CN216494750U - Multifunctional foot pad - Google Patents

Abstract

The application discloses a multifunctional foot pad, which comprises a foot pad body and an enclosure connected with the side edge of the foot pad body, wherein the enclosure is provided with an opening for legs to pass through in the horizontal direction; multifunctional foot pad still includes the controller, enclose and keep off and this internal heating element that all installs of callus on the sole, heating element with controller electric connection, the position of warm podotheca is corresponding with the position of heating element on the callus on the sole body. This application can heat the sole through the heating element on the callus on the sole body, can keep warm to the instep through warm podotheca, can heat cold-proof to the shank through enclosing the heating element who keeps off, for can only heating the sole in the current, the function is more, uses and experiences better.

Description

Multifunctional foot pad

Technical Field

The utility model relates to the technical field of daily necessities, in particular to a multifunctional foot pad.

Background

The foot pad is a daily necessity which is frequently appeared in daily life of people, and is mainly placed on the front ground of a chair, a bedside and a sofa. At present, two foot pads appear in the market, one is a common foot pad which only can play the roles of decoration and making the soles of people feel soft and comfortable; the other type is a foot pad with a heating function, which is mainly used for keeping feet warm when people work, study or leisure in cold winter. However, the existing heating foot pad has single function, only can heat the sole of the foot, and the instep and the leg of a user can still feel cold when the foot pad is used.

SUMMERY OF THE UTILITY MODEL

The utility model provides a multifunctional foot pad aiming at the problems.

The technical scheme adopted by the utility model is as follows:

a multifunctional foot pad comprises a foot pad body and an enclosure connected with the side edge of the foot pad body, wherein the enclosure is provided with an opening for legs to pass through in the horizontal direction, the upper surface of the foot pad body is provided with a foot warming sleeve, the foot warming sleeve and the foot pad body form a bag-shaped structure with an insertion opening at one side, and the insertion opening faces the opening and is used for inserting the feet of a user;

the multifunctional foot pad further comprises a controller, heating elements are installed in the enclosing baffle and the foot pad body, the heating elements are electrically connected with the controller, and the position of the foot warming sleeve corresponds to the position of the heating elements on the foot pad body.

This application can heat the sole through the heating element on the callus on the sole body, can keep warm to the instep through warm podotheca, can heat cold-proof to the shank through enclosing the heating element who keeps off, can only heat the sole for the current, the function is more, uses and experiences better.

The foot pad body of the application can be regular in shape, such as circular, oval or polygonal (such as rectangular), and also can be irregular.

The heating element of the present application can be various, such as a heating wire or a heating film.

In one embodiment of the utility model, the foot pad body is rectangular, the enclosure comprises three baffles, the three baffles are respectively connected with three side edges of the foot pad body, each baffle is provided with a horizontal working position and a vertical working position, the side edges of the baffles are provided with connecting structures, and when each baffle is located at the vertical working position, two adjacent baffles are connected with each other through the connecting structures.

Three baffles are respectively connected with the top, the left side and the right side of the foot pad body. During the actual use, connection structure can set up to multiple form, for example magnetism is inhaled, block, magic subsides or buckle etc..

In one embodiment of the present invention, the connection structure is a soft magnetic strip; a folding groove is formed at the joint of the baffle and the foot pad body; the folding groove is of a hollow structure and is used for arranging wires.

Make things convenient for the high-speed joint between two adjacent baffles and break away from through soft magnetic stripe, when three baffles were in vertical work position, three baffles passed through soft magnetic stripe mutual actuation, formed and enclosed the fender.

The horizontal work position of this application saying both includes the baffle tiling, and with the callus on the sole body on same face, also included folding the upper surface of laying at the callus on the sole body. The folding groove is used for facilitating the storage of the baffle plate, so that the baffle plate can be folded on the foot pad body, and the size is effectively reduced; the folding groove is of a hollow structure and can be used for arranging connecting wires of related components.

