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CN-116849423-B - Heating shoe and shoe processing method

CN116849423BCN 116849423 BCN116849423 BCN 116849423BCN-116849423-B

Abstract

The invention discloses a pair of heating shoes and a processing method of the shoes, comprising a shoe surface part, a conveying device, a heating inner, a power supply device and a power supply device, wherein the shoe surface part is provided with an upper, one side of the upper is provided with a first opening, the conveying device is fixedly connected with the upper at the first opening and is provided with a plurality of probes positioned at the first opening, the heating inner comprises lining cloth, a heating body and a temperature sensor, the lining cloth is attached to the shoe surface part and contacts with the foot surface, the heating body is attached to the lining cloth, one end of the temperature sensor is electrically connected with the heating body, the other end of the temperature sensor is electrically connected with the conveying device, the power supply device is detachably connected with the conveying device and comprises a power supply and a control module, the control module receives signals of the temperature sensor to control the power supply to be started or stopped, the power supply device is provided with a second opening corresponding to the first opening, and the probes are abutted with the power supply device through the second opening. The invention provides the heating shoes and the processing method thereof, which have the advantages of simple structure, attractive and elegant appearance, simple and convenient use, safety and reliability, achieve the dynamic waterproof grade and promote the user experience.

Inventors

  • QIN PEIXIN
  • WU ZHICHENG
  • MAO BIAO
  • HE JINLIN
  • WU SHUANGLONG

Assignees

  • 安踏(中国)有限公司

Dates

Publication Date
20260505
Application Date
20230802

Claims (11)

  1. 1. A heat-generating shoe (1), characterized by comprising: A vamp (2) provided with an upper (21), wherein a first opening is formed on one side of the upper (21); The conveying device (3) is an integrated transmission device of current and signals, the conveying device (3) is matched with the first opening and fixedly connected with the upper (21) at the first opening, and the conveying device (3) is provided with a plurality of probes (310) which are positioned at the first opening and face to the outer side; A heating inner (4) comprising a lining (41), a heating body (42) and a temperature sensor (43), wherein the lining (41) is attached to the inner surface of the vamp part (2) and is contacted with the foot surface, the heating body (42) is attached to the lining (41), one end of the temperature sensor (43) is electrically connected with the heating body (42), the other end is electrically connected with the conveying device (3), and The power supply device (5) is detachably connected with the conveying device (3) and comprises a power supply (52) and a control module (55), the control module (55) receives signals of the temperature sensor (43) to control the power supply (52) to supply power to the heating inner tube (4) to be opened or closed, the power supply device (5) is provided with a second opening (560) corresponding to the first opening, and when the power supply device (5) is connected with the conveying device (3), the probe (310) is abutted to the power supply device (5) through the second opening (560).
  2. 2. A heating shoe (1) according to claim 1, wherein the heating body (42) is a carbon nanotube film, which is provided with a plurality of uniformly distributed carbon nanotube film units, and the carbon nanotube film units are electrically connected.
  3. 3. A heat generating shoe (1) as claimed in claim 1, wherein said power source (52) is a low temperature battery.
  4. 4. A heat generating shoe (1) as claimed in claim 1, wherein said temperature sensor (43) is a negative temperature coefficient thermistor.
  5. 5. A heat generating shoe (1) as claimed in any one of claims 1 to 4, wherein said power supply means (5) comprises a flexible circuit board (59), said flexible circuit board (59) being connected to said power source (52) and said control module (55), said probe (310) being connected to said flexible circuit board (59) through said second opening (560) when said power supply means (5) is connected to said conveyor means (3).
  6. 6. A pair of heat generating shoes (1) as claimed in claim 5, wherein said conveyor means (3) comprises a bottom shell (31), said bottom shell (31) being made of thermoplastic plastic composed of polycarbonate and polyacrylonitrile, the edges of which are treated so as to be suitable for sewing said first opening with said upper (21).
  7. 7. A pair of heating shoes (1) according to claim 6, wherein the conveying device (3) further comprises a spring plate (32) and a protective cover (33), the protective cover (33) is detachably connected with the bottom shell (31), the spring plate (32) is suitable for being arranged between the protective cover (33) and the bottom shell (31), the protective cover (33) is provided with a third opening (330), one end of the spring plate (32) is electrically connected with the temperature sensor (43) through the third opening (330), the other end of the spring plate is provided with a plurality of ejector pins (320) matched with the probes (310), and the ejector pins (320) are abutted against the probes (310).
  8. 8. The pair of heating shoes (1) as claimed in claim 7, wherein the bottom shell (31) is circumferentially provided with a plurality of buckles (311), the second opening (560) is circumferentially provided with clamping grooves matched with the buckles (311), and when the buckles (311) are clamped in the clamping grooves, the ejector pins (320) are connected with the flexible circuit board (59) through the probes (310).
  9. 9. A pair of heat generating shoes (1) as claimed in claim 8, characterized in that the conveyor (3) further comprises an outer cover, which is circumferentially provided with grooves adapted to the snap-fit (311), said outer cover being adapted to be detachably connected to the bottom shell (31) when no power supply means (5) are provided.
  10. 10. A heat generating shoe (1) as claimed in claim 9, wherein said heat generating lining (4) further comprises a base fabric (44), said heat generating body (42) being mounted to said base fabric (44) and attached to said lining (41).
  11. 11. A method of manufacturing a shoe for manufacturing a heat generating shoe (1) according to claim 10, characterized by comprising the steps of: preparing two midsoles, a first pull-up midsole (6) and a second pull-up midsole (7); Adhering the heating body (42) and the temperature sensor (43) to the base cloth (44) by using glue to form a heating inner (4); sewing the heating inner lining (4) with a waterproof breathable film, and then forming a side with the first Labang midsole (6) to form a first inner boot (8), wherein the inner cloth (41) is in direct contact with the instep; performing waterproof treatment on the sewing line position of the first inner boot (8) to achieve a waterproof effect; Sewing the second Labang midsole (7) and the first Labang midsole (6) together by adopting a water-soluble thread, wherein the second Labang midsole (7) comprises a reserved part (71) and a discarding part (72), the reserved part (71) is a part of a periphery of the edge of the second Labang midsole (7), the discarding part (72) is a part of the second Labang midsole (7) from which the edge is removed, and the thread position is the boundary line between the reserved part (71) and the discarding part (72); Sewing the first inner boot (8) with the vamp to finish the manufacture of the whole vamp; and (3) forming an upper on the manufactured vamp and the second Labang midsole (7), then melting the water-soluble wire with water, and taking down the discarding part (72).

