CN114069883A - Rechargeable wearing equipment - Google Patents

Abstract

The invention provides rechargeable wearing equipment, which comprises a seat body and a shoe body, wherein the seat body is used for charging the shoe body; the base comprises a shell, the upper surface of the shell is provided with a placing area for placing the shoe body, a wireless charging area is arranged in the placing area, and the shoe body is charged through the wireless charging area; a charging coil transmitting end is arranged in the shell and is arranged in the wireless charging area; the shoes body includes shoes body, heating module, and the heating module is including heating diaphragm and power supply unit, and power supply unit is used for heating the diaphragm energy supply. The invention has the beneficial effects that: the utility model provides a chargeable wearing equipment is provided with circuit assembly and heating diaphragm, and the heating diaphragm passes through the lead wire and is connected with circuit assembly, and the heating diaphragm sets up at the sole position, can also set up heat-conducting layer and insulating layer simultaneously on the lower surface of heating for prevent heat to the sole diffusion, transmit each position of sole through the heat-conducting layer with the heat is more even simultaneously.

Description

Rechargeable wearing equipment

Technical Field

The invention belongs to the field of shoe bodies, and particularly relates to rechargeable wearable equipment.

Background

In cold winter, the temperature is often below zero, and for people working outdoors for a long time, the heat preservation under feet is particularly important. The temperature that conventional cotton shoes can't guarantee the foot needs, needs the motion thermogenesis to keep the temperature, prevents the frostbite. However, the shoes can not achieve the functions for the old and the weak, which can not exercise for a long time, so the shoes with the heating function and the matched seat bodies can be produced at the same time.

Disclosure of Invention

In view of the above, the present invention is directed to a wearable device capable of being charged, so as to solve the above-mentioned problems.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

a rechargeable wearable device comprises a seat body and a shoe body, wherein the seat body is used for charging the shoe body;

the base comprises a shell, the upper surface of the shell is provided with a placing area for placing the shoe body, a wireless charging area is arranged in the placing area, and the shoe body is charged through the wireless charging area;

a charging coil transmitting end is arranged in the shell and is arranged in the wireless charging area;

the shoe body comprises a shoe body and a heating module, wherein the heating module comprises a heating membrane and a power supply unit, the power supply unit is used for supplying power to the heating membrane, and the heating membrane is arranged on the shoe body;

the power supply unit is provided with a charging coil receiving end corresponding to the charging coil transmitting end.

Furthermore, the power supply unit also comprises a circuit assembly, the circuit assembly comprises a shoe body circuit board and a charging coil receiving end, the energy storage unit comprises a lithium battery, and the circuit assembly is connected with the heating diaphragm through a lead;

the shoe body circuit board and the lithium battery are arranged in the first accommodating cavity, and the charging coil receiving end is arranged in the second accommodating cavity;

an arc-shaped groove for accommodating a lithium battery is formed in the first accommodating cavity, and the lithium battery is embedded into the arc-shaped groove;

the charging coil receiving terminal, lithium cell and shoes body circuit board are connected.

Furthermore, one end of the module shell is provided with an opening, the shoe body circuit board and the charging coil receiving end are placed in the module shell through the opening, and a module shell cover plate is arranged at the position of the opening;

the module shell cover plate is detachably connected with the module shell, two ends of the module shell cover plate are provided with buckles, and the inner wall of the opening part of the module shell is provided with corresponding clamping grooves;

the module shell is filled with filling glue, and the edge part of the module shell cover plate is provided with a sealing waterproof layer;

a reinforcing part is arranged at one end of the module shell, which is far away from the opening, and the reinforcing part comprises a plurality of reinforcing ribs;

the module shell cover plate is provided with a through hole which is convenient for the lead to pass through.

Further, the shoe comprises an attitude sensor and a vibration switch, wherein the attitude sensor and the vibration switch are connected with a shoe body circuit board.

