CN212962230U - Carbon nanotube fiber film heating system - Google Patents

Abstract

The utility model discloses a carbon nanotube fiber membrane heating system, which comprises a heating box, wherein a plurality of baffles are arranged on the upper wall and the lower wall in the heating box at intervals to form an S-shaped channel, a heating plate is arranged between every two baffles and comprises a carbon nanotube fiber film, two ends of the carbon nanotube fiber film are welded on a current-conducting plate, one side of the heating box is provided with an air inlet machine, the air inlet machine is connected with the heating box through an air inlet pipe, and the other side of the carbon nanotube fiber film is connected with an air outlet through an air outlet pipe; the conducting plate and the air inlet fan are electrically connected with the controller. This scheme is used for indoor heating heat preservation, and the heating cabinet is installed outdoors, and carbon nanotube fiber film circular telegram generates heat, produces high temperature, heats the air in the heating cabinet, and the air after the heating is discharged into indoorly through the gas outlet, keeps warm to indoor realization heating. The carbon nanotube fiber film is used for heating and heat preservation, so that the heating efficiency is high, the energy consumption is low, and the indoor temperature rise effect is obvious.

Description

Carbon nanotube fiber film heating system

Technical Field

The utility model relates to a heating system technical field, concretely relates to carbon nanotube fiber membrane heating system.

Background

The carbon nano tube is a nano material with a one-dimensional structure, is coiled into an annular structure by similar single-layer graphite, and has excellent mechanical, electrical and thermal properties and the like. The preparation method has wide application prospect in the fields of aerospace, electromagnetic shielding materials, energy storage, light wires, safety protection, biological materials and the like. The carbon nanotube fiber membrane processed by the carbon nanotube is a good heating material, and the carbon nanotube fiber membrane is electrified to generate heat to generate high temperature, so that the carbon nanotube fiber membrane is used for an indoor heating system and has a good application prospect.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned not enough of prior art, the utility model provides a carbon nanotube fiber membrane heating system that energy consumption is low.

In order to achieve the purpose of the invention, the technical scheme adopted by the utility model is as follows:

the heating system comprises a heating box, wherein a plurality of baffle plates are arranged on the upper wall and the lower wall in the heating box at intervals, the baffle plates form an S-shaped channel, a heating plate is arranged between every two baffle plates, the heating plate comprises a carbon nanotube fiber film, two ends of the carbon nanotube fiber film are welded on a current-conducting plate, one side of the heating box is provided with an air inlet machine, the air inlet machine is connected with the heating box through an air inlet pipe, and the other side of the heating box is connected with an air outlet through an air outlet pipe; the conducting plate and the air inlet fan are electrically connected with the controller.

The utility model has the advantages that: this scheme is used for indoor heating to keep warm, and the heating cabinet is installed outdoors, and through air inlet machine to the heating cabinet in suction air, carbon nanotube fiber film circular telegram generates heat, produces high temperature, heats the air in the heating cabinet, and the air after the heating is discharged into indoorly through the gas outlet, and is kept warm to indoor realization heating. The carbon nanotube fiber film is utilized for heating and heat preservation, the heating efficiency is high, the energy consumption is low, and meanwhile, the S-shaped channel formed by the baffle is added with a heating surface, so that the heating effect on air is good, and further, the indoor heating effect is obvious.

Drawings

Fig. 1 is a structural diagram of a carbon nanotube fiber film heating system.

Fig. 2 is a structural view of the heating plate.

The solar energy heat collecting device comprises a solar cell panel 1, a canopy 2, a support 3, a support 4, a wall body 5, a fixing sheet 6, a temperature sensor 7, an air outlet 8, an air outlet pipe 9, a heating plate 10, a baffle plate 11, a heat insulation layer 12, an air inlet pipe 13, a fan 14, a heating box 15, a mounting plate 16, a solar storage battery 17, a carbon nano tube fiber film 18 and a current conducting plate.

Detailed Description

The following description of the embodiments of the present invention is provided to facilitate the understanding of the present invention by those skilled in the art, but it should be understood that the present invention is not limited to the scope of the embodiments, and various changes may be made apparent to those skilled in the art within the spirit and scope of the present invention as defined and defined by the appended claims.

As shown in fig. 1 and 2, the carbon nanotube fiber film heating system includes a heating box 14, a plurality of baffles 10 are disposed at intervals on an upper wall and a lower wall in the heating box 14, a gap is formed between the plurality of baffles 10 and the upper wall or the lower wall, so that an S-shaped channel is formed between the plurality of baffles 10, a heating plate 9 is disposed between each two baffles 10, the heating plate 9 includes a carbon nanotube fiber film 17, two ends of the carbon nanotube fiber film 17 are welded on a conductive plate 18, the conductive plate 18 is connected to the upper wall and the lower wall through a cable, an air inlet fan 13 is disposed on one side of the heating box 14, the air inlet fan 13 is connected to the heating box 14 through an air inlet pipe 12, and the other side is connected to an air outlet 7 through an; the conductive plate 18 and the air inlet fan 13 are electrically connected to the controller.

