CN216723360U - Carbon nanotube temperature-regulating electric heating shock-absorbing insole - Google Patents
Carbon nanotube temperature-regulating electric heating shock-absorbing insole Download PDFInfo
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- CN216723360U CN216723360U CN202123098410.9U CN202123098410U CN216723360U CN 216723360 U CN216723360 U CN 216723360U CN 202123098410 U CN202123098410 U CN 202123098410U CN 216723360 U CN216723360 U CN 216723360U
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Abstract
The utility model belongs to the technical field of heating shoe-pad, concretely relates to carbon nanotube adjusts temperature electrical heating shock attenuation shoe-pad. Compared with the prior art, this carbon nanotube thermoregulation electric heating shock attenuation shoe-pad, shock attenuation shoe-pad body including integrated into one piece, this internal sensor that sets up of shock attenuation shoe-pad, shock attenuation shoe-pad body upper surface sets up the carbon nanotube electricity fabric that generates heat, sensor and carbon nanotube electricity fabric that generates heat are connected with the controller electricity respectively, carbon nanotube electricity fabric that generates heat passes through the controller and connects external battery, the battery is external, do not receive to step on safer, this internal sensor that sets up of shock attenuation shoe-pad, can detect the temperature of shoe-pad, shock attenuation shoe-pad body upper surface sets up the carbon nanotube electricity fabric that generates heat, heat through the carbon nanotube electricity fabric that generates heat, carbon nanotube electricity fabric that generates heat has out light, water-fast, resistant buckling, with low costs and the even advantage of generating heat, the not enough of current shoe-pad that generates heat has been solved.
Description
Technical Field
The utility model belongs to the technical field of heating shoe-pad, concretely relates to carbon nanotube adjusts temperature electrical heating shock attenuation shoe-pad.
Background
In recent years, with the improvement of living standard, people have more and more demand for comfort. The cold feet in winter is the most common phenomenon in winter, in northern China, ultralow temperature is more common in family and convenient for cooking, and the cold feet are more likely to appear in some weak people, especially women. The toe part belongs to the joint area with more movement, fat and blood vessels are relatively less, and heat is easy to dissipate. At present, most people can select thickened shoes and thickened socks when facing cold feet, so that the appearance is influenced, and the burden is increased. To solve this problem, people have invented electrically heated insoles.
At present, there are several heating insoles on the market:
(1) a separate electrically heated insole, with batteries typically built into the rear half of the insole. The electric heating insole is different from a common insole, the heel part of the electric heating insole is generally thicker, the insole is inserted into a common shoe to influence the inner cavity of the shoe, and the electric heating insole is matched with a special shoe last to manufacture a finished shoe. The separate electric heating insole is hard to wear and troublesome to charge.
(2) Directly link heating shoe-pad of battery, generally in boot surface design pocket formula structure, the battery dress adds the heating plate in the shoe-pad in the battery pocket of design to this effect that reaches the heating is difficult for washing, the temperature that does not enough detect the shoe-pad. The connection wire is selected by using a rubber wire which is very fragile and easy to break in a low-temperature environment, and the heating sheet is directly connected with the battery, so that the temperature is raised by controlling the battery.
SUMMERY OF THE UTILITY MODEL
The electric heating warm-keeping insole in the current market has the defects, and the utility model provides a carbon nano tube temperature-adjusting electric heating shock-absorbing insole for solving the problems.
The purpose of the utility model is realized with the following mode: the utility model provides a carbon nanotube temperature regulation electrical heating shock attenuation shoe-pad, includes integrated into one piece's shock attenuation shoe-pad body, this internal sensor that sets up of shock attenuation shoe-pad, shock attenuation shoe-pad body upper surface set up the carbon nanotube electricity fabric that generates heat, and sensor and carbon nanotube electricity fabric that generates heat are connected with the controller electricity respectively, and carbon nanotube electricity fabric that generates heat passes through the controller and connects external battery.
The sensor is a temperature sensor, and the temperature sensor and the carbon nano tube electric heating fabric are respectively and electrically connected with the controller.
The temperature sensor is positioned at the foot pit part of the insole.
The shock absorption insole is characterized in that a pressure sensor is further arranged in the shock absorption insole body, the pressure sensors are respectively arranged at positions, corresponding to heels, soles and tiptoes of a human body, on the shock absorption insole body, and the pressure sensors are electrically connected with the controller.
The controller and the external storage battery are arranged on the puttee.
The puttee is made of elastic frosted cloth, and the puttee is provided with a magic tape which can be randomly stuck to adjust the thickness of the leg ring.
