CN209897285U - Carbon fiber heating cable ground radiation heating system - Google Patents

Abstract

The utility model relates to a carbon fiber heating cable ground radiation heating system, including cable mounting bracket, heat conduction otter board, cement layer, heating cable, the top of cable mounting bracket is equipped with a plurality of recesses, set up heating cable in the recess, set up a plurality of equidistant through-holes of arranging on the cable mounting bracket between the adjacent recess, the through-hole communicates with two adjacent recesses respectively, the heat conduction stick has been inserted with the position that the through-hole is just corresponding on the cable mounting bracket, the bottom of heat conduction stick extends to the bottom in the corresponding through-hole, be fixed with the heat conduction sloping bar on the heat conduction excellent both sides wall in the cable mounting bracket outside respectively, heat conduction sloping bar and heat conduction stick form the triangle-shaped structure. The utility model discloses a set up heat conduction otter board, heat conduction stick and heat conduction diagonal bar in the cement layer, make heating cable's partial heat absorb the well upper strata that transmits to the cement layer by it for the heat transfer rate of heat in the cement layer, thereby accelerated the programming rate of ground top, improved heat transfer efficiency.

Description

Carbon fiber heating cable ground radiation heating system

Technical Field

The utility model relates to a construction technical field, concretely relates to carbon fiber heating cable ground radiation heating system.

Background

With the development of the building industry and the improvement of the living standard of people, floor heating is more and more accepted by the people, floor heating is short for floor radiation heating, the whole floor is uniformly heated by using the whole floor as a radiator through a heating medium in a floor radiation layer, the heat is conducted from bottom to top by utilizing the law that the heat storage of the floor and the heat are radiated upwards, and the heat is a heating mode provided by a heating system arranged in the floor. In the prior art, the laying of the electric floor heating system is generally to lay a heat insulation layer on the cement ground of a blank room, lay a carbon fiber heating cable on the heat insulation layer, lay a cement layer on the carbon fiber heating cable, lay a floor tile or a wood floor on the cement layer, but because the heating cable and the floor tile are separated by a cement layer, the heat transfer speed is slow, but the cement layer is indispensable, so a heating system capable of improving the heat transfer efficiency is needed.

SUMMERY OF THE UTILITY MODEL

For solving the problem that prior art exists, the utility model provides a carbon fiber heating cable ground radiation heating system through set up heat conduction otter board, heat conduction stick and heat conduction sloping bar in the cement layer, makes heating cable's partial heat absorb by it and transmit to the well upper strata on cement layer for the heat transfer rate in the cement layer, thereby accelerated the programming rate of ground top, improved heat transfer efficiency.

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

a carbon fiber heating cable ground radiation heating system comprises a heat preservation layer, wherein the heat preservation layer is laid on the ground of decoration, the carbon fiber heating cable ground radiation heating system also comprises a cable installation frame, a heat conduction screen plate, a cement layer and a heating cable, the cable installation frame is installed above the heat preservation layer, a plurality of inwards concave grooves are formed in the top of the cable installation frame, the heating cable is arranged in each groove, a plurality of through holes which are arranged at equal intervals are formed in the cable installation frame between every two adjacent grooves, the through holes are respectively communicated with the two adjacent grooves, heat conduction rods are inserted into positions, corresponding to the through holes, of the cable installation frame, the bottom ends of the heat conduction rods extend to the inner bottom of the corresponding through holes, heat conduction oblique rods are respectively fixed on two side walls of the heat conduction rods outside the cable installation frame, the heat conduction oblique rods and the heat conduction rods form a triangular, the heat conduction otter board is placed at the top of heat conduction stick and heat conduction diagonal, the top of cable mounting bracket is fixed with the baffle, fill on the cable mounting bracket the cement layer, heat conduction otter board, heat conduction stick and heat conduction diagonal all are located the cement layer.

Preferably, the heating cable is internally provided with carbon fiber wires, the outer wall of the heating cable is coated with a plastic layer, and the outer part of the plastic layer is coated with a radiation-proof film.

In any of the above schemes, preferably, the four corner ends of the bottom of the heat conducting net plate are respectively fixed with a bracket, and the bracket is located on the heat insulating layer.

In any of the above schemes, preferably, the partition plate is a heat conducting plate, and the heat conducting plate, the heat conducting mesh plate, the heat conducting rod and the heat conducting diagonal rod are all made of copper materials.

In any of the above aspects, preferably, the plurality of grooves are arranged in parallel, and both ends of the plurality of grooves are communicated with each other.

In any one of the above schemes, preferably, the cable mounting racks are multiple, and the heating cables between the adjacent cable mounting racks are connected in parallel with the power supply end.

