CN211835812U - Sucking disc formula electrode slice - Google Patents

Abstract

The utility model discloses a sucker-type electrode plate, which comprises a conductive layer, conductive silica gel suckers and electrode pin ports which are connected with each other, wherein the conductive silica gel suckers are uniformly distributed below the conductive layer, and the electrode pin ports are positioned above the conductive layer; this sucking disc formula electrode piece simple structure, easily operation, through electrically conductive silica gel sucking disc direct with human skin contact and absorption, reach the purpose of accurate positioning treatment, need not rely on other media to fix moreover, reduced the use of viscose, reduced the consumptive material cost, promoted user's experience and felt.

Description

Sucking disc formula electrode slice

Technical Field

The utility model relates to electrode slice technical field, concretely relates to sucking disc formula electrode slice.

Background

In the current medical field, a plurality of physiotherapy electrode plates applied in the market are various, and mainly comprise various medical physiotherapy products configured with medical intermediates contacting with human skin; however, the electrode plate is generally fixed on the skin by other media, such as a bandage and an adhesive layer. For example, the self-adhesive electrode plate directly acts the pulse current of a medium-low frequency medical instrument on the skin of the surface of a human body through the conductive carbon paste and the carbon fiber, thereby playing a role in treatment. The composite material generally comprises three parts, wherein the uppermost layer is made of the same material, and is made of materials such as non-woven fabrics, PET, PVC, silica gel and the like; the middle part is conductive viscose, and the last layer is a release film; when in use, the release film is torn off, the conductive adhesive is pasted on the skin and is connected with the physiotherapy instrument through the electrode wire on the electrode plate, and the physiotherapy instrument generates current pulse which is transmitted to the electrode plate for physiotherapy.

Because the electrode plates are fixed by adopting the modes of binding bands, viscose and the like, the operation is more complicated, the positioning is easy to shift, and the treatment effect is greatly reduced; some of the viscose is stuck on the skin of a user and is not easy to clean, so that the experience of the user is reduced; the electrode slice of viscose is sticky after repetitious usage, and the viscose loses viscidity, is unfavorable for pasting, can not reuse for a long time.

Disclosure of Invention

The utility model aims at providing a sucking disc formula electrode slice to the problem that prior art exists.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a sucking disc formula electrode slice, the electrode slice includes interconnect's conducting layer, electrically conductive silica gel sucking disc and electrode contact pin mouth, electrically conductive silica gel sucking disc evenly distributed is in the below of conducting layer, the electrode contact pin mouth is located the top of conducting layer.

The sucker type electrode plate is simple in structure and easy to operate, the conductive silica gel sucker directly contacts and adsorbs the skin of a human body, and the electrode plate is not fixed by other media, so that the use of viscose is reduced, and the experience of a user is improved; the conductive silica gel sucker and the conductive layer can directly conduct current, a complex circuit does not need to be arranged inside the electrode slice, the contact pin inserted into the electrode contact pin port of the therapeutic instrument or the physiotherapy instrument can be used for treatment, the current transmission effect is good, and the treatment effect is improved.

When using, which main and collateral channels or acupuncture point of human body need the physiotherapy, directly will electrically conductive silica gel sucking disc adsorbs in this department, can treat this department, and the location accuracy is higher, can promote treatment.

Furthermore, the electrode pin opening is a cavity formed by medical conductive silica gel, and is tightly connected with the conductive layer and the conductive silica gel sucker. The electrode pin port is beneficial to directly transmitting pulse current or signals to the conductive silica gel sucker; meanwhile, the multifunctional contact pin physiotherapy wire is adaptive to various contact pin physiotherapy wires, and the applicability is wide.

Furthermore, an insulating layer is arranged above the conducting layer, an internal thread hole is formed in the middle of the insulating layer and the conducting layer, corresponding to the conducting silica gel sucker, a pressure release cover is arranged in the internal thread hole, and the pressure release cover is a sealing structure body which is matched with the internal thread hole and can be quickly disassembled through threads; the top of the pressure release cover is provided with a rotating handle.

