CN212591243U - Graphite alkene pad that generates heat that tatami is convenient for assemble with automatic temperature control function - Google Patents

Abstract

The utility model discloses a graphite alkene pad that generates heat that tatami is convenient for assemble with automatic temperature control function relates to tatami pad technical field, specifically is including tatami pad body, graphite alkene heating element and miniature rheostat, the bottom of tatami pad body is fixed with aluminum alloy supporting grillage all around, graphite alkene heating element settles in the inside of settling the grillage, graphite alkene heating element's bottom left side is connected with the first circuit of assembling. This graphite alkene that automatic temperature control function is convenient for assemble for tatami generates heat and fills up, assemble the convenience between the tatami pad body, and can splice from arbitrary angle, can accomodate unnecessary circuit when improving pleasing to the eye degree, connect the firmness height moreover, avoid human activity to make and take place the separation between the circuit joint, the temperature of every tatami pad body all can be controlled by oneself alone for every tatami pad body temperature keeps at same temperature, is favorable to improving human comfort level.

Description

Graphite alkene pad that generates heat that tatami is convenient for assemble with automatic temperature control function

Technical Field

The utility model relates to a tatami pad technical field specifically is a graphite alkene pad that generates heat that tatami is convenient for assemble with automatic temperature control function.

Background

The style, hand feeling and size of the tatami mat are almost the same as those of a Chinese straw plaited single summer mat, but the tatami mat is almost the same as a summer mat and only appears on a bed in midsummer, but is not separated from a floor in all seasons, and in order to improve the comfort level in winter, the tatami mat with the graphene heating function appears, so that the tatami mat in winter can emit heat, and the comfort level of people in living is improved.

The tatami pad that current has graphite alkene function of generating heat leads to unable assembling at will owing to walk the inconvenience of line, leads to laying of tatami pad too rigid, and tatami pad after assembling moreover can often discover the separation owing to human activity, can lead to the circuit to split when serious.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a graphite alkene that tatami was convenient for assemble with automatic temperature control function generates heat and fills up has solved the tatami pad that provides current have graphite alkene function of generating heat in the above-mentioned background and has leaded to unable assembling at will owing to walk the inconvenience of line, leads to laying too the slabby of tatami pad, and the tatami pad after assembling moreover can discover the separation owing to human activity often, can lead to the cracked problem of circuit when serious.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a graphene heating pad with an automatic temperature control function and convenient assembly comprises a tatami pad body, a graphene heating component and a micro rheostat, wherein an aluminum alloy supporting plate frame is fixed on the periphery of the bottom of the tatami pad body, arranging plate frames are fixed on two sides of the inner wall of the aluminum alloy supporting plate frame, the graphene heating component is arranged in the arranging plate frames, a first assembling line is connected to the left side of the bottom of the graphene heating component, a second assembling line is connected to the right side of the bottom of the graphene heating component, sliding hole grooves are formed in two sides of the outer surface of the aluminum alloy supporting plate frame, one end of the first assembling line penetrates through the sliding hole grooves and is connected with an assembling plug, one end of the second assembling line penetrates through the sliding hole grooves and is connected with an assembling joint, clamping pieces are arranged on two sides of the surface of the assembling plug, and grooves are formed in two sides of the surface of the assembling joint in, the utility model discloses an aluminum alloy support grillage, including graphite alkene layer, carbon fiber heating wire, high temperature resistant plastic skin, non-woven fabrics layer and banding aluminium adhesive tape, the top lower surface of aluminum alloy support grillage is provided with the circuit holder, graphite alkene heating element includes graphite alkene layer, carbon fiber heating wire, high temperature resistant plastic skin, non-woven fabrics layer and banding aluminium adhesive tape, and the inside embedding of graphite alkene layer has the carbon fiber heating wire, the upper surface of carbon fiber heating wire is provided with high temperature resistant plastic skin, graphite alkene layer's lower surface is connected with the non-woven fabrics layer, and graphite alkene layer, non-woven fabrics layer and the even parcel in edge of high temperature resistant plastic skin have a banding aluminium adhesive tape, the surface connection of carbon fiber heating wire.