Compared with the prior art, the utility model provides a carbon fiber heating cable ground radiation heating system has following beneficial effect:

1. the heat conducting mesh plate, the heat conducting rods and the heat conducting inclined rods are arranged in the cement layer, so that part of heat of the heating cable is absorbed by the heat conducting mesh plate, is directly transmitted to the middle upper layer of the cement layer, the heat transfer rate of the heat in the cement layer is increased, the temperature rise speed above the ground is increased, the heat transfer efficiency is improved, the bottom ends of the heat conducting rods extend into the through holes and are directly contacted with the heat emitted by the heating cable, the heat absorbing speed of the heat conducting rods is high, the heat conducting mesh plate is beneficial to improving the speed of transmitting the heat to the heat conducting mesh plate by the heating cable due to the fact that the number of the heat conducting rods is multiple, and;

2. the heat conducting rod and the heat conducting inclined rod form a triangular structure, the heat conducting screen plate is supported to be more stable, the heat conducting screen plate is placed on the heat conducting inclined rod instead of a fixed structure, cement is conveniently filled below the heat conducting screen plate, and construction is more convenient and simpler.

Drawings

Fig. 1 is a schematic overall structural diagram of a preferred embodiment of a ground radiation heating system with carbon fiber heating cables according to the present invention;

fig. 2 is a schematic structural view of the cable mount in the embodiment shown in fig. 1.

The figures are labeled as follows: 1. a finished floor; 2. a heat-insulating layer; 3. a cement layer; 4. floor tiles; 5. a heat conducting mesh plate; 6. a partition plate; 7. a cable mount; 8. a heating cable; 9. a heat conducting rod; 10. a heat conducting diagonal rod; 11. a through hole; 12. a support; 13. And (4) a groove.

Detailed Description

In order to further understand the inventive content of the present invention, the present invention will be explained in detail with reference to the specific embodiments.

As shown in fig. 1-2, an embodiment of a carbon fiber heating cable ground radiation heating system according to the present invention comprises a heat insulating layer 2, wherein the heat insulating layer 2 is laid on a decorated ground 1, the system further comprises a cable mounting frame 7, a heat conducting mesh plate 5, a cement layer 3, and a heating cable 8, the cable mounting frame 7 is installed above the heat insulating layer 2, a plurality of concave grooves 13 are formed at the top of the cable mounting frame 7, the heating cable 8 is arranged in the grooves 13, a plurality of through holes 11 arranged at equal intervals are formed in the cable mounting frame 7 between adjacent grooves 13, the through holes 11 are respectively communicated with two adjacent grooves 13, a heat conducting rod 9 is inserted into a position on the cable mounting frame 7 corresponding to the through holes 11, the bottom end of the heat conducting rod 9 extends to the inner bottom of the corresponding through hole 11, heat conducting oblique rods 10 are respectively fixed on two side walls of the heat conducting rod 9 outside the cable mounting frame 7, the heat conduction inclined rods 10 and the heat conduction rods 9 form a triangular structure, the top ends of the heat conduction inclined rods 10 and the top ends of the heat conduction rods 9 are flush, and the heat conduction inclined rods 10 and the heat conduction rods 9 are combined to form the triangular structure, so that the triangular structure has stable structure and plays a role in firmly supporting the heat conduction screen plate 5; the heat conduction otter board 5 is placed at the top of heat conduction stick 9 and heat conduction sloping rod 10, the top of cable mounting bracket 7 is fixed with baffle 6 for seal recess 13, avoid cement to soak in recess 13, fill on the cable mounting bracket 7 cement layer 3, heat conduction otter board 5, heat conduction stick 9 and heat conduction sloping rod 10 all are located cement layer 3. The heat-insulating layer 2 can be made of heat-insulating materials. Set up heat conduction otter board 5, heat conduction stick 9 and heat conduction diagonal bar 10 in cement layer 3 can be with the more quick conveying of heating cable 8's heat to cement layer 3 in, improve heat transfer efficiency.

The heating cable is internally provided with carbon fiber wires, the outer wall of the heating cable is coated with a plastic layer, and the outer part of the plastic layer is coated with a radiation-proof film.

Four corner ends of the bottom of the heat conducting screen plate 5 are respectively fixed with a bracket 12, and the brackets 12 are positioned on the heat insulating layer 2.

The partition plate 6 is a heat conducting plate, and the heat conducting plate, the heat conducting screen plate 5, the heat conducting rods 9 and the heat conducting inclined rods 10 are all made of copper materials.