Compared with the prior art, this carbon nanotube thermoregulation electric heating shock attenuation shoe-pad, shock attenuation shoe-pad body including integrated into one piece, this internal sensor that sets up of shock attenuation shoe-pad, shock attenuation shoe-pad body upper surface sets up the carbon nanotube electricity fabric that generates heat, sensor and carbon nanotube electricity fabric that generates heat are connected with the controller electricity respectively, carbon nanotube electricity fabric that generates heat passes through the controller and connects external battery, the battery is external, do not receive to step on safer, this internal sensor that sets up of shock attenuation shoe-pad, can detect the temperature of shoe-pad, shock attenuation shoe-pad body upper surface sets up the carbon nanotube electricity fabric that generates heat, heat through the carbon nanotube electricity fabric that generates heat, carbon nanotube electricity fabric that generates heat has out light, water-fast, resistant buckling, with low costs and the even advantage of generating heat, the not enough of current shoe-pad that generates heat has been solved.
Drawings
Fig. 1 is a sectional view of a carbon nanotube temperature-adjusting electric heating shock-absorbing insole.
Fig. 2 is a front view of a carbon nanotube temperature-adjusting electric heating shock-absorbing insole.
Fig. 3 is a schematic view of a carbon nanotube temperature-regulating electric heating shock-absorbing insole.
Wherein, 1 shock attenuation shoe-pad body, 2 sensors, 3 pressure sensor, 4 carbon nanotube electricity generate heat fabrics, 5 signal lines, 6 power cords, 7 controllers, 8 external battery, 9 leggings.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
The carbon nanotube temperature-adjusting electric heating shock-absorbing insole shown in the attached figures 1 to 3 comprises an integrally formed shock-absorbing insole body 1, wherein a sensor 2 is arranged in the shock-absorbing insole body 1, the sensor 2 is adhered to the inside of the shock-absorbing insole body 1 after the shock-absorbing insole body 1 is formed, or the sensor 2 is placed in a mold for forming before the shock-absorbing insole body 1 is formed, a carbon nanotube electric heating fabric 4 is arranged on the upper surface of the shock-absorbing insole body 1, the carbon nanotube electric heating fabric 4 is adhered to the upper surface of the shock-absorbing insole body 1, or the carbon nanotube electric heating fabric 4 is placed on a forming mold of the shock-absorbing insole body 1, then the shock-absorbing insole body 1 is formed, the carbon nanotube electric heating fabric 4 is adhered when the shock-absorbing insole body 1 is formed from liquid to solid, and the sensor 2 and the carbon nanotube electric heating fabric 4 are respectively and electrically connected with a controller 7, the carbon nanotube electric heating fabric 4 is connected with an external storage battery 8 through a controller 7, the carbon nanotube electric heating fabric 4 is connected with the controller 7 through a power line 6, the sensor 2 is connected with the controller 7 through a signal line 5, the controller 7 controls whether the carbon nanotube electric heating fabric 4 is connected with the external storage battery 8, and the sensor 2 can transmit signals through the controller 7.
The sensor 2 is a temperature sensor, the temperature sensor and the carbon nano tube electric heating fabric 4 are respectively electrically connected with the controller 7, the temperature of the insole is detected through the sensor 2, the sensor 2 transmits the detected temperature to the controller 7, and a foundation is laid for the subsequent further research and the matching of a control program to finish the temperature regulation of the electric heating damping insole.
The temperature sensor is positioned at the foot nest part of the insole, so that the influence on the temperature sensor caused by long-time treading is avoided.
Still set up pressure sensor 3 in the shock attenuation shoe-pad body 1, pressure sensor 3 sets up the position that corresponds human heel on shock attenuation shoe-pad body 1 respectively, sole and tiptoe, pressure sensor 3 is connected with controller 7 electricity, sensor 2 passes through 5 connection director 7 of signal line, pressure sensor 3 passes through 5 connection director 7 of another signal line, pressure sensor 3 transmits the pressure that detects for controller 7, two 5 materials of signal line are the same, the application of force point of foot when effectual detection human motion, the detection signal of this pressure sensor 3 transmission, after being connected to the computer, can compare current human motion application of force mode and scientific application of force mode, in time change the motion application of force mode of incommodiology.
The controller 7 and the external storage battery 8 are arranged on the puttee 9, and the controller 7 and the external storage battery 8 are convenient to carry.
The puttee 9 is made of elastic frosted cloth, and the puttee 9 is provided with a magic tape which can be randomly stuck to adjust the thickness of a leg ring.