Further, the housing comprises a mechanical upper shell and a mechanical lower shell;

the placing groove is formed in the upper surface of the mechanical upper shell, an annular limiting bulge is arranged on the edge of the upper surface of the mechanical upper shell, and the placing groove for placing the shoe body is formed inside the annular limiting bulge.

Furthermore, the upper surface of the upper mechanical shell is obliquely arranged, and a water outlet is formed in the position of the limiting bulge positioned on a lower horizontal plane;

a water receiving drawer is arranged below the opening part, a containing groove for containing the water receiving drawer is arranged on the lower mechanical shell, and the water receiving drawer is movably connected with the lower mechanical shell;

a limiting unit is arranged between the accommodating groove and the water receiving drawer, comprises a limiting block arranged in the accommodating groove and a limiting groove arranged at the bottom of the water receiving drawer, and is used for preventing the water receiving drawer from naturally sliding out of the accommodating groove;

the edge of the water receiving drawer is provided with a hand-held part.

Further, the control method of the rechargeable wearable device based on the rechargeable wearable device comprises the following steps: after the shoe body is worn, the toe is taken as the peak, the heel is lifted forwards, the lifted angle is detected through the attitude sensor in the shoe body, when the lifted angle meets the preset angle requirement, the boot of the shoe body is realized, meanwhile, the shock switch is driven by the circuit board of the shoe body to be used as boot feedback, and the boot is shut down by performing the operation again.

Further, the control method of the rechargeable wearable device based on the rechargeable wearable device comprises the following steps: the shoe body is in a first gear after being normally started, the heel is used as a peak, the raised angle is detected through the attitude sensor in the shoe body, when the raised angle meets the preset angle requirement, the gear is shifted to a second gear, the steps are repeated, the sole is short-vibrated for three times and is switched to a third gear, the shoe body has a gear memory function, and when the shoe body is started again after being shut down, the gear before being shut down is directly switched.

Further, the control method of the rechargeable wearable device based on the rechargeable wearable device comprises the following steps: the power adapter is connected with the charging port of the base body, the shoe body is placed in the placing groove, and the charging coil receiving end corresponds to the charging coil of the shoe base to start charging.

Further, the control method of the rechargeable wearable device based on the rechargeable wearable device comprises the following steps: the shoe body is connected with the base body under the charging state and takes the tiptoe as the peak, the heel is lifted forwards and started up and then takes the tiptoe as the peak again, the heel is lifted forwards by a set angle and then enters the transportation mode, and the shoe body can exit the transportation mode after being charged again.

Compared with the prior art, the rechargeable wearable device has the following beneficial effects:

(1) the rechargeable wearable device is provided with a circuit assembly and a heating membrane, wherein the heating membrane is connected with the circuit assembly through a lead, the heating membrane is arranged at the sole part, and meanwhile, a heat conduction layer and a heat insulation layer can be arranged on the upper surface and the lower surface of the heating layer to prevent heat from diffusing to the sole and transmit the heat to each part of the sole more uniformly through the heat conduction layer;

(2) in the rechargeable wearable device, the module shell is filled with filling glue, and the edge part of the module shell cover plate is provided with a sealing waterproof layer for protecting components in the module shell and for waterproofing an opening part of the module shell;

(3) the rechargeable wearable device is provided with the attitude sensor, the attitude of the shoe is acquired through the attitude sensor, and when the forward tilting angle or the backward tilting angle meets the requirement, the operations of startup, shutdown, gear shifting and the like of the shoe body are controlled through the circuit board, so that the use is convenient.

