CN214249753U - Carbon fiber floor heating device - Google Patents

Abstract

The utility model discloses a heating device warms up carbon fiber, including laying subaerial heat preservation, reflection stratum, generate heat layer and decorative layer, generate heat and be equipped with the buffer layer between layer and the reflection stratum, the buffer layer includes heat conduction space and damping spring, damping spring's top is connected with the layer that generates heat, damping spring's bottom is connected with the reflection stratum, is formed with the clearance by damping spring's support between layer and the reflection stratum that generates heat, and the clearance is the heat conduction space, and the heat conduction space is connected with the heat conduction passageway, and the heat conduction passageway extends to the decorative layer top. The utility model has the advantages that: the heat energy that the board sent that generates heat can make full use of, promotes energy utilization.

Description

Carbon fiber floor heating device

Technical Field

The utility model belongs to the technical field of heating system, concretely relates to heating system warms up carbon fiber.

Background

The floor heating is that heating cable or electric heat membrane are buried underground in the floor, and as heat source heating floor to room temperature or floor temperature are controlled to the temperature controller, realize the heating mode of ground radiation heating, can solve the limited occasion heating of water supply and heating source. The electric heat conversion efficiency of heating cable in current ground warms up is low, and when heating, the board that generates heat simultaneously carries out the heat supply to ground, and the unable effectual transmission of heat energy of another side to ground causes the waste of heat energy easily moreover.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model provides a following technical scheme: the utility model provides a heating device warms up carbon fiber, includes lays subaerial heat preservation, reflection stratum, generates heat layer and decorative layer, the heat preservation is located the bottommost, the surface of heat preservation is located to the reflection stratum, generate heat the top of locating the reflection stratum on layer, the top on layer that generates heat, its characterized in that are located to the decorative layer: the utility model discloses a decorative layer, including damping spring, damping spring's top and reflection stratum, be equipped with the buffer layer between layer and the reflection stratum that generates heat, the buffer layer includes heat conduction space and damping spring, damping spring's top is connected with the layer that generates heat, damping spring's bottom is connected with the reflection stratum, it is gapped by damping spring's support to generate heat between layer and the reflection stratum, the clearance is the heat conduction space, the heat conduction spatial connection has the heat conduction passageway, the heat conduction passageway extends to decorative layer top, the layer that generates heat includes carbon fiber heating cable and insulation board, the insulation board is equipped with two, carbon fiber heating cable locates in the middle of two insulation boards, it has cement to fill between two insulation boards.

Further, be equipped with the waterproof layer between layer and the decorative layer generates heat, the waterproof layer includes waterproof film, waterproof film's bottom is equipped with aluminum plate.

Further, the heat conduction channel is a heat conduction pipe, the side of the heat conduction space is connected with a wall body, and the heat conduction channel penetrates through the inner side of the wall body and is connected with an air outlet.

Further, the heat conduction channel is a heat conduction pipe, the heat conduction pipe sequentially penetrates through the heating layer, the waterproof layer and the decorative layer from the upper side and is connected with an air outlet, and a filter screen is installed on the air outlet.

Further, the carbon fiber heating cable is snakelike setting, install temperature sensor on the carbon fiber heating cable, temperature sensor is connected with the temperature controller.

The utility model has the advantages that: adopt carbon fiber heating cable as the heat-generating body, electric heat conversion rate is up to 98%, it heats up soon, compares in traditional heating wire power consumption low, and bottom in this application is formed with the heat conduction space through the shock absorber layer, and the heat direct ground of layer top generates heat, and the heat of layer bottom of generating heat passes through heat conduction space and heat conduction channel and transmits for ground for the heat energy that the layer of generating heat sent can obtain abundant utilization, improves energy utilization.

Drawings

Fig. 1 is a schematic view of embodiment 1 of the present invention.

Fig. 2 is a schematic view of embodiment 2 of the present invention.

Fig. 3 is a schematic structural view of the carbon fiber heating plate of the present invention.

Fig. 4 is a schematic surface view of a decorative layer according to embodiment 2 of the present invention.

