CN220750431U - High-temperature and high-efficiency solar heat collector - Google Patents

Abstract

The utility model discloses a solar heat collector with high temperature and high efficiency, which comprises a plurality of solar heat collecting components, wherein each solar heat collecting component comprises a solar pipe, an oil inlet pipe, an oil outlet pipe and an outer shell; the solar tube comprises a low-temperature tube, a heating tube, a constant-temperature tube and a high-temperature output tube; the oil inlet pipe is provided with a first tee joint, the oil outlet pipe is provided with a second tee joint, and the oil inlet pipe is connected with the solar pipe through the first tee joint; the output end of the solar tube is connected with the input end of the low-temperature tube, the output end of the low-temperature tube is connected with the input end of the heating tube, and the output end of the heating tube is connected with the input end of the constant-temperature tube; the utility model ensures that the solar heat collector not only realizes the high-temperature and high-efficiency heat collection effect, but also greatly reduces the total weight of the heat collector, has lower manufacturing cost and solves the problem that the cold and hot water exchange in summer is easy to cause tube explosion; the temperature is too low in winter, and the pipe is not broken by freezing without heating.

Description

High-temperature and high-efficiency solar heat collector

Technical Field

The utility model relates to the technical field of solar heat collectors, in particular to a solar heat collector with high temperature and high efficiency.

Background

A solar collector is a device that converts radiant energy of the sun into thermal energy. Because solar energy is relatively diffuse, it must be managed to be concentrated, and therefore, collectors are a critical part of a variety of solar devices. Because of the different uses, the heat collectors and their matching system types are classified into many types, and the names are also different.

The existing solar heat collector has the following technical problems: the existing solar heat collector is easy to generate tube explosion phenomenon during cold and hot water exchange in summer; when the temperature is too low in winter, it is easy to appear that the tube will be frost-broken without heating.

Therefore, a solar collector with high temperature and high efficiency is a urgent problem to be solved.

Disclosure of Invention

The utility model aims to solve the technical problem that the existing solar heat collector is easy to generate tube explosion phenomenon during cold and hot water exchange in summer; when the temperature is too low in winter, it is easy to appear that the tube will be frost-broken without heating.

In order to solve the technical problems, the technical scheme provided by the utility model is as follows: the solar heat collector comprises a plurality of solar heat collecting components, wherein each solar heat collecting component comprises a solar pipe, an oil inlet pipe, an oil outlet pipe and an outer shell;

the solar tube comprises a low-temperature tube, a heating tube, a constant-temperature tube and a high-temperature output tube;

the oil inlet pipe is provided with a first tee joint, the oil outlet pipe is provided with a second tee joint, and the oil inlet pipe is connected with the solar pipe through the first tee joint;

the output of solar tube is connected with the input of low temperature pipe, the output of low temperature pipe is connected with the input of intensification pipe, the output of intensification pipe is connected with the input of thermostatic tube, the output of thermostatic tube is connected with the input of high temperature output tube, the output of high temperature output tube is connected with the delivery line through the second tee bend.

Furthermore, the low-temperature tube, the heating tube, the constant-temperature tube and the high-temperature output tube are all U-shaped tubes.

Further, the outer shell comprises a first outer shell, a second outer shell, a third outer shell and a fourth outer shell;

the lower Wen Guanshe is arranged in a first outer shell, and a first cover body is arranged at the bottom of the first outer shell;

the heating pipe is arranged in the second outer shell, and a second cover body is arranged at the bottom of the second outer shell;

the constant temperature pipe is arranged in a third outer shell, and a third cover body is arranged at the bottom of the third outer shell;

the high-temperature output pipe is arranged in the fourth outer shell, and a fourth cover body is arranged at the bottom of the fourth outer shell.

Further, the first cover body, the second cover body, the third cover body and the fourth cover body are identical in structure and size, an inlet and an outlet are formed in the first cover body, the inlet is connected with the first tee joint through a first pipeline, and the outlet is connected with the inlet in the second cover body through a second pipeline.

Furthermore, the outer shell is made of metal materials.

Compared with the prior art, the utility model has the advantages that: the solar heat collector adopts the matching structure of the low-temperature pipe, the heating pipe, the constant-temperature pipe, the high-temperature output pipe, the oil inlet pipe, the oil outlet pipe and the outer shell, so that the solar heat collector not only realizes the high-temperature efficient heat collection effect, but also greatly reduces the total weight of the heat collector and has lower manufacturing cost; solves the problem that the cold and hot water exchange is easy to cause tube explosion in summer; the temperature is too low in winter, and the tube is not broken by freezing without heating; the utility model is suitable for places needing hot water in agriculture and industry, and saves more energy sources for household heating; the utility model has reasonable design and is worth popularizing.

Drawings

Fig. 1 is a schematic structural view of a solar collector with high temperature and high efficiency according to the present utility model.