(4) The rechargeable wearable device is provided with the placing groove, a shoe to be charged is arranged in the placing groove, and the edge part of the placing groove is provided with the annular limiting bulge, so that the charging coil of the seat body and the charging coil of the shoe body can be relatively wirelessly charged;

(5) the annular limiting groove in the rechargeable wearable device is provided with the water outlet, when the outer surface of a shoe is wet or snow is attached to the surface of the shoe, water can be discharged through the water outlet, and meanwhile, the water receiving drawer is arranged below the water outlet and detachably connected with the lower mechanical shell, so that the water in the water receiving drawer can be poured out in time conveniently;

(6) the accommodating groove and the water receiving drawer of the rechargeable wearable device are internally provided with the limiting block and the limiting groove, the water receiving drawer cannot be smoothly taken out due to the arrangement of the limiting block at ordinary times, so that the water receiving drawer is prevented from automatically sliding out of the accommodating groove, and when the water receiving drawer needs to be taken out, the water receiving drawer can be taken out by lifting the water receiving drawer upwards by a hand.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of a shoe according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an overall structure of a circuit assembly according to an embodiment of the present invention;

FIG. 3 is a schematic view of a reinforcement according to an embodiment of the present invention;

FIG. 4 is a schematic view of the interior of a module housing according to an embodiment of the invention;

fig. 5 is a schematic diagram of a receiving end of a charging coil according to an embodiment of the present invention;

fig. 6 is a schematic view of the overall structure of the seat according to the embodiment of the present invention;

fig. 7 is a schematic view of the inside of the mechanical lower cover of the base according to the embodiment of the invention;

fig. 8 is a bottom view of the seat according to the embodiment of the present invention;

FIG. 9 is a schematic view of a receiving recess according to an embodiment of the present invention;

FIG. 10 is a schematic view of a water drawer according to an embodiment of the present invention;

FIG. 11 is a bottom view of a drawer according to an embodiment of the present invention;

FIG. 12 is a circuit diagram of a wireless charging receiving end (charging coil receiving end) of a shoe body according to an embodiment of the present invention;

FIG. 13 is a circuit diagram of a charge detection circuit of a shoe body according to an embodiment of the present invention;

FIG. 14 is a schematic view of a reset circuit of the shoe body according to an embodiment of the present invention;

FIG. 15 is a schematic view of a motor driving (driving vibration switch) of the shoe body according to the embodiment of the present invention;

FIG. 16 is a circuit diagram of a battery charging management circuit of a shoe body according to an embodiment of the present invention;

FIG. 17 is a circuit diagram of a battery over-charge and over-discharge current protection circuit of a shoe body according to an embodiment of the present invention;

FIG. 18 is a schematic circuit diagram of a position sensor of the shoe body according to an embodiment of the present invention;

FIG. 19 is a circuit diagram of a Bluetooth module and a circuit board of a shoe body according to an embodiment of the present invention;

FIG. 20 is a circuit diagram of two charging ports of the shoe base according to the embodiment of the present invention;

FIG. 21 is a circuit diagram of an MCU of the shoe base according to the embodiment of the present invention;

FIG. 22 is a schematic view of a current detection and charging coil transmitting terminal circuit of the shoe base according to the embodiment of the present invention;

FIG. 23 is a schematic view of a current detection and another circuit of a charging coil transmitting terminal of the shoe base according to the embodiment of the present invention;

FIG. 24 is a circuit diagram of a heating circuit of the shoe body according to the embodiment of the present invention.

Description of reference numerals:

1-a circuit assembly; 11-shoe body circuit board; 12-charging coil receiving end; 2-heating the membrane; 3-a lead; 4-a module housing; 41-a first containing cavity; 42-a second receiving cavity; 43-arc groove; 44-a card slot; 45-reinforcement; 5-a module housing cover plate; 51-a through hole; 6-a lithium battery; 61-attitude sensor; 62-a vibration switch; 7-mechanical upper shell; 71-a mechanical lower housing; 72-an annular stop boss; 73-placing a groove; 74-a drain outlet; 75-a water receiving drawer; 76-a receiving recess; 77-a limiting block; 78 a limiting groove; 79-a hand-held portion; 710-a limit bump; 8-a base body circuit board; 81-charging coil emitter; 82-a charging port; 9-Wireless charging zone.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The scheme specifically comprises a shoe body and a shoe body seat: the shoe body comprises a shoe body and a wireless charging module, and the wireless charging module is arranged on the shoe body;

the heating film comprises a circuit assembly 1 and a heating film 2, wherein the circuit assembly 1 and the heating film 2 are connected by a lead 3;

the circuit assembly 1 is arranged at the heel of the shoe, and the heating diaphragm 2 is arranged at the front sole part of the shoe;

including wireless receiving terminal and the energy storage unit that charges, charge for the energy storage unit through the wireless receiving terminal that charges, for heating diaphragm 2 energy supplies through the energy storage unit.

