CN111956000B - Automatic temperature control function is convenient for to assemble graphite alkene pad that generates heat for tatami - Google Patents

Abstract

The invention discloses a graphene heating pad with an automatic temperature control function and convenient assembly for tatami, and relates to the technical field of tatami pads. This tatami is with graphite alkene pad that generates heat that automatic temperature control function was convenient for assemble, it is convenient to assemble between the tatami pad body, and can splice from arbitrary angle, can accomodate unnecessary circuit when improving pleasing to the eye degree, and firm in connection is high moreover, avoids human activity to make the circuit joint between take place the separation, and the temperature of every tatami pad body all can be independently controlled by oneself for every tatami pad body temperature keeps at same temperature, is favorable to improving human comfort level.

Description

Automatic temperature control function is convenient for to assemble graphite alkene pad that generates heat for tatami

Technical Field

The invention relates to the technical field of tatami mats, in particular to a graphene heating mat with an automatic temperature control function for tatami and convenient assembly.

Background

The style, the handfeel and the size of the tatami mat are similar to those of a Chinese straw plaited single-person summer sleeping mat, but the tatami mat is never similar to the summer sleeping mat, and is only arranged on a bed in midsummer, but is not separated from a floor in four seasons, so that the tatami mat with the graphene heating function is arranged for improving the comfort in winter, and the tatami mat in winter can emit heat, so that the comfort of people in residence is improved.

The existing tatami pad with the graphene heating function cannot be assembled at will due to inconvenient wiring, so that the tatami pad is too dead to lay, the assembled tatami pad is often separated due to human body movement, and a circuit is broken when serious.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the graphene heating pad with the automatic temperature control function for tatami, which is convenient to assemble, and solves the problems that the conventional tatami pad with the graphene heating function cannot be assembled randomly due to inconvenient wiring, the tatami pad is too dead in laying, the assembled tatami pad is separated due to human body activities, and a circuit is broken when serious.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a tatami is with automatic temperature control function graphite alkene pad of being convenient for to assemble, fills up body, graphite alkene heating element and miniature varistor including tatami, tatami fills up the bottom of body all around and is fixed with aluminum alloy support grillage, and aluminum alloy support grillage's inner wall both sides are fixed with the settling grillage, graphite alkene heating element settles in settling grillage's inside, graphite alkene heating element's bottom left side is connected with first circuit of assembling, and graphite alkene heating element's bottom right side is connected with the second and assembles the circuit, the slide hole groove has been seted up to the surface both sides of aluminum alloy support grillage, first when assembling circuit one end runs through the slide hole groove be connected with assemble the plug, it is connected with the joint to assemble the surface both sides of plug, assemble the surface both sides of joint and set up the buckle groove, aluminum alloy support grillage's top lower surface is provided with circuit holder, graphite alkene heating element includes graphite alkene layer, carbon fiber heating wire, high temperature resistant plastic layer and banding aluminium sticky tape, and graphite alkene heater strip's inside, and the inside carbon fiber layer of graphite alkene heating element has the heat-resistant wire layer, the thermal-resistant wire layer has the thermal-insulated wire layer, and thermal-insulated adhesive tape of thermal-insulated wire layer, the thermal-insulated adhesive tape of thermal-insulated wire layer of thermal-insulated, the non-woven fabrics, thermal-insulated surface layer has the thermal-insulated wire layer of thermal conductor, thermal conductor layer is even, thermal conductor layer is connected with thermal conductor layer, thermal conductor layer.

Optionally, the outer mouth structure size of tatami pad body is greater than the outer mouth size of aluminum alloy support grillage, and the connected mode between aluminum alloy support grillage and the tatami pad body is the bonding, is integrated structure between aluminum alloy support grillage and the settling grillage moreover.

Optionally, the graphite alkene heating element forms half surrounding structure through arranging between grillage and the aluminum alloy support grillage, and graphite alkene heating element's upper surface and tatami pad body's lower surface laminating mutually.

Optionally, the first spliced line forms a communicating structure with the second spliced line through the spliced plug, the spliced joint, and the spliced plug forms a clamping structure through the clamping piece, the clamping groove and the spliced joint.

