Temperature-controlled massage insole

By integrating temperature control and massage modules into the insoles, the problem of traditional insoles lacking foot warmth and health is solved, realizing temperature regulation and massage functions, and improving comfort and functionality.

CN224330461UActive Publication Date: 2026-06-09SHANDONG WEIQIAO JIAJIA HOME TEXTILES CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG WEIQIAO JIAJIA HOME TEXTILES CO LTD
Filing Date
2025-05-14
Publication Date
2026-06-09

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    Figure CN224330461U_ABST
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Abstract

The utility model provides a kind of temperature control massage shoe pad, belong to the technical field of shoe pad.The technical scheme of temperature control massage shoe pad is, including shoe pad body, shoe pad body includes skin layer and structure layer in proper order, structure layer is equipped with temperature control module, massage module, control module and power module, temperature control module is connected with control module, temperature control module is at least used to adjust the temperature of shoe pad body, massage module includes massage mechanism and drive mechanism, drive mechanism is connected with massage mechanism to be used to drive massage mechanism movement, drive mechanism is connected with control module, power module is connected with temperature control module, massage module and control module, to at least be used to provide power supply.The corresponding control of temperature control module and massage module is carried out by setting control module, can guarantee warm-keeping effect, and the foot of user is massaged, improve the health of the foot of user.
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Description

Technical Field

[0001] This utility model relates to the field of insole technology, and in particular to a temperature-controlled massage insole. Background Technology

[0002] Insoles are an essential item in people's daily lives, providing a more comfortable environment for our feet. With the development of technology, consumers' demand for insoles is gradually increasing, expecting them to have comfort, health care and temperature control functions at the same time.

[0003] Traditional insoles primarily offer basic comfort and support, but lack features designed for foot health and warmth. Utility Model Content

[0004] This invention addresses the problem that traditional insoles lack foot health and warmth functions by proposing a temperature-controlled massage insole.

[0005] To achieve the above objectives, the present invention adopts the following technical solution:

[0006] This utility model provides a temperature-controlled massage insole, including an insole body. The insole body includes a skin-friendly layer and a structural layer. The structural layer is provided with a temperature control module, a massage module, a control module, and a power module. The temperature control module is connected to the control module and is used to adjust the temperature of the insole body. The massage module includes a massage mechanism and a drive mechanism. The drive mechanism is connected to the massage mechanism to drive the massage mechanism to move. The drive mechanism is connected to the control module. The power module is connected to the temperature control module, the massage module, and the control module to provide power.

[0007] Furthermore, the temperature control module includes a heating layer and a first temperature detector connected to each other. The heating layer is connected to the control module and is used at least for heating the insole body. The first temperature detector is connected to the control module.

[0008] Furthermore, the heating layer includes heating wires and / or heating films, which are uniformly distributed in the structural layer.

[0009] Furthermore, the massage mechanism includes a massage head, and the drive mechanism includes a drive airbag. The drive airbag is connected to the massage head and to a control module. The control module is used to control the inflation and deflation of the drive airbag to drive the massage head to move.

[0010] Furthermore, the drive mechanism includes a vibration motor, which is connected to the massage head and a control module. The control module is used to control the vibration motor to drive the massage head to move.

[0011] Furthermore, the massage head has a raised dot or roller structure.

[0012] Furthermore, the massage head has a flexible structure.

[0013] Furthermore, the massage module includes a second temperature detector, which is connected to the massage mechanism and the control module.

[0014] Furthermore, the temperature-controlled massage insole includes a remote operation module, which is connected to the control module. The remote operation module includes a display module and an operation module. The display module is used to display information from the control module, and the operation module is used to interact with commands from the control module.

[0015] Furthermore, the power module includes a battery assembly and a power interface. The battery assembly is connected to the temperature control module, the massage module, and the control module to provide power. The power interface is connected to the battery assembly and is located in the structural layer. The power interface is used for at least external power supply.

[0016] As can be seen from the above technical solutions, the advantages of this utility model are:

[0017] This invention incorporates a temperature control module on the structural layer, allowing for temperature adjustment of the insole body according to the user's needs, thus ensuring warmth. Furthermore, a massage module on the structural layer provides foot massage, further enhancing the insole's comfort and functionality, improving foot health, and enhancing ease of use and safety. Attached Figure Description

[0018] To more clearly illustrate the technical solution of this utility model, the drawings used in the description will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0019] Figure 1 This is a schematic diagram of the insole in one embodiment of the present invention;

[0020] Figure 2 This is a partial cross-sectional structural diagram of the structural layer in one embodiment of this utility model.