In one embodiment of the utility model, the enclosure further comprises a cover plate, the cover plate is connected with one end of one baffle plate, which is far away from the foot pad body, and when each baffle plate is in a vertical working position, the cover plate is used for rotatably covering the upper ends of the three baffle plates.

Set up the apron and can effectively prevent that the heat from enclosing the fender top and giving off, the heat that the baffle produced can mainly follow the opening and go out to human one side and give off, and the heating is effectual.

In one embodiment of the present invention, the heating element is a graphene heating film; the baffle is multilayer structure, and one side that the baffle is close to the callus on the sole body is the inboard, and the baffle includes first protective layer, graphite alkene heating film, heat reflection layer, thermal-insulated heat preservation and the second protective layer that sets gradually from the inboard outside.

During actual application, the graphene heating films of the three baffles are connected in parallel. The graphene heating film of the baffle is a graphene high-temperature heating film, and the heating temperature of the graphene high-temperature heating film is 60-65 ℃.

In practical use, the heat reflecting layer is made of metal aluminum foil.

When the heat insulation layer is actually used, the heat insulation layer is a filling layer made of rubber-plastic plates or polyurethane materials, and the heat insulation layer plays a role in heat insulation.

In one embodiment of the present invention, the heating element is a graphene heating film; the foot pad body is multilayer structure, the foot pad body includes TPU rubber layer, elastic material layer, graphite alkene heating film and the top layer that from the bottom up set gradually.

In practical use, the graphene heating film is preferably consistent with the foot warming sleeve in size.

During actual application, the graphene heating film is a graphene low-temperature heating film, and the heating temperature of the graphene low-temperature heating film is 42-45 ℃.

The application discloses heating element is preferred graphite alkene heating film, and graphite alkene heating film has the advantage such as generate heat evenly, the rate of generating heat is fast, electric heat conversion efficiency height to can release after the ohmic heating and be close to human 6 ~ 14 mu m far infrared light wave, have certain physiotherapy effect.

In one embodiment of the utility model, the controller is installed on the foot pad body or the enclosure, and the multifunctional foot pad further comprises a transformer type plug connected with the controller; the bottom of the TPU rubber layer is provided with a plurality of anti-skid ridges; the surface layer and the foot warming sleeve are made of dutch velvet composite fabric.

The Dutch velvet composite fabric is good in heat retention, and soft and comfortable to touch when human skin is in direct contact with the fabric.

When the anti-skid mat is actually used, the anti-skid ridges are preferably arranged in multiple rows, and can improve the anti-skid performance of the foot mat and prevent sliding displacement in the using process.

When the TPU rubber layer and the anti-skid ribs are actually used, the TPU rubber layer and the anti-skid ribs are integrally hot-pressed and formed, and the structure is simple in production mode.

In practical application, the elastic material layer may be made of sponge or latex.

In one embodiment of the utility model, the foot pad body further comprises an acupuncture point vibrator electrically connected with the controller, and the acupuncture point vibrator is arranged between the graphene heating film and the elastic material layer and is used for performing vibration massage on acupuncture points on the sole of a human body.

Through setting up the acupuncture point bumper, multi-functional callus on the sole can play the massage effect, uses and experiences better. The heat generated by the heating element can be combined to perform benign deep stimulation on the sole acupuncture points, promote blood circulation and eliminate fatigue.

In actual use, the acupuncture point vibrator can be various existing vibration elements, such as a vibration motor and the like.

In one embodiment of the utility model, the pressure sensor is arranged on the corresponding foot pad body below the foot warming sleeve and is electrically connected with the controller, the pressure sensor is used for monitoring whether the foot pad is in use and transmitting information to the controller, and the controller can control the heating element and the acupoint vibrator to work according to signals of the pressure sensor.