Optionally, the outer opening structure size of tatami pad body is greater than the outer opening size of aluminum alloy supporting plate frame, and the connected mode between aluminum alloy supporting plate frame and the tatami pad body is for bonding, and aluminum alloy supporting plate frame and arrangement are the integral structure between the grillage moreover.

Optionally, the graphene heating assembly forms a semi-surrounding structure through the arrangement of the plate frame and the aluminum alloy supporting plate frame, and the upper surface of the graphene heating assembly is attached to the lower surface of the tatami pad body.

Optionally, the first assembled line forms a communicating structure with the second assembled line by assembling the plug, and the assembled plug forms a clamping structure with the assembled joint by the clamping piece and the clamping groove.

Optionally, first circuit, the second of assembling is assembled the circuit and is passed through and constitute sliding structure between slide hole groove and the aluminum alloy supporting plate frame, and first circuit, the second of assembling is assembled the circuit and is passed through and constitute half surrounding structure between circuit holder and the aluminum alloy supporting plate frame.

Optionally, the circuit clamping piece is equidistance form evenly distributed in the top lower surface of aluminum alloy supporting plate frame, and the connected mode is the welding between circuit clamping piece and the aluminum alloy supporting plate frame.

Optionally, the carbon fiber heating wire forms a fully-enclosed 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 of the graphene layer is attached to the lower surface of the high-temperature-resistant plastic skin, and the graphene layer forms a full-enclosure structure through the high-temperature-resistant plastic skin, the non-woven fabric layer and the edge-sealed aluminum tape.

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 utility model provides a graphite alkene that tatami was convenient for assemble with automatic temperature control function pad that generates heat possesses following beneficial effect:

1. this graphite alkene that automatic temperature control function was convenient for to assemble for tatami generates heat and fills up, carbon fiber heating wire is "U" shape evenly distributed inside graphite alkene layer, it is even to be favorable to tatami pad body to be heated, and can transmit thermal guard action in the time through high temperature resistant plastics skin, avoid steam, the dust enters into inside graphite alkene layer, and strengthen joint firmness and sealed effect through banding aluminium adhesive tape, and the inside circuit of having laid of non-woven fabrics layer is connected with carbon fiber heating wire electricity, make things convenient for carbon fiber heating wire circular telegram to generate heat, non-woven fabrics layer plays guard action to circuit and graphite alkene layer bottom simultaneously.

2. This graphite alkene that automatic temperature control function was convenient for to assemble for tatami generates heat and fills up, tatami pad body is provided with a plurality of, and assemble between the tatami pad body and connect through assembling the plug and another tatami pad body assemble to be connected and can accomplish and assemble, assemble the plug in addition, thereby it can slide at will through the slide groove to assemble the joint and make and realize assembling with different angles between the tatami pad body, thereby improve the pleasing to the eye degree after assembling when assembling between convenient arbitrary angle, and assemble the unnecessary first circuit of assembling after, the circuit can be gone into inside the circuit holder of card to the second, avoid the circuit to be mixed and disorderly.

3. This graphite alkene that tatami was convenient for assemble with automatic temperature control function generates heat and fills up, it inserts to assemble the plug and connects when inside, buckle spare is protruding from the buckle inslot to improve the fastness, this setting makes to assemble the plug when human activity and assemble and also can not take place the separation between the joint, first when human violent activity in addition assemble the circuit, the second is assembled the circuit and can be broken away from and stretch out and can prolong from circuit holder inside, thereby avoid the circuit to receive to pull, prevent that the circuit from appearing splitting.

4. This graphite alkene that automatic temperature control function is convenient for assemble for tatami generates heat and fills up, graphite alkene heating element settles in the inside of settling the grillage, mode through the pull can take out or put into graphite alkene heating element, make things convenient for later stage people to carry out the dismouting, and be a one-to-one correspondence between graphite alkene heating element and the tatami pad body, and every graphite alkene heating element corresponds a temperature sensor, miniature rheostat, can monitor the temperature that corresponds carbon fiber heating wire through temperature sensor, and through miniature rheostat real-time automatic change resistance size, thereby control the temperature of carbon fiber heating wire, make the tatami pad body temperature that corresponds all the time moderate, and every tatami pad body is all so, thereby be favorable to improving human comfort level.

