12, described electrode is located on the lateral surface of described electromedical belt 12, and described electrode through described electromedical belt 12 and is electrically connected with described conductive fabric.

Further, as it is shown in figure 1, the end of described electromedical belt 12 connects twines bandage 13, described in twine the outer surface of bandage 13 end and be provided with VELCRO generatrix 51；Described bandage 1 outer surface is additionally provided with magic notice face 52, and described magic notice face 52 is arranged along described electromedical belt 12 and the described upper edge twining bandage 13；Described twine on bandage 13 equipped with bracelet (not shown), described bracelet for for described in twine bandage 13 through and turn back so that described in twine bandage 13 and can be bonded by described VELCRO generatrix 51 and described magic notice face 52 after turning back；The outer surface of described positioning belt 11 is provided with buckle lock 8, and described buckle lock 8 is for coupling with described bracelet, so that the described electrode slice for drop foot treatment can surround ring-type.

In use, twine and turn back after bandage 13 passes bracelet and bonded by VELCRO generatrix 51 and magic notice face 52, the length twining bandage 13 is regulated with this, after the length adjustment twining bandage 13 is suitable, just bracelet can be coupled with buckle lock 8, make the described electrode slice for drop foot treatment surround the annular casing affected part at user with this；Wherein, the surface of described bracelet can be protruded formation one and be carried magnetic boss; and described buckle lock 8 can be one and have magnetic shrinkage pool; in use; only just need to can realize fixing of bracelet and buckle lock 8 in embedding the shrinkage pool of magnetic by carrying magnetic boss; certainly; the embodiment of bracelet and buckle lock is varied; it is not limited to this kind of mode; those skilled in the art select according to actual needs just can, as long as being capable of twining bandage 13 just should belong to protection scope of the present invention with the fixing of positioning belt 11；It addition, described magic notice face 52 is arranged along described electromedical belt 12 and the described upper edge twining bandage 13, the adhesive surface that i.e. explanation VELCRO generatrix 51 can select is the most, thus ensures that various people can be from the degree of tightness of main regulation foot drop therapeutic apparatus.Wherein, the surface of described VELCRO generatrix 51 is the seta face of many root thorns hair composition, and described magic notice face 52 is the fur face of many fur compositions, or, the surface of described VELCRO generatrix 51 is the fur face of many fur compositions, and described magic notice face 52 is the seta face of many root thorns hair composition.

Further, as it is shown in figure 1, the outer surface of described positioning belt 11 is provided with VELCRO district 6, described VELCRO district 6 is used for installing control main frame；Described electromedical belt 12 is internal is provided with metallic channel 71, and described metallic channel 71 is provided with wire outlet 72, and described wire outlet 72 is towards described VELCRO district 6；Described electrode has the terminals being located in metallic channel 71, and for being led to by lead-in wire, described metallic channel 71 is outer to be electrically connected with described terminals with described control main frame.

For convenience of user, present embodiment is provided with VELCRO district 6 at the outer surface of positioning belt 11, as long as arranging VELCRO on control main frame, just can be bonded in controlling main frame in VELCRO district 6, it is simple to carry controlling main frame；And wire outlet 72 targeted by VELCRO district 6, also allow for the electric connection controlling main frame with electrode.

Further, the inner surface of described conductive fabric is coated with sponge.

Owing to the inner surface of conductive fabric covers sponge, so when conductive fabric is with human contact, sponge can produce certain elastic force, the human body so that conductive fabric is more fitted to conductive fabric, also improve comfort during user use foot drop therapeutic apparatus.

Further, described bandage 1 is the bandage 1 being made up of spandex fibre.

Spandex fibre is generally called again Lycra cloth, and it can improve elastic force and the extensibility of fabric greatly, and the recovery after spandex fibre stretching is well the advantage of its maximum.Its range of extension is up to 500% unlike traditional elastic fiber, and can recover former state, that is, this fiber can very easily be stretched, and but can be close to human body surface after reply, the least to the binding force of human body.So using the bandage 1 of this material ensure that, conductive fabric can closely be fitted with human body, to improve therapeutic effect.

