CN212260659U - Buckle formula electrical heating winter protection boots - Google Patents

Abstract

The utility model discloses a buckle formula electrical heating winter protection boots, including upper of a shoe, sole and shoe-pad, its characterized in that: the shoe heel is provided with a mounting cavity, a detachable power supply system is embedded in the mounting cavity, an electric heating part and a temperature sensor are arranged in the shoe pad, a first magnetic snap fastener electrically connected with a positive electrode and a second magnetic snap fastener electrically connected with a negative electrode are arranged between the electric heating part and the upper surface of the power supply system in a matching mode, and a third magnetic snap fastener connected with the upper surface of the power supply system in a matching mode is arranged between the temperature sensor and the upper surface of the power supply system in a matching; the upper of a shoe outside is equipped with power button and the interface that charges, and power button, the interface that charges link to each other through first, two circuit with the electrical power generating system lower surface respectively, and set the fourth magnetism snap-fastener and the fifth magnetism snap-fastener that positive negative pole electricity is connected between first circuit and the electrical power generating system lower surface, set the sixth magnetism snap-fastener and the seventh magnetism snap-fastener that positive negative pole electricity is connected between second circuit and the electrical power generating system. The utility model discloses comfortable cold-proof, the convenience of charging.

Description

Buckle formula electrical heating winter protection boots

Technical Field

The utility model relates to an improved invention in the field of shoes, in particular to an improved invention of a buckle type electric heating cold-proof boot.

Background

At present, most military shoes are cold-proof by virtue of the thickness of a shoe body, are very heavy and influence the wearing comfort, and in some extremely cold places, the problem of keeping feet warm is still difficult to solve; the heating shoes on the market at present generally have short heating time, low temperature, no automatic constant temperature device, different temperature, are unfavorable for wearing in alpine regions for a long time, and the battery is built-in to charge in the shoes, and in the charging process, can't use the heating shoes, and latency is long, and the shoes utilization ratio is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the prior art is not enough to be overcome, and a buckle formula electrical heating winter protection boots that rational in infrastructure, charge conveniently is provided.

In order to solve the technical problem, the utility model discloses an adopt following technical scheme to realize: the buckle type electric heating cold-proof boots comprise uppers, soles and insoles, and are characterized in that: a mounting cavity is arranged at the heel of the sole, a detachable power supply system is embedded in the mounting cavity, an electric heating part and a temperature sensor are arranged in the insole, a first magnetic snap fastener electrically connected with a positive electrode and a second magnetic snap fastener electrically connected with a negative electrode are arranged between the electric heating part and the upper surface of the power supply system in a matching mode, a third magnetic snap fastener connected with the temperature sensor and the upper surface of the power supply system in a matching mode, and the first magnetic snap fastener, the second magnetic snap fastener and the third magnetic snap fastener are arranged in a non-collinear mode; the upper of a shoe outside is equipped with power button and the interface that charges, and power button, the interface that charges pass through first circuit, second circuit respectively with the electrical power generating system lower surface and link to each other, and set the fourth magnetism snap-fastener that the positive electricity is connected and the fifth magnetism snap-fastener that the negative pole is connected between first circuit and the electrical power generating system lower surface, set the sixth magnetism snap-fastener that the positive electricity is connected and the seventh magnetism snap-fastener that the negative pole is connected between second circuit and the electrical power generating system, and first circuit and second circuit are all built-in the upper of a shoe.

The power supply system comprises a shell, a lithium battery and a temperature controller, wherein the lithium battery and the temperature controller are arranged in the shell, and the lithium battery is connected with the temperature controller.

The lithium battery is a polymer lithium battery.

The shell is made of an ABS (acrylonitrile butadiene styrene) explosion-proof material.

The power supply system is provided with an external charger connected with the buckle, and a magnetic buckle body used for connecting the positive and negative pole male buckle or female buckle of the power supply system is arranged on the corresponding external charger.

The interior of the upper and the upper surface of the insole are provided with warm fluff.

The outer peripheral surface of the sole is provided with a circle of anti-skid lines.

The electric heating components are PTC heating sheets which are uniformly distributed in the interlayer of the insole.

The insole is made of carbon fiber heating composite felt.

And a puncture-proof steel plate is arranged at the bottom of the mounting cavity.

The beneficial effects of the utility model are that buckle formula electrical heating winter protection boots after the improvement, through setting up detachable electrical power generating system to the form and the electric heating part of detaining through magnetism primary and secondary, the power button, the interface that charges, external charger realize quick accurate the connection, realize that electrical power generating system embeds directly to charge in the shoes, and dry in the shoes, perhaps take out the back and carry out external charging, and in the external charging process, the stand-by electrical power generating system that can pack into need not to wait, improves the rate of utilization.

