TWM554722U - Smart temperature-controlling shoes with non-contact energy transmission - Google Patents

Description

Non-contact energy transmission intelligent temperature control shoes

The present invention provides a non-contact energy transmission intelligent temperature control shoe, especially a shoe that heats the film energy from the outside through the non-contact electromagnetic energy transmission method to the temperature control shoe.

The design of warm shoes on the market keeps the user's feet warm. Conventional warm shoes generally use a rechargeable battery provided in the warm shoes to supply heat to the heat generating unit in the shoe to achieve the heating effect of keeping warm and cold. The rechargeable battery of the conventional warm shoes is mostly charged by inserting the charging cable into the charging interface. However, such a charging method has the following disadvantages: 1. The charging contact is exposed, and the water is prone to oxidation and prone to short circuit. 2. After the user frequently uses the charging plug, the components inside or outside the shoe may have a large loss and difficulty in maintenance. 3. The batteries placed in the shoes are generally lithium batteries, which are prone to spontaneous combustion of the circuit during short circuit or extrusion. 4, most of the heating shoes are used at home after charging, no electricity, can not replace the battery; a few replaceable battery heating shoes are not easy to replace the battery outdoors to increase endurance.

In the conventional technology, there is also a wirelessly chargeable heat-generating shoe that wirelessly supplies the charging energy to the lithium battery in the bottom of the shoe, and then charges the battery to supply heat to the heating unit to heat the insole. Although this kind of heating shoe solves the problem of the exposed contact of the charging contact, it still does not solve the problem of safety and endurance derived from the built-in battery.

Therefore, the purpose of this creation is to provide a non-contact energy transmission intelligent temperature control shoe, which can effectively improve the built-in battery life of the conventional electric heating and heating shoes and the problem that the exposed contact is easy to cause poor contact, thereby avoiding The control elements in the shoe and the battery unit are easily damaged in outdoor use.

The non-contact energy transmission intelligent temperature control shoe according to the present invention comprises a shoe body, an energy receiving coil, a heating unit and a wireless energy transmission coil device. The energy connection A receiving coil is disposed inside the shoe body for receiving wireless transmission energy. The heating unit is disposed inside the shoe body and is electrically connected to the energy receiving coil. The wireless energy transmission coil device is disposed outside the shoe body and includes an energy transmission coil that can be electrically transmitted by an energy receiving coil that controls transmission of wireless electromagnetic waves to the inside of the shoe body to heat the heating unit.

In one embodiment, the energy transmission coil is disposed on an energy transmission coil base, the energy transmission coil base system is detachably fixed to the outside of the shoe body, and the wireless energy transmission coil device further includes a battery. The energy transmission coil body is provided to provide electrical energy for transmitting the wireless electromagnetic wave by the energy transmission coil. The outer portion of the shoe body is provided with a coupling member for providing the energy transmission coil base body assembly such that the energy receiving coil in the shoe body corresponds to the energy transmission coil coupled to the outside of the shoe body.

In one embodiment, the energy transmission coil is disposed on an energy transmission coil base, the wireless energy transmission coil device further includes a power supply, and the power supply is electrically connected to the energy transmission coil base to provide the energy. The transmission coil emits electrical energy of a wireless electromagnetic wave.

In one embodiment, the shoe body houses an insole, and the energy receiving coil is mounted on the energy receiving coil base, and the energy receiving coil base body and the heating unit are disposed in the insole.

Other objects, advantages and features of the present invention will be apparent from the following description of the preferred embodiments illustrated herein.

10‧‧‧Shoe body

12‧‧‧Energy receiving coil

14‧‧‧heating unit

16‧‧‧temperature control device

18‧‧‧Wireless energy transmission coil device

20‧‧‧ sole

22‧‧‧sole

24‧‧‧ insole

26‧‧‧Energy receiving coil body

28‧‧‧Temperature Sensor

30‧‧‧Energy transmission coil

32‧‧‧Battery

34‧‧‧Charging unit

36‧‧‧Energy transmission coil base

38‧‧‧Connected parts

40‧‧‧Power supply

Figure 1 is a perspective view of the non-contact energy transmission intelligent temperature control shoe of the present invention.

2 is a schematic exploded view of the non-contact energy transmission intelligent temperature control shoe of FIG. 1.

3 is a rear elevational view of the non-contact energy transfer intelligent temperature control shoe of FIG. 1.

Figure 4 shows a cross-sectional view taken along line 4-4 of Figure 3.

FIG. 5 is a schematic diagram showing the energy receiving coil, the heating unit and the temperature control device of the non-contact energy transmission intelligent temperature control shoe of FIG. 1.

6 is a schematic diagram showing the wireless energy transmission coil device of the non-contact energy transmission intelligent temperature control shoe of FIG. 1.