The insulating layer covers the release cover and the electrode pin port and is made of insulating silica gel; the pressure release cover is a sealing structure body which is quickly disassembled by threads, can be screwed up by rotating towards one direction, can be loosened by rotating towards the other direction, and is matched and fixed with the insulating layer; the electrode plate can be easily taken off by releasing air through rotating the release cover, so that the phenomenon that the electrode plate is difficult to pull out or inconvenient to buckle off after being sucked is avoided.

Further, the conducting layer is medical conducting silica gel.

The medical conductive silica gel is prepared by taking silicon rubber as basic rubber, and is added with conductive filler, cross-linking agent and the like; the conductive filler is one or more of acetylene black, carbon fiber, superconducting carbon black, graphite, copper powder, silver powder, aluminum powder and zinc powder. The conductive silica gel has the advantages of small volume resistivity, low hardness, high temperature resistance, aging resistance and good processability; therefore, the conductive layer and the conductive silica gel sucker have good conductivity and uniformly distributed impedance, and are favorable for receiving and executing various current pulse signals to achieve the purposes of treatment and physical therapy. And the medical conductive silica gel has good flexibility and can not hurt human body in the treatment process.

Further, electrically conductive silica gel sucking disc is "horn mouth" shape, the internal perisporium coating of electrically conductive silica gel sucking disc has electrically conductive gel layer.

The horn mouth-shaped conductive silica gel sucker can adsorb an electrode plate on skin for accurate positioning treatment, does not need to be fixed by other media, can be used for multiple times, reduces the material consumption cost, and is simple and convenient to operate. The conductive gel layer further improves the adsorption effect; the conductive gel has weak viscosity, can assist the sucker to improve the adsorption effect, and can not obviously increase the discomfort and the sticky feeling to the skin of a human body.

Furthermore, the conductive silica gel suckers are multiple and uniformly distributed below the conductive layer in a rectangular array mode.

Further, electrically conductive silica gel sucking disc is a plurality of for a set of interval distribution, and is a plurality of electrically conductive silica gel sucking disc uses one of them electrically conductive silica gel sucking disc is center, remaining electrically conductive silica gel sucking disc sets up around this centrosymmetric mode.

The arrangement of the plurality of conductive silica gel suckers enables one electrode plate to treat a plurality of acupuncture points simultaneously; the conductive silica gel suckers adopting different arrangement modes can form stimulation points in various distribution combinations, and a dispersive or combined treatment effect at one position is achieved.

Furthermore, the conducting layer, the conductive silica gel sucker and the electrode pin opening are integrally formed.

Furthermore, every the electrically conductive silica gel sucking disc is close to the one end of conducting layer all is connected with presses the post, press the post all upwards to extend and run through the conducting layer, it presses the pressure board to be connected with on the post to press, it is in to press the parallel setting of pressure board the upper surface of conducting layer.

Through every set up on the electrically conductive silica gel sucking disc and press the post and connect and press the clamp plate, can play and press simultaneously a plurality ofly the effect of electrically conductive silica gel sucking disc is convenient for a plurality of sucking discs to adsorb simultaneously fixedly, has improved the convenience and the validity of operation.

Furthermore, one surface of the pressing plate, which is far away from the conducting layer, is provided with anti-skid grains or raised particles. Provides certain friction force and convex hand feeling, and is convenient for applying pressing force.

Further, the flexibility of the pressing column and the pressing plate is smaller than that of the conductive layer. Namely, the hardness or rigidity of the pressing column and the pressing plate is slightly higher, so that the transmission of the pressing force is facilitated, and the success and convenience of the adsorption operation are improved.

The middle part of each pressing column can also be provided with an internal thread structure which penetrates through the pressing column in the axial direction and is matched with the pressure release cover for use, and the end part of the pressure release cover is positioned above the pressing plate under the structure, so that each conductive silica gel sucker is respectively subjected to air release operation.

