CN214169773U - Prefabricated plate concatenation formula warms up structure - Google Patents

Abstract

The utility model discloses a structure warms up prefabricated plate concatenation formula, including warm up the module, the both sides of warming up the module are provided with the heat conduction connecting block, and the left side of heat conduction connecting block is connected with and splices the piece to the right side of heat conduction connecting block is connected with down splices the piece, the lower extreme of going up the piece of splicing is provided with the slot, and goes up the top of slot and seted up the through-hole, the top of through-hole is provided with the bolt, and the left side of through-hole is provided with the inserted block, the lower extreme of splicing the piece down is provided with down the slot, and the right side of slot has seted up the slotted hole down to the right side of slotted hole is provided with down the inserted block, the up end of warming up the module is provided with the solid wood layer, and the lower extreme on solid wood layer is provided with the heat dissipation layer, the lower extreme on heat dissipation layer is provided with graphite alkene superconductive membrane. This prefabricated plate concatenation formula ground heating structure adopts the concatenation mounting means for the installation procedure is simple, and the circuit planning is neat, and stable in structure through adopting graphite alkene thermal conductive film material, obtains making heat conduction effect better.

Description

Prefabricated plate concatenation formula warms up structure

Technical Field

The utility model relates to a warm up technical field, specifically be a structure warms up prefabricated plate concatenation formula.

Background

The floor heating floor is suitable for low-temperature electric heating (floor heating for short), the real floor heating floor needs a plurality of specific technical parameters, firstly, the floor heating floor has good heat dissipation performance, the floor heating floor is very exquisite in material selection, special base materials with wood density meeting requirements are strictly selected, the thickness of the floor is 6.5-8.5 mm (the standard thickness of the floor heating floor), and the floor is ensured to have good air permeability and heat dissipation function.

However, the existing floor heating is poor in heat conductivity and heat insulation, so that heat is lost to the ground, the heating effect is poor, the integral laying is adopted mostly, the installation and the disassembly are inconvenient, and the cable lines are disordered, so that the prefabricated plate splicing type floor heating structure is provided, and the problems are solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a structure warms up prefabricated plate concatenation formula to the current heat conductivity and the heat-proof quality of warming up who proposes in solving above-mentioned background art are relatively poor, lead to the heat to ground loss, and the heating effect is poor, and the majority adopts wholly to lay, and the installation is dismantled inconveniently, leads to the mixed and disorderly problem of cable run.

In order to achieve the above object, the utility model provides a following technical scheme: a prefabricated plate spliced floor heating structure comprises a floor heating module, heat conduction connecting blocks are arranged on two sides of the floor heating module, the left sides of the heat conduction connecting blocks are connected with upper splicing blocks, the right side of the heat conduction connecting block is connected with a lower splicing block, the lower end of the upper splicing block is provided with an upper slot, a through hole is arranged above the upper slot, a bolt is arranged above the through hole, an upper inserting block is arranged on the left side of the through hole, a lower slot is arranged at the lower end of the lower splicing block, a slot hole is arranged on the right side of the lower slot, and the right side of the slotted hole is provided with a lower insert block, the upper end surface of the floor heating module is provided with a solid wood plate layer, the lower end of the solid wood board layer is provided with a heat dissipation layer, the lower end of the heat dissipation layer is provided with a graphene superconducting film, and the lower extreme of graphite alkene superconducting film is provided with the aluminium foil layer, the lower extreme of aluminium foil layer is provided with the heat preservation, and the lower extreme of heat preservation sets up to ground.

Preferably, the heat preservation layer is set as a polyurethane foaming plate, the heat dissipation layer is set as a bean gravel concrete layer, and the thickness of the bean gravel concrete layer is larger than that of the polyurethane foaming plate.

Preferably, the through hole penetrates through the upper splicing block, the depth of the slotted hole is set to be two thirds of that of the lower splicing block, the length of the bolt is consistent with the sum of the depths of the through hole and the slotted hole, the through hole and the slotted hole are set to be square holes, and the width of each square hole is smaller than that of each square bolt.

Preferably, the upper slot is matched with the lower insertion block, the upper insertion block is matched with the lower slot, the upper splicing block and the lower splicing block are spliced to form a rectangular structure, and the through hole is communicated with the slotted hole in an alignment mode.

Preferably, the heat conduction connecting block is a copper block, a contact surface of the copper block and the floor heating module is coated with heat conduction silica gel, and the upper splicing block and the lower splicing block are fixed through threaded grooves formed in the copper block in a screwed mode.

Preferably, the graphene superconducting film is formed by compounding a plurality of layers of carbon fiber electrothermal films.