Certainly, each embodiment above-mentioned can be used alone, can also combination application, wherein preferably one embodiment of the present invention is as shown in Figures 1 to 3, the described electrode slice for drop foot treatment includes bandage 1, described bandage 1 includes interconnective positioning belt 11 and electromedical belt 12, described positioning belt 11 and described electromedical belt 12 junction be arranged over the first recess 41, lower section is provided with the second recess 42, and the first recess 41 and the second recess 42 are V-type mouth.The outer surface of described positioning belt 11 is provided with buckle lock 8 and VELCRO district 6, described buckle lock 8 is placed in the left side of positioning belt 11, and described VELCRO district 6 is placed in the right side of described positioning belt 11, wherein, as long as arranging VELCRO on control main frame, just can be bonded in controlling main frame in VELCRO district 6.The inner surface of described electromedical belt 12 is provided with the first conductive fabric 21 and the second conductive fabric 22, inside are provided with metallic channel 71, outer surface is provided with the first electrode 31 and the second electrode 32, right part connect have a strip twine bandage 13.The edge that described first conductive fabric 21 is relative with described second conductive fabric 22 includes the first top 211, the concave arc limit 213 and first following 212 sequentially connected, described first top 211 extends from the upper end of described first conductive fabric 21 toward the inside of described first conductive fabric 21, described first following 212 extends from the lower end of described first conductive fabric 21 toward the inside of described first conductive fabric 21, owing to the length of described first top 211 is less than described first following 212, so that described first conductive fabric 21 edge relative with described second conductive fabric 22 is recessed on top；The edge that described second conductive fabric 22 is relative with described first conductive fabric 21 includes the second top 221, the convex arc limit 223 and second following 222 sequentially connected, described second top 221 extends from the upper end of described second conductive fabric 22 toward the outside of described second conductive fabric 22, described second following 222 extends from the lower end of described second conductive fabric 22 toward the outside of described second conductive fabric 22, owing to the length of described second top 221 is less than described second following 222, so that described second conductive fabric 22 edge relative with described first conductive fabric 21 is standing shape on top.Described metallic channel 71 lateral arrangement in the middle part of electromedical belt 12, described metallic channel 71 is provided with wire outlet 72, and described wire outlet 72 is towards described VELCRO district 6.Described first electrode the 31, second electrode 32 is each passed through metallic channel 71 and is electrically connected with first conductive fabric the 21, second conductive fabric 22, described first electrode 31 and the second electrode 32 are respectively provided with the terminals being located in metallic channel 71, and for being led to by lead-in wire, described metallic channel 71 is outer to be electrically connected with described terminals with described control main frame.The described outer surface twining bandage 13 end is provided with VELCRO generatrix 51, and described VELCRO generatrix 51 is the seta face of many root thorns hair composition；Described bandage 1 outer surface is additionally provided with magic notice face 52, and this magic notice face 52 is the fur face of many fur compositions, and described magic notice face 52 is arranged along described electromedical belt 12 and the described upper edge twining bandage 13；Further, described in twine on bandage 13 equipped with bracelet, described bracelet for for described in twine bandage 13 through and turn back so that described in twine bandage 13 can be by described VELCRO generatrix and the face bonding of described magic notice after turning back.

As a example by this embodiment, a electrode slice using method for drop foot treatment of the present invention is following (to apply as a example by right crus of diaphragm):

1, the first recess 41 and the second recess 42 are directed at tibia position, right lower limb knee front；

2, twine bandage 13 to turn back after bracelet, and VELCRO generatrix 51 and magic notice face 52 are bonded, regulate the length twining bandage 13 with this, then bracelet and buckle lock are coupled, with this, described electrode slice being used for drop foot treatment is tightened at right lower limb；

3, control main frame and first electrode the 31, second electrode 32 are connected, so that the first conductive fabric 21 and the second conductive fabric 22 carry out electricity irritation to common peroneal nerve；Wherein, in order to easy to use, it is also possible to control main frame is pasted onto in VELCRO district 6.