Compared with the prior art, the beneficial effects of the utility model are that: 1. the sucker type electrode plate is simple in structure and easy to operate, the conductive silica gel sucker directly contacts and adsorbs the skin of a human body, and the electrode plate is not fixed by other media, so that the use of viscose is reduced, and the experience of a user is improved; 2. the conductive silica gel sucker and the conductive layer can directly conduct current, a complex circuit does not need to be arranged in the electrode slice, a contact pin of a therapeutic instrument or a physiotherapy instrument is inserted into the contact pin port of the electrode for treatment, the current transmission effect is good, and the treatment effect is improved; 3. the arrangement of the plurality of conductive silica gel suckers enables one electrode plate to treat a plurality of acupuncture points simultaneously; the conductive silica gel suckers in different arrangement modes can form stimulation points in various distribution combinations, so that the dispersive or combined treatment effect at one position is achieved; 4. the pressing column and the pressing plate are arranged, so that the effect of simultaneously pressing the plurality of conductive silica gel suckers can be achieved, the plurality of suckers can be conveniently and simultaneously adsorbed and fixed, and the convenience and the success of operation are improved; 5. the arrangement of the release cover can release air in a rotating mode, so that the electrode plate can be taken off easily, and the phenomenon that the electrode plate is difficult to pull out or inconvenient to buckle off after being sucked is avoided.

Drawings

Fig. 1 is a schematic view of the overall structure of a suction cup type electrode plate of the present invention;

fig. 2 is a schematic diagram of the arrangement of the conductive silica gel chuck of the chuck type electrode plate of the present invention;

fig. 3 is another layout diagram of the conductive silica gel chuck of the chuck type electrode plate of the present invention;

fig. 4 is a schematic structural view of another conductive silica gel chuck of the chuck type electrode plate of the present invention;

fig. 5 is a schematic structural view of another conductive silica gel chuck of a chuck type electrode plate according to the present invention;

FIG. 6 is a schematic view of the end structure of a pressure release cap of a conductive silicone sucker of another sucker-type electrode plate according to the present invention;

in the figure: 1. a conductive layer; 2. a conductive silica gel sucker; 3. an electrode pin port; 4. a conductive gel layer; 5. pressing the column; 6. a pressing plate; 7. raised particles; 8. an insulating layer; 9. an internally threaded bore; 10. releasing the cover; 11. the handle is rotated.

Detailed Description

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

The first embodiment is as follows:

as shown in fig. 1, the electrode plate comprises a conductive layer 1, conductive silica gel suckers 2 and electrode pin ports 3 which are connected with one another, wherein the conductive silica gel suckers 2 are uniformly distributed below the conductive layer 1, and the electrode pin ports 3 are located on the side edge of the upper portion of the conductive layer 1.

The sucker type electrode plate is simple in structure and easy to operate, is directly contacted and adsorbed with the skin of a human body through the conductive silica gel sucker 2, does not need to be fixed by other media, reduces the use of viscose, and improves the experience of a user; conductive silica gel sucking disc 2 can direct conduction current with conducting layer 1, need not to set up complicated circuit in that the electrode slice is inside the contact pin of inserting therapeutic instrument or physiotherapy equipment can treat in electrode contact pin mouth 3, and the current transmission is effectual, has promoted treatment.

When using, which main and collateral channels or acupuncture point of human body need the physiotherapy, directly will electrically conductive silica gel sucking disc 2 adsorbs in this department, can treat this department, and the location accuracy is higher, can promote treatment.

Further, the electrode pin port 3 is a cavity formed by medical conductive silica gel, and is tightly connected with the conductive layer 1 and the conductive silica gel sucker 2. The electrode pin port 3 is beneficial to directly transmitting pulse current or signals to the conductive silica gel sucker; meanwhile, the multifunctional contact pin physiotherapy wire is adaptive to various contact pin physiotherapy wires, and the applicability is wide.