FIG. 7 is a schematic diagram showing another embodiment of the wireless energy transmission coil device of the non-contact energy transmission intelligent temperature control shoe of the present invention.

The preferred structural content of the present invention will now be described by way of example only, but not by way of limitation, and reference to the accompanying drawings in which: FIG. 1 to FIG. 6 show a non-contact energy transmission according to an embodiment of the present invention. The intelligent temperature control shoe comprises a shoe body 10, an energy receiving coil 12, a heating unit 14, a temperature control device 16, and a wireless energy transmission coil device 18. The shoe body 10 includes a sole 20 and an upper 22, and the inside of the shoe body 10 has an insole 24.

The energy receiving coil 12, the heating unit 14, and the temperature control device 16 are disposed inside the shoe body 10. The energy receiving coil 12 is mounted on an energy receiving coil base 26 (see FIG. 5) and is electrically connected to the heating unit 14 and the temperature control device 16. The energy receiving coil 12 can receive wireless electromagnetic wave energy and transfer the energy to the heating unit 14 and the temperature control device 16, so that the heating unit (for example, the heating sheet, the heating film) 14 generates heat. In the present embodiment, the energy receiving coil base body 26, the heating unit 14 and the temperature control device 16 are disposed in the insole 24, and the heating unit 14 is formed in a film shape to match the curved surface of the insole 24, when the heating unit 14 When the heat is generated, the insole 24 can be heated so that the user's foot can be warmed when worn on the insole 10, and the temperature control device 16 can control and/or set the actuation and temperature of the heating unit 14. In the present embodiment, a temperature sensor 28 is disposed between the heating unit 14 and the temperature control device 16 for sensing the temperature of the heating unit 14 or the insole 24 and feeding back signals to the temperature control device 16 (see FIG. 5). When the temperature sensed by the temperature sensor 28 exceeds a preset temperature, the temperature control device 16 can control the heating unit 14 to stop heating, and conversely, when the sensed temperature does not reach a preset temperature, the temperature control device 16 can control the heating unit 14 to continue heating. The energy receiving coil base body 26, the heating unit 14 and the temperature control device 16 are not limited to be disposed in the insole 24, and may be disposed at a suitable position within the shoe body 10, such as in the sole 20, in a possible embodiment. On the inside of the upper 22 or upper.

The wireless energy transmission coil device 18 is detachably disposed outside the shoe body 10. In the present embodiment, the wireless energy transmission coil device 18 includes an energy transmission coil 30, a battery (lithium battery) 32, and a charging unit 34. The energy transmission coil 30 is disposed on an energy transmission coil base 36. The energy transmission coil base 36 can be fixed to the outside of the shoe body 10 such that the energy transmission coil 30 outside the shoe body 10 and the shoe body 10 The internal energy receiving coils 12 are in a corresponding arrangement relationship. The battery 32 is disposed in the energy transmission coil base 36 to provide the energy transmission coil 30 transmits electrical energy of the wireless electromagnetic wave, and the charging unit 34 is used to charge the battery 32. According to the configuration of the structure, the user can control the energy transmission coil 30 to emit wireless electromagnetic wave power for transmission to the energy receiving coil 12, and heat the heating unit 14. In the present embodiment, a coupling member 38 is provided on the outside of the shoe body 10 for providing the energy transmission coil base 36 to be coupled such that the wireless energy transmission coil device 18 is fixed to the outside of the shoe body 10. In other possible embodiments, the energy transfer coil base 36 can be secured to the exterior of the shoe body 10 using, for example, a cord, fastener, or other known coupling element (not shown).

When the user wears the created non-contact energy transmission intelligent temperature control shoe to the outside, only the wireless energy transmission coil device 18 needs to be coupled to the external preset position of the shoe body 10 by controlling the energy transmission coil 30. By transmitting wireless electromagnetic waves to the energy receiving coil 12, the heating unit 14 can be heated to keep the user's foot warm. When the battery 32 of the wireless energy transmission coil device 18 is depleted of power, the wireless energy transmission coil device 18 can be detached from the shoe body 10, and the battery 32 is charged by the charging unit 34. In addition, after the wireless power transmission coil device 18 with insufficient power is removed from the shoe body 10, another wireless energy transmission coil device 18 can be attached to the coupling member 38 to transmit the energy transmission coil 30. The wireless energy transfer with the energy receiving coil 12 continues to heat the heating unit 14 to extend the power transfer endurance indefinitely.