Optionally, the first circuit of assembling, second assemble and pass through slide hole groove and constitute sliding construction between the aluminum alloy support grillage, and first circuit of assembling, second assemble and pass through circuit holder and constitute half surrounding structure between the aluminum alloy support grillage.

Optionally, the circuit clamping pieces are uniformly distributed on the top and the lower surface of the aluminum alloy support plate frame in an equidistant mode, and the circuit clamping pieces and the aluminum alloy support plate frame are connected in a welding mode.

Optionally, the carbon fiber heating wire forms a full-surrounding structure through the graphene layer, and the carbon fiber heating wire is uniformly distributed inside the graphene layer in a U shape.

Optionally, the upper surface and the lower surface of high temperature resistant plastics skin of graphite alkene layer laminate mutually, and the graphite alkene layer passes through between high temperature resistant plastics skin, non-woven fabrics layer and the banding aluminium sticky tape and constitutes full surrounding structure.

Optionally, the temperature sensor is electrically connected with the carbon fiber heating wire and the miniature rheostat, and the temperature sensor is fixedly connected with the non-woven fabric layer.

The invention provides a graphene heating pad with an automatic temperature control function for tatami, which is convenient to assemble, and has the following beneficial effects:

1. This tatami is with graphite alkene pad that generates heat that automatic temperature control function was convenient for assemble, carbon fiber heating wire is "U" shape evenly distributed in inside the graphite alkene layer, be favorable to tatami pad body to be heated evenly, but play the guard action when transferring heat through high temperature resistant plastics skin, avoid steam, dust to enter into inside the graphite alkene layer, and strengthen connection firmness and sealed effect through banding aluminium tape, the non-woven fabrics in situ portion has laid the circuit and is connected with carbon fiber heating wire electricity moreover, make things convenient for carbon fiber heating wire circular telegram to generate heat, the non-woven fabrics layer plays the guard action to circuit and graphite alkene layer bottom simultaneously.

2. This tatami is with automatic temperature control function graphene pad that is convenient for assemble, tatami pad body is provided with a plurality of, and the tatami pad body between assemble be through assembling the plug with another tatami pad body assemble connect be connected can accomplish assemble, assemble the plug in addition, assemble and connect can slide at will through the slide slot thereby make between the tatami pad body can realize assembling with different angles, thereby improve the aesthetic degree after assembling when assembling between the convenience arbitrary angle, and after assembling unnecessary first assembly line, the second assembly line can block into the circuit holder inside, avoid the circuit is disordered.

3. This tatami is with graphite alkene pad that automatic temperature control function was convenient for assemble, assemble the plug and insert when assembling the joint inside, buckle spare is followed the protrusion in the buckle inslot to improve the fastness, this setting makes to assemble the plug and assemble and connect between also can not take place the separation when human activity, and first line, second are assembled the line and can be followed the inside break away from of line holder and stretch out and can prolong when human violent activity moreover, thereby avoid the line to receive to drag, prevent that the line from breaking.

4. This tatami is with automatic temperature control function graphene heating pad of being convenient for to assemble, graphene heating element settles in the inside of settling the grillage, can take out or put into graphene heating element through the mode of pull, make things convenient for later stage people to dismantle and mount, and be one-to-one correspondence between graphene heating element and the tatami pad body, and every graphene heating element corresponds a temperature sensor, miniature varistor, can monitor the temperature of corresponding carbon fiber heating wire through temperature sensor, and change the resistance size in real time automatically through miniature varistor, thereby control carbon fiber heating wire's temperature, make the tatami pad body temperature that corresponds moderate all the time, and every tatami pad body is so, thereby be favorable to improving human comfort level.