Further, the conducting layer 1 is medical conducting silica gel.

The medical conductive silica gel is prepared by taking silicon rubber as basic rubber, and is added with conductive filler, cross-linking agent and the like; the conductive filler is one or more of acetylene black, carbon fiber, superconducting carbon black, graphite, copper powder, silver powder, aluminum powder and zinc powder. The conductive silica gel has the advantages of small volume resistivity, low hardness, high temperature resistance, aging resistance and good processability; therefore, the conductive layer 1 and the conductive silica gel sucker 2 have good conductivity and impedance distributed uniformly, and are beneficial to receiving and executing various current pulse signals to achieve the purposes of treatment and physical therapy. And the medical conductive silica gel has good flexibility and can not hurt human body in the treatment process.

Example two:

the difference between the present embodiment and the first embodiment is that an arrangement manner of the conductive silicone sucker is provided.

Specifically, as shown in fig. 2, the electrode plates and the conductive layer 1 are rectangular, and the number of the conductive silica gel suckers 2 is four, and the conductive silica gel suckers are uniformly distributed below the conductive layer 1 in a rectangular array manner.

Further, electrically conductive silica gel sucking disc 2 is "horn mouth" shape, the internal perisporium coating of electrically conductive silica gel sucking disc 2 has electrically conductive gel layer 4.

The horn mouth-shaped conductive silica gel sucker 2 can adsorb the electrode plate on the skin for accurate positioning treatment, does not need to be fixed by other media, can be used for multiple times, reduces the material cost, and is simple and convenient to operate. The conductive gel layer 4 further improves the adsorption effect; the conductive gel has weak viscosity, can assist the sucker to improve the adsorption effect, and can not obviously increase the discomfort and the sticky feeling to the skin of a human body.

Furthermore, the conducting layer, the conductive silica gel sucker and the electrode pin opening are integrally formed. The silica gel 3D printing technology can be adopted during manufacturing, and the layer-by-layer forming is carried out; the electrode plate can also be integrally formed by applying a conventional silica gel thermal forming process.

Example three:

the difference between the present embodiment and the first embodiment is that an arrangement manner of electrode plates and the conductive silicone sucker with another structure is provided.

Specifically, as shown in fig. 3, the electrode sheet and the conductive layer 1 are circular; the number of the conductive silica gel suckers 2 is seven, one conductive silica gel sucker is arranged at the center of a circle, and the remaining six conductive silica gel suckers are arranged in a manner of being symmetrical around the center of the circle; the electrode pin port 3 is arranged at any side edge of the circular conductive layer 1.

The conductive silica gel sucker 2 adopting the arrangement mode can fully utilize the space position below the conductive layer 1 and can also improve the adsorption capacity of the electrode slice on the whole.

The arrangement of the plurality of conductive silica gel suckers enables one electrode plate to treat a plurality of acupuncture points simultaneously; the conductive silica gel suckers adopting different arrangement modes can form stimulation points in various distribution combinations, and a dispersive or combined treatment effect at one position is achieved.

Example four:

the present embodiment is different from the first embodiment in that an electrode sheet of another arrangement structure is provided.

Specifically, as shown in fig. 4, one end of each conductive silicone sucker 2 close to the conductive layer 1 is connected with a pressing column 5, each pressing column 5 extends upwards and penetrates through the conductive layer 1, the pressing column 5 is connected with a pressing plate 6, and the pressing plates 6 are arranged on the upper surface of the conductive layer 1 in parallel.

Through every set up on the electrically conductive silica gel sucking disc 2 and press post 5 and connect and press board 6, can play and press a plurality ofly simultaneously electrically conductive silica gel sucking disc 2's effect, a plurality of electrically conductive silica gel sucking discs 2 of being convenient for adsorb simultaneously fixedly, have improved the convenience and the validity of operation.