In the figure: 1. a heat-insulating layer; 2. a reflective layer; 3. a heat generating layer; 4. a decorative layer; 5. a heat conducting space; 6. a damping spring; 7. a carbon fiber heating cable; 8. an insulating plate; 9. a waterproof film; 10. an aluminum plate; 11. an air outlet; 12. a filter screen; 13. a wall body; 14. a temperature sensor; 15. a temperature controller; 16. a heat conducting channel.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1 and 3, a carbon fiber floor heating device comprises a heat insulation layer 1, a reflective layer 2, a heating layer 3 and a decorative layer 4 laid on the ground, wherein the heat insulation layer 1 is at the bottom, the heat insulation layer 1 is made of a vacuum heat insulation plate with a low heat conductivity coefficient of 0.003W/m.k, and can effectively isolate heat dissipation, the reflective layer 2 is arranged on the surface of the heat insulation layer 1, the reflective layer 2 is made of a reflective film and is used for reflecting heat, so as to improve heat efficiency, the heating layer 3 is arranged above the reflective layer 2, the decorative layer 4 is arranged above the heating layer 3, a shock absorption layer is arranged between the heating layer 3 and the reflective layer 2, the shock absorption layer comprises a heat conduction space 5 and a shock absorption spring 6, and the shock absorption spring is arranged to buffer the impact force of the device when a person on the floor walks, so as to reduce the impact force on the device, prevent the device from being damaged, and simultaneously weaken the transmission of the trampling sound, the top of the damping spring 6 is connected with the heating layer 3, the bottom of the damping spring 6 is connected with the reflecting layer 2, a gap is formed between the heating layer 3 and the reflecting layer 2 by the support of the damping spring 6, the gap is a heat conducting space 5, the heat emitted by the surface of the heating layer 3, which is far away from the earth surface, can heat the air in the heat conducting space 5, the heat conducting space 5 is connected with a heat conducting channel 16, the heat conducting channel 16 extends to the upper part of the decorating layer 4, concretely, the periphery of the earth surface is provided with a wall, the heat conducting channel 16 is arranged in the wall, one end of the heat conducting channel is communicated with the heat conducting space 5, the other end of the heat conducting channel is connected with an air outlet 11, the air outlet 11 is communicated with the outside of the wall, the height of the air outlet 11 is higher than that of the device, after the air in the heat conducting space 5 is heated by the heating plate, the hot air can flow upwards, therefore, the air enters the room along the heat conducting channel 16 and through the air outlet 11, the heating layer 3 comprises a carbon fiber heating cable 7 and an insulating plate 8, insulation board 8 is equipped with two, carbon fiber heating cable 7 is located in the middle of two insulation boards 8, it has cement to fill between two insulation boards 8, carbon fiber heating cable 7 is as the heat-generating body, the electrothermal conversion rate is up to 98%, it heats up soon, compare in traditional heating wire power consumption low, insulation board 8 on both sides can avoid the electric leakage that the cable damage caused, the heat of 3 bottoms in layer that generates heat passes through heat conduction space 5 and heat conduction channel 16 and transmits for ground, make the heat energy that the layer that generates heat sent can obtain abundant utilization, energy utilization is improved.