FIG. 7 shows a wireless energy transfer coil device 18 of another embodiment of the present invention, which includes an energy transfer coil 30 and a power supply 40 connectable to the indoor power source. The energy transfer coil 32 is disposed on the energy transfer coil base 36, and the power supply 40 is electrically coupled to the energy transfer coil base 36 to provide electrical energy for the energy transfer coil 30 to emit wireless electromagnetic waves. Accordingly, when the user wearing the non-contact energy transmission intelligent temperature control shoe of the present invention is indoors, the wireless energy transmission coil device 18 only needs to be placed indoors, and the energy transmission coil 30 is manipulated to emit wireless electromagnetic waves. The electric energy is transmitted to the energy receiving coil 12 inside the shoe body 10 to heat the heating unit 14 inside the shoe body 10.

As described above, the wireless energy transmission coil device 18 according to the present invention can have the structure of two embodiments, one of which is a wireless energy transmission coil device 18 having a battery 32 built therein as shown in FIG. 6, which is provided to be fixed to the shoe body. The outside of the 10, and the battery 32 is used to provide the energy of the wireless transmission wave of the energy transmission coil 30, which is convenient for the outdoor and the user to move at any time. The other is the indoor long-distance wireless energy transmission coil device 18 shown in FIG. 7, which is provided in an indoor space, and uses the power supply 40 to provide energy for transmitting the wireless electromagnetic wave to the energy transmission coil 30, which is convenient for the user in the room to fix. Used within the scope.

According to the non-contact energy transmission intelligent temperature control shoe of the present invention, by providing the wireless energy transmission coil device 18 outside the shoe body 10, not only the electronic components inside the shoe body 10 but also the line connection can be reduced to avoid the body inside the shoe body. The electronic component is easily damaged in use, and the battery 32 is not disposed inside the shoe body 10, and the wireless energy transmission coil device 18 can be replaced at any time to replace the battery, so that the endurance is infinitely extended. In addition, by the non-contact wireless energy transmission of the energy transmission coil 30 and the energy receiving coil 12, the inconvenience of charging on the shoe and the possibility that the charging contact may cause poor contact or short circuit may be completely avoided, thereby increasing the energy. Transfer the life of smart temperature control shoes.

The above description is only a detailed description of the preferred embodiment of the present invention and is not intended to limit the present invention. All of the scope of the present invention is subject to the scope of the following patent application, and the embodiments of the invention as described in the following claims should be included in the present invention.

10‧‧‧Shoe body

12‧‧‧Energy receiving coil

14‧‧‧heating unit

18‧‧‧Wireless energy transmission coil device

20‧‧‧ sole

22‧‧‧sole

24‧‧‧ insole

26‧‧‧Energy receiving coil body

28‧‧‧Temperature Sensor

30‧‧‧Energy transmission coil

36‧‧‧Energy transmission coil base

38‧‧‧Connected parts

Claims (7)

A non-contact energy transmission intelligent temperature control shoe comprises: a shoe body; an energy receiving coil disposed inside the shoe body for receiving wireless transmission energy; a heating unit disposed inside the shoe body and The energy receiving coil is electrically connected, and a wireless energy transmission coil device is disposed outside the shoe body and includes an energy transmission coil, and the energy transmission coil can be transmitted to the energy receiving coil of the inside of the shoe body by controlling the power of transmitting the wireless electromagnetic wave The heating unit is heated. The non-contact energy transmission intelligent temperature control shoe according to claim 1, wherein the energy transmission coil is disposed on an energy transmission coil base, and the energy transmission coil base system is detachably fixed on the outer portion of the shoe body. The wireless energy transmission coil device further includes a battery disposed in the energy transmission coil housing to provide electrical energy for the energy transmission coil to emit wireless electromagnetic waves. The non-contact energy transmission intelligent temperature control shoe according to claim 2, wherein the outer portion of the shoe body is provided with a coupling member for providing the energy transmission coil base body. The non-contact energy transmission intelligent temperature control shoe according to claim 2, wherein the energy receiving coil in the shoe body corresponds to an energy transmission coil coupled to the outside of the shoe body. The non-contact energy transmission intelligent temperature control shoe according to claim 1, wherein the energy transmission coil is disposed on an energy transmission coil base, and the wireless energy transmission coil device further comprises a power supply, the power supply A supply is electrically coupled to the energy transfer coil base to provide electrical energy for the energy transfer coil to emit wireless electromagnetic waves. The non-contact energy transmission intelligent temperature control shoe according to claim 1, wherein the shoe body houses an insole, the energy receiving coil is mounted on an energy receiving coil base, the energy receiving coil base body and the A heating unit is disposed within the insole. The non-contact energy transmission intelligent temperature control shoe according to claim 6, further comprising a temperature control device disposed inside the shoe body and electrically connected to the energy receiving coil, the heating unit and the heating unit A temperature sensor is disposed between the temperature control device for sensing the temperature of the heating unit and feeding back a signal to the temperature control device to control the temperature of the heating unit.