CN211041127U - Concatenation formula graphite alkene electricity warms up - Google Patents

Abstract

The utility model discloses a concatenation formula graphite alkene electricity warms up, including graphite alkene heat-conducting plate, heating cable, graphite alkene heat-conducting plate's lateral wall is provided with to the wiring groove, and constitutes to the wiring groove by spool, line hole, butt joint piece, butt joint groove and sliding tray, the line hole has been seted up to the inside of spool, and is provided with the butt joint piece around the spool, the butt joint groove has been seted up all around to the spool, and the sliding tray has been seted up to the department in the middle of the lower part all around of spool, the cable duct has been seted up to graphite alkene heat-conducting plate's upper end, and the inslot of cable duct is provided with heating cable, graphite alkene heat-conducting plate lower extreme circular recess in. A concatenation formula graphite alkene electricity warm up, butt joint piece and butt joint groove to the wiring groove setting make things convenient for the concatenation between two boards, to the line hole that the wiring groove set up, make things convenient for the cable conductor arrangement, can realize heat transfer between two boards, improve utilization efficiency to a certain extent.

Description

Concatenation formula graphite alkene electricity warms up

Technical Field

The utility model relates to a field warms up electrically, in particular to concatenation formula graphite alkene warms up electrically.

Background

The electric floor heating system is characterized in that a heating cable with the upper limit of 65 ℃ allowed working temperature on the outer surface is buried in a floor, the heating cable is used as a heat source to heat the floor or a ceramic tile, and a temperature controller is used for controlling the room temperature or the ground temperature to realize the heating mode of ground radiation heating, and has the advantages of comfort, energy conservation, environmental protection, flexibility, no need of maintenance and the like, the electric floor heating system takes the heating cable as a heating body to be laid under various floor materials, ceramic tiles, marble and the like, and then an intelligent temperature controller system is matched to form a comfortable, environment-friendly, efficient, energy-saving, no need of maintenance, independent use of each room, long service life and hidden ground heating system, and graphene is a two-dimensional carbon nano material which is formed by carbon atoms in sp 2; use graphite alkene electricity to warm up the in-process, because graphite alkene electricity warms up and generally adopts whole laying, lead to the cable conductor to be disorderly and disorderly, because graphite alkene electricity warms up and when adopting the concatenation formula, can not transfer heat each other between each graphite alkene board, lead to the utilization efficiency not high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides a concatenation formula graphite alkene electricity warms up, can effectively solve the problem in the background art.

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

a spliced graphene electric floor heating device comprises a graphene heat conducting plate and a heating cable, wherein a butt-joint groove is formed in the outer side wall of the graphene heat conducting plate and consists of a wire pipe, a wire hole, butt-joint blocks, a butt-joint groove and a sliding groove, the wire hole is formed in the wire pipe, the butt-joint blocks are arranged around the wire pipe, the butt-joint groove is formed around the wire pipe, the sliding groove is formed in the middle of the lower portion of the periphery of the wire pipe, a cable groove is formed in the upper end of the graphene heat conducting plate, the heating cable is arranged in the groove of the cable groove, a connecting structure is connected in the circular groove at the lower end of the graphene heat conducting plate and consists of a first sliding heat conducting block, a second sliding heat conducting block, a third sliding heat conducting block and a fourth sliding heat conducting block, the first sliding heat conducting block is clamped in the circular groove at the lower end of the graphene heat conducting plate, and a strip body of the first sliding heat conducting block, the second sliding heat-conducting block is clamped in a circular groove at the lower end of the graphene heat-conducting plate, the strip body of the second sliding heat-conducting block is clamped in a strip-shaped groove at the lower end of the graphene heat-conducting plate, the third sliding heat-conducting block is clamped in the circular groove at the lower end of the graphene heat-conducting plate, the strip body of the third sliding heat-conducting block is clamped in a strip-shaped groove at the lower end of the graphene heat-conducting plate, the fourth sliding heat-conducting block is clamped in the circular groove at the lower end of the graphene heat-conducting plate, and the strip body of the fourth sliding heat-conducting block is clamped in the.

Preferably, the first sliding heat conduction block, the second sliding heat conduction block, the third sliding heat conduction block and the fourth sliding heat conduction block have the same structure, and the first sliding heat conduction block, the second sliding heat conduction block, the third sliding heat conduction block and the fourth sliding heat conduction block are connected with the graphene heat conduction plate through bolts.

Preferably, the first sliding heat-conducting block is composed of a fan-shaped block and a strip, a screw hole is formed in the upper end of the fan-shaped block of the first sliding heat-conducting block, and the strip body of the first sliding heat-conducting block is clamped in a strip-shaped groove at the lower end of the graphene heat-conducting plate.

Preferably, the butt-joint block arranged on the butt-joint wire slot is matched with the butt-joint slot arranged on the next-stage butt-joint wire slot.