Compared with the prior art, the beneficial effects of the utility model are that: the prefabricated plate spliced floor heating structure is reasonable in structure arrangement, a splicing installation mode is adopted, the installation process is simple, the line planning is neat, the structure is stable, and a better heat-conducting effect is achieved by adopting the graphene heat-conducting film material;

1. the graphene superconducting film, the heat dissipation layer and the heat preservation layer are arranged, a better heat dissipation effect is achieved by adopting a carbon fiber electric heating paper material, the heat is uniformly dissipated through the heat dissipation layer made of a bean gravel concrete material, the heat is better accumulated, the bearing strength of the floor heating structure layer is enhanced, the heat is isolated downwards through the heat preservation layer made of a polyurethane foam board material, and the upward heat dissipation effect is improved;

2. the floor heating module is provided with an upper splicing block, a lower splicing block and a bolt, the upper splicing block and the lower splicing block are spliced, so that the floor heating module can be conveniently and quickly laid and installed, and the upper splicing block and the lower splicing block are fixed in a pin-inserting manner through the square bolt, so that the floor heating module is stably connected, and the phenomenon that gaps are generated among the floor heating modules due to expansion caused by heat and contraction caused by cold and uneven heat dissipation are avoided;

3. be equipped with heat conduction connecting block, solid wood board layer and aluminium foil layer, through the heat conduction connecting block of metal copper product matter for the heat is warming up the transmission between the module, through the solid wood board layer that structural density stabilizes evenly, makes the heat evenly disperse, further completely cuts off the heat through the aluminium foil layer, reduces the heat and scatters and disappears downwards.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the connection structure of the splicing blocks of the present invention;

fig. 3 is a schematic structural diagram of a portion a in fig. 1 according to the present invention.

In the figure: 1. a floor heating module; 2. a heat-conducting connecting block; 3. an upper splice block; 31. an upper slot; 32. a through hole; 33. an upper insertion block; 4. a lower splice block; 41. a lower slot; 42. a slot; 43. a lower insert block; 5. a solid wood board layer; 6. a heat dissipation layer; 7. a graphene superconducting film; 8. an aluminum foil layer; 9. a heat-insulating layer; 10. a ground surface; 11. and (4) a bolt.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a prefabricated board spliced floor heating structure comprises a floor heating module 1, a heat conduction connecting block 2, an upper splicing block 3, an upper slot 31, a through hole 32, an upper splicing block 33, a lower splicing block 4, a lower slot 41, a slot hole 42, a lower splicing block 43, a solid wood board layer 5, a heat dissipation layer 6, a graphene superconducting film 7, an aluminum foil layer 8, a heat preservation layer 9, a ground 10 and a bolt 11, wherein the heat conduction connecting block 2 is arranged on two sides of the floor heating module 1, the upper splicing block 3 is connected to the left side of the heat conduction connecting block 2, the lower splicing block 4 is connected to the right side of the heat conduction connecting block 2, the upper slot 31 is arranged at the lower end of the upper splicing block 3, the through hole 32 is arranged above the upper slot 31, the bolt 11 is arranged above the through hole 32, the upper splicing block 33 is arranged on the left side of the through hole 32, the lower slot 41 is arranged at the lower end of the lower splicing block 4, the slot hole 42 is arranged on the right side of the lower slot 41, and the lower insertion block 43 is arranged on the right side of the slot 42, the upper end face of the floor heating module 1 is provided with a solid wood board layer 5, the lower end of the solid wood board layer 5 is provided with a heat dissipation layer 6, the lower end of the heat dissipation layer 6 is provided with a graphene superconducting film 7, the lower end of the graphene superconducting film 7 is provided with an aluminum foil layer 8, the lower end of the aluminum foil layer 8 is provided with a heat preservation layer 9, and the lower end of the heat preservation layer 9 is arranged as a ground 10.

As in fig. 3, heat preservation 9 sets up to polyurethane foaming board, make the heat isolated downwards, improve ascending radiating effect, and radiating layer 6 sets up to bean gravel concrete layer, it is even to make the heat step away, better heat that accumulates, structural layer bearing strength warms up in the reinforcing, and the thickness on bean gravel concrete layer is greater than the thickness of polyurethane foaming board, graphite alkene superconducting film 7 sets up to multilayer carbon fiber electric heat membrane complex and forms, and the carbon fiber electric heat membrane is through shearing carbon fiber into disorderly short-staple, carbon fiber electric heat paper with papermaking technology formation after mixing with paper pulp, through adopting carbon fiber electric heat paper material, obtain to make heat conduction effect better.

As in fig. 2, through-hole 32 runs through last splice 3, and the slotted hole 42 degree of depth is established to two-thirds of splice 4 down, and the length of bolt 11 is unanimous with the degree of depth sum of through-hole 32 and slotted hole 42, and through-hole 32 sets up to the quad slit with slotted hole 42, and the quad slit width is less than the width of square bolt 11, go up slot 31 and lower splice 43 phase-match, and go up splice 33 and slot 41 phase-match down, and it constitutes the rectangular structure to go up splice 3 and splice 4 concatenation down after the splice, and through-hole 32 and slotted hole 42 counterpoint UNICOM, splice 4 with splice down through last splice 3, make the convenient quick installation of laying of module 1 of warming up, and it is fixed with splice 4 round pins of splice down to go up splice 3 through square bolt 11, make the module 1 of warming up to warm up to stabilize and connect, avoid expend with heat and contract with cold and lead to produce the clearance between the module 1 of warming up, cause the heat dissipation inhomogeneous.

