CN211835819U - Wireless silica gel electrode slice - Google Patents

Abstract

The utility model discloses a wireless silica gel electrode plate, the electrode plate has a conductive layer, and a mainboard, a battery module, a touch sensing module and a Bluetooth module are arranged in the conductive layer; the side wall of the conducting layer is provided with an interface close to the battery module, and the conducting layer is connected with an output circuit of the mainboard; a plurality of conductive silica gel suckers are further arranged below the conductive layer and connected with the main board; according to the wireless silica gel electrode plate, the mainboard circuit, the Bluetooth module and the battery module are embedded in the conducting layer, so that wireless signals of the electrode plate can be received and transmitted, an external power line and an external electrode wire are not needed, and the constraint of a wire line on the electrode plate is reduced; the user can flexibly adjust the adsorption position of the electrode plate, and the user can freely move or move, so that the experience feeling is improved; the device is not required to be fixed by other media, and can be used for multiple times, so that the material consumption cost is reduced, and the operation is simple and convenient.

Description

Wireless silica gel electrode slice

Technical Field

The utility model relates to electrode slice technical field, concretely relates to wireless silica gel 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 connecting pin electrode wires are also needed to be matched with treatment, the treatment can be limited to a specific range due to the limitation of the electrode wires. And moreover, the adhesive is adopted for fixation, the use and the operation are more complex, the positioning is easy to shift, the patient can not move for a long time, and the experience is not friendly.

Disclosure of Invention

The utility model aims at providing a wireless silica gel electrode slice to the problem that prior art exists.

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

a wireless silica gel electrode plate is provided with a conductive layer, wherein a main board, a battery module, a touch sensing module and a Bluetooth module are arranged in the conductive layer; the touch sensing module is connected with the mainboard and the Bluetooth module and triggers or closes the Bluetooth module to receive signals; the Bluetooth module is connected with the mainboard and transmits an external instruction and a signal to the mainboard; the battery module is connected with the mainboard, the Bluetooth module and the touch sensing module and supplies power to the mainboard, the Bluetooth module and the touch sensing module; the side wall of the conducting layer is provided with an interface close to the battery module, and the conducting layer is connected with an output circuit of the mainboard; the below of conducting layer still is equipped with a plurality of electrically conductive silica gel sucking discs, electrically conductive silica gel sucking disc with mainboard connection.

According to the wireless silica gel electrode plate, the mainboard circuit, the Bluetooth module and the battery module are embedded in the conducting layer, so that wireless signals of the electrode plate can be received and transmitted, an external power line and an external electrode wire are not needed, and the constraint of a wire line on the electrode plate is reduced; the user can adjust the adsorbed position of electrode slice in a flexible way, improves the accuracy of position, and the user can freely remove or move about moreover, has promoted experience and has felt.

The corresponding external therapeutic instrument or the physiotherapy instrument is provided with a Bluetooth module matched with the electrode plate, and the Bluetooth module is in wireless connection with the Bluetooth module on the electrode plate to receive and send signals.

The touch sensing module is arranged to enable the electrode plate to be provided with the touch sensing switch, so that the electrode plate can be conveniently controlled to be opened and closed.

The conductive silica gel sucker can adsorb the electrode slice 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 consumption cost, and is simple and convenient to operate. The conductive silica gel sucker is connected with the conductive layer and the main board, so that corresponding current pulse signals can be obtained, and corresponding treatment or physiotherapy can be carried out.

Furthermore, the conducting layer with electrically conductive silica gel sucking disc is medical electrically conductive silica gel material.

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, electrically conductive silica gel sucking disc's internal perisporium is arc and coats and has electrically conductive gel layer. The conductive silica gel sucker with the structure is convenient to adsorb the skin of a human body, and the adsorption effect is further improved by the conductive gel layer; 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.

Furthermore, the mainboard, the battery module and the Bluetooth module are all wrapped in the conducting layer in a modularized mode, and one side of the touch sensing module is exposed out of the conducting layer. With the modularization cladding in the conducting layer, make electrode slice inner structure easily overall arrangement, outward appearance regular on the one hand, on the other hand has avoided components and parts direct and conducting layer electrical contact, influences the normal use of electrode slice.

Furthermore, a control chip is arranged on the mainboard, and the Bluetooth module and the touch sensing module are respectively and electrically connected with the control chip through cables (or pins); the control chip is also electrically connected with the conductive layer and controls the waveform output current. The control chip can receive and process external signals through Bluetooth and can also feed back real-time current information of the electrode plate to an external instrument through Bluetooth after being acquired and processed.