Preferably, the first sliding heat-conducting block extends out of a sliding groove formed in the wiring groove.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses in, through the butt joint piece and the butt joint groove that set up to the wiring groove, make things convenient for the concatenation between two boards, to the line hole that the wiring groove set up, make things convenient for the cable conductor arrangement, through setting up connection structure, can realize heat transfer between two boards, improve utilization efficiency to a certain extent.

Drawings

Fig. 1 is a schematic view of the overall structure of the spliced graphene electric floor heating system of the present invention;

fig. 2 is a schematic view of the overall structure of the spliced graphene electric floor heating system of the present invention;

fig. 3 is a schematic view of a butt joint wire groove of the spliced graphene electric floor heating system of the present invention;

fig. 4 is the utility model relates to a connection structure schematic diagram that concatenation formula graphite alkene electricity warms up.

In the figure: 1. aligning the wiring grooves; 101. a conduit; 102. a wire hole; 103. a butt joint block; 104. a butt joint groove; 105. a sliding groove; 2. a graphene thermal conductive plate; 3. a heating cable; 4. a cable trough; 5. a connecting structure; 501. a first sliding heat-conducting block; 502. a second sliding heat-conducting block; 503. a third sliding heat-conducting block; 504. And a fourth sliding heat-conducting block.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" 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 "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-4, a spliced graphene electric floor heating system comprises a graphene heat-conducting plate 2 and a heating cable 3, wherein a wire connecting groove 1 is formed on the outer side wall of the graphene heat-conducting plate 2, the wire connecting groove 1 is composed of a wire pipe 101, a wire hole 102, a butt-joint block 103, a butt-joint groove 104 and a sliding groove 105, the wire pipe 101 is internally provided with the wire hole 102, the butt-joint block 103 is arranged on the periphery of the wire pipe 101, the butt-joint groove 104 is arranged on the periphery of the wire pipe 101, the sliding groove 105 is arranged in the middle of the periphery of the wire pipe 101, the upper end of the graphene heat-conducting plate 2 is provided with a cable groove 4, the heating cable 3 is arranged in the groove of the cable groove 4, the connecting structure 5 is connected in the circular groove at the lower end of the graphene heat-conducting plate 2, and the connecting structure 5 is composed of a first sliding heat-conducting block 501, first slip heat conduction piece 501 block is in 2 lower extreme circular grooves of graphite alkene heat-conducting plate, and the block of the strip body of first slip heat conduction piece 501 is in 2 lower extreme bar inslots of graphite alkene heat-conducting plate, the block of the second slip heat conduction piece 502 is in 2 lower extreme circular grooves of graphite alkene heat-conducting plate, and the block of the strip body of the second slip heat conduction piece 502 is in 2 lower extreme bar inslots of graphite alkene heat-conducting plate, the block of third slip heat conduction piece 503 is in 2 lower extreme circular grooves of graphite alkene heat-conducting plate, and the block of the strip body of third slip heat conduction piece 503 is in 2 lower extreme bar inslots of graphite alkene heat-conducting plate, the block of fourth slip heat conduction piece 504 is in 2 lower extreme circular grooves of graphite alkene heat-conducting plate, and the block of the strip body of fourth slip heat conduction piece.

The first sliding heat-conducting block 501, the second sliding heat-conducting block 502, the third sliding heat-conducting block 503 and the fourth sliding heat-conducting block 504 have the same structure, and the first sliding heat-conducting block 501, the second sliding heat-conducting block 502, the third sliding heat-conducting block 503 and the fourth sliding heat-conducting block 504 are connected with the graphene heat-conducting plate 2 through bolts; the first sliding heat-conducting block 501 is composed of a fan-shaped block and a strip, a screw hole is formed in the upper end of the fan-shaped block of the first sliding heat-conducting block 501, and the strip of the first sliding heat-conducting block 501 is clamped in a strip-shaped groove at the lower end of the graphene heat-conducting plate 2; the butt joint block 103 arranged on the wiring groove 1 is matched with the butt joint groove 104 arranged on the next-stage butt joint wiring groove 1; the first sliding heat-conducting block 501 extends out of the sliding groove 105 opened to the wiring groove 1.