Drawings

The following describes the present invention in further detail with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a structural sectional view of the present invention.

Fig. 3 is a schematic view of the power system and the insole of the present invention.

Fig. 4 is a schematic diagram of the power system and the external charger of the present invention.

Fig. 5 is a bottom view of the insole of the present invention.

Fig. 6 is a top view of the power supply system of the present invention.

Fig. 7 is a bottom view of the power supply system of the present invention.

Fig. 8 is a structural view of the seat body of the present invention.

Fig. 9 is a structural diagram of the external charger of the present invention.

Fig. 10 is a circuit block diagram of the present invention.

Detailed Description

The drawings show the structure of the present invention, and the details thereof will be further described with reference to the drawings. In the embodiment, the buckle type electric heating cold-proof boot comprises an upper 1, a sole 2 and an insole 3, wherein a mounting cavity 4 is arranged at the heel of the sole 2, a detachable power supply system 5 is embedded in the mounting cavity 4, an electric heating part 6 and a temperature sensor 7 are arranged in the insole 3, a first magnetic snap fastener 8 with a positive electrode electrically connected with the upper surface of the power supply system 5 and a second magnetic snap fastener 9 with a negative electrode electrically connected with the upper surface of the electric heating part 6 are arranged between the electric heating part 6 and the power supply system 5, a third magnetic snap fastener 10 connected with the temperature sensor 7 and the upper surface of the power supply system 5 are arranged between the electric heating part and the power supply system 5, and the first magnetic snap fastener, the second magnetic snap fastener; the outer side of the upper 1 is provided with a power button 11 and a charging interface 12, the power button 11 and the charging interface 12 are respectively connected with the lower surface of a power system 5 through a first circuit 13 and a second circuit 14, a fourth magnetic snap fastener 15 with an electrically connected positive electrode and a fifth magnetic snap fastener 16 with an electrically connected negative electrode are arranged between the first circuit 13 and the lower surface of the power system 5, a sixth magnetic snap fastener 17 with an electrically connected positive electrode and a seventh magnetic snap fastener 18 with an electrically connected negative electrode are arranged between the second circuit 14 and the power system 5, the fourth, fifth, sixth and seventh magnetic snap fasteners are integrated on a base 23, and the first circuit 13 and the second circuit 14 are both arranged in the upper 1. The first, second, third, fourth, fifth, sixth and seventh magnetic snap buttons comprise magnetic snap buttons and female buttons with strong attraction, the snap buttons and the female buttons are matched through magnetic buckling, rapid connection and accurate positioning are achieved, installation is convenient, dislocation is not prone to occurring, mutual butt joint can be achieved firmly by slightly placing the snap buttons, and the connection mode is superior to a common connection mode.

As a specific embodiment of further improvement, the power supply system 5 includes a housing, a lithium battery and a temperature controller, the lithium battery and the temperature controller are disposed in the housing, the lithium battery is connected with the temperature controller, and the temperature controller is used for receiving a temperature signal of a temperature sensor in the insole 3 to control the lithium battery to supply power; preferably, the lithium battery is a polymer lithium battery; preferably, the shell is made of an ABS (acrylonitrile butadiene styrene) explosion-proof material, so that the explosion-proof performance is improved.

As a further improved embodiment, the power system 5 is provided with an external charger 19 connected with the external charger in a snap-fit manner, a magnetic button body 20 for connecting the positive and negative male and female buttons of the power system 5 is arranged on the corresponding external charger 19, and the magnetic button body 20 is a matched magnetic female button or male button.

As a specific embodiment of further improvement, the inner part of the upper 1 and the upper surface of the insole 3 are provided with warm fluff, so that the warm effect is enhanced.

As a more improved specific implementation mode, a circle of anti-skid grains 21 are arranged on the outer peripheral surface of the sole 2, so that the anti-skid effect is enhanced.

As a further improved specific implementation mode, the electric heating component 6 is a PTC heating sheet uniformly distributed in the interlayer of the insole 3, PTC is selected as an electric heating material, and the PTC heating sheet and the insole 3 are molded into a whole to form the heating insole 3, so that the insole has the characteristics of automatic constant temperature, low oxidation, corrosion resistance, stability and difficult combustion, and has good heat preservation performance.

As a further improved specific implementation mode, the insole 3 is made and molded by adopting carbon fiber heating composite felts, is soft and folding-resistant, can be continuously folded for more than 55000 times without influencing functions, can not be broken, can never age and oxidize, has high efficiency of converting electric energy into heat energy, and has the outstanding advantages of light weight, heat preservation and environmental protection.

