CN211775411U - Heat preservation type graphite alkene underfloor heating floor - Google Patents

Abstract

The utility model discloses a heat preservation type graphite alkene floor heating, which comprises a substrate, the base plate both sides correspond fixedly connected with curb plate, and the welding that corresponds of two blocks of curb plate upper ends has the support, the warm core of fixedly connected with graphite alkene between two blocks of curb plates, and the equidistant cover of warm core of graphite alkene is equipped with many conducting rods, the level is provided with the silica gel board between two curb plates, and run through the cover in the silica gel board and be equipped with the wire of being connected with the conducting rod electricity, be provided with the heat-conducting layer that offsets with the conducting rod between two supports, and fixed laminating has the ceramic tile on the heat-conducting layer, wear-resisting plank, the ceramic tile, be connected. The utility model discloses utilize the warm core installation of graphite alkene of ripple structure can lead to themogenic conducting rod for high temperature heat can be stored in the activity of underfloor heating structure, and the heat conduction layer that utilizes to be connected with the conducting rod lasts the heat conduction to ceramic tile and wear-resisting plank, in order to ensure that ceramic tile and wear-resisting plank can the thermally insulated nature and the persistence on underfloor heating floor.

Description

Heat preservation type graphite alkene underfloor heating floor

Technical Field

The utility model relates to a graphite alkene material application technical field especially relates to a heat preservation type graphite alkene underfloor heating floor.

Background

The graphene has excellent optical, electrical and mechanical properties, has important application prospects in the aspects of materials science, micro-nano processing, energy, biomedicine, drug delivery and the like, and is considered to be a revolutionary material in the future. The graphene material has very good heat conduction performance. The pure defect-free single-layer graphene has the thermal conductivity coefficient as high as 5300W/mK, is the carbon material with the highest thermal conductivity coefficient and the highest thermal conductivity efficiency in the prior art, and is higher than single-wall carbon nanotubes and multi-wall carbon nanotubes. When it is used as carrier, its thermal conductivity can be up to 600W/mK.

For national regions at high latitudes, the construction of ground heating infrastructure is crucial, and the heat medium is divided into water ground heating and electric ground heating, the paving structure is divided into wet ground heating and dry ground heating, and the surface decoration material is divided into floor type ground heating and floor brick type ground heating. With the continuous improvement of the scientific and technical level, dry floor heating with higher safety performance is more and more common. However, dry floor heating also has certain functional defects: the dry-type floor heating system is affected by materials and structures, has serious negative effects on heat efficiency and heat conduction degree, is low in high-temperature heat generation efficiency especially under the condition of large laying area, and has extremely limited heat storage capacity due to poor heat insulation effect, so that the floor heating effect is seriously affected.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the floor heating floor generates heat and the heat preservation effect is poor among the prior art, and the heat preservation type graphite alkene floor heating floor that provides.

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

the utility model provides a heat preservation type graphite alkene underfloor heating floor, includes the base plate, the base plate both sides correspond fixedly connected with curb plate, and two curb plate upper ends correspond the welding and have a support, two the warm core of fixedly connected with graphite alkene between the curb plate, and the warm core of graphite alkene is equidistant the cover and is equipped with many conducting rods, two the level is provided with the silica gel board between the curb plate, and runs through the cover in the silica gel board and be equipped with the wire of being connected with the conducting rod electricity, two be provided with the heat-conducting layer that offsets with the conducting rod between the support, and the fixed laminating has the ceramic tile on the heat-conducting layer, fixed laminating has wear-resisting plank on the ceramic tile, and is connected with.

Preferably, the substrate, the graphene warm core plate, the heat conducting layer, the ceramic tile and the wear-resistant wood plate are horizontally distributed between the two side plates from bottom to top.

Preferably, the graphene core warming plate is of a corrugated structure, and through holes penetrating through the sleeved conducting rods are formed in the graphene core warming plate at equal intervals.

Preferably, the lower ends of the two side plates are correspondingly provided with first-level clamping grooves sleeved with the silica gel plates.

Preferably, two the curb plate upper end is seted up the second grade draw-in groove of cover establishing wear-resisting plank correspondingly.

