Traditional Chinese medicine directional medicine penetrating therapy electrode sheet

By designing TCM-oriented transdermal drug delivery electrode pads with fixed and wearable components, the problem of wobbling connecting wires was solved, achieving a close fit and stable connection between the electrode pads and the skin, thus improving the therapeutic effect of the medication.

CN224331369UActive Publication Date: 2026-06-09SHENZHEN SKYFOREVER TECH LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN SKYFOREVER TECH LTD
Filing Date
2025-01-16
Publication Date
2026-06-09

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    Figure CN224331369U_ABST
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Abstract

This utility model discloses a TCM-oriented transdermal drug delivery therapy electrode pad, belonging to the field of electrode pad technology. It includes an electrode pad body, a connecting wire on the left side of the electrode pad body, a connector fixedly connected to the front of the connecting wire, a cross-shaped wire hole on the front of the connector, a fixing component on the front of the connector, an adhesive layer at the bottom of the electrode pad body, a diaphragm at the bottom of the adhesive layer, and a wearing component on the outside of the electrode pad body. The fixing component allows the user to easily insert the connecting wire of the electrode pad body into the cross-shaped wire hole and fix it in place, thus preventing the connecting wire from separating from the physiotherapy machine's wire during physiotherapy and causing unnecessary problems.
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Description

Technical Field

[0001] This utility model relates to the field of electrode sheet technology, and in particular to a TCM-oriented transdermal drug delivery electrode sheet. Background Technology

[0002] Traditional Chinese medicine iontophoresis is a procedure that uses direct current to introduce drug ions into the body through acupoints on the skin, acting on the lesion to achieve effects such as promoting blood circulation, removing blood stasis, softening and dispersing nodules, and reducing inflammation and pain. Current therapeutic electrode pads consist of an adhesive tape with electrode pads mounted on it. In use, the drug-penetrating pad is placed on the electrode pad, and then the side of the adhesive tape with the drug-penetrating pad is attached to the body. The electrode pad is then connected to a transdermal drug delivery device, enabling drug penetration into the body.

[0003] However, current physiotherapy electrode pads are simply connected to the physiotherapy machine's wires in a rather simple way. They do not secure the electrode pad's connecting wires to the physiotherapy machine's wires after connection. Consequently, if there is any shaking during physiotherapy, the electrode pad's connecting wires will separate from the physiotherapy machine's wires, causing unnecessary problems during use. Utility Model Content

[0004] The purpose of this invention is to provide a TCM-targeted transdermal drug delivery electrode to solve at least one of the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a TCM-oriented transdermal drug delivery electrode pad, comprising an electrode pad body, a connecting wire disposed on the left side of the electrode pad body, a socket fixedly connected to the front side of the connecting wire, a cross-shaped wire hole opened on the front side of the socket, a fixing component disposed on the front side of the socket, an adhesive layer disposed at the bottom of the electrode pad body, a diaphragm disposed at the bottom of the adhesive layer, and a wearing component disposed on the outside of the electrode pad body.

[0006] Preferably, the fixing assembly includes two connecting brackets fixedly connected to the front of the socket. The top and bottom of the inner cavities of the two connecting brackets are respectively provided with the same slot. The inner cavities of the two connecting brackets are fixedly connected to the same crossbar. Springs are fitted on both sides of the two crossbars. Two clamping blocks are fitted in the middle of the two crossbars. The top of each clamping block is fixedly connected with a slotted block that matches the slot. The middle of each clamping block is provided with a circular hole that matches the crossbar.

[0007] Preferably, the clamping blocks are all fitted into the middle of the crossbar through circular holes and are slidably connected to the connecting frame through slots.

[0008] Preferably, all the springs are made of tin-plated springs.

[0009] Preferably, the wearing assembly includes a first wearing ring and a second wearing ring fixedly connected to the front and back sides of the electrode plate body, wherein the top of the first wearing ring and the bottom of the second wearing ring are respectively provided with a Velcro surface and a Velcro hook surface.

[0010] Preferably, the top of the first wearing ring has a plurality of through holes adapted to the second wearing ring.