As in fig. 1, the heat-conducting connecting block 2 is set to be a copper block, the contact surface of the copper block and the floor heating module 1 is coated with heat-conducting silica gel, and the heat is transmitted between the floor heating module 1 through the heat-conducting connecting block 2 made of a metal copper material, and the upper splicing block 3 and the lower splicing block 4 are fixed through the threaded groove formed in the copper block.

The working principle is as follows: when the prefabricated board spliced floor heating structure is used, firstly, as shown in a combined drawing of a drawing 1, a drawing 2 and a drawing 3, an upper splicing block 3 and a lower splicing block 4 at two sides of a floor heating module 1 are spliced and laid, so that the installation process is simple, the circuit is planned orderly, the structure is stable, in the process, a better heating and heat conducting effect is obtained by adopting a graphene superconducting film 7 made of carbon fiber electric heating paper, the heat is uniformly dispersed through a heat dissipation layer 6 made of bean gravel concrete, the heat is better accumulated, the bearing strength of a ground structure layer is enhanced, the heat is isolated downwards through a heat insulation layer 9 made of polyurethane foam board, the upward heat dissipation effect is improved, the floor heating module 1 is conveniently and quickly laid and installed by splicing the upper splicing block 3 and the lower splicing block 4, the upper splicing block 3 and the lower splicing block 4 are fixedly inserted through a square bolt 11, so that the floor heating module 1 is stably connected, avoid expend with heat and contract with cold to lead to warming up 1 interbedded gaps in the floor and produce, cause the heat dissipation inhomogeneous, through the heat conduction connecting block 2 of metal copper material for the heat is warming up 1 transmission between the module, through the solid wood layer 5 that structural density is stable even, makes the heat evenly disperse, further completely cuts off the heat through aluminium foil layer 8, reduces the heat and scatters and disappears downwards, and this is the whole process that prefabricated plate concatenation formula ground heating structure used.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a prefabricated plate concatenation formula ground heating structure, warms up module (1) including, its characterized in that: the floor heating module is characterized in that heat-conducting connecting blocks (2) are arranged on two sides of the floor heating module (1), the left side of each heat-conducting connecting block (2) is connected with an upper splicing block (3), the right side of each heat-conducting connecting block (2) is connected with a lower splicing block (4), the lower end of each upper splicing block (3) is provided with an upper slot (31), a through hole (32) is formed above each upper slot (31), a bolt (11) is arranged above each through hole (32), the left side of each through hole (32) is provided with an upper insertion block (33), the lower end of each lower splicing block (4) is provided with a lower slot (41), the right side of each lower slot (41) is provided with a slotted hole (42), the right side of each slotted hole (42) is provided with a lower insertion block (43), the upper end face of the floor heating module (1) is provided with a solid wood plate layer (5), the lower end of each solid wood plate layer (5) is provided with a heat dissipation layer (6), and the lower end of each heat dissipation layer (6) is provided with a graphene superconducting film (7), and the lower extreme of graphite alkene superconducting film (7) is provided with aluminium foil layer (8), the lower extreme of aluminium foil layer (8) is provided with heat preservation (9), and the lower extreme of heat preservation (9) sets up to ground (10).

2. The precast slab splicing type floor heating structure of claim 1, which is characterized in that: the heat preservation layer (9) is arranged to be a polyurethane foaming plate, the heat dissipation layer (6) is arranged to be a bean gravel concrete layer, and the thickness of the bean gravel concrete layer is larger than that of the polyurethane foaming plate.

3. The precast slab splicing type floor heating structure of claim 1, which is characterized in that: the through hole (32) runs through the upper splicing block (3), the depth of the slotted hole (42) is set to be two thirds of that of the lower splicing block (4), the length of the bolt (11) is consistent with the sum of the depths of the through hole (32) and the slotted hole (42), the through hole (32) and the slotted hole (42) are set to be square holes, and the width of each square hole is smaller than that of the square bolt (11).

4. The precast slab splicing type floor heating structure of claim 1, which is characterized in that: the upper slot (31) is matched with the lower insertion block (43), the upper insertion block (33) is matched with the lower slot (41), the upper splicing block (3) and the lower splicing block (4) are spliced to form a rectangular structure, and the through hole (32) is communicated with the slot hole (42) in an aligned mode.

5. The precast slab splicing type floor heating structure of claim 1, which is characterized in that: the heat conduction connecting block (2) is arranged as a copper block, the contact surface of the copper block and the floor heating module (1) is coated with heat conduction silica gel, and the upper splicing block (3) and the lower splicing block (4) are fixed through threaded connection of thread grooves formed in the copper block.

6. The precast slab splicing type floor heating structure of claim 1, which is characterized in that: the graphene superconducting film (7) is formed by compounding a plurality of layers of carbon fiber electric heating films.

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