The heating membrane 2 is a flexible heating membrane 2.

The circuit assembly 1 comprises a shoe body circuit board 11, a charging coil receiving end 12 and a module shell 4, and the energy storage unit comprises a lithium battery 6;

a first accommodating cavity 41 and a second accommodating cavity 42 are arranged in the module shell 4, the shoe body circuit board 11 and the lithium battery 6 are arranged in the first accommodating cavity 41, and the charging coil receiving end 12 is arranged in the second accommodating cavity 42;

an arc-shaped groove 43 for accommodating the lithium battery 6 is formed in the first accommodating cavity 41, and the lithium battery 6 is embedded into the arc-shaped groove 43;

the charging coil receiving end 12 and the lithium battery 6 are connected with the shoe body circuit board 11;

the charging coil receiving end 12 is arranged on one side of the heel close to the ground.

One side of the heating membrane 2 close to the sole is provided with a heat insulation layer, and one side close to the sole is provided with a heat conduction layer.

An opening is formed in one end of the module shell 4, the shoe body circuit board 11 and the charging coil receiving end 12 are placed in the module shell 4 through the opening, and a module shell cover plate 5 is arranged at the position of the opening.

The module shell cover plate 5 is detachably connected with the module shell 4, the two ends of the module shell cover plate 5 are provided with buckles, and the inner wall of the opening part of the module shell 4 is provided with a corresponding clamping groove 44.

The module shell 4 is filled with filling glue, and the edge part of the module shell cover plate 5 is provided with a sealing waterproof layer.

The module housing 4 is provided with a reinforcement 45 at an end thereof remote from the opening, and the reinforcement 45 includes a plurality of reinforcing ribs.

The module case cover plate 5 is provided with a through hole 51 for passing the lead 3.

The shoe body is characterized by further comprising a posture sensor 61 and a vibration switch 62, wherein the posture sensor 61 and the vibration switch 62 are connected with the shoe body circuit board 11, and the preferable posture sensor 61 can be a gyroscope or other equipment capable of collecting posture information.

Meanwhile, the Bluetooth communication module is arranged in the shoe, a user can perform program upgrading through Bluetooth communication and is connected with the matched APP through Bluetooth to perform related function operation.

The seat body comprises a shell, a placing groove 73 for placing the shoe body is arranged on the upper surface of the shell, a wireless charging area 9 is arranged in the placing groove 73, and the shoe body is charged through the wireless charging area 9;

be provided with pedestal circuit board 8 and charging coil transmitting terminal 81 in the casing, still include charging port 82, charging coil transmitting terminal 81, charging port 82 are connected with pedestal circuit board 8, and charging coil transmitting terminal 81 sets up in wireless charging district 9.

The housing comprises a mechanical upper shell 7 and a mechanical lower shell 71;

the placing groove 73 is arranged on the upper surface of the mechanical upper shell 7, the edge part of the upper surface of the mechanical upper shell 7 is provided with an annular limiting bulge 72, and the placing groove 73 for placing the shoe body is formed inside the annular limiting bulge 72.

The upper surface of the upper mechanical shell 7 is inclined, and the limiting convex part at the lower horizontal plane is provided with a water outlet 74.

A water receiving drawer 75 is arranged below the opening part, the mechanical lower shell 71 is provided with a containing groove 76 for containing the water receiving drawer 75, and the water receiving drawer 75 is movably connected with the mechanical lower shell 71.