[0011] The beneficial effects of this utility model are as follows:

[0012] 1. In this utility model, by pushing each pair of clamping blocks in opposite directions through the corresponding slots, the spring is squeezed through the circular hole during the pushing process, adjusting the distance between each pair of clamping blocks to be larger than the slot of the cross-shaped hole. Then, the wire connector of the physiotherapy machine is inserted into the cross-shaped hole and connected to the connecting wire of the electrode body. After connection, the clamping blocks are released and the spring self-extension and reset, so that the clamping blocks tightly clamp the wire connector of the physiotherapy machine in the cross-shaped hole for fixation. This can prevent shaking during physiotherapy from causing the connecting wire of the electrode body to separate from the wire of the physiotherapy machine and causing unnecessary impact.

[0013] 2. In this utility model, the electrode pad body is peeled off and adhered to the arm via an adhesive layer. Then, the second wearing ring is inserted into the first wearing ring through a perforation. After insertion, the circular inner cavity formed by the first and second wearing rings is tightly fitted to the user's arm. After fitting, the hook side of the Velcro is attached to the loop side of the Velcro to fix the first and second wearing rings. This not only facilitates the user to perform a double connection between the electrode pad body and the arm, but also prevents the adhesive layer from becoming unusable after a long time. As a result, the electrode pad body fits tightly to the arm, improving the therapeutic effect of the medication. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0015] Figure 2 This is a three-dimensional structural diagram of the electrode sheet body of this utility model;

[0016] Figure 3 This is a three-dimensional structural diagram of the fixing component of this utility model;

[0017] Figure 4 This is a three-dimensional structural diagram of the wearing component of this utility model.

[0018] In the diagram: 1. Electrode body; 2. Connecting wire; 3. Socket; 4. Cross-shaped wire hole; 5. Adhesive layer; 6. Diaphragm; 7. Connecting frame; 8. Slot; 9. Crossbar; 10. Spring; 11. Clamping block; 12. Slot block; 13. Circular hole; 14. First wearing ring; 15. Second wearing ring; 16. Perforation; 17. Velcro surface; 18. Velcro hook surface. Detailed Implementation

[0019] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0020] This utility model provides, for example Figure 1-4 The electrode pad shown is a TCM-oriented transdermal drug delivery therapy electrode pad, including an electrode pad body 1. A connecting line 2 is provided on the left side of the electrode pad body 1. A socket 3 is fixedly connected to the front of the connecting line 2. A cross-shaped wire hole 4 is opened on the front of the socket 3. A fixing component is provided on the front of the socket 3. An adhesive layer 5 is provided at the bottom of the electrode pad body 1. A diaphragm 6 is provided at the bottom of the adhesive layer 5. A wearing component is provided on the outside of the electrode pad body 1.

[0021] Furthermore, the fixing component includes two connecting brackets 7 fixedly connected to the front of the socket 3. The top and bottom of the inner cavity of the two connecting brackets 7 are respectively provided with the same slot 8. The inner cavity of the two connecting brackets 7 is fixedly connected to the same crossbar 9. Springs 10 are fitted on both sides of the two crossbars 9. Two clamping blocks 11 are fitted in the middle of the two crossbars 9. The top of the clamping blocks 11 is fixedly connected with a slot block 12 that matches the slot 8. The middle of the clamping blocks 11 is provided with a circular hole 13 that matches the crossbar 9. The clamping blocks 11 are fitted into the middle of the crossbar 9 through the circular hole 13 and are slidably connected to the connecting brackets 7 in the slot 8 through the slot block 12. With the fixing component, it is convenient for the user to fix the connecting wire 2 of the electrode body 1 and the wire connector of the physiotherapy machine after inserting them into the cross-shaped wire hole 4. This can prevent shaking during physiotherapy from causing the connecting wire 2 of the electrode body 1 to separate from the wire of the physiotherapy machine and causing unnecessary impact.

[0022] Furthermore, all springs 10 are made of tin-plated springs. Tin has a certain degree of chemical stability. At room temperature, the tin plating layer can effectively prevent the spring 10 from contacting air, moisture, etc., thereby slowing down the corrosion rate of the spring 10, extending the service life of the spring 10, and reducing the coefficient of friction on the surface of the spring 10. This reduces the wear and frictional resistance of the spring 10 during operation, making the movement of the spring 10 smoother, which helps to improve the working efficiency and reliability of the spring 10, and also reduces the noise generated by friction.