5. This graphite alkene that automatic temperature control function is convenient for assemble for tatami generates heat and fills up, 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, avoid human activity to make and take place the separation between the circuit joint, if human violent activity then the circuit atress stretches out simultaneously, avoid the circuit to break off, and the temperature of every tatami pad body all can be controlled by oneself alone, make every tatami pad body temperature keep at same temperature, be favorable to improving human comfort level.

Drawings

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

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

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

fig. 4 is a schematic view of the overall structure of the graphene heating assembly of the present invention;

fig. 5 is a schematic bottom view of the nonwoven fabric layer of the present invention;

FIG. 6 is a schematic view of the side-view appearance structure of the aluminum alloy supporting plate frame of the present invention;

fig. 7 is the utility model discloses aluminum alloy supporting plate frame is faced upward the structure sketch map.

In the figure: 1. a tatami mat body; 2. an aluminum alloy supporting plate frame; 3. arranging a plate frame; 4. a graphene heating component; 5. a first assembly line; 6. a second assembly line; 7. a slide hole groove; 8. assembling the plug; 9. assembling the joints; 10. a fastener; 11. a fastening groove; 12. a circuit clamping member; 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 tape; 18. a temperature sensor; 19. a miniature rheostat.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present 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 is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning 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 7, the present invention provides a technical solution: a conveniently assembled graphene heating pad with an automatic temperature control function for tatami comprises a tatami pad body 1, a graphene heating component 4 and a micro rheostat 19, wherein an aluminum alloy supporting plate frame 2 is fixed around the bottom of the tatami pad body 1, and the two sides of the inner wall of the aluminum alloy supporting plate frame 2 are fixed with the placing plate frames 3, the size of the outer opening structure of the tatami mat body 1 is larger than that of the aluminum alloy supporting plate frame 2, the aluminum alloy supporting plate frame 2 is connected with the tatami mat body 1 in an adhesion way, and the aluminum alloy supporting plate frame 2 and the placing plate frame 3 are integrated, the aluminum alloy supporting plate frame 2 can lift the tatami mat body 1 to avoid the ground moisture from entering, the outer opening structure size of the tatami mat body 1 is larger than that of the aluminum alloy supporting plate frame 2, so that the tatami mat body 1 can be mutually attached, and the attractiveness is improved;

the graphene heating assembly 4 is arranged inside the arrangement plate frame 3, the graphene heating assembly 4 forms a semi-surrounding structure through the arrangement plate frame 3 and the aluminum alloy support plate frame 2, the upper surface of the graphene heating assembly 4 is attached to the lower surface of the tatami pad body 1, the graphene heating assembly 4 is arranged inside the arrangement plate frame 3, the graphene heating assembly 4 can be taken out or put in through a drawing mode, and is convenient for people in the later period to disassemble and assemble, the upper surface of the graphene heating assembly 4 is attached to the lower surface of the tatami pad body 1, so that heat is conducted to the interior of the tatami pad body 1 at the fastest speed, and the tatami pad body 1 can quickly generate heat;