A limiting unit is arranged between the accommodating groove 76 and the water receiving drawer 75, and comprises a limiting block 77 arranged in the accommodating groove 76 and a limiting groove 78 arranged at the bottom of the water receiving drawer 75, and the limiting unit is used for preventing the water receiving drawer 75 from naturally sliding out of the accommodating groove 76.

The edge of the water receiving drawer 75 is provided with a hand-held part 79.

The placing groove 73 is also provided with a limiting bump 710, and the limiting bump 710 is used for limiting the placing position of the shoe body in the placing groove 73.

The number of the charging ports 82 is two, any one of the charging ports 82 is connected with the base body circuit board 8 through the lead 3, and the two charging ports 82 are connected through the lead 3 and are used for realizing series connection between the two charging ports 82.

It should be noted that, in the drawings of the specification, only a schematic diagram of the wireless charging module is given, and a schematic diagram of a shoe body is not given, the shoe body can be a common shoe, and the wireless charging module mentioned in the scheme is arranged on the common shoe to form the shoe body;

when using, the heel department is placed in to circuit assembly 1 part in, and heating diaphragm 2 part is placed in the preceding sole position of shoes, and circuit assembly 1 part carries out the gap through the foamed rubber and fills simultaneously, and its effect lies in, and fixed circuit assembly 1 part makes circuit assembly 1 can not rock in the shoes, alleviates a part sole weight simultaneously.

The circuit assembly 1 comprises a circuit board, a lithium battery 6, a charging coil receiving end 12 and a module shell 4, wherein the circuit board comprises an attitude sensor 61 and a vibration switch 62, the attitude sensor 61 can preferably adopt a gyroscope, various attitude changes are collected through the gyroscope, and the data are transmitted to a circuit board chip for related function control according to the received angle change data; lithium cell 6 and circuit board are installed in module shell 4 first hold the chamber 41 in, and the charging coil is installed in the second of module shell 4 holds the chamber 42, and the installation is accomplished the back, carries out the encapsulating to the die cavity, and used glue is the fire prevention expanded polystyrene foam this moment, and its effect is the components and parts in the protection cavity, and module housing cover 5 is assembled to the repayment, then carries out the silicon rubber and seals sealedly, and its effect is waterproof.

The heating membrane 2 is partially arranged at the sole part in front of the shoe, a heat insulation layer can be added in the direction of the membrane close to the sole, a heat conduction layer can be added in the direction close to the sole, and the function of the heat conduction layer is to conduct heat to the sole as much as possible.

In this scheme, the pedestal includes pedestal circuit board 8, charging port 82 and charging coil transmitting terminal 81 are connected with pedestal circuit board 8, connect external power adapter through the charging terminal, the charging terminal is equipped with two simultaneously, arbitrary one charging terminal passes through lead wire 3 with the circuit board and is connected, two charging terminals are direct also through lead wire 3 connection simultaneously, have realized the series connection between two charging terminals, power adapter can be connected with arbitrary one charging terminal when using, the effect of two charging terminals is: when a plurality of seat bodies exist, the power adapter is only needed to be connected with one charging terminal of one seat body, and other seat bodies are connected with the other charging terminal to realize the charging function, so that the requirement on the number of the power adapters is reduced;

meanwhile, the upper surface of the mechanical upper shell 7 is provided with a placing groove 73 for placing a shoe body, a shoe to be charged is placed in the placing groove 73, and the charging coil emitting end 81 of the seat body is opposite to a charging coil of the shoe body at the moment due to the arrangement of the annular limiting protrusion 72, so that charging is realized;

meanwhile, in the scheme, the water outlet 74 is arranged, when the outer surface of the shoe is wet or snow is attached to the surface of the shoe, water can be discharged through the water outlet 74, the water receiving drawer 75 is arranged below the water outlet 74, the water receiving drawer 75 is detachably connected with the lower mechanical shell 71, and water in the water receiving drawer 75 can be poured out in time conveniently;

simultaneously be provided with stopper 77 and spacing groove 78 in the recess 76 that holds that sets up in this scheme and the water receiving drawer 75, at ordinary times because the unable level and smooth taking out of water receiving drawer 75 of setting up of stopper 77 to this prevents water receiving drawer 75 from automatic roll-off from holding recess 76, and when needs take out, the hand upwards lifts water receiving drawer 75 and can take out.