As a further improved embodiment, the bottom of the installation cavity 4 is provided with a puncture-proof steel plate 22, so that the power supply system 5 is prevented from being damaged and failed due to puncture.

The utility model discloses a charging mode of electrical power generating system 5 is divided into two kinds, one kind is that electrical power generating system 5 need not to take out from sole 2 installation cavity 4, the interface 12 that charges outside upper of a shoe 1 directly connects external power socket, charge the lithium cell, turn on power button 11 in this charging process, the lithium cell can supply power to the heater block, the heater block can heat and dry insole 3 and shoes inside, avoided when wearing because the stoving produces the electric quantity loss, guaranteed the drier-on-wear nature and battery continuation of journey performance; the other is that the power supply system 5 is taken out from the shoe and is connected with an external power supply through an external charger to charge the lithium battery, the specific disassembly and assembly process is that firstly the shoe pad 3 is taken out to ensure that the first magnetic snap fastener, the second magnetic snap fastener and the third magnetic snap fastener are respectively separated from each other, then the power supply system 5 is taken out from the mounting cavity 4 of the sole 2, so that the fourth, fifth, sixth and seventh magnetic letter buttons are respectively separated from each other, then an external charger is adopted to charge the lithium battery, after the charging is finished, the power supply system 5 is embedded in the installation cavity 4 of the sole 2, so that the fourth, fifth, sixth and seventh magnetic letter buttons are respectively buckled with each other, then the insole 3 is put into the shoe corresponding to the sole 2, so that the first, the second and the third magnetic snap buttons are buckled with each other respectively, therefore, the power supply system 5 can be quickly disassembled and assembled, external charging is facilitated, and the standby power supply system 5 can be installed in the external charging process.

In summary, the above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. Buckle formula electrical heating winter protection boots including upper of a shoe, sole and shoe-pad, its characterized in that: a mounting cavity is arranged at the heel of the sole, a detachable power supply system is embedded in the mounting cavity, an electric heating part and a temperature sensor are arranged in the insole, a first magnetic snap fastener electrically connected with a positive electrode and a second magnetic snap fastener electrically connected with a negative electrode are arranged between the electric heating part and the upper surface of the power supply system in a matching mode, a third magnetic snap fastener connected with the temperature sensor and the upper surface of the power supply system in a matching mode, and the first magnetic snap fastener, the second magnetic snap fastener and the third magnetic snap fastener are arranged in a non-collinear mode; the upper of a shoe outside is equipped with power button and the interface that charges, and power button, the interface that charges pass through first circuit, second circuit respectively with the electrical power generating system lower surface and link to each other, and set the fourth magnetism snap-fastener that the positive electricity is connected and the fifth magnetism snap-fastener that the negative pole is connected between first circuit and the electrical power generating system lower surface, set the sixth magnetism snap-fastener that the positive electricity is connected and the seventh magnetism snap-fastener that the negative pole is connected between second circuit and the electrical power generating system, and first circuit and second circuit are all built-in the upper of a shoe.

2. The snap-in electrically heated cold protective boot of claim 1, wherein: the power supply system comprises a shell, a lithium battery and a temperature controller, wherein the lithium battery and the temperature controller are arranged in the shell, and the lithium battery is connected with the temperature controller.

3. The snap-in electrically heated cold protective boot of claim 2, wherein: the lithium battery is a polymer lithium battery.

4. The snap-in electrically heated cold protective boot of claim 2, wherein: the shell is made of an ABS (acrylonitrile butadiene styrene) explosion-proof material.

5. The snap-in electrically heated cold protective boot of claim 1, wherein: the power supply system is provided with an external charger connected with the buckle, and a magnetic buckle body used for connecting the positive and negative pole male buckle or female buckle of the power supply system is arranged on the corresponding external charger.

6. The snap-in electrically heated cold protective boot of claim 1, wherein: the interior of the upper and the upper surface of the insole are provided with warm fluff.

7. The snap-in electrically heated cold protective boot of claim 1, wherein: the outer peripheral surface of the sole is provided with a circle of anti-skid lines.

8. The snap-in electrically heated cold protective boot of claim 1, wherein: the electric heating components are PTC heating sheets which are uniformly distributed in the interlayer of the insole.

9. The snap-in electrically heated cold protective boot of claim 1, wherein: the insole is made of carbon fiber heating composite felt.

10. The snap-in electrically heated cold protective boot of claim 1, wherein: and a puncture-proof steel plate is arranged at the bottom of the mounting cavity.

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