Furthermore, a status indicator lamp is arranged on the touch sensing module and is positioned outside the conductive layer. The state indicator lamp can be convenient for the operating condition of visual observation electrode slice.

Furthermore, the interface is a charging interface, the battery module comprises a rechargeable battery and a power management chip which are connected with each other, and the rechargeable battery is connected with the charging interface through a connector. The interface is a DC cylinder interface or a Micro-USB interface or a Type-C interface.

Further, the conducting layer and the conductive silica gel sucker are integrally formed.

Compared with the prior art, the beneficial effects of the utility model are that: 1. according to the wireless silica gel electrode plate, the mainboard circuit, the Bluetooth module and the battery module are embedded in the conducting layer, so that wireless signals of the electrode plate can be received and transmitted, an external power line and an external electrode wire are not needed, and the constraint of a wire line on the electrode plate is reduced; the user can flexibly adjust the adsorption position of the electrode plate, the position accuracy is improved, the user can freely move or move, and the experience is improved; 2. the conductive silica gel sucker can adsorb the electrode plate on the skin for accurate positioning treatment without being fixed by other media, and can be used for multiple times, so that the material cost is reduced, and the operation is simple and convenient; 3. the conductive layer and the conductive silica gel sucker have good conductivity and uniformly distributed impedance by using the conductive silica gel, so that various current pulse signals can be received and executed, and the purposes of treatment and physical therapy can be achieved.

Drawings

Fig. 1 is a schematic view of the overall structure of a wireless silica gel electrode plate of the present invention;

fig. 2 is a schematic layout view of a conductive silica gel sucker of a wireless silica gel electrode plate according to the present invention;

fig. 3 is another schematic layout diagram of the conductive silica gel sucker of the wireless silica gel electrode plate of the present invention;

fig. 4 is a schematic view of the overall structure of another wireless silicone electrode plate of the present invention;

in the figure: 1. a conductive layer; 2. a Bluetooth module; 3. a touch sensing module; 4. a main board; 5. a battery module; 6. an interface; 7. a conductive silica gel sucker; 8. a connector; 9. cables (pins); 10. a status indicator light; 11. connecting columns.

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 sheet is provided with a conductive layer 1, and a main board 4, a battery module 5, a touch sensing module 3 and a bluetooth module 2 are arranged in the conductive layer 1; the touch sensing module 3 is connected with the mainboard 4 and the Bluetooth module 2, and triggers or closes the Bluetooth module 2 to receive signals; the Bluetooth module 2 is connected with the mainboard 4 and transmits external instructions and signals to a control chip on the mainboard 4; the battery module 5 is connected with the mainboard 4, the Bluetooth module 2 and the touch sensing module 3 and supplies power to the mainboard 4, the Bluetooth module 2 and the touch sensing module 3; the side wall of the conducting layer 1 is provided with an interface 6 close to the battery module 5, and the conducting layer 1 is connected with an output circuit of the mainboard 4 through a connecting column 11; the below of conducting layer 1 still is equipped with a plurality of electrically conductive silica gel sucking discs 7, electrically conductive silica gel sucking disc 7 with mainboard 4 is connected.

According to the wireless silica gel electrode plate, the mainboard 4, the Bluetooth module 2 and the battery module 5 are embedded in the conducting layer, so that wireless signals of the electrode plate can be received and transmitted, an external power line and an external electrode wire are not needed, and the constraint of a wire line on the electrode plate is reduced; the user can adjust the adsorbed position of electrode slice in a flexible way, improves the accuracy of position, and the user can freely remove or move about moreover, has promoted experience and has felt.

The corresponding external therapeutic apparatus is provided with a Bluetooth module matched with the electrode plate, and the Bluetooth module is in wireless connection with the Bluetooth module on the electrode plate to receive and send signals.

The touch sensing module 3 is arranged to enable the electrode plate to be provided with a touch sensing switch, so that the electrode plate can be conveniently controlled to be opened and closed.

The conductive silica gel sucker 7 can adsorb the electrode slice 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 silica gel sucker is connected with the conductive layer and the main board, so that corresponding current pulse signals can be obtained, and corresponding treatment or physiotherapy can be carried out.

Further, the conducting layer 1 and the conductive silica gel sucker 7 are both made of medical conductive silica gel materials.

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 nickel-coated copper 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.