The above is the preferred embodiment of the present invention; it should be pointed out that, for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims (10)

1. The most a electrode slice for drop foot treatment, including bandage, it is characterised in that described bandage medial surface is provided with conductive fabric, described conductive fabric is electrically connected with electrode, and described electrode is used for accepting power supply input and the input of described power supply being delivered to the output of described conductive fabric.
2. The most according to claim 1 for the electrode slice of drop foot treatment, it is characterised in that

   Described conductive fabric includes the first conductive fabric and the second conductive fabric, and described first conductive fabric and described second conductive fabric part on the right side every arranged described bandage is upper left；

   Described electrode includes that the first electrode and the second electrode, described first electrode are electrically connected with described first conductive fabric, and described second electrode is electrically connected with described second conductive fabric.
3. The most according to claim 2 for the electrode slice of drop foot treatment, it is characterised in that

   The edge that described first conductive fabric is relative with described second conductive fabric includes interconnective first top and first following, described first top extends from the upper end of described first conductive fabric toward the inside of described first conductive fabric, described first extends from the lower end of described first conductive fabric toward the inside of described first conductive fabric below, so that the described first conductive fabric edge relative with described second conductive fabric is recessed；

   The edge that described second conductive fabric is relative with described first conductive fabric includes interconnective second top and second following, described second top extends from the upper end of described second conductive fabric toward the outside of described second conductive fabric, described second below from the lower end of described second conductive fabric toward the outside extension of described second conductive fabric so that the described second conductive fabric edge relative with described first conductive fabric is standing shape.
4. The most according to claim 3 for the electrode slice of drop foot treatment, it is characterised in that

   The length of described first top less than described first below so that the described first conductive fabric edge relative with described second conductive fabric is recessed on top；

   The length of described second top less than described second below so that the described second conductive fabric edge relative with described first conductive fabric is standing shape on top.
5. The most according to claim 3 for the electrode slice of drop foot treatment, it is characterised in that

   The edge that described first conductive fabric is relative with described second conductive fabric also includes concave arc limit, and described first top is connected with described first below by described concave arc limit；

   The edge that described second conductive fabric is relative with described first conductive fabric also includes convex arc limit, and described second top is connected with described second below by described convex arc limit.
6. The most according to claim 1 for drop foot treatment electrode slice, it is characterised in that a side of described bandage inside cave in formation the first recess, another side inside cave in formation the second recess, described first recess and the second recess are positioned opposite.
7. The most according to claim 6 for the electrode slice of drop foot treatment, it is characterized in that, described bandage includes interconnective positioning belt and electromedical belt, described first recess is located at described positioning belt and the top of described electromedical belt junction, described second recess is located at described positioning belt and the lower section of described electromedical belt junction, described conductive fabric is located on the medial surface of described electromedical belt, described electrode is located on the lateral surface of described electromedical belt, and described electrode through described electromedical belt and is electrically connected with described conductive fabric.
8. The most according to claim 7 for the electrode slice of drop foot treatment, it is characterised in that

   The end of described electromedical belt connects and twines bandage, described in twine the outer surface of strap end and be provided with VELCRO generatrix；

   Described bandage outer surface is additionally provided with magic notice face, and described magic notice face is arranged along described electromedical belt and the described upper edge twining bandage；

   Described twine equipped with bracelet on bandage, described bracelet for for described in twine bandage through and turn back so that described in twine bandage can be by described VELCRO generatrix and the face bonding of described magic notice after turning back；

   The outer surface of described positioning belt is provided with buckle lock, and described buckle lock is for coupling with described bracelet, so that the described electrode slice for drop foot treatment can surround ring-type.
9. The most according to claim 1 for the electrode slice of drop foot treatment, it is characterised in that the inner surface of described conductive fabric is coated with sponge.
10. The most according to claim 1 for the electrode slice of drop foot treatment, it is characterised in that described bandage is the bandage being made up of spandex fibre.