CN216295022U - Foot warming pad - Google Patents

Abstract

The utility model discloses a foot warming pad which comprises a bottom shell, a massage plate arranged on the bottom shell and a graphene heating layer arranged in the bottom shell, wherein a massage component is arranged on the massage plate and used for massaging soles, a pattern layer is arranged on the bottom surface of the massage plate and is prepared from far infrared radiation coating. The foot warming pad provided by the utility model is heated by the graphene heating layer, has the advantages of high temperature rise speed, good temperature control, high electric energy conversion rate and low energy consumption, and can emit far infrared rays in the graphene heating process, thereby having a physiotherapy effect. The massage component arranged on the massage plate can massage the foot when the foot is heated, stimulates the acupuncture points of the foot, can promote the blood circulation of the foot and has better physiotherapy effect. The pattern layer is prepared from far infrared radiation coating, so that the pattern layer has the function of emitting far infrared rays after being heated, and has a health-care effect.

Description

Foot warming pad

Technical Field

The utility model relates to the technical field of health-care equipment, in particular to a foot warming pad.

Background

Foot warmers are used to heat the feet or body in cold weather. Usually, be equipped with the electric heating piece in the warm foot pad, heat is given off through the heating of electric heating piece, plays the effect to foot heating. However, the existing heating sheet is usually heated by the heating wire, on one hand, the heating temperature is difficult to control, and the situation of easy scald is caused, on the other hand, the conversion rate of the heating electric energy of the heating wire is low, so that the energy consumption is high, and in addition, the mains supply is adopted for heating the heating wire, so that the voltage is higher, and once the line is aged, the electric leakage is caused easily, and the potential safety hazard is caused. In addition, the existing foot warmer has single function, does not have other physical therapy or health care effects except heating, and therefore cannot adapt to the increasing demands of consumers.

It is seen that improvements and enhancements to the prior art are needed.

SUMMERY OF THE UTILITY MODEL

In view of the defects of the prior art, the utility model aims to provide a heating foot pad, and aims to overcome the defects that a foot warmer in the prior art adopts an electric heating piece for heating and does not have a health-care function.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a warm callus on sole, wherein, includes the drain pan, sets up massage board on the drain pan and sets up the graphite alkene zone of heating in the drain pan, be equipped with massage part on the massage board, massage part is used for massaging the sole, massage board's bottom surface is equipped with the pattern layer, the pattern layer obtains the pattern layer for far infrared radiation coating preparation.

In the foot warming pad, the massage component comprises a plurality of bulges with different sizes arranged on the massage plate or/and a plurality of rotatable balls arranged on the massage plate.

In the foot warming pad, the rolling balls are made of far infrared ceramic powder or made of tourmaline.

In the foot warming pad, the massage plate is a glass massage plate, and an aluminum substrate is arranged at the bottom of the pattern layer of the glass massage plate.

In the foot warming pad, the graphene heating layer comprises a basal layer, a graphene ink layer arranged on the basal layer and an electrode electrically connected with the graphene, and the electrode is electrically connected with a power supply circuit arranged.

In the foot warming pad, the power supply circuit is provided with a controller and a power adapter.

In the foot warming pad, a temperature sensor is further arranged between the massage plate and the graphene heating layer, and the temperature sensor is electrically connected with the controller.

In the foot warming pad, a high-temperature heat reflection coating layer or/and a buffer pad are arranged below the graphene heating layer.

In the foot warming pad, the bottom shell is provided with reinforcing ribs.

In the foot warming pad, the massage plate is provided with a convex column, and the ball is rotatably connected on the convex column.

Has the advantages that:

the utility model provides a foot warming pad which is heated by the arranged graphene heating layer, the graphene heating layer has the advantages of high temperature rise speed, good temperature control, high electric energy conversion rate and low energy consumption, and in addition, far infrared rays can be emitted in the graphene heating process, so that the foot warming pad has a physiotherapy effect. The massage component that sets up on the massage board can be heated the foot to the foot massage, stimulates foot acupuncture point under the condition of being heated, can promote foot blood circulation, has better physiotherapy effect. The pattern layer arranged at the bottom of the massage plate not only can make the massage plate more beautiful, but also has the function of emitting far infrared rays after being heated and has the health care effect because the pattern layer is prepared by adopting far infrared radiation coating.

Drawings

Fig. 1 is a first schematic structural view of a foot warming pad provided by the utility model.

Fig. 2 is an exploded view of a foot warming pad.

Fig. 3 is a schematic structural view of a foot warming pad II.

Fig. 4 is a partial cross-sectional view of a massage plate provided with balls.

Fig. 5 is an exploded view of a graphene heating layer.

Fig. 6 is a schematic structural view of the foot warming pad provided with the convex columns.