[0021] Explanation of key figure labels:

[0022] 100. Insole body; 110. Skin-friendly layer; 120. Structural layer; 210. Temperature control module; 211. Heating layer; 212. First temperature detector; 220. Massage module; 221. Massage head; 222. Drive airbag; 223. Second temperature detector; 230. Control module; 240. Power module; 241. Battery assembly; 242. Power interface. Detailed Implementation

[0023] To make the objectives, features, and advantages of this utility model more apparent and understandable, the technical solutions of this utility model will be clearly and completely described below with reference to the accompanying drawings of the specific embodiments. Obviously, the embodiments described below are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this patent, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this patent.

[0024] Please see Figures 1-2 A temperature-controlled massage insole includes an insole body 100, which sequentially includes a skin-friendly layer 110 and a structural layer 120. The structural layer 120 is provided with a temperature control module 210, a massage module 220, a control module 230, and a power module 240. The temperature control module 210 is connected to the control module 230 and is used at least to adjust the temperature of the insole body 100. The massage module 220 includes a massage mechanism and a drive mechanism. The drive mechanism is connected to the massage mechanism to drive the massage mechanism to move and is connected to the control module 230. The power module 240 is connected to the temperature control module 210, the massage module 220, and the control module 230 to provide power.

[0025] In this embodiment, as Figure 1 As shown, the insole body 100 includes a skin-friendly layer 110 and a structural layer 120. The skin-friendly layer 110 is located on the upper side of the structural layer 120. During use, the skin-friendly layer 110 contacts the user's foot. The structural layer 120 supports the skin-friendly layer 110. A temperature control module 210 and a massage module 220 are also provided on the structural layer 120. The temperature control module 210 is connected to a control module 230. The control module 230 can control the temperature control module 210 to adjust the temperature, thereby controlling the temperature of the insole according to the user's needs. For example, the temperature of the insole body 100 and the skin-friendly layer 110 can be increased in cold weather to ensure the temperature of the foot; the temperature can also be appropriately reduced during strenuous exercise or in hot weather to ensure foot comfort. In addition, the control module 230 is also connected to the massage module 220. The massage module 220 is equipped with a massage mechanism and a drive mechanism. The massage mechanism is mounted on the structural layer 120 and protrudes from the skin-friendly layer 110 to massage the user's feet. The drive mechanism is connected to the control module 230 and can control its movement according to the user's needs, thereby driving the massage mechanism to perform massage movements at a certain speed and intensity. Furthermore, a power module 240 is also mounted on the structural layer 120. This power module 240 is connected to the temperature control module 210, the massage module 220, and the control module 230 to supply power and ensure the normal operation of these modules.

[0026] In the above structure, by setting a temperature control module 210 on the structural layer 120, the temperature of the insole body 100 can be adjusted according to the user's needs, which can ensure the warmth effect. Furthermore, a massage module 220 is also set on the structural layer 120 to massage the user's feet, further improving the comfort and functionality of the insole and improving the user's foot health. At the same time, a control module 230 is set to control the temperature control module 210 and the massage module 220 accordingly, improving the convenience and safety of use.

[0027] In addition, the skin-friendly layer 110 can be made of breathable and soft materials, while the structural layer 120 can be made of a structure with a certain degree of support and elasticity.

[0028] In the specific structure of the temperature control module 210, the temperature control module 210 includes a heating layer 211 and a first temperature detector 212 connected to each other. The heating layer 211 is connected to the control module 230 and is used at least for heating the insole body 100. The first temperature detector 212 is connected to the control module 230. The heating layer 211 includes heating wires and / or heating films, which are uniformly distributed in the structural layer 120.