the bottom left side of the graphene heating component 4 is connected with a first assembly line 5, the bottom right side of the graphene heating component 4 is connected with a second assembly line 6, slide hole grooves 7 are formed in two sides of the outer surface of the aluminum alloy supporting plate frame 2, one end of the first assembly line 5 penetrates through the slide hole grooves 7 and is connected with an assembly plug 8, one end of the second assembly line 6 penetrates through the slide hole grooves 7 and is connected with an assembly connector 9, two sides of the surface of the assembly plug 8 are provided with clamping pieces 10, two sides of the surface of the assembly connector 9 are provided with clamping grooves 11, the lower surface of the top of the aluminum alloy supporting plate frame 2 is provided with a line clamping piece 12, the first assembly line 5 is formed into a communicated structure by the assembly plug 8, the assembly connector 9 and the second assembly line 6, the assembly plug 8 forms a clamping structure by the clamping pieces 10, the clamping grooves 11 and the assembly connector 9, and the, The second assembling line 6 forms a sliding structure with the aluminum alloy supporting plate frame 2 through a sliding hole groove 7, the first assembling line 5 and the second assembling line 6 form a semi-surrounding structure with the aluminum alloy supporting plate frame 2 through a line clamping piece 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 equidistance manner, the line clamping pieces 12 are welded with the aluminum alloy supporting plate frame 2, the first assembling line 5 and the second assembling line 6 penetrate through the sliding hole groove 7 and are respectively connected with an assembling plug 8 and an assembling joint 9, the tatami pad bodies 1 are provided with a plurality of tatami pad bodies 1, the assembling between the tatami pad bodies 1 is completed by connecting the assembling plug 8 with the assembling joint 9 of another tatami pad body 1, namely the assembling plug 8 is inserted into the assembling joint 9 to complete the assembling between the two tatami pad bodies 1, and assemble the plug 8, assemble and connect 9 and can slide at will through the slide-hole slot 7 thus make it can be assembled with different angles between the tatami mat body 1, thus improve the aesthetic measure after assembling while assembling between the convenient arbitrary angle, and assemble the unnecessary first and assemble the circuit 5, the second and assemble the circuit 6 and can be blocked into the inside of the circuit holder 12 after assembling, avoid the circuit to be mixed and disorderly, and assemble the plug 8 and insert and assemble the joint 9 inside, the fastener 10 is protruded from the fastener slot 11, thus improve the fastness, should set up and make and assemble the plug 8 and assemble and can not separate while the human body moves, and the first assembles the circuit 5, the second and assembles the circuit 6 and can break away from and stretch out and lengthen from the inside of the circuit holder 12 when the human body moves vigorously, thus avoid the circuit to receive and pull, prevent the circuit from breaking, and only need to press the fastener 10 to make it retract into assembling the inside of fastener slot 11 to make it can make the plug 8, assemble plug 8, The splicing joints 9 are separated, so that later-period disassembly is facilitated;

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-sealed aluminum 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 to the lower surface of the graphene layer 13, the edge-sealed aluminum tape 17 is uniformly wrapped on the edges of the graphene layer 13, the non-woven fabric layer 16 and the high-temperature-resistant plastic skin 15, 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, a miniature rheostat 19 is connected to the lower surface of the non-woven fabric layer 16, the carbon fiber heating wire 14 forms a full-enclosure structure through the graphene layer 13, the carbon fiber heating wire 14, 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-sealed aluminum adhesive tape 17, the temperature sensors 18 are electrically connected with the carbon fiber heating wires 14 and the micro rheostat 19, the temperature sensors 18 are fixedly connected with the non-woven fabric layer 16, the graphene heating assemblies 4 correspond to the tatami mat bodies 1 in a one-to-one manner, each graphene heating assembly 4 corresponds to one temperature sensor 18 and one micro rheostat 19, the temperature of the corresponding carbon fiber heating wire 14 can be monitored through the temperature sensors 18, the resistance is automatically changed through the micro rheostat 19 in real time, the temperature of the carbon fiber heating wires 14 is controlled, the corresponding tatami mat bodies 1 are enabled to be moderate all the time, each tatami mat body 1 is enabled to be the same, the comfort degree of a human body is improved, and the carbon fiber heating wires 14 are uniformly distributed in the graphene layer 13 in a U shape, be favorable to tatami pad body 1 to be heated evenly, and can transmit thermal when playing the guard action through high temperature resistant plastic skin 15, avoid steam, the dust enters into graphite alkene layer 13 inside, and strengthen joint firmness and sealed effect through banding aluminium adhesive tape 17, 16 inside circuits of having laid of non-woven fabrics layer in addition and be connected with 14 electricity of carbon fiber heating wire, make things convenient for 14 circular telegram of carbon fiber heating wire to generate heat, non-woven fabrics layer 16 plays the guard action to circuit and graphite alkene layer 13 bottom simultaneously.