The pressure sensor can monitor whether the foot pad is in use and transmit information to the controller, and the controller adopts a control mode that: when the foot is put into warm podotheca, pressure signal is received to pressure sensor, and graphite alkene heating film heating and acupuncture point bumper vibration massage are controlled automatically to the controller, and when the foot left warm podotheca, graphite alkene heating film and acupuncture point bumper stop work are controlled automatically to the controller.

In one embodiment of the present invention, a first temperature sensor is disposed on the corresponding foot pad body below the foot warming sleeve, the first temperature sensor is electrically connected to the controller, and the controller controls the operation of the heating element on the foot pad body according to a signal of the first temperature sensor;

enclose to be equipped with second temperature sensor on keeping off, second temperature sensor and controller electric connection, the controller encloses the work of keeping off the heating element on according to second temperature sensor's signal control.

A control principle of the present application: when the temperature in the foot warming sleeve is higher than the set threshold value of the first temperature sensor, the controller controls the heating element on the foot pad body to stop heating, and when the temperature in the foot warming sleeve is lower than the set threshold value of the first temperature sensor, the controller controls the heating element to start heating.

The controller controls the heating state of the heating element according to the information transmitted by the second temperature sensor. When the temperature of the baffle is lower than the set threshold of the second temperature sensor, the controller controls the heating element to heat, and when the temperature of the baffle is higher than the set threshold of the second temperature sensor, the controller controls the heating element to stop heating.

The utility model has the beneficial effects that: this application can heat the sole through the heating element on the callus on the sole body, can keep warm to the instep through warm podotheca, can heat cold-proof to the shank through enclosing the heating element who keeps off, can only heat the sole for the current, the function is more, uses and experiences better.

Description of the drawings:

FIG. 1 is a schematic structural view of a use state of the multifunctional foot pad of embodiment 1;

FIG. 2 is a schematic structural view of a tiled state of the multifunctional foot pad of embodiment 1;

FIG. 3 is a schematic view of a footbed body;

FIG. 4 is a schematic structural view of the bottom of the TPU rubber layer;

FIG. 5 is a schematic view of the structure of the baffle;

FIG. 6 is a schematic view showing the structure of the multifunctional foot pad according to embodiment 2 in use;

fig. 7 is a schematic structural view of a tiled state of the multifunctional foot pad of embodiment 2.

The figures are numbered:

10. a foot pad body; 101. a TPU rubber layer; 1011. anti-skid ridges; 102. a layer of elastomeric material; 103. a graphene low-temperature heating film; 104. a surface layer; 105. vibrating acupuncture points; 20. fencing; 201. an opening; 21. a baffle plate; 22. a connecting structure; 23. a folding slot; 24. a cover plate; 211. a first protective layer; 212. a graphene high-temperature heating film; 213. a heat reflective layer; 214. a heat insulation layer; 215. a second protective layer; 30. a foot warming sleeve; 301. an insertion opening; 40. a controller; 50. a transformer type plug.

The specific implementation mode is as follows:

the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

As shown in fig. 1, 2, 4 and 5, a multifunctional foot pad comprises a foot pad body 10 and an enclosure 20 connected with the side edge of the foot pad body, wherein the enclosure 20 is provided with an opening 201 for the legs to pass through in the horizontal direction, the upper surface of the foot pad body 10 is provided with a foot warming sleeve 30, the foot warming sleeve 30 and the foot pad body 10 form a bag-shaped structure with an insertion opening 301 at one side, and the insertion opening 301 faces the opening 201 and is used for the insertion of the feet of a user;

the multifunctional foot pad further comprises a controller 40, heating elements are mounted in the enclosure 20 and the foot pad body 10, the heating elements are electrically connected with the controller 40, and the position of the foot warming sleeve 30 corresponds to the position of the heating elements on the foot pad body 10.

This application can heat the sole through the heating element on the callus on the sole body 10, can keep warm to the instep through warm podotheca 30, can heat cold-proof to the shank through enclosing the heating element that keeps off 20, can only heat the sole for the current, and the function is more, uses and experiences better.