Example 2

Referring to fig. 2-4, a carbon fiber floor heating device comprises a heat insulating layer 1, a reflective layer 2, a heating layer 3 and a decorative layer 4 laid on the ground, wherein the heat insulating layer 1 is at the bottom, the heat insulating layer 1 is made of a vacuum heat insulating plate with a low thermal conductivity coefficient of 0.003W/m.k, and can effectively isolate heat dissipation, the reflective layer 2 is disposed on the surface of the heat insulating layer 1, the reflective layer 2 is made of a reflective film to reflect heat and improve thermal efficiency, the heating layer 3 is disposed above the reflective layer 2, the decorative layer 4 is disposed above the heating layer 3, a waterproof layer is disposed between the heating layer 3 and the decorative layer 4, the waterproof layer comprises a waterproof film 9, an aluminum plate 10 is disposed at the bottom of the waterproof film 9, the waterproof film 9 is used for waterproofing, the aluminum plate 10 has good thermal conductivity, and can rapidly transfer heat from the heating layer 3 to the ground surface, a shock absorbing layer is disposed between the heating, the shock-absorbing layer comprises a heat-conducting space 5 and a shock-absorbing spring 6, the shock-absorbing spring is arranged to buffer the impact force of a person on the floor to the device when the person walks, the impact force received by equipment is reduced, the device is prevented from being damaged, the service life of the device is prolonged, the top of the shock-absorbing spring 6 is connected with a heating layer 3, the bottom of the shock-absorbing spring 6 is connected with a reflecting layer 2, a gap is formed between the heating layer 3 and the reflecting layer 2 by the support of the shock-absorbing spring 6, the gap is the heat-conducting space 5, the heat emitted by the heating layer 3 which deviates from the earth surface can heat the air in the heat-conducting space 5, the heat-conducting space 5 is connected with a heat-conducting channel 16, the heat-conducting channel 16 extends to the upper part of the decorative layer 4, specifically, the heat-conducting channel 16 is a heat-conducting pipe, the heat-conducting pipe sequentially penetrates through the heating layer 3, the waterproof layer and the decorative layer 4 from the upper part and is connected with an air outlet 11, and a filter screen 12 is arranged on the air outlet 11, after the air in the heat conduction space 5 was heated by the board that generates heat, because hot-air can toward the top circulation, consequently can accelerate indoor heat supply, filter screen 12 can avoid the dust on the earth's surface to drop to inside heat conduction space 5 in, carbon fiber heating cable 7 is snakelike setting in this embodiment for the heating is more even, installs temperature sensor 14 on the carbon fiber heating cable 7, and temperature sensor 14 is connected with temperature controller 15.

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 (5)

1. The utility model provides a heating device warms up carbon fiber, includes lays subaerial heat preservation (1), reflection stratum (2), generates heat layer (3) and decorative layer (4), heat preservation (1) is located the bottommost, the surface of heat preservation (1) is located in reflection stratum (2), generate heat the top of layer (2) is located in layer (3), the top of generating heat layer (3) is located in decorative layer (4), its characterized in that: a damping layer is arranged between the heating layer (3) and the reflecting layer (2), the damping layer comprises a heat conducting space (5) and a damping spring (6), the top of the damping spring (6) is connected with the heating layer (3), the bottom of the damping spring (6) is connected with the reflecting layer (2), a gap is formed between the heating layer (3) and the reflecting layer (2) by the support of the damping spring (6), the gap is a heat conduction space (5), the heat conduction space (5) is connected with a heat conduction channel (16), the heat conducting channel (16) extends to the upper part of the decoration layer (4), the heating layer (3) comprises a carbon fiber heating cable (7) and an insulation board (8), the carbon fiber heating cable is characterized in that two insulation plates (8) are arranged, the carbon fiber heating cable (7) is arranged between the two insulation plates (8), and cement is filled between the two insulation plates (8).

2. The carbon fiber floor heating device of claim 1, characterized in that: a waterproof layer is arranged between the heating layer (3) and the decorative layer (4), the waterproof layer comprises a waterproof film (9), and an aluminum plate (10) is arranged at the bottom of the waterproof film (9).

3. The carbon fiber floor heating device of claim 2, characterized in that: the heat conduction channel (16) is a heat conduction pipe, the side edge of the heat conduction space (5) is connected with a wall body (13), and the heat conduction channel (16) penetrates through the inner side of the wall body (13) and is connected with an air outlet (11).

4. The carbon fiber floor heating device of claim 2, characterized in that: the heat conduction channel (16) is a heat conduction pipe, the heat conduction pipe sequentially penetrates through the heating layer (3), the waterproof layer and the decorative layer (4) from the upper side and is connected with an air outlet (11), and a filter screen (12) is installed on the air outlet (11).

5. The carbon fiber floor heating device of claim 1, characterized in that: carbon fiber heating cable (7) are snakelike setting, install temperature sensor (14) on carbon fiber heating cable (7), temperature sensor (14) are connected with temperature controller (15).

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