[0029] In this embodiment, a heating layer 211 is disposed on the structural layer 120, and a first temperature detector 212 is also disposed and connected to the heating layer 211. The first temperature detector 212 can be disposed on the structural layer 120, close to the heating layer 211 and the user's foot. The first temperature detector 212 can monitor the temperature of the insole body 100 in real time and transmit the real-time signal to the control module 230, so that the user can know the current temperature in real time and facilitate temperature adjustment of the heating layer 211, improving the safety of use. The first temperature detector 212 can be a high-precision, fast-response temperature sensor. At the same time, the heating layer 211 includes heating wires, which are evenly distributed on the structural layer 120, or evenly distributed in key areas of the structural layer 120, such as distributed at the positions corresponding to relevant acupoints on the structural layer 120, so that the heat transfer is more uniform. The heating wires can be made of low-power, high-efficiency materials, thereby saving energy. In addition, the heating layer 211 can be a structure composed of an electrothermal film.

[0030] In the specific structure of a massage institution, such as Figure 2As shown, the massage mechanism includes a massage head 221, and the drive mechanism includes a drive airbag 222 connected to the massage head 221 and a control module 230. The control module 230 is used to control the inflation and deflation of the drive airbag 222 to move the massage head 221. The drive mechanism includes a vibration motor connected to the massage head 221 and the control module 230. The control module 230 is used to control the vibration motor to move the massage head 221. The massage head 221 has a raised dot or roller structure and is a flexible structure. The massage module 220 includes a second temperature detector 223 connected to the massage mechanism and the control module 230.

[0031] In this embodiment, the massage head 221 is an ergonomically designed head with raised dots or rollers to improve the massage effect. The driving mechanism is a driving airbag 222, which is connected to the control module 230. The control module 230 can control the inflation and deflation of the driving airbag 222 according to the user's needs, thereby driving the massage head 221 to massage the user's feet at a certain speed and intensity. By using the driving airbag 222 to drive the massage head 221, the precise control of the massage intensity and speed can be improved, further enhancing user comfort. Alternatively, the driving mechanism can also be a vibration motor, which can be controlled by the control module 230 to vibrate the massage head 221, providing multiple massage modes for ease of use.

[0032] In addition, the massage module 220 also includes a second temperature detector 223, which monitors the temperature of the massage head 221 and the foot in real time and transmits the signal to the control module 230. When the temperature of the massage head 221 is too high, the control module 230 can reduce the power of the drive mechanism or turn it off, which can effectively prevent the user from being burned by excessive heat generated by the massage and further ensure safety. Multiple massage mechanisms are provided, distributed at corresponding acupoints.

[0033] Specifically, the temperature-controlled massage insole includes a remote operation module connected to the control module 230. The remote operation module includes a display module and an operation module. The display module is used to display information from the control module 230, and the operation module is used to interact with commands from the control module 230.

[0034] In this embodiment, the remote operation module is connected to the control module 230. The display module of the remote operation module can display temperature information fed back by the temperature control module 210, pressure and speed information fed back by the massage module 220, and power information of the power module 240. Furthermore, the operation module of the remote operation module can interact with the control module 230 via commands. The operation module can transmit command signals to the control module 230 to control the corresponding operations of the temperature control module 210, power module 240, and massage module 220, further improving ease of use. The remote operation module can be a remote control or a mobile application, both implemented using existing technologies, such as devices with Bluetooth chips, which will not be specifically described here.

[0035] In the specific structure of the power module 240, the power module 240 includes a battery assembly 241 and a power interface 242. The battery assembly 241 is connected to the temperature control module 210, the massage module 220 and the control module 230 to provide power. The power interface 242 is connected to the battery assembly 241 and is located in the structural layer 120. The power interface 242 is used for at least external power supply.

[0036] In this embodiment, the power module 240 includes a battery assembly 241 disposed in the structural layer 120. The battery assembly 241 provides power to the temperature control module 210, the control module 230, and the massage module 220. Furthermore, a power interface 242, which is a USB interface, is provided on the side or rear end of the structural layer 120. This interface allows for connection to an external power source to charge the battery assembly 241 or to directly supply power to the temperature control module 210, the control module 230, and the massage module 220. The battery assembly can be a lithium battery pack.

[0037] Furthermore, the power module 240 converts the input power into the operating voltage and current required by the various components of the insole. Additionally, the power module 240 has a power monitoring function for the battery assembly 241, displaying the remaining battery power via indicator lights or a mobile app to remind the user to charge it in time. Simultaneously, when the insole is not in use or in standby mode, the power module 240 automatically enters a low-power mode to extend the lifespan of the battery assembly 241.

