CN209926584U - Infrared heat energy module - Google Patents

Abstract

The utility model discloses an infrared heat energy module, including the heating furnace, the outside of heating furnace is provided with the outer courage of fluid, be provided with insulating layer on the outer peripheral face of the outer courage of fluid, the inside of heating furnace is provided with high heat collection pipe group and a plurality of infrared heating tube, the left end and the outlet conduit of high heat collection pipe group are linked together, outlet conduit is linked together through circulating device and inlet channel, the inlet channel communicates with the left end of the outer courage of fluid, the right-hand member of the outer courage of fluid and the right-hand member of high heat collection pipe group all are linked together with outer union coupling, high heat collection pipe group includes a main thermal-collecting tube and a plurality of vice thermal-collecting tube, the both ends of a plurality of vice thermal-collecting tubes all communicate with main thermal-collecting tube through the pipeline, vice thermal-collecting tube is corresponding with infrared heating. The utility model adopts a water-electricity separated heating mode, thereby improving the safety and durability; the photoelectricity and the heat energy can be fully converted, and the energy consumption is reduced; modular design, simple to operate is swift.

Description

Infrared heat energy module

Technical Field

The utility model relates to an electrical heating technical field especially relates to an infrared heat energy module.

Background

In the region with heating demand in winter, the families in partial urban areas and vast rural areas still adopt modes such as coal or natural gas to carry out self-heating by taking the families as a unit, so that the problem of environmental pollution exists on the one hand, and on the other hand, insufficient combustion is easily caused due to insufficient smoothness of air, thereby causing carbon monoxide poisoning accidents to happen occasionally. With the severe environment protection situation, the trend of heating by adopting clean energy is already. Because the electric energy is used nimble conveniently, and the wide range, the electric heating stove with electric energy heating uses more and more extensively, and at present, the electric heating pipe that uses resistance heating as the main in the electric heating stove heating core occupies great proportion, and this kind of heating pipe is often arranged the aquatic in and is heated, and the mounted position easily produces the stagnant water district, causes the incrustation scale accumulation, influences the heating pipe life-span, and product structure is complicated, and the security performance is poor, and electric heat conversion efficiency is low, makes this type of product fail to obtain popularization.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an infrared heat energy module solves the problem that current electric heating stove security performance is poor, and electric heat conversion efficiency is low.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model relates to an infrared heat energy module, which comprises a heating furnace, wherein a fluid outer container is arranged outside the heating furnace, the outer peripheral surface of the fluid outer liner is provided with an insulating and heat-insulating layer, a high-conductivity heat collecting tube group and a plurality of infrared heating tubes are arranged in the heating furnace, the left end of the high-conductivity heat collecting pipe set is communicated with a water outlet pipeline which is communicated with a water inlet pipeline through a circulating device, the water inlet pipeline is communicated with the left end of the fluid outer container, the right end of the fluid outer container is communicated with the external connecting pipeline, the external pipeline is communicated with the right end of the high-conductivity heat collecting pipe group, the high-conductivity heat collecting pipe group comprises a main heat collecting pipe and a plurality of auxiliary heat collecting pipes, two ends of the plurality of auxiliary heat collecting pipes are communicated with the main heat collecting pipe through pipelines, the auxiliary heat collecting pipes correspond to the infrared heating pipes, and the infrared heating tube and the auxiliary heat collecting tube are uniformly distributed at intervals around the main heat collecting tube.

Furthermore, the furnace body of the heating furnace is made of a material with high heat conductivity, and a heat-conducting coating is arranged on the inner wall of the heating furnace.

Still further, the infrared heating tube is electrically connected with an intelligent control system.

Still further, the number of the infrared heating pipes and the number of the auxiliary heat collecting pipes are increased or decreased according to the change of the heating area.

Still further, the number of the infrared heating tubes and the number of the auxiliary heat collecting tubes are specifically set to be four, and the infrared heating tubes and the auxiliary heat collecting tubes are circumferentially and uniformly distributed by taking the main heat collecting tubes as centers.