It should be noted that, the utility model relates to a concatenation formula graphite alkene warms up electrically, during the equipment, place into in 4 inslots of cable duct that 2 upper ends of graphite alkene heat-conducting plates were seted up and advance heating cable 3, fixed connection between heating cable 3 and the graphite alkene heat-conducting plate 2, it is downthehole to set up wiring 1 spool 101 pipe wall in inserting into at the both ends of heating cable 3, heating cable 3's connecting wire extends along line hole 102, until being connected with 2 upper ends of next-level graphite alkene heat-conducting plate heating cable 3, two 2 docks of graphite alkene heat-conducting plates before, graphite alkene heat-conducting plate 2 with to wiring groove 1 fixed connection, the first slip heat conduction piece 501 that connection structure 5 set up, the second slip heat conduction piece 502, third slip heat conduction piece 503 and fourth slip heat conduction piece 504 are connected with graphite alkene heat-conducting plate 2 through the bolt, first slip heat conduction piece 501, the second slip heat conduction piece 502, third slip heat conduction piece 503 and fourth slip heat conduction piece 504 are installed in the inslot that circular graphite alkene Before the connection, the first sliding heat-conducting block 501, the second sliding heat-conducting block 502, the third sliding heat-conducting block 503 and the fourth sliding heat-conducting block 504 are fixed with the graphene heat-conducting plate 2 again, the first sliding heat-conducting block 501, the second sliding heat-conducting block 502, the third sliding heat-conducting block 503 and the fourth sliding heat-conducting block 504 are pushed out, so that the square strips of the first sliding heat-conducting block 501, the second sliding heat-conducting block 502, the third sliding heat-conducting block 503 and the fourth sliding heat-conducting block 504 are exposed out of the graphene heat-conducting plate 2, the first sliding heat-conducting block 501, the second sliding heat-conducting block 502, the third sliding heat-conducting block 503 and the fourth sliding heat-conducting block 504 are fixedly connected with the graphene heat-conducting plate 2 again, when the connection is performed, the connection block 103 arranged in the connection slot 1 is inserted into the connection slot 104 arranged in the next stage to the connection slot 1, and the connection slot is fixed by a bolt, the first sliding heat, The second sliding heat-conducting block 502, the third sliding heat-conducting block 503 and the fourth sliding heat-conducting block 504 are inserted into the sliding groove 105 formed in the next-stage butt-joint groove 1, and the first sliding heat-conducting block 501, the second sliding heat-conducting block 502, the third sliding heat-conducting block 503 and the fourth sliding heat-conducting block 504 are in contact with the lower end connecting structure 5 of the next-stage graphene heat-conducting plate 2, so that the butt joint of the two graphene heat-conducting plates 2 is realized.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a concatenation formula graphite alkene warms up electricly which characterized in that: including graphite alkene heat-conducting plate (2), heating cable (3), the lateral wall of graphite alkene heat-conducting plate (2) is provided with to wiring groove (1), and to wiring groove (1) by spool (101), line hole (102), butt joint piece (103), butt joint groove (104) and sliding tray (105) are constituteed, line hole (102) have been seted up to the inside of spool (101), and be provided with all around of spool (101) butt joint piece (103), butt joint groove (104) have been seted up all around of spool (101), and the middle department of the lower part all around of spool (101) has seted up sliding tray (105), cable duct (4) have been seted up to the upper end of graphite alkene heat-conducting plate (2), and the inslot of cable duct (4) is provided with heating cable (3), graphite alkene heat-conducting plate (2) lower extreme circular recess in-connection has connection structure (5), and connection structure (5) are by first slip heat-conducting piece (501), A second sliding heat-conducting block (502), a third sliding heat-conducting block (503) and a fourth sliding heat-conducting block (504), the first sliding heat-conducting block (501) is clamped in a circular groove at the lower end of the graphene heat-conducting plate (2), and the strip body of the first sliding heat-conducting block (501) is clamped in the strip-shaped groove at the lower end of the graphene heat-conducting plate (2), the second sliding heat-conducting block (502) is clamped in a circular groove at the lower end of the graphene heat-conducting plate (2), and the strip body of the second sliding heat-conducting block (502) is clamped in the strip-shaped groove at the lower end of the graphene heat-conducting plate (2), the third sliding heat-conducting block (503) is clamped in the circular groove at the lower end of the graphene heat-conducting plate (2), and the strip body of the third sliding heat-conducting block (503) is clamped in the strip-shaped groove at the lower end of the graphene heat-conducting plate (2), the fourth sliding heat-conducting block (504) is clamped in a circular groove at the lower end of the graphene heat-conducting plate (2), and the strip body of the fourth sliding heat-conducting block (504) is clamped in the strip-shaped groove at the lower end of the graphene heat-conducting plate (2).

2. The spliced graphene electric floor heater according to claim 1, characterized in that: the first sliding heat-conducting block (501), the second sliding heat-conducting block (502), the third sliding heat-conducting block (503) and the fourth sliding heat-conducting block (504) are identical in structure, and the first sliding heat-conducting block (501), the second sliding heat-conducting block (502), the third sliding heat-conducting block (503) and the fourth sliding heat-conducting block (504) are connected with the graphene heat-conducting plate (2) through bolts.

3. The spliced graphene electric floor heater according to claim 1, characterized in that: first slip heat conduction piece (501) comprise segment and bar, and the screw has been seted up to the segment upper end of first slip heat conduction piece (501), the strip block of first slip heat conduction piece (501) is in graphite alkene heat-conducting plate (2) lower extreme bar inslot.

4. The spliced graphene electric floor heater according to claim 1, characterized in that: and the butt joint block (103) arranged on the butt joint wire slot (1) is matched with the butt joint slot (104) arranged on the next-stage butt joint wire slot (1).

5. The spliced graphene electric floor heater according to claim 1, characterized in that: the first sliding heat-conducting block (501) extends out of a sliding groove (105) formed in the wiring groove (1).

Images