CN210542893U - Wearable pulse therapeutic apparatus - Google Patents

Abstract

The utility model provides a wearable pulse therapeutic apparatus. Including power module, current source module, control module, communication module and wearable electrode module, wearable electrode module includes needle electrode and electrode carrier, the electrode carrier is including the flexible rubber layer that bonds each other and warp the sponge layer, and the equipartition has a plurality of through-holes that run through flexible rubber layer and warp the sponge layer on the electrode carrier, it is used for supplying to slide in the through-hole be equipped with in the through-hole needle electrode option inserted sleeve pipe, the needle electrode includes electrode needle body and the removable contact cap of installing at electrode needle body tip, and the tip of contact cap is provided with the sponge layer that absorbs water that is used for the water storage. The advantages are that: the electrode is self-adaptive to the contour of the human body part, and the position of the electrode can be freely adjusted so as to be opposite to an affected part or an acupuncture point, prevent skin burn, reduce skin resistance and the like.

Description

Wearable pulse therapeutic apparatus

Technical Field

The utility model relates to a wearable pulse therapeutic apparatus.

Background

Along with the development of pulse therapy technology, more and more pulse therapy instruments or equipment emerge, in order to solve the defect of heavy traditional physiotherapy equipment, the chinese patent with the publication number of CN204543278U discloses a wearable and portable APP-controlled low-frequency pulse therapy instrument, which comprises a power module, a current source module, a wearable electrode, a control module and a communication module, wherein the wearable electrode comprises a common physiotherapy electrode and a 3D electrode, the 3D electrode utilizes 3D printing technology, a 3D stereoscopic model is generated by scanning the outline of a local part of a human body, a 3D electrode carrier fitted with the stereoscopic model is printed, and a micro-hole is reserved in the printing process so as to insert the micro-electrode, the therapy instrument is convenient to wear and use during use, but has some problems due to the need of printing corresponding 3D electrode carriers for different patients and different parts, the price is high, the time consumption is long, the use is inconvenient, and particularly, the treatment is inconvenient when different parts need to be frequently replaced; secondly, because the surface of human skin is uneven, when the electrode contacts the skin for conducting the electric conduction treatment, electric sparks are generated in tiny gaps between the electrode and the skin, so that the skin is easy to be burnt, and the skin can feel stabbing pain by increasing the current amount due to the fact that the resistance of the stratum corneum on the surface of the skin is large.

SUMMERY OF THE UTILITY MODEL

To solve the above problems, the utility model provides a wearable pulse therapeutic apparatus which is self-adaptive to the contour of human body part and can freely adjust the position of an electrode so as to be right opposite to the affected part or acupuncture points and prevent skin burn.

The technical scheme of the utility model is realized like this: wearable pulse therapeutic instrument includes power module, current source module, control module, communication module and wearable electrode module, and wearable electrode module includes needle electrode and electrode carrier, the electrode carrier is including the flexible rubber layer that bonds each other and deformation sponge layer, and the equipartition has a plurality of through-holes that run through flexible rubber layer and deformation sponge layer on the electrode carrier, it is used for supplying to slide in the through-hole be equipped with in the through-hole needle electrode option inserted sleeve pipe, the needle electrode includes electrode needle body and the removable contact cap of installing at electrode needle body tip, and the tip of contact cap is provided with the sponge layer that absorbs water that is used for the water storage.

As a further improvement of the utility model, the contact cap is connected with the electrode needle body through the internal and external threads. The connection is reliable and the disassembly is convenient.

As a further improvement of the utility model, the contact cap is a silica gel electrode or a metal electrode.

As a further improvement of the utility model, the needle electrode is a wet temperature thermal electrode.

As a further improvement, the electrode carrier has two sets of elastic bandages from top to bottom, and the elastic bandages are connected on the flexible rubber layer, connect through the buckle between every group elastic bandage. The electrode carrier is convenient to fix relative to the human body.

As a further improvement of the utility model, the flexible rubber layer is formed by the inner rubber layer, the enhancement layer with the multilayer frictioning polyamide cord fabric, the outer rubber layer are compound. Has better flexibility and strength.

As a further improvement, the distance between two adjacent through holes is not more than 20 mm.