Description

Heating shoe and shoe processing method Technical Field The invention relates to the field of shoes, in particular to a pair of heating shoes and a processing method of the shoes. Background Most of the heating shoes on the market are provided with heating sheets added into insoles for heating, and rechargeable batteries are implanted into the heel parts of soles to be used as a source of spontaneous heating power. The insole or the sole bottom generates heat, which is easy to cause the sole to sweat, and the heating wire heating system needs to be waterproof and isolated, so the material cannot breathe and sweat. The sole implanted battery has small limited magnetic capacity due to the sole space, influences endurance, and has safety risk due to long-term extrusion of the battery by feet. The heating system can be stretched and bent, and the power supply system adopts a detachable structure mode. However, in the existing vamp heating technology, the power supply system is sleeved on the periphery of the upper, so that the appearance is not attractive enough, the circuits are more, the structure is complex, the integration level is low, the weight is heavier, and the power supply system is connected through the power line outside the opening of the upper in a hanging manner, so that the power supply system is easy to slip. In addition, the heating shoes are basically used in severe cold areas, have high waterproof requirements, and are mostly in static waterproof standard at present, and the waterproof level is not high. Disclosure of Invention The invention aims to overcome the defects or problems in the background art, and provides the heating shoes and the processing method of the shoes, which have the advantages of simple structure, attractive and elegant appearance, simple and convenient use, safety and reliability, achieve the dynamic waterproof grade and improve the user experience. To achieve the above object, the present invention and its preferred embodiments adopt the following technical solutions but the embodiments are not limited to the following solutions: The first technical scheme and the related embodiment relate to a heating shoe, which comprises a shoe surface part, a transmission device, a control module and a power supply device, wherein the shoe surface part is provided with an upper, a first opening is arranged on one side of the upper, the transmission device is an integrated transmission device of current and signals, the transmission device is matched with the first opening and fixedly connected with the upper, the transmission device is provided with a plurality of probes which are positioned at the first opening and face outwards, the heating inner part comprises an inner cloth, a heating body and a temperature sensor, the inner cloth is attached to the inner surface of the shoe surface part and is in contact with a foot surface, the heating body is attached to the inner cloth, one end of the temperature sensor is electrically connected with the heating body, the other end of the temperature sensor is electrically connected with the transmission device, the power supply device is detachably connected with the transmission device, the control module is used for receiving signals of the temperature sensor to control the power supply of the heating inner part to be started or stopped, the power supply device is provided with a second opening corresponding to the first opening, and the power supply device is connected with the second probe through the power supply device. The second technical scheme is based on the first technical scheme, and is a preferred embodiment of the first technical scheme, wherein the heating body is a carbon nanotube film, a plurality of uniformly distributed carbon nanotube film units are arranged on the heating body, and the carbon nanotube film units are electrically connected. The third technical solution is based on the first technical solution, and is a preferred embodiment of the first technical solution, wherein the power source is a low-temperature electric core. A fourth technical means is the first technical means, wherein the temperature sensor is a negative temperature coefficient thermistor. A fifth technical means is based on any one of the first to fourth technical means, wherein the power supply device includes a flexible circuit board, the flexible circuit board is connected with the power supply and the control module, and when the power supply device is connected with the conveying device, the probe abuts against the flexible circuit board through the second opening. A sixth technical solution is based on the fifth technical solution and is a preferred embodiment of the fifth technical solution, wherein the conveying device includes a bottom shell, the bottom shell is made of thermoplastic plastic synthesized by polycarbonate and polyacrylonitrile, and an edge of the bottom shell is processed to be suitable for being located in the firs