The footpad body 10 of the present application may be of a regular shape, such as a circular, oval, or polygonal (e.g., rectangular) shape, or may be contoured.

The heating element of the present application can be various, such as a heating wire or a heating film.

As shown in fig. 1 and 2, in the present embodiment, the foot pad body 10 is rectangular, the enclosure 20 includes three baffles 21, the three baffles 21 are respectively connected to three sides of the foot pad body 10, each baffle 21 has a horizontal working position and a vertical working position, the sides of the baffles 21 have connecting structures 22, and when each baffle 21 is located at the vertical working position, two adjacent baffles 21 are connected to each other through the connecting structures 22.

Three baffles 21 are respectively connected with the top, the left side and the right side of the foot pad body 10. In practice, the connecting structure 22 can be provided in various forms, such as magnetic attraction, snap, hook and loop fastener, etc.

As shown in fig. 1 and 2, in the present embodiment, the connection structure 22 is a soft magnetic strip; a folding groove 23 is arranged at the joint of the baffle plate 21 and the foot pad body 10; the folding groove 23 is a hollow structure for arranging the wire.

Make things convenient for the high-speed joint between two adjacent baffles 21 and break away from through soft magnetic stripe, when three baffles 21 were in vertical work position, three baffles 21 were closed through soft magnetic stripe mutual actuation, formed and were enclosed fender 20.

The horizontal working position comprises the flat laying of the baffle plate 21 and the folding laying of the baffle plate on the upper surface of the foot pad body 10, wherein the baffle plate 21 is on the same surface with the foot pad body 10. The folding groove 23 is used for facilitating the storage of the baffle 21, so that the baffle 21 can be folded on the foot pad body 10, and the size is effectively reduced; the folding groove 23 is a hollow structure and can be used for arranging connecting wires of related components.

As shown in fig. 5, in the present embodiment, the heating element is a graphene high temperature heating film 212, and the heating temperature is 60 to 65 ℃; the baffle 21 is multilayer structure, and the one side that the baffle 21 is close to callus on the sole body 10 is the inboard, and the baffle 21 includes the first protective layer 211, the high temperature heating film 212 of graphite alkene, heat reflection layer 213, thermal-insulated heat preservation 214 and the second protective layer 215 that set gradually from inboard to the outside.

In actual use, the graphene heating films of the three baffles 21 are connected in parallel.

In practice, the heat reflective layer 213 is made of metal aluminum foil.

In practical use, the heat insulation layer 214 is a filling layer made of rubber-plastic board or polyurethane material, and plays a role in heat insulation.

As shown in fig. 4, in the embodiment, the heating element is a graphene low-temperature heating film 103, and the heating temperature is 42 to 45 ℃; the foot pad body 10 is of a multilayer structure, and the foot pad body 10 comprises a TPU rubber layer 101, an elastic material layer 102, a graphene low-temperature heating film 103 and a surface layer 104 which are sequentially arranged from bottom to top.

In practical use, the graphene heating film preferably has the same size as the foot warming sleeve 30.

The heating element of the embodiment is a graphene heating film (a graphene high-temperature heating film 212 and a graphene low-temperature heating film 103), the graphene heating film has the advantages of uniform heating, high heating rate, high electric heat conversion efficiency and the like, and 6-14 mu m far infrared light waves close to a human body can be released after the graphene heating film is electrified and heated, so that a certain physiotherapy effect is achieved.

As shown in FIGS. 1 and 2, in the present embodiment, the controller 40 is mounted on the footrest body 10, and may be mounted on the enclosure 20 or the power line during actual use. As shown in fig. 1 and 2, in the present embodiment, the multifunctional foot pad further includes a transformer-type plug 50 connected to the controller 40.