Preferably, the locking screw is a socket head cap screw, and the heat conduction layer, the ceramic tile and the wear-resistant wood board are fixedly connected to the support through the locking screw.

Compared with the prior art, the utility model discloses possess following advantage:

1. the utility model discloses set up the warm core of graphite alkene of ripple structure on the base plate, utilize the warm core equidistance of graphite alkene installation electrically conductive thematic conducting rod, utilize the heat-conducting layer that is connected with the conducting rod to last the heat supply for ceramic tile and wear-resisting plank to ensure the persistence of warm up.

2. The utility model discloses utilize the warm core of graphite alkene of ripple structure to realize the diffusion that continuously flows of high temperature heat in the underfloor heating for can hold the storage large amount of hot air in the underfloor heating, can ensure simultaneously to make ceramic tile and wear-resisting plank continuously be heated through the heat-conducting layer.

To sum up, the utility model discloses utilize the warm core installation of graphite alkene of ripple structure can lead to themogenic conducting rod for high temperature heat can be stored in the floor structure activity of heating up, and the heat conduction layer that utilizes to be connected with the conducting rod simultaneously lasts the heat conduction to ceramic tile and wear-resisting plank, in order to ensure that ceramic tile and wear-resisting plank can the thermally insulated nature and the persistence on floor of heating up, guarantee.

Drawings

Fig. 1 is a schematic structural view of a heat preservation type graphene floor heating floor provided by the utility model;

fig. 2 is a schematic view of an installation structure of a substrate, a side plate and a graphene warm core plate of the heat preservation type graphene warm floor provided by the utility model;

fig. 3 is the utility model provides a silica gel plate structure schematic diagram of heat preservation type graphite alkene ground heating floor.

In the figure: the novel heat-conducting plate comprises a base plate 1, side plates 2, a support 3, a graphene warm core plate 4, a conducting rod 5, a silica gel plate 6, a lead 7, a heat-conducting layer 8, a ceramic tile 9, a wear-resistant wood plate 10, a primary clamping groove 11, a secondary clamping groove 12, a locking screw 13 and a through hole 14.

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.

Referring to fig. 1-3, a heat preservation type graphene floor heating floor comprises a substrate 1, wherein the substrate 1 can be a concrete structure flat plate or a steel structure plate, but an insulating paint layer needs to be uniformly coated on the steel structure plate to provide a stable and reliable foundation for laying the floor heating floor, two sides of the substrate 1 are correspondingly and fixedly connected with side plates 2, the upper ends of the two side plates 2 are correspondingly welded with supports 3, a graphene core heating plate 4 is fixedly connected between the two side plates 2, a plurality of conductive rods 5 are sleeved in the graphene core heating plate 4 at equal intervals, a silica gel plate 6 is horizontally arranged between the two side plates 2, the silica gel plate 6 horizontally corresponds to the graphene core heating plate 4 and the conductive rods 5 with reference to the attached drawings 1-2, so as to isolate and protect the graphene core heating plate 4 and the conductive rods 5, on one hand, the silica gel plate 6 can avoid non-insulated objects from contacting with the conductive rods, on the other hand, the soft deformation recovery that has of silica gel plate 6 self texture, make it have certain leakproofness, thereby provide water proof for the warm core plate 4 of graphite alkene and conducting rod 5, avoid causing the circuit short circuit, and run through the cover in the silica gel plate 6 and be equipped with wire 7 of being connected with conducting rod 5 electricity, be provided with the heat-conducting layer 8 that offsets with conducting rod 5 between two supports 3, and fixed laminating has ceramic tile 9 on the heat-conducting layer 8, fixed laminating has wear-resisting plank 10 on the ceramic tile 9, and wear-resisting plank 10, ceramic tile 9, be connected with locking screw 13 between support 3 and the heat-conducting layer 8 jointly.

It should be noted that:

firstly, the heat conduction layer 8 is positioned at the lower ends of the two brackets 3, and the ceramic tiles 9 abutting against the upper ends of the heat conduction layer 8 are positioned at the upper ends of the two brackets 3;

secondly, adhesives are filled between the heat conduction layer 8 and the ceramic tiles 9, between the ceramic tiles 9 and the wear-resistant wood boards 10, so that the connection stability between every two adjacent ceramic tiles is ensured.