[0038] Furthermore, the insole body 100 is also equipped with an indicator light or voice prompt module to provide timely reminders when the user operates improperly or when the insole is in an abnormal state.

[0039] Specifically, the control module 230 mainly consists of a microprocessor, sensors, and corresponding circuits. This control module 230 can be implemented using existing technologies, such as a control system using an AT89C51 microcontroller, which will not be described in detail here. Its working principle is as follows: Receiving instructions: The user sends instructions such as massage mode and massage intensity via a remote control or mobile app. Data processing: After receiving the instructions, the microprocessor parses them and converts them into control signals that the massage module 220 can execute. Real-time monitoring: Sensors (such as the first temperature detector 212, the second temperature detector 223, etc.) monitor the working status of the insole in real time, such as the internal temperature of the insole. Safety protection: The control module 230 is also responsible for monitoring the electrical safety of the insole. In case of overload, overheating, or other abnormal conditions, it automatically cuts off the power or reduces the power to protect the user and the insole.

[0040] Workflow:

[0041] Temperature Control Adjustment: Initialization: The user sets the initial temperature and temperature control mode of the insole via remote control or mobile app. Control module 230 receives and saves the user's settings, and simultaneously checks the status of temperature control module 210 and massage module 220. Real-time Monitoring and Adjustment: The insole's internal temperature is monitored in real-time by the first temperature detector 212, and the data is transmitted to control module 230. Based on the data, control module 230 compares it with the preset temperature control strategy and dynamically adjusts the power of temperature control module 210 to maintain the insole's internal temperature within the preset range.

[0042] Massage Adjustment: Control Module 230 Command Reception: The user sends massage commands to the control module 230 via remote control, mobile app, etc. After receiving the command, the control module 230 parses and converts it into a signal executable by the massage module 220. The control module 230 monitors the temperature in real time through the second temperature detector 223 to ensure optimal massage effect.

[0043] The above description of the disclosed embodiments enables those skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention is not to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A temperature-controlled massaging insole, characterized by, The insole includes an insole body, which sequentially comprises a skin-friendly layer and a structural layer. The structural layer is provided with a temperature control module, a massage module, a control module, and a power module. The temperature control module is connected to the control module and is used at least to adjust the temperature of the insole body. The massage module includes a massage mechanism and a drive mechanism. The drive mechanism is connected to the massage mechanism to drive the massage mechanism to move. The drive mechanism is connected to the control module. The power module is connected to the temperature control module, the massage module, and the control module to provide power.

2. The temperature-controlled massage insole according to claim 1, wherein The temperature control module includes a heating layer and a first temperature detector connected to each other. The heating layer is connected to the control module and is used at least to heat the insole body. The first temperature detector is connected to the control module.

3. The temperature-controlled massage insole according to claim 2, wherein, The heating layer includes heating wires and / or heating film, which are uniformly distributed in the structural layer.

4. The temperature-controlled massage insole according to claim 1, wherein, The massage mechanism includes a massage head, and the driving mechanism includes a driving airbag. The driving airbag is connected to the massage head and to the control module. The control module is at least used to control the inflation and deflation of the driving airbag to drive the massage head to move.

5. The temperature-controlled massage insole according to claim 4, wherein The driving mechanism includes a vibration motor, which is connected to the massage head and the control module. The control module is at least used to control the vibration motor to drive the massage head to move.

6. The temperature-controlled massage insole according to claim 4, wherein The massage head has a raised dot or roller structure.

7. The temperature-controlled massage insole according to claim 6, wherein The massage head has a flexible structure.

8. The temperature-controlled massage insole of claim 4, wherein, The massage module includes a second temperature detector, which is connected to the massage mechanism and the control module.

9. The temperature-controlled massage insole of claim 1, wherein, The system includes a remote operation module connected to the control module. The remote operation module includes a display module and an operation module. The display module is used to display information from the control module, and the operation module is used to interact with commands from the control module.

10. The temperature-controlled massage insole of claim 1, wherein, The power module includes a battery assembly and a power interface. The battery assembly is connected to the temperature control module, the massage module, and the control module to provide power. The power interface is connected to the battery assembly and is located in the structural layer. The power interface is used for at least external power supply.