To sum up, this graphite alkene heating pad convenient to assemble with automatic temperature control function for tatami, during the use, at first graphite alkene heating element 4 inserts the inside of settling grillage 3 and carries out the centre gripping fixed, and make first line 5 of assembling, second assemble line 6 and pass the slide-hole groove 7 on aluminum alloy support grillage 2 both sides surface, then assemble between tatami pad body 1, be connected through assembling joint 9 of assembling plug 8 with another tatami pad body 1 and can accomplish assembling, it just can accomplish assembling between two tatami pad bodies 1 to assemble to insert inside assembling joint 9 to assemble plug 8, and assemble plug 8, assemble joint 9 and can slide at will through slide-hole groove 7 and make and realize assembling with different angles between tatami pad body 1, thereby improve the pleasing to the eye degree after assembling when convenient assembling between arbitrary angle, and the unnecessary first line 5 of assembling after assembling, The second assembling circuit 6 can be clamped into the circuit clamping piece 12 to avoid the messy circuit, when the assembling plug 8 is inserted into the assembling joint 9, the buckling piece 10 protrudes from the buckling groove 11, thereby improving the firmness, the arrangement ensures that the assembling plug 8 and the assembling joint 9 can not be separated when the human body moves, and when the human body moves violently, the first assembling circuit 5 and the second assembling circuit 6 can be separated from the circuit clamping piece 12 and extend out to be prolonged, thereby avoiding the circuit from being pulled, preventing the circuit from being broken, and only pressing the buckling piece 10 to retract into the buckling groove 11 to separate the assembling plug 8 and the assembling joint 9, facilitating the later-stage disassembly, then the carbon fiber heating wire 14 is communicated with an external power supply through the circuit inside the non-woven fabric layer 16 to start heating, and the heat is uniformly dispersed into the tatami pad body 1 through the graphene layer 13 for heat conduction, the tatami mat body 1 is beneficial to uniform heating, the high-temperature-resistant plastic skin 15 can transfer heat and play a role in protection, water vapor and dust are prevented from entering the graphene layer 13, the connection firmness and the sealing effect are enhanced through the edge sealing aluminum adhesive tape 17, a circuit is laid in the non-woven fabric layer 16 and is electrically connected with the carbon fiber heating wire 14, the carbon fiber heating wire 14 is convenient to be electrified and heated, meanwhile, the non-woven fabric layer 16 plays a role in protecting the circuit and the bottom of the graphene layer 13, finally, the graphene heating assemblies 4 correspond to the tatami mat body 1 in a one-to-one mode, each graphene heating assembly 4 corresponds to one temperature sensor 18 and one micro rheostat 19, the temperature of the corresponding carbon fiber heating wire 14 can be monitored through the temperature sensors 18, the resistance size is automatically changed in real time through the micro rheostats 19, and the temperature of the carbon fiber heating wire 14 is controlled, make the 1 temperature of tatami pad body that corresponds moderate all the time, and every tatami pad body 1 is all so to be favorable to improving human comfort level.

Above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

Claims (10)

1. The utility model provides a graphite alkene pad that generates heat convenient to assemble of automatic temperature control function for tatami, includes tatami pad body (1), graphite alkene heating element (4) and miniature rheostat (19), its characterized in that: the bottom of the tatami mat body (1) is connected with an aluminum alloy supporting plate frame (2), and the top of the inner wall of the aluminum alloy supporting plate frame (2) is fixed with a placing plate frame (3), the graphene heating assembly (4) is arranged inside the placing plate frame (3), the graphene heating assembly (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), a carbon fiber heating wire (14) is embedded in the graphene layer (13), a high-temperature resistant plastic skin (15) is arranged on the upper surface of the carbon fiber heating wire (14), the lower surface of the graphene layer (13) is connected with a non-woven fabric layer (16), and edge sealing aluminum adhesive tapes (17) are uniformly wrapped at the edges of the graphene layer (13), the non-woven fabric layer (16) and the high-temperature resistant plastic skin (15).