In the drawings, the reference numbers: the massage structure comprises a base shell 1, a massage plate 2, a graphene heating layer 3, a massage part 4, a bump 5, a ball 6, a pattern layer 7, a mounting hole 8, a fixing piece 9, a through hole 10, a convex column 11, a reinforcing rib 12, a basal layer 13, a graphene ink layer 14, an electrode 15, a controller 16, a power adapter 17, a temperature sensor 18, a buffer cushion 19, a high-temperature heat reflecting coating 20 and an aluminum substrate 21.

Detailed Description

The utility model provides a foot warming pad, which is further described in detail below by referring to the accompanying drawings and embodiments in order to make the purpose, technical scheme and effect of the utility model clearer and clearer. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

In the description of the embodiments of the present invention, it should be noted that the terms "inside", "outside", "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that are conventionally placed when the products of the present invention are used, and are only used for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements to be referred to must have specific orientations, be constructed in specific orientations, and operate, and thus, should not be construed as limiting the present invention. Furthermore, unless expressly stated or limited otherwise, the terms "disposed" and "connected" are to be construed broadly, and may for example be fixedly connected, detachably connected, or integrally connected; they may be mechanically coupled, directly coupled, indirectly coupled through intervening media, or may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 5, the present invention provides a foot warming pad, which includes a bottom case 1, a massage plate 2 disposed on the bottom case 1, and a graphene heating layer 3 disposed in the bottom case 1. The graphene heating layer 3 can heat the massage plate 2, so that feet placed on the massage plate 2 can be heated, and the foot warming effect is achieved. The massage plate 2 is the glass massage plate 2 made of toughened glass, has high hardness and strength, good texture and transparency, and the glass is made of a good insulating material, so that potential safety hazards caused by electric conduction can be avoided. The glass massage plate 2 is provided with the massage part 4, and the massage part 4 is used for massaging the sole of the foot, so that the sole of the foot can be massaged while the foot is warmed, the acupuncture points of the foot are stimulated, the blood circulation of the foot is accelerated, and the health care effect is achieved. The bottom surface of the glass massage plate 2 is provided with a pattern layer 7, and the pattern layer 7 at the bottom can be transmitted out due to the fact that the glass is made of transparent materials, and the decorative effect of the massage plate 2 is improved. Pattern layer 7 is pattern layer 7 that the preparation of far infrared radiation coating obtained, pattern layer 7 can radiate out far infrared ray after being heated, far infrared ray has the effect that promotes blood circulation, improves cell metabolism, can play better health care effect to the human body.

The warm callus on sole of above-mentioned structure heats through graphite alkene zone of heating 3, and graphite alkene heating has that the programming rate is fast, energy conversion is high, the advantage that the energy consumption is low to, in the graphite alkene heating process, can also emit far infrared ray, have the physiotherapy effect. The massage component 4 arranged on the massage plate 2 can massage the foot when the foot is heated, stimulates the acupuncture points of the foot under the heating condition, can promote the blood circulation of the foot and has better physiotherapy effect. The pattern layer 7 arranged at the bottom of the massage plate 2 not only can make the massage plate 2 more beautiful, but also has the function of emitting far infrared rays after being heated and has the physiotherapy effect because the pattern layer 7 is prepared by adopting far infrared radiation coating.

In some embodiments, as shown in fig. 1 to 3, the massage component 4 is a plurality of protrusions 5 with different sizes and heights, which are disposed on the massage plate 2, the protrusions 5 may be uniformly distributed on the massage plate 2, or irregularly distributed on the massage plate 2, when a foot is placed on the massage plate 2, especially stands on the massage plate 2, the protrusions 5 can massage a plurality of acupuncture points on the sole of the foot, so as to stimulate the acupuncture points on the sole of the foot, and further perform a physical therapy function.

In other embodiments, as shown in fig. 3 and 4, the massage component 4 is a plurality of balls 6 arranged on the massage plate 2. Since the protrusions 5 provided on the massage board 2 have a certain massage effect when stepping on, the protrusions 5 do not have a very good massage effect when they are used, but they do not stand at all in a normal state, particularly when they are used in an office, and thus the protrusions 5 do not have a very good massage effect when the feet are lightly placed on the massage board 2. In order to improve the stimulation effect on the acupuncture points of the feet, the feet are rubbed back and forth with the massage plate 2, so that the bulges 5 can play a better stimulation effect on the feet. However, the feet rub against the protrusions 5 back and forth, which can improve the massage effect, but the comfort is not sufficient. In order to improve the massaging effect and to provide a better comfort, in some embodiments, the massaging elements 4 are provided as rotatable balls 6, or the massaging plate is provided with protrusions and rotatable balls 6. Specifically, 6 overcoat of ball is equipped with mounting 9, mounting 9 middle part is equipped with perforation 10, perforation 10 is used for fixed ball 6, be equipped with mounting hole 8 on the massage board 2, the cover has mounting 9 of ball 6 to be fixed in the mounting hole through gluing or other bonding modes, promptly, through mounting 9, with ball 6 rotatable coupling in mounting hole 8 to, when ball 6 was fixed in mounting hole 8, perforation 10 can be passed at the top of ball 6, protrusion in massage board 2 surface, and the upper surface of mounting 9 flushes with massage board 2 surface. When feet are placed on the balls 6, the balls 6 can be driven to rotate only by moving the feet, so that the effect of massaging the soles is achieved.