5. This tatami is with graphite alkene pad that generates heat that automatic temperature control function was convenient for assemble, it is convenient to assemble between the tatami pad body, and can splice from arbitrary angle, can accomodate unnecessary circuit when improving pleasing to the eye degree, moreover, the connection firmness is high, avoid human activity to make the circuit joint between take place the separation, simultaneously if the human violent activity then circuit atress stretches out, avoid the circuit to take place to fracture, and the temperature of every tatami pad body all can be independently self-control, make every tatami pad body temperature keep at same temperature, be favorable to improving human comfort level.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1A according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1B according to the present invention;

FIG. 4 is a schematic diagram of the overall structure of a graphene heating component according to the present invention;

FIG. 5 is a schematic view showing the bottom structure of the nonwoven fabric layer of the present invention;

FIG. 6 is a schematic side view of an aluminum alloy support panel rack according to the present invention;

fig. 7 is a schematic view showing the bottom view structure of the aluminum alloy support plate frame of the present invention.

In the figure: 1. tatami pad body; 2. aluminum alloy supporting plate frame; 3. placing a plate frame; 4. a graphene heating component; 5. a first spliced line; 6. a second spliced line; 7. a slide hole groove; 8. assembling a plug; 9. assembling the joint; 10. a clip; 11. a buckle groove; 12. a line clamp; 13. a graphene layer; 14. a carbon fiber heating wire; 15. high temperature resistant plastic skin; 16. a non-woven fabric layer; 17. edge sealing aluminum adhesive tape; 18. a temperature sensor; 19. a miniature rheostat.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides a tatami is with automatic temperature control function graphite alkene pad that is convenient for assemble, including tatami pad body 1, graphite alkene heating element 4 and miniature varistor 19, tatami pad body 1's bottom is fixed with aluminum alloy support grillage 2 all around, and aluminum alloy support grillage 2's inner wall both sides are fixed with and settle grillage 3, tatami pad body 1's outer mouth structure size is greater than aluminum alloy support grillage 2's outer mouth size, and the connected mode between aluminum alloy support grillage 2 and the tatami pad body 1 is the bonding, and aluminum alloy support grillage 2 and settle grillage 3 between be integrated structure, aluminum alloy support grillage 2 can raise tatami pad body 1, avoid ground moisture to get into, and tatami pad body 1's outer mouth structure size is greater than aluminum alloy support grillage 2's outer mouth size makes tatami pad body 1 can laminate each other, improve the aesthetic measure.

The graphene heating component 4 is arranged in the arranging plate frame 3, a semi-surrounding structure is formed between the graphene heating component 4 and the aluminum alloy supporting plate frame 2 through the arranging plate frame 3, the upper surface of the graphene heating component 4 is attached to the lower surface of the tatami cushion body 1, the graphene heating component 4 is arranged in the arranging plate frame 3, and can be taken out or put in through a drawing mode, so that later-stage people can conveniently assemble and disassemble the graphene heating component 4, and the upper surface of the graphene heating component 4 is attached to the lower surface of the tatami cushion body 1, so that heat is conducted into the tatami cushion body 1 at the fastest speed, and the tatami cushion body 1 can generate heat rapidly;