Still further, the number of infrared heating tubes specifically sets up to eight, the number of vice thermal-collecting tube specifically sets up to four, and uses main thermal-collecting tube is the circumference equipartition as the center.

Still further, the water outlet pipeline and the external connecting pipeline are respectively arranged at the central positions of the left end and the right end of the high-conductivity heat collecting pipe set.

Still further, the circulating device is specifically set as a low-power water pump.

Compared with the prior art, the utility model discloses a beneficial technological effect: 1) the heating mode of water-electricity separation improves the safety and durability in the using process; 2) in the heat energy absorption process, a repeated and step-by-step heating mode is adopted, so that the full conversion of photoelectricity and heat energy is achieved, the energy consumption is reduced, and the environment is protected and pollution is avoided; 3) the modular design breaks through the limitation of the heating area, the number of modules can be increased or reduced at will due to the change of the heating area, and the installation is convenient and quick; 4) the intelligent control can be realized, the accurate temperature control can be realized in a background management mode, and the remote operation can be realized.

Drawings

The present invention will be further explained with reference to the following description of the drawings.

Fig. 1 is a schematic view of the structure and water flow direction of the infrared heat energy module of the present invention;

FIG. 2 is a schematic axial sectional view of a heating furnace according to embodiment 1 of the present invention;

fig. 3 is a schematic perspective view of embodiment 1 of the present invention;

fig. 4 is a schematic perspective view of embodiment 2 of the present invention;

description of reference numerals: 1. heating furnace; 2. a fluid outer bladder; 3. a primary heat collection tube; 4. a secondary heat collecting tube; 5. an infrared heating tube; 6. a water outlet pipeline; 7. a circulation device; 8. a water inlet pipe; 9. an externally connected pipeline; 10. and an insulating and heat-insulating layer.

Detailed Description

Example 1

As shown in fig. 1-3, an infrared heat energy module comprises a heating furnace 1, a fluid outer container 2 is disposed outside the heating furnace 1, an insulating layer 10 is disposed on the outer peripheral surface of the fluid outer container 2, the insulating layer 10 can prevent heat loss and prevent electric shock accidents, a high-conductivity heat collection tube set and four infrared heating tubes 5 are disposed inside the heating furnace 1, water in the high-conductivity heat collection tube set can absorb heat energy generated by the infrared heating tubes 5, the left end of the high-conductivity heat collection tube set is communicated with a water outlet pipe 6, the water outlet pipe 6 is communicated with a water inlet pipe 8 through a circulating device 7, the circulating device 7 is specifically configured as a low-power water pump for accelerating water flow in the pipe, the water inlet pipe 8 is communicated with the left end of the fluid outer container 2, and the right end of the fluid outer container 2 is communicated with an external connecting pipe 9, the external connecting pipeline 9 is communicated with the right end of the high-conductivity heat collecting pipe group, the high-conductivity heat collecting pipe group comprises a main heat collecting pipe 3 and four auxiliary heat collecting pipes 4, two ends of the four auxiliary heat collecting pipes 4 are communicated with the main heat collecting pipe 3 through pipelines, the auxiliary heat collecting pipes 4 correspond to the infrared heating pipe 5, the infrared heating pipe 5 and the auxiliary heat collecting pipes 4 are circumferentially and evenly distributed by taking the main heat collecting pipe 3 as the center, the quantity of the infrared heating pipe 5 and the auxiliary heat collecting pipes 4 is increased or reduced according to the change of the heating area, when one infrared heating pipe 5 is damaged, the infrared heating pipe can be replaced without affecting the use of the other infrared heating pipes 5.

The furnace body of the heating furnace 1 is made of materials with high heat conductivity, and the inner wall of the heating furnace 1 is provided with a heat-conducting coating, so that water in the fluid outer container 2 can absorb heat energy generated by the infrared heating tube 5, and then further absorbs the heat energy when passing through the high-conductivity heat collecting tube set, so that the water can be repeatedly and gradually heated, and the full conversion between photoelectricity and heat energy is achieved.