Base plate 1, the warm core of graphite alkene 4, heat-conducting layer 8, ceramic tile 9 and wear-resisting plank 10 from bottom to top horizontal distribution between two curb plates 2, and base plate 1 and the warm core of graphite alkene 4 all adopt fixed connection mode with two curb plates 2.

Notably, with specific reference to the accompanying figures 1-2: the graphite alkene core board 4 that warms up is the ripple structure, and the graphite alkene core board 4 equidistant through-hole 14 of establishing conducting rod 5 of running through the cover of seting up, and the conducting rod 5 lower extreme corresponds with wire 7 in the silica gel board 6, and conducting rod 5 runs through the upper end of through-hole 14 and is contradicted with heat-conducting layer 8 and be connected to make the conducting rod 5 themogenesis after the circular telegram and give heat-conducting layer 8 with high temperature heat transfer.

Referring to the accompanying drawings 1-3, the lower ends of the two side plates 2 are correspondingly provided with a first-level clamping groove 11 for sleeving the silica gel plate 6, so as to assemble and disassemble the silica gel plate 6.

Referring to the accompanying drawings 1-2, the upper ends of the two side plates 2 are correspondingly provided with a second-level clamping groove 12 in which the wear-resistant wood plate 10 is sleeved, so that the wear-resistant wood plate 10 can be conveniently installed between the two adjacent side plates 2.

Locking screw 13 is socket head cap screw, and heat-conducting layer 8, ceramic tile 9 and wear-resisting plank 10 pass through locking screw 13 fixed connection on support 3, and it should be noted that, the installation to locking screw 13 is realized through the screwdriver for under the installation status, locking screw 13 nestification is in wear-resisting plank 10, in order to ensure the planarization of wear-resisting plank 10 in the floor heating.

The 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 utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a heat preservation type graphite alkene ground heating floor, includes base plate (1), its characterized in that, base plate (1) both sides correspond fixedly connected with curb plate (2), and two curb plate (2) upper ends correspond the welding and have support (3), two fixedly connected with graphite alkene warms up core (4) between curb plate (2), and in graphite alkene warms up core (4) equidistant cover be equipped with many conducting rod (5), two the level is provided with silica gel plate (6) between curb plate (2), and runs through the cover in silica gel plate (6) and be equipped with wire (7) of being connected with conducting rod (5) electricity, two be provided with heat-conducting layer (8) that offset with conducting rod (5) between support (3), and fixed laminating has ceramic tile (9) on heat-conducting layer (8), fixed laminating has wear-resisting plank (10) on ceramic tile (9), and wear-resisting plank (10), ceramic tile (9), And locking screws (13) are connected between the bracket (3) and the heat conduction layer (8) together.

2. The heat-preservation type graphene ground heating floor as claimed in claim 1, wherein the substrate (1), the graphene core heating plate (4), the heat conducting layer (8), the ceramic tiles (9) and the wear-resistant wood board (10) are horizontally distributed between the two side plates (2) from bottom to top.

3. The heat-preservation graphene floor heating floor as claimed in claim 2, wherein the graphene core heating plate (4) is of a corrugated structure, and through holes (14) penetrating and sleeving the conductive rods (5) are formed in the graphene core heating plate (4) at equal intervals.

4. The heat preservation type graphene floor heating floor according to claim 2, wherein the lower ends of the two side plates (2) are correspondingly provided with primary clamping grooves (11) sleeved with silica gel plates (6).

5. The heat preservation type graphene floor heating floor according to claim 4, wherein the upper ends of the two side plates (2) are correspondingly provided with secondary clamping grooves (12) sleeved with wear-resistant wood plates (10).

6. The heat-preservation type graphene floor heating floor as claimed in claim 1, wherein the locking screws (13) are hexagon socket head cap screws, and the heat conduction layer (8), the ceramic tiles (9) and the wear-resistant wood boards (10) are fixedly connected to the brackets (3) through the locking screws (13).

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