As shown in fig. 3, in the present embodiment, a plurality of anti-slip ribs 1011 are disposed at the bottom of the TPU rubber layer 101. In practical use, the anti-slip ridges 1011 are preferably arranged in multiple rows, and the anti-slip ridges 1011 can improve the anti-slip performance of the foot pad and prevent sliding displacement in the use process. In actual application, the TPU rubber layer 101 and the anti-skid ridges 1011 are integrally hot-pressed and formed, and the structure is simple in production mode.

In practice, the elastic material layer 102 may be made of sponge or latex.

In this embodiment, the surface layer 104 and the foot warming sleeve 30 are made of dutch velvet composite fabric. The Dutch velvet composite fabric is good in heat retention, and soft and comfortable to touch when human skin is in direct contact with the fabric.

As shown in fig. 4, in the present embodiment, the foot pad body 10 further includes an acupuncture point vibrator 105 electrically connected to the controller 40, and the acupuncture point vibrator 105 is disposed between the graphene low-temperature heating film 103 and the elastic material layer 102 for performing vibration massage on acupuncture points on the sole of the human foot. Through setting up acupuncture point bumper 105, multi-functional callus on sole can play the massage effect, uses and experiences better. The heat generated by the heating element (graphene low-temperature heating film 103) can be combined to perform benign deep stimulation on the acupuncture points of the sole of the foot, so that the blood circulation can be promoted, and the fatigue can be eliminated.

In practice, the acupuncture point vibrator 105 may be any of various vibration elements, such as a vibration motor.

In this embodiment, a pressure sensor (not shown) is disposed on the corresponding foot pad body 10 below the foot warming sleeve 30, the pressure sensor is electrically connected to the controller 40, the pressure sensor is used for monitoring whether the foot pad is in use, and transmitting information to the controller 40, and the controller 40 can control the heating element and the acupoint vibrator 105 to work according to signals of the pressure sensor.

The pressure sensor may monitor whether the foot pad is in use and transmit information to the controller 40, one way of control of the controller 40: when the foot is put into the foot warming sleeve 30, the pressure sensor receives a pressure signal, the controller 40 automatically controls the heating of the graphene low-temperature heating film 103 and the vibration massage of the acupuncture point vibrator 105, and when the foot leaves the foot warming sleeve 30, the controller 40 automatically controls the graphene low-temperature heating film 103 and the acupuncture point vibrator 105 to stop working.

In this embodiment, a first temperature sensor (not shown) is disposed on the corresponding foot pad body 10 below the foot warming sleeve 30, the first temperature sensor is electrically connected to the controller 40, and the controller 40 controls the operation of the heating element (the graphene low-temperature heating film 103) on the foot pad body 10 according to a signal of the first temperature sensor;

the enclosure 20 is provided with a second temperature sensor (not shown in the drawings), the second temperature sensor is electrically connected to the controller 40, and the controller 40 controls the operation of the heating element (the graphene high-temperature heating film 212) on the enclosure 20 according to a signal of the second temperature sensor.

A control principle of the present application: when the temperature in the foot warming sleeve 30 is higher than the first temperature sensor set threshold, the controller 40 controls the heating element on the foot pad body 10 to stop heating, and when the temperature in the foot warming sleeve 30 is lower than the first temperature sensor set threshold, the controller 40 controls the heating element to start heating, and this control mode can avoid the temperature in the foot warming sleeve 30 from continuously rising due to heat accumulation, and can maintain the temperature in the optimum range of the human body.

The controller 40 controls the heating state of the heating element based on the information transmitted from the second temperature sensor. When the temperature of the baffle 21 is lower than the set threshold value of the second temperature sensor, the controller 40 controls the heating element to heat, and when the temperature of the baffle 21 is higher than the set threshold value of the second temperature sensor, the controller 40 controls the heating element to stop heating, so that the control mode can prevent the baffle 21 from overheating and improve the use safety.