Fig. 12-19 and 24 disclose the following circuit diagrams related to the shoe body in the scheme: a wireless charging receiving end circuit diagram, a battery charging management circuit diagram, a battery overcharge and overdischarge overcurrent protection circuit diagram, a charging detection circuit diagram, a reset circuit diagram, a motor driving circuit diagram, a Bluetooth and shoe body circuit board schematic diagram and a displacement sensor (namely an attitude sensor) circuit diagram;

fig. 20-23 disclose the following circuit diagrams related to the seat body in the present solution: the wireless charging system comprises two charging port circuit diagrams, an MCU circuit diagram, a current detection circuit diagram and a wireless charging transmitting terminal circuit diagram.

As shown in fig. 12, the wireless charging receiving circuit uses a wireless power receiving chip T3168, the T3168 includes two output terminals, one output terminal is used for common ground, the other output terminal is used for converting the electricity transmitted from the shoe body, i.e., the stand body, into a direct current of 5V, and VCC 5V is connected to VCC 5V in the charging detection circuit of the shoe body shown in fig. 13; meanwhile, the VCC 5V port is also connected with U1 in the battery charging management circuit of the shoe body shown in FIG. 16, the voltage is reduced again through U1 and is output through VCC BAT, the U2 is also included in FIG. 16, the U2 comprises an SYS 3V3 output end, and the VCC 5V is reduced in voltage through U1 and then is supplied to the system through the SYS 3V3 output end of U2 in the charging process; meanwhile, the VCC 5V port is also connected to a reset circuit of the shoe body shown in FIG. 14, and the reset circuit is used for resetting the whole system when the shoe body is charged;

the charging detection circuit is used for detecting the charging state of the shoe body, the battery charging management circuit is used for managing the charging operation of the shoe body, the charging detection circuit is shown in fig. 13 and comprises voltage division resistors R6 and R9, 5V is divided through R6 and R9 in fig. 13, the voltage division point is SUP 5V, the charging detection circuit is connected with the main control circuit through a SUP 5V port, and whether the charging detection circuit is in the charging state at the moment is detected through the main control circuit;

the shoe also comprises a battery overcharge and overdischarge protection circuit of the shoe body, the battery overcharge and overdischarge protection circuit is connected with a battery charge management circuit, the current and voltage for charging and discharging is regulated through the battery overcharge and overdischarge protection circuit to realize circuit protection, the overcharge and overdischarge protection circuit is shown in fig. 17, a VCC BAT port in fig. 16 is connected with J2 in fig. 17, a battery is connected at J2, and U6 and U7 are also shown in fig. 17, because the negative pole of the battery is not directly connected with the system in common, the negative pole of the battery is connected with the system in common through an MOS tube U6, and the current and voltage for charging and discharging through U7 is used for controlling U6 and further controlling the charging and discharging of the battery, so the U6 and U7 play roles in charge management and overcharge and overdischarge protection;

q1 in FIG. 17 is used for detecting the current electric quantity of battery, has two inputs and an output, and two inputs are VCC BAT and enable respectively for detect battery voltage, SOC ADC that the output was detected out, the singlechip in FIG. 19 is connected to the output, detects the partial pressure of current point through the AD mouth of singlechip, thereby learns the electric quantity of current battery, is used for monitoring the electric quantity.

As shown in fig. 24, the shoe heating device further comprises a heating module circuit of the shoe body, wherein the heating module circuit is connected with the battery and is provided with two input ends and an output end, the input ends are respectively the battery voltage and enable HOT CON, the HOT CON is used for controlling the Q2, when heating is needed, the enable point of the Q5 is set to be high, the Q2 is conducted, namely the heating piece J3 is turned on, and the heating piece J3 starts to work.