The left side of the bottom of the graphene heating component 4 is connected with a first assembling line 5, the right side of the bottom of the graphene heating component 4 is connected with a second assembling line 6, two sides of the outer surface of the aluminum alloy support plate frame 2 are provided with sliding hole grooves 7, one end of the first assembling line 5 penetrates through the sliding hole grooves 7 and is simultaneously connected with an assembling plug 8, one end of the second assembling line 6 penetrates through the sliding hole grooves 7 and is simultaneously connected with an assembling joint 9, two sides of the surface of the assembling plug 8 are provided with clamping pieces 10, two sides of the surface of the assembling joint 9 are provided with clamping grooves 11, the lower surface of the top of the aluminum alloy support plate frame 2 is provided with a line clamping piece 12, a communicating structure is formed between the first assembling line 5 and the second assembling line 6 through the assembling plug 8, the assembling joint 9 and the assembling plug 8 form a clamping structure through the clamping pieces 10 and the clamping grooves 11 and the assembling joint 9, the first assembling line 5 and the second assembling line 6 form a sliding structure with the aluminum alloy supporting plate frame 2 through the sliding hole groove 7, the first assembling line 5 and the second assembling line 6 form a semi-enclosed structure with the aluminum alloy supporting plate frame 2 through the line clamping pieces 12, the line clamping pieces 12 are uniformly distributed on the lower surface of the top of the aluminum alloy supporting plate frame 2 in an equidistant mode, the connection mode between the line clamping pieces 12 and the aluminum alloy supporting plate frame 2 is welding, the first assembling line 5 and the second assembling line 6 respectively connect with the assembling plug 8 and the assembling connector 9 while penetrating through the sliding hole groove 7, the tatami cushion bodies 1 are provided with a plurality of pieces, the assembling between the tatami cushion bodies 1 is connected with the assembling connector 9 of the other tatami cushion body 1 through the assembling plug 8, the assembly plug 8 is inserted into the assembly joint 9 to complete the assembly between the two tatami cushion bodies 1, the assembly plug 8 and the assembly joint 9 can slide randomly through the sliding hole grooves 7, so that the tatami cushion bodies 1 can be assembled at different angles, the assembled beautiful degree is improved while the assembly is convenient at any angle, the assembled first assembly line 5 and the assembled second assembly line 6 can be clamped into the line clamping piece 12, the disorder of the lines is avoided, the buckling piece 10 protrudes from the buckling groove 11 when the assembly plug 8 is inserted into the assembly joint 9, the firmness is improved, the assembly plug 8 and the assembly joint 9 can not be separated when a human body moves, the first assembly line 5 and the second assembly line 6 can be separated from the interior of the line clamping piece 12 and extend out, the lines are prevented from being pulled, the lines are prevented from being broken, and the assembly plug 8 and the assembly joint 9 can be separated only by pressing the buckling piece 10 to retract into the buckling groove 11 in later, so that the assembly plug 8 and the assembly joint 9 can be conveniently disassembled later;

The graphene heating component 4 comprises a graphene layer 13, a carbon fiber heating wire 14, a high-temperature-resistant plastic skin 15, a non-woven fabric layer 16 and an edge sealing aluminum adhesive tape 17, wherein the carbon fiber heating wire 14 is embedded in the graphene layer 13, the high-temperature-resistant plastic skin 15 is arranged on the upper surface of the carbon fiber heating wire 14, the non-woven fabric layer 16 is connected with the lower surface of the graphene layer 13, the edge of the graphene layer 13, the non-woven fabric layer 16 and the edge of the high-temperature-resistant plastic skin 15 are uniformly wrapped with the edge sealing aluminum adhesive tape 17, the surface of the carbon fiber heating wire 14 is connected with a temperature sensor 18, the surface of the temperature sensor 18 is fixedly connected with the lower surface of the non-woven fabric layer 16, the microvaristors 19 are connected to the lower surface of the non-woven fabric layer 16, the carbon fiber heating wire 14 forms a full-surrounding structure through the graphene layer 13, the carbon fiber heating wire 14 is uniformly distributed in the interior of the graphene layer 13 in a U shape, the upper surface of the graphene layer 13 is attached to the lower surface of the high temperature resistant plastic skin 15, the graphene layer 13 forms a full-surrounding structure through the high temperature resistant plastic skin 15, the non-woven fabric layer 16 and the edge sealing aluminum adhesive tape 17, the temperature sensor 18 is electrically connected with the carbon fiber heating wire 14 and the micro varistor 19, the temperature sensor 18 is fixedly connected with the non-woven fabric layer 16, the graphene heating components 4 are in one-to-one correspondence with the tatami cushion bodies 1, each graphene heating component 4 corresponds to one temperature sensor 18 and the micro varistor 19, the temperature of the corresponding carbon fiber heating wire 14 can be monitored through the temperature sensor 18, the resistance is automatically changed in real time through the micro varistor 19, the temperature of the carbon fiber heating wire 14 is controlled, the temperature of the corresponding tatami cushion bodies 1 is always moderate, each tatami cushion body 1 is so as to be beneficial to improving the comfort level of human body, and carbon fiber heating wire 14 is "U" shape evenly distributed in inside graphene layer 13, be favorable to tatami pad body 1 to be heated evenly, but play the guard action in the time of and prevent steam, dust from entering into graphene layer 13 inside through high temperature resistant plastics skin 15 heat transfer, and strengthen connection firmness and sealed effect through banding aluminium tape 17, the circuit has been laid to non-woven fabrics layer 16 inside moreover and is connected with carbon fiber heating wire 14 electricity, make things convenient for carbon fiber heating wire 14 to energize and generate heat, non-woven fabrics layer 16 plays the guard action to circuit and graphene layer 13 bottom simultaneously.