The plurality of grooves 13 are arranged in parallel, and both ends of the plurality of grooves 13 are communicated with each other.

The cable mounting brackets 7 are multiple, and the heating cables between the adjacent cable mounting brackets 7 are connected with a power supply end after being connected in parallel and then gathered on a power supply line.

The floor tiles 4 can be stuck on the cement layer 3 or the wood floor can be laid on the cement layer according to the conventional process.

The temperature controller is arranged at the power end and used for detecting the air temperature to control whether the heating cable 8 is electrified or not.

The working principle of the embodiment is as follows: lay one side heat preservation side on the ground 1 of fitment, then place a plurality of cable mounting bracket 7, place a heating cable 8 in recess 13 on every cable mounting bracket 7, a heating cable 8 spirals in a plurality of recesses 13 and forms a current input end and a current output end, be parallel connection between a plurality of cable mounting bracket 7, be fixed connection between heat conduction stick 9 and the baffle 6, then lay partial cement and make cement height flush with the height of heat conduction stick 9, then place heat conduction otter board 5 on the plane that a plurality of heat conduction sticks 9 and heat conduction diagonal bar 10 formed, make the bottom and the 2 contacts of heat preservation of support 12, then continue to lay cement and form cement layer 3, 4 or timber apron are laid to cement layer 3 top, form the structure of quick heat transfer.

Compared with the prior art, the embodiment has the following beneficial effects:

through set up the heat conduction otter board in the cement layer, heat conduction stick and heat conduction diagonal bar, make heating cable's partial heat directly transmit to the well upper strata on cement layer by its absorption, the heat transfer rate of heat in the cement layer has been accelerated, thereby the programming rate of ground top has been accelerated, the heat transfer efficiency has been improved, and in the bottom of heat conduction stick stretched into the through-hole, direct and the heat contact that heating cable sent, heat conduction stick endothermic speed is fast, because the number of heat conduction stick is a plurality of, help improving heating cable to heat conduction otter board transmission thermal speed, the heat transfer rate has been improved equally.

It will be understood by those skilled in the art that any combination of the elements of the present invention, including the summary and detailed description of the invention provided in the foregoing description and illustrated in the accompanying drawings, is not to be considered limiting in scope and in order to make the description more concise, and not to describe every element of the combination. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a carbon fiber heating cable ground radiation heating system, includes the heat preservation, the subaerial at the fitment is laid to the heat preservation, its characterized in that: the heat-conducting wire comprises a heat-conducting wire, and is characterized by further comprising a wire cable mounting rack, a heat-conducting screen plate, a cement layer and a heating cable, wherein the wire cable mounting rack is mounted above the heat-insulating layer, a plurality of grooves which are inwards concave are formed in the top of the wire cable mounting rack, the heating cable is arranged in the grooves, a plurality of through holes which are arranged at equal intervals are formed in the wire cable mounting rack between every two adjacent grooves and are respectively communicated with the two adjacent grooves, a heat-conducting rod is inserted into a position, corresponding to the through holes, on the wire cable mounting rack, the bottom end of the heat-conducting rod extends to the bottom in the corresponding through hole, heat-conducting oblique rods are respectively fixed on two side walls of the heat-conducting rod outside the wire cable mounting rack, the heat-conducting oblique rods and the heat-conducting rods form a triangular structure, the top ends of the, the cable mounting rack is filled with the cement layer, and the heat conduction screen plate, the heat conduction rod and the heat conduction inclined rod are all located in the cement layer.

2. A carbon fiber heating cable floor radiant heating system as claimed in claim 1, wherein: the heating cable is internally provided with carbon fiber wires, the outer wall of the heating cable is coated with a plastic layer, and the outer part of the plastic layer is coated with a radiation-proof film.

3. A carbon fiber heating cable floor radiant heating system as claimed in claim 1, wherein: and the four corner ends at the bottom of the heat-conducting screen plate are respectively fixed with a bracket, and the brackets are positioned on the heat-insulating layer.

4. A carbon fiber heating cable floor radiant heating system as claimed in claim 1, wherein: the partition plate is a heat conducting plate, and the heat conducting plate, the heat conducting screen plate, the heat conducting rod and the heat conducting inclined rod are all made of copper materials.

5. A carbon fiber heating cable floor radiant heating system as claimed in claim 1, wherein: the grooves are arranged in parallel, and two ends of the grooves are communicated with each other.

6. A carbon fiber heating cable floor radiant heating system as claimed in claim 1, wherein: the cable mounting bracket is a plurality of, and the heating cable between the adjacent cable mounting bracket is parallelly connected to be connected with the power end.