Furthermore, the mainboard 4, the battery module 5 and the bluetooth module 2 are all modularly wrapped in the conducting layer, and one side of the touch sensing module 3 is exposed out of the conducting layer 1. With the modularization cladding in the conducting layer, make electrode slice inner structure easily overall arrangement, outward appearance regular on the one hand, on the other hand has avoided components and parts direct and conducting layer electrical contact, influences the normal use of electrode slice.

Further, a control chip is arranged on the main board 4, and the bluetooth module 2 and the touch sensing module 3 are electrically connected with the control chip through cables 9 (or pins) respectively; the control chip is also electrically connected with the conducting layer 1 to control the waveform output current. The control chip can receive and process external signals through Bluetooth and can also feed back real-time current information of the electrode plate to an external instrument through Bluetooth after being acquired and processed. The control chip can be a commercially available PWM-UC3846 control chip or other CPU chips, and the rechargeable battery is a lithium battery.

Further, a status indicator light 10 is arranged on the touch sensing module 3, and the status indicator light 10 is located outside the conductive layer 1. The status indicator lamp 10 can facilitate visual observation of the working status of the electrode sheet.

Further, the interface 6 is a charging interface, the battery module 5 includes a rechargeable battery and a power management chip which are connected with each other, and the rechargeable battery is connected with the charging interface through a connector 8. The charging interface is a Micro-USB interface.

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 are rectangular, and the number of the conductive silica gel suckers 7 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 7 is "horn mouth" shape, electrically conductive silica gel sucking disc 7's internal perisporium is arc and coats and has electrically conductive gel layer. The conductive silica gel sucker with the structure is convenient to adsorb the skin of a human body, and the adsorption effect is further improved by the conductive gel layer; 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.

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 7 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 interfaces 6 are arranged on either side of the circular conductive layer 1.

The conductive silica gel sucker 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 plate on the whole.

Example four:

the present embodiment is different from the first embodiment in that a combination molding manner of the electrode sheet is provided.

As shown in fig. 4, the electrode sheet comprises an integrally formed conductive layer 1 and a conductive silica gel sucker 7; during manufacturing, a silica gel 3D printing technology can be adopted, the molding is carried out layer by layer, the mainboard 4, the battery module 5, the touch sensing module 3 and the Bluetooth module 2 are embedded in the molding process, and the interface 6 is reserved.

The electrode plate can be molded by using a conventional silica gel thermoforming process.

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 wireless silica gel electrode plate is characterized in that the electrode plate is provided with a conducting layer, and a mainboard, a battery module, a touch sensing module and a Bluetooth module are arranged in the conducting layer; the touch sensing module is connected with the mainboard and the Bluetooth module and triggers or closes the Bluetooth module to receive signals; the Bluetooth module is connected with the mainboard and transmits an external instruction and a signal to the mainboard; the battery module is connected with the mainboard, the Bluetooth module and the touch sensing module and supplies power to the mainboard, the Bluetooth module and the touch sensing module; the side wall of the conducting layer is provided with an interface close to the battery module, and the conducting layer is connected with an output circuit of the mainboard; the below of conducting layer still is equipped with a plurality of electrically conductive silica gel sucking discs, electrically conductive silica gel sucking disc with mainboard connection.

2. The wireless silicone electrode pad of claim 1, wherein the conductive layer is medical conductive silicone.

3. The wireless silicone electrode sheet according to claim 1, wherein the conductive silicone suction cup is "bell mouth" shaped, and the inner peripheral wall of the conductive silicone suction cup is arc-shaped and coated with a conductive gel layer.

4. The wireless silicone electrode sheet of claim 1, wherein the plurality of conductive silicone suction cups are uniformly distributed below the conductive layer in a rectangular array.

5. The wireless silicone 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.

6. The wireless silicone electrode sheet of claim 1, wherein the motherboard, the battery module, and the bluetooth module are all modularly wrapped in the conductive layer, and one side of the touch sensing module is exposed out of the conductive layer.

7. The wireless silicone electrode sheet according to claim 1, wherein a control chip is disposed on the motherboard, and the bluetooth module and the touch sensing module are electrically connected to the control chip through cables respectively; the control chip is also electrically connected with the conductive layer and controls the waveform output current.

8. The wireless silicone electrode sheet of claim 1, wherein a status indicator light is disposed on the touch sensing module, and the status indicator light is located outside the conductive layer.

9. The wireless silicone electrode sheet of claim 1, wherein the interface is a charging interface, the battery module comprises a rechargeable battery and a power management chip, and the rechargeable battery is connected to the charging interface through a connector.

10. The wireless silicone electrode pad of claim 1, wherein the conductive layer is integrally formed with the conductive silicone suction cup.

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