By adopting the technical scheme, the beneficial effects of the utility model are that: compared with the prior art, the electrode carrier is formed by bonding a flexible rubber layer with certain hardness and a deformation sponge layer, adaptive deformation is carried out according to the shape of parts such as the back of a human body by the flexible rubber layer, and the deformation sponge layer with larger deformation is attached to the parts of the human body, so that special 3D printing is not needed, the cost is saved, the use is more flexible, the applicability is wider, meanwhile, a mode that a plurality of through holes are uniformly distributed and movably inserted into a sleeve is adopted to be matched with the flexible rubber layer, the sleeve can be used for inserting needle-shaped electrodes, the through holes close to the needle-shaped electrodes are respectively matched in the skin range covered by the electrode carrier, the needle-shaped electrodes can be selectively inserted into the sleeve of the through hole at the part to be treated, and the treatment is carried out aiming at the area to be treated; on the other hand, the utility model discloses a needle electrode is also different with prior art's electrode, it produces the electric spark in order to reach the unsmooth surface that prevents between electrode and the skin and exist the clearance, divide into electrode needle body and contact cap two parts with needle electrode, the contact cap tip has set up the sponge layer that absorbs water, the sponge layer that absorbs water can store a certain amount of moisture, this contact cap has characteristics such as softness, moisturize, after contacting with the skin, moisture can soak the stratum corneum of skin, and fill up the small space between electrode and the skin, prevent the production of electric spark, and simultaneously, the moist effect of moisture can soften the stratum corneum, thereby greatly reduced skin's resistance, make the electric current more unobstructed, reach good treatment when improving the body sense comfort level; due to the fact that the contact cap is detachably connected with the electrode needle body, the contact cap and the water absorption sponge layer at the end portion of the contact cap can be conveniently cleaned, and the contact cap which is replaced after the water absorption sponge layer fails is convenient to replace.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic partial cross-sectional view of an electrode carrier;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic view of the end of the electrode needle;

wherein: 1-wearable electrode module, 11-needle electrode, 111-electrode needle body, 112-contact cap, 1124-water absorbing sponge layer, 12-electrode carrier, 121-flexible rubber layer, 122-deformation sponge layer, 123-through hole, 124-sleeve, 3-elastic bandage and 4-buckle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-4, the wearable pulse therapeutic apparatus includes a power module, a current source module, a control module, a communication module and a wearable electrode module 1, where the power module, the current source module, the control module and the communication module are prior art, see chinese patent No. CN204543278U for reference, and are not described herein again. As the utility model discloses an it is important to improve, wearable electrode module 1 includes needle electrode 11 and electrode carrier 12, electrode carrier 12 includes flexible rubber layer 121 and the deformation sponge layer 122 that bonds each other, the equipartition has a plurality of through-holes 123 that run through flexible rubber layer 121 and deformation sponge layer 122 on the electrode carrier 12, it is equipped with in the through-hole 123 to slide and is used for supplying needle electrode 11 to select male sleeve pipe 124, needle electrode 11 includes electrode needle body 111 and removable mounting at the contact cap 112 of electrode needle body 111 tip, the tip of contact cap 112 is provided with the sponge layer 1124 that absorbs water that is used for the water storage.

In the present embodiment, the contact cap 112 is coupled to the electrode pin body 111 by internal and external screw threads. The connection is reliable and the disassembly is convenient. The contact cap 112 may be a silicon gel electrode or a metal electrode. The needle electrode 11 is a wet warm electrode. The electrode carrier 12 is provided with an upper elastic bandage 3 and a lower elastic bandage 3, the elastic bandages 3 are connected on the flexible rubber layer 121, and each group of elastic bandages 3 are connected through a buckle 4. Facilitating fixation of the electrode carrier 12 relative to the human body. The flexible rubber layer 121 is formed by compounding an inner rubber layer, a reinforcing layer with a plurality of layers of frictioning nylon cord fabrics and an outer rubber layer. Has better flexibility and strength. The distance between two adjacent through holes 123 does not exceed 20 mm. The buckle 4 is a plug-in buckle.