In some embodiments, as shown in fig. 6, the massage plate is further provided with a convex column 11, the convex column 11 is a semi-cylinder, the surface of the convex column 11 is provided with a mounting hole, the ball 6 and the fixing member are fixed in the mounting hole on the semi-cylinder, and the semi-cylinder convex column has a certain radian and can be better attached to the sole of a foot, so that when the sole of a foot rubs with the ball on the convex column, the massage plate has a better acupuncture point stimulation effect and a stronger physiotherapy effect.

Further, ball 6 is ball 6 that the preparation of far infrared ceramic powder obtained, consequently, when graphite alkene zone of heating 3 heats, ball 6 after being heated can launch far infrared ray equally, consequently, not only can stimulate the sole acupuncture point through ball 6, plays the effect of physiotherapy, and the far infrared ray of ball 6 transmission can promote blood circulation equally moreover, plays the effect of health care physiotherapy.

Furthermore, the ball 6 is a colorful ball 6, and has a better decorative effect.

In other embodiments, the balls 6 are made of tourmaline, and because tourmaline can generate negative ions and infrared rays when being heated, the tourmaline has the function of promoting blood circulation and has a better physical therapy effect. The negative ions generated by the tourmaline have the effect of deodorization, especially for smelly feet, the negative ions easily give off odor when warming the feet, and the negative ions generated by the tourmaline have the effect of eliminating peculiar smell.

The warm foot pad with the structure is characterized in that in order to improve the massage effect, a human body can stand on the warm foot pad in use, at the moment, the massage plate 2 bears huge pressure, because the massage plate 2 is a glass massage plate, when the glass plate bears huge pressure, the phenomenon of breakage is easy to occur, and then the foot is injured, so that the glass is prevented from cracking, in some preferred embodiments, the glass massage plate 2 is provided with the aluminum substrate 21 at the bottom of the pattern layer 7, the aluminum substrate 21 and the glass plate are compounded into a whole, so that the strength of the glass plate is greatly enhanced, the bearing capacity of the glass plate is improved, and the phenomenon of breakage or cracking cannot occur even if the glass plate is subjected to large pedaling force.

In other embodiments, in order to further enhance the strength of the foot warming pad and enhance the load bearing capacity of the foot warming pad, a reinforcing rib 12 (as shown in fig. 2) is disposed on the bottom shell, and the reinforcing rib can better support the massage plate, so that the massage plate does not crack when a person steps on the foot or stands on the foot warming pad, and is firmer and safer.

In the foot warming pad with the above structure, as shown in fig. 5, the graphene heating layer 3 includes a substrate layer 13, a graphene ink layer 14 disposed on the substrate layer 13, and an electrode 15 electrically connected to the graphene ink layer, wherein the electrode 15 is electrically connected to a power supply circuit. The substrate layer 13 is a PET film or a PU film, and has good flexibility. The graphene ink layer is prepared from graphene ink, the graphene ink comprises graphene, an auxiliary agent, conductive silver paste and a dispersion medium, and the components in the graphite ink are uniformly mixed and then printed on the substrate layer 13 in a screen printing mode. During the printing, the texture of graphite alkene printing ink is parallel stripe to the both ends of stripe texture have the electrode 15 through electrically conductive sticky connecing, electrode 15 is carbon sheet electrode 15 or copper foil electrode 15, and electrode 15 and supply circuit electric connection, through the electric energy that supply circuit provided, graphite alkene zone of heating 3 heats to distribute away the heat through the massage layer.

As a preferable scheme, as shown in fig. 1, in the foot warming pad, the power supply circuit is provided with a controller 16 and a power adapter 17, and the controller 16 can control the switching of the graphene heating layer 3, the adjustment of the power level, and the setting of the heating time period; the power adapter 17 is used for adjusting voltage, and converts the commercial power into low voltage suitable for heating the graphene heating layer 3 so as to meet the actual heating requirement. And, because graphite alkene zone of heating 3 can adopt lower voltage operation, consequently the use of warm callus on the sole is safer.