The working process of the utility model is as follows: the method is characterized in that a PU foaming perfusion process is adopted to directly and integrally form the damping insole body 1, a hole is dug in the foot pit of the damping insole body 1, a sensor 2 is adhered in the hole, then the PU foaming perfusion hole is used, a pressure sensor 3 is also placed in the damping insole body 1, the same method as that of placing the sensor 2 in the damping insole body 1 is adopted, the carbon nanotube electric heating fabric 4 is adhered to the upper surface of the damping insole body 1, the sensor 2 and the carbon nanotube electric heating fabric 4 are respectively and electrically connected with a controller 7, the carbon nanotube electric heating fabric 4 is connected with an external storage battery 8 through the controller 7, the pressure sensor 3 is electrically connected with the controller 7, the sensor 2 is electrically connected with the controller 7, the controller 7 is started, the carbon nanotube electric heating fabric 4 generates heat, the sensor 2 transmits the detected temperature to the controller 7, and the pressure sensor 3 transmits the detected pressure to the controller 7;
or the sensor 2 and the pressure sensor 3 are placed in a mould before the shock absorption insole body 1 is formed, the carbon nano tube electric heating fabric 4 is placed on the upper surface of the mould corresponding to the shock absorption insole body 1, then, the shock absorption insole body 1 is formed, a sensor 2 and a pressure sensor 3 are bonded inside the formed shock absorption insole body 1, the shock absorption insole body 1 is bonded with a carbon nanotube electric heating fabric 4 when being formed into a solid from liquid, the sensor 2 and the carbon nanotube electric heating fabric 4 are respectively electrically connected with a controller 7, the carbon nanotube electric heating fabric 4 is connected with an external storage battery 8 through the controller 7, the pressure sensor 3 is electrically connected with the controller 7, the sensor 2 is electrically connected with the controller 7, the controller 7 is started, the carbon nanotube electric heating fabric 4 generates heat, the sensor 2 transmits the detected temperature to the controller 7, and the pressure sensor 3 transmits the detected pressure to the controller 7.
While the preferred embodiments of the present invention have been described, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the general inventive concept, and it is intended to cover all such changes and modifications as fall within the true spirit and scope of the invention.
Claims (6)
1. The utility model provides a carbon nanotube temperature regulation electrical heating shock attenuation shoe-pad, includes integrated into one piece's shock attenuation shoe-pad body (1), its characterized in that, set up sensor (2) in shock attenuation shoe-pad body (1), shock attenuation shoe-pad body (1) upper surface sets up carbon nanotube electricity fabric (4) that generates heat, and sensor (2) and carbon nanotube electricity fabric (4) that generates heat are connected with controller (7) electricity respectively, and external battery (8) are connected through controller (7) in carbon nanotube electricity fabric (4) that generates heat.
2. The carbon nanotube temperature-regulating electric-heating shock-absorbing insole according to claim 1, wherein the sensor (2) is a temperature sensor, and the temperature sensor and the carbon nanotube electric heating fabric (4) are respectively electrically connected with the controller (7).
3. The carbon nanotube temperature-regulating electric heating shock-absorbing insole as claimed in claim 2, wherein said temperature sensor is located in the foot pit of the insole.
4. The carbon nanotube temperature-regulating electric heating shock-absorbing insole according to claim 1, wherein a pressure sensor (3) is further disposed in the shock-absorbing insole body (1), the pressure sensor (3) is respectively disposed at positions corresponding to the heel, the sole and the toe of the human body on the shock-absorbing insole body (1), and the pressure sensor (3) is electrically connected to the controller (7).
5. The carbon nanotube temperature-adjusting electric heating shock-absorbing insole as claimed in claim 1, wherein the controller (7) and the external storage battery (8) are arranged on the puttee (9).
6. The carbon nanotube temperature-adjusting electric heating shock-absorbing insole as claimed in claim 5, wherein the puttee (9) is made of elastic frosted cloth, and the puttee (9) is provided with a magic tape which can be pasted freely to adjust the thickness of the leg loop.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123098410.9U CN216723360U (en) | 2021-12-10 | 2021-12-10 | Carbon nanotube temperature-regulating electric heating shock-absorbing insole |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123098410.9U CN216723360U (en) | 2021-12-10 | 2021-12-10 | Carbon nanotube temperature-regulating electric heating shock-absorbing insole |
Publications (1)
Publication Number | Publication Date |
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CN216723360U true CN216723360U (en) | 2022-06-14 |
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CN202123098410.9U Active CN216723360U (en) | 2021-12-10 | 2021-12-10 | Carbon nanotube temperature-regulating electric heating shock-absorbing insole |
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CN (1) | CN216723360U (en) |
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2021
- 2021-12-10 CN CN202123098410.9U patent/CN216723360U/en active Active
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