In combination, the automatic temperature control function is used for the tatami to facilitate the assembly of the graphene heating pad, when the automatic temperature control function is used, firstly, the graphene heating assembly 4 is inserted into the installation plate frame 3 to be clamped and fixed, the first assembly line 5 and the second assembly line 6 penetrate through the sliding hole grooves 7 on the two side surfaces of the aluminum alloy support plate frame 2, then the tatami pad bodies 1 are assembled, the assembly can be completed through the assembly plug 8 being connected with the assembly joint 9 of the other tatami pad body 1, namely, the assembly plug 8 is inserted into the assembly joint 9 to complete the assembly between the two tatami pad bodies 1, and the assembly plug 8 and the assembly joint 9 can slide randomly through the sliding hole grooves 7 to enable the tatami pad bodies 1 to be assembled at different angles, so that the assembled beautiful degree is improved while the assembly between any angles is facilitated, the first spliced line 5 and the second spliced line 6 which are redundant after splicing can be clamped into the line clamping piece 12 to avoid disorder of the lines, when the spliced plug 8 is inserted into the spliced joint 9, the buckling piece 10 protrudes from the buckling groove 11 to improve the firmness, the spliced plug 8 and the spliced joint 9 can not be separated when a human body moves, when the human body moves violently, the first spliced line 5 and the second spliced line 6 can be separated from the inside of the line clamping piece 12 and extend out, so that the lines are prevented from being pulled, the lines are prevented from being broken, the spliced plug 8 and the spliced joint 9 can be separated only by pressing the buckling piece 10 to retract into the buckling groove 11 at the later stage, the later stage of disassembly is convenient, then the carbon fiber heating wire 14 is communicated with an external power source through a circuit inside the non-woven fabric layer 16 to start heating, the heat is conducted through the graphene layer 13 to enable the heat to be uniformly spread to the tatami pad body 1, and the tatami pad body 1 is heated uniformly, but play the guard action through high temperature resistant plastics skin 15 heat transfer, avoid steam, dust to enter into the graphene layer 13 inside, and strengthen connection firmness and sealing effect through banding aluminium tape 17, moreover, the circuit is laid to the non-woven fabrics layer 16 inside and is connected with carbon fiber heating wire 14 electricity, make things convenient for carbon fiber heating wire 14 to electrify and generate heat, the non-woven fabrics layer 16 plays the guard action to circuit and graphene layer 13 bottom simultaneously, finally, be one-to-one correspondence between the graphene heating element 4 and the tatami pad body 1, and every graphene heating element 4 corresponds a temperature sensor 18, miniature varistor 19, can monitor the temperature of corresponding carbon fiber heating wire 14 through temperature sensor 18, and through miniature varistor 19 automatic change resistance size in real time, thereby control carbon fiber heating wire 14's temperature, make corresponding tatami pad body 1 temperature moderate all so, and every tatami pad body 1 is so that the improvement of human comfort level is favorable.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed within the scope of the present invention.

Claims (8)