In order to better control the temperature of the foot warming pad and improve the comfort level during foot warming, in some embodiments, as shown in fig. 2, a temperature sensor 18 is further disposed between the graphene heating layer 3 and the massage plate 2, and the temperature sensor 18 is electrically connected to the controller 16. Through temperature sensor 18, but real-time detection massage plate 2's temperature to in transmitting temperature information to controller 16, controller 16 can set for the upper limit and the lower limit of control by temperature change, after controller 16 received temperature sensor 18's information, compares, and when the temperature is less than the lower limit, start graphite alkene zone of heating 3 and heat, when the temperature is higher than the temperature upper limit, stop heating. Through the temperature sensor 18 that sets up, make controller 16 more accurate to the on-off control of graphite alkene zone of heating 3, also enable the temperature that warms up foot pad output and can more be fit for human needs, avoid the scald that too high temperature leads to, also avoid the temperature to hang down excessively and make and can not play warm foot effect.

In other embodiments, as shown in fig. 2, graphene heating layer 3 below is equipped with blotter 19, blotter 19 adopts elastic material preparation to obtain, the blotter can support graphene heating layer 3 on the one hand, makes its and massage board 2 better attached, and then graphene heating layer 3 has better heat transfer effect, and on the other hand enables inner structure more compact firm, avoids warm callus on the sole at the in-process that removes, and inside structural component takes place to become flexible, influences the use. Furthermore, the buffer pad 19 is made of an elastic material with an insulating property or an elastic material with an insulating surface, so that potential safety hazards caused by electric leakage of the electrode 15 of the graphene heating layer 3 can be avoided.

When heating through graphite alkene zone of heating 3, the heat that graphite alkene zone of heating 3 produced can distribute away from arbitrary direction, because graphite alkene zone of heating 3's upper and lower surface is great, therefore the heat mainly upwards transmits to massage board 2 on, perhaps transmits to the shell bottom by graphite alkene zone of heating 3's below, transmits away by the shell bottom, however, because the foot is placed on massage board 2, consequently, with the heat as far as to massage board 2 transmission, just can make thermal utilization ratio highest. To avoid heat transfer downwards, in other embodiments, the warming pad is provided with a high temperature heat reflective coating 20 under the graphene heating layer 3, as shown in fig. 2. The high-temperature heat reflection coating 20 is prepared by coating high-temperature heat reflection coating on the sheet-shaped film, the high-temperature heat reflection coating 20 can isolate infrared rays, weaken the conduction of high-temperature thermal electromagnetic waves, reduce the heat generated by the graphene heating layer 3 and output from the bottom, improve the radiant heat insulation performance of the foot warming pad, reduce the heat dissipation loss, save energy and reduce consumption.

In conclusion, the foot warmer heats through the graphene heating layer, has the characteristics of low energy consumption and high temperature rise speed, can radiate far infrared rays, and has a physiotherapy effect. The bulges or the balls arranged on the massage plate can massage the sole of the foot, play a role in stimulating the acupuncture points of the foot, accelerate the blood circulation and have the physical therapy effect. The pattern layer not only can play the decorative effect, but also can radiate far infrared rays, thereby improving the physical therapy effect.

It should be understood that the technical solutions and the inventive concepts according to the present invention may be equally replaced or changed by those skilled in the art, and all such changes or substitutions should fall within the protection scope of the appended claims.

Claims (10)

1. The utility model provides a warm foot pad, its characterized in that includes the drain pan, sets up massage board on the drain pan and sets up the graphite alkene zone of heating in the drain pan, be equipped with massage component on the massage board, massage component is used for massaging the sole, massage board's bottom surface is equipped with the pattern layer, the pattern layer obtains the pattern layer for far infrared radiation coating preparation.

2. The foot warming pad according to claim 1, wherein the massage member comprises a plurality of protrusions of different sizes disposed on the massage plate or/and a plurality of rotatably coupled balls disposed on the massage plate.

3. The foot warming pad according to claim 2, wherein the balls are balls made of far infrared ceramic powder or balls made of tourmaline.

4. The foot warming pad according to claim 1, wherein the massage plate is a glass massage plate, and an aluminum substrate is disposed on the bottom of the pattern layer of the glass massage plate.

5. The foot warming pad according to claim 1, wherein the graphene heating layer comprises a substrate layer and a graphene ink layer disposed on the substrate layer, and an electrode electrically connected to the graphene, the electrode being electrically connected to a power supply circuit.

6. The foot warming pad of claim 5, wherein said power circuit is provided with a controller and a power adapter.

7. The foot warming pad according to claim 6, wherein a temperature sensor is further disposed between the massage plate and the graphene heating layer, and the temperature sensor is electrically connected to the controller.

8. The foot warming pad according to claim 1, wherein a high temperature heat reflecting coating layer or/and a buffer pad is provided under the graphene heating layer.

9. The foot warming pad according to claim 1, wherein the bottom shell is provided with a reinforcing rib.

10. The foot warming pad according to claim 2, wherein the massage plate is provided with a convex pillar, and the ball is rotatably connected to the convex pillar.

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