As shown in fig. 18, the shoe further comprises a posture sensor circuit of the shoe body, the posture sensor circuit is connected with the bluetooth module circuit and used for transmitting posture information to the bluetooth module, the posture sensor circuit adopts LIS3DH, the input end is SYS 3V3 and the ground, and the GSN SCL, GSN INT and GSN SDA are used for communicating with the bluetooth module in the shoe body and transmitting the posture information to the bluetooth module.

Pedestal charging circuit includes pedestal charge detection circuitry and charging coil transmitting circuit, and charging coil transmitting circuit is connected with pedestal charge detection circuitry, and external power source is connected to pedestal charge detection circuitry one end, exports to charging coil transmitting circuit after handling.

The seat body main control circuit is further connected with an indicator light, and the charging state and the battery power condition are displayed through the indicator light.

The shoe base also comprises a charging port circuit of the shoe base, which is used for filtering the input power supply, and a voltage stabilizing diode which is used for protecting the circuit.

The charging port circuit of the shoe seat is also used for supplying power to the system after voltage reduction, and is connected with the current detection circuit of the seat body and the charging coil of the seat body after voltage reduction in a transmitting manner.

The wearing end comprises a shoe body, and the power supply end comprises a seat body;

the wearing end control circuit comprises a shoe body control circuit, and the power supply end control circuit comprises a seat body control circuit;

the shoe body control circuit comprises a shoe body main control circuit, a shoe body charging circuit and a heating circuit, wherein the shoe body charging circuit is connected with the shoe body main control circuit, the heating circuit is connected with the shoe body charging circuit, and the heating circuit is connected with a heating membrane;

the seat body control circuit comprises a seat body main control circuit and a seat body charging circuit, and the seat body charging circuit is connected with the seat body main control circuit.

Those of ordinary skill in the art will appreciate that the elements and method steps of the examples described in connection with the embodiments disclosed herein may be embodied in electronic hardware, computer software, or combinations of both, and that the components and steps of the examples have been described in a functional general in the foregoing description for the purpose of clearly illustrating the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the several embodiments provided in the present application, it should be understood that the disclosed method and system may be implemented in other ways. For example, the above described division of elements is merely a logical division, and other divisions may be realized, for example, multiple elements or components may be combined or integrated into another system, or some features may be omitted, or not executed. The units may or may not be physically separate, and components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment of the present invention.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A rechargeable wearing device is characterized in that: the shoe comprises a seat body and a shoe body, wherein the seat body is used for charging the shoe body;

the base comprises a shell, the upper surface of the shell is provided with a placing area (73) for placing the shoe body, the placing area (73) is internally provided with a wireless charging area (9), and the shoe body is charged through the wireless charging area (9);

a charging coil emitting end (81) is arranged in the shell, and the charging coil emitting end (81) is arranged in the wireless charging area (9);

the shoe body comprises a shoe body and a heating module, the heating module comprises a heating membrane (2) and a power supply unit, the power supply unit is used for supplying power to the heating membrane (2), and the heating membrane (2) is arranged on the shoe body;

the power supply unit is provided with a charging coil receiving end (12) corresponding to the charging coil transmitting end (81).

2. The wearable rechargeable device of claim 1, wherein: the power supply unit also comprises a circuit assembly (1), and the circuit assembly (1) comprises a shoe body circuit board (11);

the energy storage unit comprises a lithium battery (6), and the circuit assembly (1) is connected with the heating diaphragm (2) through a lead (3);

the shoe body circuit board is characterized by further comprising a module shell (4), wherein a first accommodating cavity (41) and a second accommodating cavity (42) are arranged in the module shell (4), the shoe body circuit board (11) and the lithium battery (6) are arranged in the first accommodating cavity (41), and the charging coil receiving end (12) is arranged in the second accommodating cavity (42);

an arc-shaped groove (43) for accommodating the lithium battery (6) is formed in the first accommodating cavity (41), and the lithium battery (6) is embedded into the arc-shaped groove (43);

the charging coil receiving end (12) and the lithium battery (6) are connected with the shoe body circuit board (11).