The water outlet pipeline 6 and the external pipeline 9 are respectively arranged at the central positions of the left end and the right end of the high-conductivity heat collection pipe set, so that circulation is formed, and turbulent flow of a water body is accelerated.

The infrared heating tube 5 is electrically connected with the intelligent control system, can be subjected to background management, realizes accurate temperature control, and can realize remote operation.

Example 2

As shown in fig. 4, the principle of the present embodiment is the same as that of embodiment 1, and the specific difference is that, in the present embodiment, the number of the infrared heating tubes 5 is specifically set to eight, the number of the auxiliary heat collecting tubes 4 is specifically set to four, and the main heat collecting tubes 3 are circumferentially and uniformly distributed.

During heating, the fluid outer container 2 and each pipeline are filled with water, the water is conveyed to a region to be heated through the water outlet pipeline 6 after being electrically heated, the temperature of the water is gradually reduced in the process, the water is returned to the fluid outer container 2 through the water inlet pipeline 8 through the circulating device 7, the water absorbs heat energy generated by the infrared heating tube 5 in the fluid outer container 2, then the water flows through the high-conductivity heat collecting tube group through the external connecting pipeline 9, the heat energy is further absorbed, the water is conveyed to the region to be heated through the water outlet pipeline 6 again, and the circulation is repeated until the temperature of the region to be heated reaches a set temperature.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (8)

1. An infrared heat energy module, its characterized in that: the heating furnace comprises a heating furnace (1), wherein a fluid outer container (2) is arranged outside the heating furnace (1), an insulating and heat-insulating layer (10) is arranged on the outer peripheral surface of the fluid outer container (2), a high-conductivity heat collection pipe group and a plurality of infrared heating pipes (5) are arranged inside the heating furnace (1), the left end of the high-conductivity heat collection pipe group is communicated with a water outlet pipeline (6), the water outlet pipeline (6) is communicated with a water inlet pipeline (8) through a circulating device (7), the water inlet pipeline (8) is communicated with the left end of the fluid outer container (2), the right end of the fluid outer container (2) is communicated with an external connecting pipeline (9), the external connecting pipeline (9) is communicated with the right end of the high-conductivity heat collection pipe group, the high-conductivity heat collection pipe group comprises a main heat collection pipe (3) and a plurality of auxiliary heat collection pipes (4), and the two ends of the plurality of the auxiliary heat collection pipes (4) are communicated with the main heat collection pipe (, the auxiliary heat collecting tubes (4) correspond to the infrared heating tubes (5), and the infrared heating tubes (5) and the auxiliary heat collecting tubes (4) surround the main heat collecting tubes (3) and are evenly distributed at intervals.

2. The infrared thermal energy module of claim 1, wherein: the furnace body of the heating furnace (1) is made of materials with high heat conductivity, and a heat-conducting coating is arranged on the inner wall of the heating furnace (1).

3. The infrared thermal energy module of claim 1, wherein: the infrared heating tube (5) is electrically connected with the intelligent control system.

4. The infrared thermal energy module of claim 1, wherein: the number of the infrared heating pipes (5) and the number of the auxiliary heat collecting pipes (4) are increased or decreased according to the change of the heating area.

5. The infrared thermal energy module of claim 4, wherein: the number of the infrared heating tubes (5) and the number of the auxiliary heat collecting tubes (4) are specifically set to four, and the infrared heating tubes and the auxiliary heat collecting tubes are circumferentially and uniformly distributed by taking the main heat collecting tubes (3) as centers.

6. The infrared thermal energy module of claim 4, wherein: the number of the infrared heating tubes (5) is specifically eight, the number of the auxiliary heat collecting tubes (4) is specifically four, and the main heat collecting tubes (3) are circumferentially and uniformly distributed as the center.

7. The infrared thermal energy module of claim 1, wherein: the water outlet pipeline (6) and the external connecting pipeline (9) are respectively arranged at the central positions of the left end and the right end of the high-conductivity heat collecting pipe set.

8. The infrared thermal energy module of claim 1, wherein: the circulating device (7) is specifically set to be a low-power water pump.

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