1. The utility model provides a mattress that generates heat with graphite alkene that automatic temperature control function is convenient for assemble of tatami, fills up body (1) and graphite alkene heating element (4), its characterized in that including tatami: the bottom of tatami pad body (1) is connected with aluminum alloy supporting plate frame (2), and the inner wall top of aluminum alloy supporting plate frame (2) is fixed with settles grillage (3), graphene heating element (4) settle in the inside of settled grillage (3), graphene heating element (4) are including graphite alkene layer (13), carbon fiber heating wire (14), high temperature resistant plastic skin (15), non-woven fabrics layer (16) and banding aluminium sticky tape (17), and the inside embedding of graphite alkene layer (13) has carbon fiber heating wire (14), the upper surface of carbon fiber heating wire (14) is provided with high temperature resistant plastic skin (15), the lower surface of graphite alkene layer (13) is connected with non-woven fabrics layer (16), and the even parcel in edge of graphite alkene layer (16) and high temperature resistant plastic skin (15) has banding aluminium sticky tape (17), the bottom left side of graphite alkene heating element (4) is connected with first assembly line (5), and the bottom right side of graphite alkene heating element (4) is connected with second hole (6), the smooth groove (8) of the outer surface of assembling of sliding tray (7) are assembled to one side (8), the utility model discloses a solar energy collector is characterized in that a second spliced circuit (6) is connected with spliced connector (9) when one end penetrates through a slide hole groove (7), clamping pieces (10) are arranged on two sides of the surface of spliced plug (8), clamping grooves (11) are formed in two sides of the surface of spliced connector (9), circuit clamping pieces (12) are arranged on the lower surface of the top of an aluminum alloy support plate frame (2), a temperature sensor (18) is connected to the surface of a carbon fiber heating wire (14), the surface of the temperature sensor (18) is fixedly connected with the lower surface of a non-woven fabric layer (16), a miniature rheostat (19) is connected to the lower surface of the non-woven fabric layer (16), the outer opening structure size of a tatami cushion body (1) is larger than that of an aluminum alloy support plate frame (2), the connection mode between the aluminum alloy support plate frame (2) and the tatami cushion body (1) is bonding, and the aluminum alloy support plate frame (2) and the arrangement plate frame (3) are of an integrated structure.

2. The automatic temperature control function graphene heating pad for tatami convenient to assemble according to claim 1, wherein: the graphene heating component (4) forms a semi-surrounding structure between the placement plate frame (3) and the aluminum alloy support plate frame (2), and the upper surface of the graphene heating component (4) is attached to the lower surface of the tatami cushion body (1).

3. The automatic temperature control function graphene heating pad for tatami convenient to assemble according to claim 2, wherein: the first spliced circuit (5) forms a communicated structure through the spliced plug (8), the spliced connector (9) and the second spliced circuit (6), and the spliced plug (8) forms a clamping structure through the clamping piece (10), the clamping groove (11) and the spliced connector (9).

4. The automatic temperature control function graphene heating pad for tatami convenient to assemble according to claim 2, wherein: the first spliced circuit (5) and the second spliced circuit (6) form a sliding structure with the aluminum alloy support plate frame (2) through the sliding hole grooves (7), and the first spliced circuit (5) and the second spliced circuit (6) form a semi-surrounding structure with the aluminum alloy support plate frame (2) through the circuit clamping pieces (12).

5. The automatic temperature control function graphene heating pad for tatami convenient to assemble according to claim 2, wherein: the circuit clamping pieces (12) are uniformly distributed on the top and the lower surface of the aluminum alloy supporting plate frame (2) in an equidistant mode, and the circuit clamping pieces (12) and the aluminum alloy supporting plate frame (2) are connected in a welding mode.

6. The automatic temperature control function graphene heating pad for tatami convenient to assemble according to claim 1, wherein: the carbon fiber heating wire (14) forms a full-surrounding structure through the graphene layer (13), and the carbon fiber heating wire (14) is uniformly distributed in the graphene layer (13) in a U shape.

7. The automatic temperature control function graphene heating pad for tatami convenient to assemble according to claim 1, wherein: the upper surface of graphene layer (13) is laminated with the lower surface of high temperature resistant plastic skin (15), and graphene layer (13) forms full surrounding structure through between high temperature resistant plastic skin (15), non-woven fabrics layer (16) and banding aluminium sticky tape (17).

8. The automatic temperature control function graphene heating pad for tatami convenient to assemble according to claim 2, wherein: the temperature sensor (18) is electrically connected with the carbon fiber heating wire (14) and the miniature rheostat (19), and the temperature sensor (18) is fixedly connected with the non-woven fabric layer (16).