This scheme is used for indoor heating heat preservation, and heating cabinet 14 is installed outdoors, and through air inlet machine 13 to the suction air in the heating cabinet 14, carbon nanotube fiber film 17 circular telegram generates heat, produces high temperature, heats the air in the heating cabinet 14, and the air after the heating is discharged into indoorly through the gas outlet, and indoor realization heating keeps warm. The carbon nanotube fiber film 17 is used for heating and heat preservation, the heating efficiency is high, the energy consumption is low, and meanwhile, the S-shaped channel formed by the baffle 10 is additionally provided with a heating surface, so that the heating effect on air is good, and the indoor temperature rise effect is obvious.

According to the scheme, the carbon nanotube fiber film 17 is electrified to generate heat, the carbon nanotube fiber film 17 can be replaced by other electric heating materials to be heated, and the heating and heat preservation functions are achieved, such as a graphene electric heating film, an electric heating film and the like.

The heating box 14 is fixed on the outer side of the wall 4 through a U-shaped fixing sheet 5, and the fixing sheet 5 is connected with the wall 4 and the heating box 14 through bolts. The heating box 14 is installed on an indoor or outdoor wall, does not occupy indoor space, and is convenient to disassemble.

The air outlet 7 is provided with a temperature sensor 6, and the temperature sensor 6 is electrically connected with the controller; the controller adopts a C51 singlechip, the temperature sensor 6 adopts an MLX9014ESF-BCI temperature sensor 6 probe, and is fixed at the air outlet 7 through a support rod, so that the temperature of the outlet air is detected, the heating intensity of the carbon nanotube fiber film 17 is conveniently adjusted through the controller, and the heating temperature is controlled.

A canopy 2 is arranged above the heating box 14 through a support 3, a solar cell panel 1 is arranged on the upper surface of the canopy 2, the solar cell panel 1 is electrically connected with a solar storage battery 16, and the solar storage battery 16 is electrically connected with a controller and an air inlet fan 13; the whole system utilizes solar energy for power supply, saves energy consumption, has high heating efficiency due to low energy consumption of the carbon nanotube fiber film 17, and can meet the indoor heating requirement by utilizing solar energy for power generation.

The solar storage battery 16 and the controller are arranged at the upper end of the heating box 14 through an arched mounting plate 15, and the solar storage battery 16 is supported and insulated. All be provided with insulating layer 11 on the inner wall of heating cabinet 14, insulating layer 11 can the separation partly heat, prevents that heating cabinet 14 outside temperature is too high, prevents inside heat diffusion simultaneously, improves the heating effect.

Claims (6)

1. The carbon nanotube fiber film heating system is characterized by comprising a heating box (14), wherein a plurality of baffle plates (10) are arranged on the upper wall and the lower wall in the heating box (14) at intervals, S-shaped channels are formed between the baffle plates (10), a heating plate (9) is arranged between every two baffle plates (10), the heating plate (9) comprises a carbon nanotube fiber film (17), two ends of the carbon nanotube fiber film (17) are welded on a current-conducting plate (18), an air inlet machine (13) is arranged on one side of the heating box (14), the air inlet machine (13) is connected with the heating box (14) through an air inlet pipe (12), and the air outlet machine (7) is connected with the other side of the heating box through an air outlet pipe (8); the conductive plate (18) and the air inlet fan (13) are electrically connected with the controller.

2. The carbon nanotube fiber membrane heating system according to claim 1, wherein the heating box (14) is fixed to the outside of the wall (4) by a U-shaped fixing plate (5), and the fixing plate (5) is connected to both the wall (4) and the heating box (14) by bolts.

3. The carbon nanotube fiber membrane heating system according to claim 1, wherein a temperature sensor (6) is disposed on the air outlet (7), and the temperature sensor (6) is electrically connected to a controller.

4. The carbon nanotube fiber film heating system according to claim 1, wherein a canopy (2) is disposed above the heating box (14) through a support (3), a solar panel (1) is disposed on an upper surface of the canopy (2), the solar panel (1) is electrically connected to a solar storage battery (16), and the solar storage battery (16) is electrically connected to a controller and an air inlet fan (13).

5. The carbon nanotube fiber membrane heating system of claim 4, wherein the solar battery (16) and the controller are mounted at an upper end of the heating box (14) by means of an arched mounting plate (15).

6. The carbon nanotube fiber membrane heating system according to claim 1, wherein the inner walls of the heating box (14) are each provided with a heat insulating layer (11).

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