2. The utility model provides a graphite alkene that tatami was convenient for assemble with automatic temperature control function generates heat and fills up according to claim 1 which characterized in that: the graphene heating assembly is characterized in that a first assembling circuit (5) is connected to the left side of the bottom of the graphene heating assembly (4), a second assembling circuit (6) is connected to the right side of the bottom of the graphene heating assembly (4), slide hole grooves (7) are formed in two sides of the outer surface of the aluminum alloy supporting plate frame (2), an assembling plug (8) is connected to one end of the first assembling circuit (5) while penetrating through the slide hole grooves (7), an assembling joint (9) is connected to one end of the second assembling circuit (6) while penetrating through the slide hole grooves (7), clamping parts (10) are arranged on two sides of the surface of the assembling plug (8), clamping grooves (11) are formed in two sides of the surface of the assembling joint (9), a circuit clamping part (12) is arranged on the lower surface of the top of the aluminum alloy supporting plate frame (2), and a temperature sensor (18) is connected to the surface of, the surface of the temperature sensor (18) is fixedly connected with the lower surface of the non-woven fabric layer (16), and the micro rheostat (19) is connected with the lower surface of the non-woven fabric layer (16).

3. The utility model provides a graphite alkene that tatami was convenient for assemble with automatic temperature control function generates heat and fills up according to claim 1 which characterized in that: the outer opening structural dimension of tatami mat body (1) is greater than the outer opening dimension of aluminum alloy support grillage (2), and the connected mode between aluminum alloy support grillage (2) and tatami mat body (1) is for bonding, is integral structure moreover between aluminum alloy support grillage (2) and the arrangement grillage (3).

4. The utility model provides a graphite alkene that tatami was convenient for assemble with automatic temperature control function generates heat and fills up according to claim 1 which characterized in that: graphite alkene heating element (4) constitute half surrounding structure through settling between grillage (3) and aluminum alloy support grillage (2), and the upper surface of graphite alkene heating element (4) and the lower surface of tatami pad body (1) laminate mutually.

5. The utility model provides a graphite alkene that tatami was convenient for assemble with automatic temperature control function generates heat and fills up according to claim 2 which characterized in that: the first assembly line (5) is formed into a communicated structure through the assembly plug (8), the assembly joint (9) and the second assembly line (6), and the assembly plug (8) is formed into a clamping structure through the clamping piece (10), the clamping groove (11) and the assembly joint (9).

6. The utility model provides a graphite alkene that tatami was convenient for assemble with automatic temperature control function generates heat and fills up according to claim 2 which characterized in that: first circuit (5), the second of assembling is assembled circuit (6) and is passed through sliding hole groove (7) and constitute sliding structure between aluminum alloy support grillage (2), and first circuit (5), the second of assembling is assembled circuit (6) and is passed through circuit holder (12) and constitute half surrounding structure between aluminum alloy support grillage (2).

7. The utility model provides a graphite alkene that tatami was convenient for assemble with automatic temperature control function generates heat and fills up according to claim 2 which characterized in that: line holder (12) are equidistance form evenly distributed in the top lower surface of aluminum alloy supporting plate frame (2), and the connected mode is the welding between line holder (12) and the aluminum alloy supporting plate frame (2).

8. The utility model provides a graphite alkene that tatami was convenient for assemble with automatic temperature control function generates heat and fills up according to claim 1 which characterized in that: 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.

9. The utility model provides a graphite alkene that tatami was convenient for assemble with automatic temperature control function generates heat and fills up according to claim 1 which characterized in that: the upper surface of graphite alkene layer (13) and the lower surface of high temperature resistant plastic skin (15) laminate mutually, and graphite alkene layer (13) constitute the structure of enclosing entirely through between high temperature resistant plastic skin (15), non-woven fabrics layer (16) and banding aluminium sticky tape (17).

10. The utility model provides a graphite alkene that tatami was convenient for assemble with automatic temperature control function generates heat and fills up according to claim 2 which characterized in that: 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).

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