3. The wearable rechargeable device of claim 1, wherein: one end of the module shell (4) is provided with an opening, the shoe body circuit board (11) and the charging coil receiving end (12) are placed in the module shell (4) through the opening, and the opening part is provided with a module shell cover plate (5);

the module shell cover plate (5) is detachably connected with the module shell (4), two ends of the module shell cover plate (5) are provided with buckles, and the inner wall of the opening part of the module shell (4) is provided with a corresponding clamping groove (44);

the module shell (4) is filled with filling glue, and the edge part of the module shell cover plate (5) is provided with a sealing waterproof layer;

a reinforcing part (45) is arranged at one end, far away from the opening, of the module shell (4), and the reinforcing part (45) comprises a plurality of reinforcing ribs;

the module shell cover plate (5) is provided with a through hole (51) which is convenient for the lead (3) to pass through.

4. A rechargeable wearable device according to claim 3, characterized in that: the shoe is characterized by further comprising a posture sensor (61) and a vibration switch (62), wherein the posture sensor (61) and the vibration switch (62) are connected with the shoe body circuit board (11).

5. The wearable rechargeable device of claim 1, wherein: the shell comprises a mechanical upper shell (7) and a mechanical lower shell (71);

the placing groove (73) is formed in the upper surface of the mechanical upper shell (7), the edge of the upper surface of the mechanical upper shell (7) is provided with an annular limiting bulge (72), and the placing groove (73) for placing the shoe body is formed in the annular limiting bulge (72).

6. The rechargeable wearable device of claim 5, wherein: the upper surface of the mechanical upper shell (7) is obliquely arranged, and a water outlet (74) is formed in the limiting convex part positioned on a lower horizontal plane;

a water receiving drawer (75) is arranged below the opening part, a containing groove (76) used for containing the water receiving drawer (75) is arranged on the mechanical lower shell (71), and the water receiving drawer (75) is movably connected with the mechanical lower shell (71);

a limiting unit is arranged between the accommodating groove (76) and the water receiving drawer (75), and comprises a limiting block (77) arranged in the accommodating groove (76) and a limiting groove (78) arranged at the bottom of the water receiving drawer (75), and the limiting unit is used for preventing the water receiving drawer (75) from naturally sliding out of the accommodating groove (76);

the edge part of the water receiving drawer (75) is provided with a hand-held part (79).

7. The control method of the rechargeable wearable device according to any one of claims 1 to 6, comprising the following steps: the change of the foot posture is detected through the posture sensor in the shoe body, when the preset angle threshold value is reached, the shoe body is started, and the shoe body is shut down by performing the operation again.

8. The control method of the rechargeable wearable device is characterized by comprising the following steps: the shoe body is in a first gear after being normally started, the change of the posture of the foot is detected through the posture sensor in the shoe body, when a preset angle threshold value is reached, the gear is shifted to a second gear, the steps are repeated, the sole is short-vibrated for three times and is switched to a third gear, the shoe body has a gear memory function, and when the shoe body is started again after being stopped, the gear before being stopped is directly switched.

9. The control method of the rechargeable wearable device according to any one of claims 1 to 6, comprising the following steps: the power adapter is connected with the charging port of the base body, the shoe body is placed in the placing groove, and the charging coil receiving end corresponds to the charging coil of the shoe base to start charging.

10. The control method of the rechargeable wearable device as claimed in any one of claims 1 to 6, comprising a transportation mode control method: the shoe body is connected with the base body in a charging state, changes of the posture of the foot are detected through the posture sensor in the shoe body, the shoe body enters a transportation mode when a preset angle threshold value is reached, and the shoe body can exit the transportation mode after being charged again.

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