When the electrode carrier 12 is used, the sleeve 124 is inserted into the corresponding through hole 123, one sleeve 124 can be inserted into each through hole 123, the sleeve 124 can also be selectively inserted into the through hole 123 near an affected part, the sleeve 124 is not inserted into the through holes 123 at the rest parts, the sleeve 124 is tightly matched with the hole wall of the through hole 123 to prevent the sleeve 124 from automatically falling off, then the electrode carrier 12 is worn or bound on a human body through the elastic bandage 3 and the inserting buckle, and the deformation sponge layer 122 of the electrode carrier 12 is opposite to one side of the skin of the human body, due to the tensioning effect of the elastic bandage 3 (the length of the elastic bandage 3 can be adjusted so as to be suitable for people with different body types), the flexible rubber layer 121 of the electrode carrier 12 is deformed by a certain amount, but has certain hardness, the deformation sponge layer 122 is tightly attached to the skin of the human body and deforms by a larger amount, and the sleeve 124 can adaptively slide in the, fully contacting the water-absorbing sponge layer 1124 contacting the cap 112 with tap water, squeezing out excessive water to avoid dripping, inserting the needle electrode 11 into the sleeve 124 of the through hole 123 nearest to the affected part, making the water-absorbing sponge layer 1124 contacting the cap 112 closely contact with the skin, and switching on the power supply to start treatment; when the treatment part needs to be adjusted, the needle electrode 11 is only required to be pulled out and reinserted into the sleeve 124 of the through hole 123 near the new affected part; if the affected part is not covered by the electrode carrier 12 and the electrode carrier 12 cannot be covered by fine adjustment, the elastic bandage 3 is disassembled to adjust the position again and the above steps are repeated.

The electrode carrier 12 is formed by bonding a flexible rubber layer 121 with certain hardness and a deformation sponge layer 122, the flexible rubber layer 121 is used for carrying out adaptive deformation according to the shape of parts such as the back of a human body, and the deformation sponge layer 122 with larger deformation is attached to the parts of the human body, so that special 3D printing is not needed, the cost is saved, the use is more flexible, the applicability is wider, meanwhile, a mode that a plurality of through holes 123 are uniformly distributed and movably inserted into a sleeve 124 is adopted for adapting to the electrode carrier, the sleeve 124 can be used for inserting the needle electrode 11, the through holes 123 close to the sleeve 124 are respectively corresponded in the skin range covered by the electrode carrier 12, the needle electrode 11 can be ensured to be selectively inserted into the sleeve 124 of the through hole 123 at the part needing to be treated, and the treatment is carried out aiming at the area needing to be treated; on the other hand, the utility model discloses a needle electrode 11 is also different from prior art's electrode, it produces the electric spark in order to reach the unsmooth surface that prevents between electrode and the skin and have the clearance, divide into electrode needle body 111 and contact cap 112 two parts with needle electrode 11, contact cap 112 tip has set up water-absorbing sponge layer 1124, water-absorbing sponge layer 1124 can store a certain amount of moisture, this contact cap 112 has characteristics such as softness, moisturize, after contacting with the skin, moisture can soak the cuticle of skin, and fill up the small space between electrode and the skin, prevent the production of electric spark, and simultaneously, the moist effect of moisture can soften the cuticle, thereby greatly reduced the resistance of skin, make the electric current more unobstructed, reach good treatment when improving the body sense comfort level; due to the detachable connection between the contact cap 112 and the electrode needle body 111, the contact cap 112 and the water-absorbing sponge layer 1124 at the end portion thereof are easily cleaned, and the contact cap 112 can be easily replaced with a new one after the water-absorbing sponge layer 1124 is failed.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a wearing formula pulse therapy appearance, includes power module, current source module, control module, communication module and wearable electrode module, and wearable electrode module includes needle electrode and electrode carrier, its characterized in that, the electrode carrier is including the flexible rubber layer and the deformation sponge layer that bond each other, and the equipartition has a plurality of through-holes that run through flexible rubber layer and deformation sponge layer on the electrode carrier, it is used for supplying to slide in the through-hole be equipped with in the through-hole needle electrode option inserted sleeve pipe, the needle electrode includes electrode needle body and removable the contact cap of installing at electrode needle body tip, and the tip of contact cap is provided with the sponge layer that absorbs water that is used for the water storage.

2. The wearable impulse treatment device of claim 1, wherein the contact cap is threadably engaged with the electrode needle.

3. The wearable impulse therapy device of claim 2, wherein the contact cap is a silicone electrode or a metal electrode.

4. The wearable impulse treatment device of claim 1, wherein said needle electrode is a wet, warm, hot electrode.

5. The wearable impulse therapy device of claim 1, wherein the electrode carrier has two sets of elastic bandages, one set of elastic bandages being connected to the flexible rubber layer, and one set of elastic bandages being connected to the other set of elastic bandages by a snap fit.

6. The wearable pulse therapeutic apparatus of claim 1, wherein the flexible rubber layer is formed by compounding an inner rubber layer, a reinforcing layer with a plurality of layers of frictioning nylon cord fabrics, and an outer rubber layer.

7. The wearable impulse treatment device of claim 1, wherein the distance between two adjacent through holes is no more than 20 mm.

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