[0023] Furthermore, the wearing component includes a first wearing ring 14 and a second wearing ring 15 fixedly connected to the front and back of the electrode pad body 1. The top of the first wearing ring 14 and the bottom of the second wearing ring 15 are respectively provided with a Velcro surface 17 and a Velcro hook surface 18. Through the wearing component, it is not only convenient for the user to make a double connection between the electrode pad body 1 and the arm, but also to prevent the adhesive layer 5 from becoming unusable after a long time. This allows the electrode pad body 1 to fit tightly with the arm, improving the therapeutic effect of the drug.

[0024] Furthermore, the top of the first wearing ring 14 is provided with a plurality of through holes 16 that are adapted to the second wearing ring 15. The second wearing ring 15 and the first wearing ring 14 can be easily connected through the through holes 16.

[0025] In practical implementation, this invention first involves pushing two clamping blocks 11 in opposite directions through corresponding slots 12 within slots 8. During this pushing, the spring 10 is compressed through the circular hole 13, adjusting the distance between the two clamping blocks 11 to be greater than the slot of the cross-shaped hole 4. Then, the wire connector of the physiotherapy machine is inserted into the cross-shaped hole 4 and connected to the connecting wire 2 of the electrode body 1. After connection, the spring 10 is released, and its self-expansion and reset mechanism allows the clamping blocks 11 to tightly clamp the wire connector of the physiotherapy machine within the cross-shaped hole 4 for fixation. This prevents shaking during physiotherapy from causing the connecting wire 2 of the electrode body 1 to separate from the physiotherapy machine's wire. To avoid unnecessary interference, the diaphragm 6 is then removed, and the electrode body 1 is adhered to the arm via the adhesive layer 5. The second wearing ring 15 is then inserted through the perforation 16 into the first wearing ring 14. After insertion, the circular inner cavity formed by the first and second wearing rings 14 and 15 is tightly fitted to the user's arm. After fitting, the hook side 18 is attached to the loop side 17 of the hook and loop fastener to secure the first and second wearing rings 14 and 15. This not only facilitates the user's double connection between the electrode body 1 and the arm but also prevents the adhesive layer 5 from becoming unusable over time, thus ensuring a tight fit between the electrode body 1 and the arm and improving the therapeutic effect of the medication.

[0026] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A TCM-based targeted transdermal drug delivery electrode pad, comprising an electrode pad body (1), characterized in that: A connecting wire (2) is provided on the left side of the electrode body (1). A socket (3) is fixedly connected to the front of the connecting wire (2). A cross-shaped wire hole (4) is opened on the front of the socket (3). A fixing component is provided on the front of the socket (3). An adhesive layer (5) is provided at the bottom of the electrode body (1). A diaphragm (6) is provided at the bottom of the adhesive layer (5). A wearing component is provided on the outside of the electrode body (1). The fixing component includes two connecting brackets (7) fixedly connected to the front of the socket (3). The top and bottom of the inner cavities of the two connecting brackets (7) are respectively provided with the same slot (). 8) The inner cavity of the two connecting frames (7) is fixedly connected to the same crossbar (9). Springs (10) are fitted on both sides of the two crossbars (9). Two clamping blocks (11) are fitted in the middle of the two crossbars (9). The top of the clamping blocks (11) is fixedly connected to a slot block (12) that matches the slot hole (8). The middle of the clamping blocks (11) is provided with a circular hole (13) that matches the crossbar (9). The clamping blocks (11) are fitted in the middle of the crossbar (9) through the circular hole (13) and are slidably connected to the connecting frame (7) in the slot hole (8) through the slot block (12).

2. The TCM-targeted transdermal drug delivery electrode pad according to claim 1, characterized in that: All springs (10) are made of tin-plated springs.

3. The TCM-targeted transdermal drug delivery electrode pad according to claim 1, characterized in that: The wearing assembly includes a first wearing ring (14) and a second wearing ring (15) fixedly connected to the front and back sides of the electrode body (1). The top of the first wearing ring (14) and the bottom of the second wearing ring (15) are respectively provided with a Velcro surface (17) and a Velcro hook surface (18).

4. The TCM-targeted transdermal drug delivery electrode pad according to claim 3, characterized in that: The top of the first wearing ring (14) is provided with a plurality of perforations (16) that are adapted to the second wearing ring (15).