Example 2

As shown in fig. 6 and 7, the present embodiment is different from embodiment 1 in that the enclosure 20 further includes a cover plate 24, the cover plate 24 is connected to one end of one of the baffles 21 away from the foot pad body 10, and when each baffle 21 is in the vertical working position, the cover plate 24 is used for rotatably covering the upper ends of the three baffles 21.

Set up apron 24 and can effectively prevent that the heat from enclosing fender 20 top from giving off, the heat that baffle 21 produced can mainly go out to human one side from opening 201 and give off, and it is effectual to get warm.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and all equivalent structural changes made by using the contents of the present specification and the drawings can be directly or indirectly applied to other related technical fields and are included in the scope of the present invention.

Claims (10)

1. A multifunctional foot pad is characterized by comprising a foot pad body and an enclosure connected with the side edge of the foot pad body, wherein the enclosure is provided with an opening for legs to pass through in the horizontal direction;

the multifunctional foot pad further comprises a controller, heating elements are installed in the enclosing baffle and the foot pad body, the heating elements are electrically connected with the controller, and the position of the foot warming sleeve corresponds to the position of the heating elements on the foot pad body.

2. The multifunctional foot pad of claim 1, wherein the foot pad body is rectangular, the enclosure comprises three baffles, the three baffles are respectively connected with three sides of the foot pad body, each baffle has a horizontal working position and a vertical working position, the sides of the baffles have connecting structures, and when each baffle is in the vertical working position, two adjacent baffles are connected with each other through the connecting structures.

3. The multi-functional footpad of claim 2, wherein the connecting structure is a soft magnetic strip; a folding groove is formed at the joint of the baffle and the foot pad body; the folding groove is of a hollow structure and is used for arranging wires.

4. The multifunctional foot pad of claim 2, wherein the enclosure further comprises a cover plate, the cover plate is connected with one end of one baffle plate, which is far away from the foot pad body, and when each baffle plate is in the vertical working position, the cover plate is used for covering the upper ends of the three baffle plates in a rotating manner.

5. The multifunctional foot pad of claim 2, wherein said heating element is a graphene heating film; the baffle is multilayer structure, and one side that the baffle is close to the callus on the sole body is the inboard, and the baffle includes first protective layer, graphite alkene heating film, heat reflection layer, thermal-insulated heat preservation and the second protective layer that sets gradually from the inboard outside.

6. The multifunctional foot pad of claim 1, wherein the heating element is a graphene heating film; the foot pad body is multilayer structure, the foot pad body includes TPU rubber layer, elastic material layer, graphite alkene heating film and the top layer that from the bottom up set gradually.

7. The multifunctional foot pad of claim 6, wherein the controller is mounted on the foot pad body or the enclosure, the multifunctional foot pad further comprising a transformer-type plug connected to the controller; the bottom of the TPU rubber layer is provided with a plurality of anti-skid ridges.

8. The multifunctional foot pad of claim 6, wherein the foot pad body further comprises acupuncture point vibrators electrically connected with the controller, and the acupuncture point vibrators are arranged between the graphene heating film and the elastic material layer and used for performing vibration massage on acupuncture points on the sole of a human foot.

9. The multifunctional foot pad according to claim 8, wherein the pressure sensor is disposed on the corresponding foot pad body under the foot warming sleeve and electrically connected to the controller, the pressure sensor is used for monitoring whether the foot pad is in use and transmitting information to the controller, and the controller can control the heating element and the acupoint vibrator to work according to signals of the pressure sensor.

10. The multifunctional foot pad according to claim 1, wherein a first temperature sensor is disposed on the corresponding foot pad body below the foot warming sleeve, the first temperature sensor is electrically connected to the controller, and the controller controls the operation of the heating element on the foot pad body according to a signal of the first temperature sensor;

enclose to be equipped with second temperature sensor on keeping off, second temperature sensor and controller electric connection, the controller encloses the work of keeping off the heating element on according to second temperature sensor's signal control.

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