Furthermore, convex particles 7 are arranged on one surface of the pressing plate 6, which is far away from the conductive layer 1. Provides certain friction force and convex hand feeling, and is convenient for applying pressing force.

Further, the flexibility of the pressing column 5 and the pressing plate 6 is smaller than that of the conductive layer 1, and the pressing plate is made of an insulating material. That is, the hardness or rigidity of the pressing column 5 and the pressing plate 6 is slightly higher, which facilitates the transmission of the pressing force and improves the success and convenience of the adsorption operation.

Example five:

the present embodiment differs from the first embodiment in that yet another arrangement of electrode sheets is provided.

Specifically, as shown in fig. 5 and 6, an insulating layer 8 is arranged above the conductive layer 1, an axial internal threaded hole 9 is formed in the middle of the insulating layer 8 and the conductive layer 1 corresponding to the conductive silica gel sucker 2, a pressure release cover 10 is arranged in the internal threaded hole 9, and the pressure release cover 10 is a sealing structure body which is matched with the internal threaded hole 9 and is capable of being quickly detached from threads; the top of the release cover 10 is provided with a rotating handle 11.

The insulating layer 8 covers part of the release cover 10 and the electrode pin port 3 and is made of insulating silica gel; the release cover 10 is a sealing structure body which is quickly disassembled by threads, can be screwed up by clockwise rotation, can be loosened by anticlockwise rotation, and is matched and fixed with the insulating layer 8; the electrode plate can be easily taken off by releasing air through rotating the release cover 10, so that the phenomenon that the electrode plate is difficult to pull out or inconvenient to buckle off after being sucked is avoided.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A sucker type electrode plate is characterized by comprising a conductive layer, conductive silica gel suckers and electrode pin ports which are connected with one another, wherein the conductive silica gel suckers are uniformly distributed below the conductive layer, and the electrode pin ports are positioned above the conductive layer; the electrode pin opening is a cavity formed by medical conductive silica gel and is tightly connected with the conductive layer and the conductive silica gel sucker.

2. The suction cup type electrode plate according to claim 1, wherein an insulating layer is arranged above the conductive layer, an internal thread hole is arranged in the middle of the insulating layer and the conductive layer corresponding to the conductive silica gel suction cup, a release cover is arranged in the internal thread hole, and the release cover is a sealing structure body which is matched with the internal thread hole and can be quickly detached from threads; the top of the pressure release cover is provided with a rotating handle.

3. The suction cup type electrode sheet according to claim 1, wherein the conductive layer is medical conductive silicone.

4. The suction cup type electrode sheet according to claim 1, wherein the conductive silicone suction cup is in a "bell mouth" shape, and the inner peripheral wall of the conductive silicone suction cup is coated with a conductive gel layer.

5. The suction cup type electrode sheet according to claim 1, wherein the conductive silicone suction cups are uniformly distributed below the conductive layer in a rectangular array.

6. The suction cup type electrode sheet according to claim 1, wherein the plurality of conductive silicone suction cups are arranged in a group at intervals, and the plurality of conductive silicone suction cups are arranged in such a manner that one of the conductive silicone suction cups is a center and the remaining conductive silicone suction cups are symmetrical about the center.

7. The suction cup type electrode sheet according to claim 1, wherein the conductive layer, the conductive silicone suction cup and the electrode pin opening are integrally formed.

8. The electrode sheet of claim 1, wherein a pressing post is connected to one end of each conductive silicone sucker, which is close to the conductive layer, the pressing posts extend upward and penetrate through the conductive layer, and pressing plates are connected to the pressing posts and arranged on the upper surface of the conductive layer in parallel.

9. The suction cup type electrode sheet according to claim 8, wherein the surface of the pressing plate away from the conductive layer is provided with anti-slip grains or protruding particles.

10. The suction pad electrode sheet as claimed in claim 8, wherein the pressing posts and the pressing plate have a flexibility less than that of the conductive layer.

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