Fig. 2 is a schematic view of a solar tube in a solar collector with high temperature and high efficiency according to the present utility model.

As shown in the figure: 1. the solar heat collection group comprises 2, solar pipes, 3, a low-temperature pipe, 4, a heating pipe, 5, a constant-temperature pipe, 6, a high-temperature output pipe, 7, an oil inlet pipe, 8, an oil outlet pipe, 9, an outer shell, 10, a first tee joint, 11, a second tee joint, 12, a first outer shell, 13, a second outer shell, 14, a third outer shell, 15, a fourth outer shell, 16, a first cover, 17, a second cover, 18, a third cover, 19, a fourth cover, 20, an inlet, 21, an outlet, 22, a first pipeline, 23 and a second pipeline.

Detailed Description

The solar heat collector with high temperature and high efficiency of the utility model is further described in detail below with reference to the accompanying drawings.

The present utility model will be described in detail with reference to fig. 1-2.

A solar heat collector with high temperature and high efficiency, which comprises a plurality of solar heat collecting assemblies 1, wherein each solar heat collecting assembly 1 comprises a solar pipe 2, an oil inlet pipe 7, an oil outlet pipe 8 and an outer shell 9;

the solar tube 2 comprises a low-temperature tube 3, a heating tube 4, a constant-temperature tube 5 and a high-temperature output tube 6;

the oil inlet pipe 7 is provided with a first tee joint 10, the oil outlet pipe 8 is provided with a second tee joint 11, and the oil inlet pipe 7 is connected with the solar pipe 2 through the first tee joint 10;

the output end of the solar tube 2 is connected with the input end of the low-temperature tube 3, the output end of the low-temperature tube 3 is connected with the input end of the heating tube 4, the output end of the heating tube 4 is connected with the input end of the constant-temperature tube 5, the output end of the constant-temperature tube 5 is connected with the input end of the high-temperature output tube 6, and the output end of the high-temperature output tube 6 is connected with the oil outlet tube 8 through a second tee joint 11.

The low temperature pipe 3, the heating pipe 4, the constant temperature pipe 5 and the high temperature output pipe 6 are all U-shaped pipes.

The outer housing 9 includes a first outer housing 12, a second outer housing 13, a third outer housing 14, and a fourth outer housing 15;

the low-temperature tube 3 is arranged in the first outer shell 12, and a first cover 16 is arranged at the bottom of the first outer shell 12;

the heating pipe 4 is arranged in the second outer shell 13, and a second cover 17 is arranged at the bottom of the second outer shell 13;

the thermostatic tube 5 is arranged in a third outer shell 14, and a third cover 18 is arranged at the bottom of the third outer shell 14;

the high-temperature output pipe 6 is arranged in the fourth outer shell 15, and a fourth cover 19 is arranged at the bottom of the fourth outer shell 15.

The first cover 16, the second cover 17, the third cover 18 and the fourth cover 19 have the same structure and size, the first cover 16 is provided with an inlet 20 and an outlet 21, the inlet 20 is connected with the first tee 10 through a first pipeline 22, and the outlet 21 is connected with an inlet on the second cover 17 through a second pipeline 23.

The outer shell 9 is made of metal materials.

The utility model relates to a solar heat collector with high temperature and high efficiency, which comprises the following concrete implementation processes: firstly, arranging a low-temperature tube 3 and a solar tube 2 in a first outer shell 12, so that the output end of the solar tube 2 is connected with the input end of the low-temperature tube 3; arranging the warming tube 4 in the second outer case 13 such that the output end of the low temperature tube 3 is connected with the input end of the warming tube 4; arranging the thermostatic tube 5 in the third outer shell 14 such that the output end of the warming tube 4 is connected with the input end of the thermostatic tube 5; the high-temperature output pipe 6 is arranged in the fourth outer shell 15, so that the output end of the high-temperature output pipe 6 is connected with the oil outlet pipe 8 through the second tee joint 11;

the cold oil is transmitted to the low-temperature pipe 3 through the oil inlet pipe 7, gradually heated through the low-temperature pipe 3, then transmitted to the heating pipe 4, heated through the heating pipe 4, transmitted to the constant-temperature pipe 5 after being heated, and then transmitted to the high-temperature output pipe 6 after being stabilized in temperature through the constant-temperature pipe 5, and the high-temperature oil is transmitted through the oil outlet pipe 8.

The solar heat collector adopts the matching structure of the solar tube 2, the low-temperature tube 3, the heating tube 4, the constant-temperature tube 5, the high-temperature output tube 6, the oil inlet tube 7, the oil outlet tube 8 and the outer shell 9, so that the solar heat collector not only realizes the high-temperature efficient heat collection effect, but also greatly reduces the total weight of the heat collector and has lower manufacturing cost; solves the problem that the cold and hot water exchange is easy to cause tube explosion in summer; the temperature is too low in winter, and the tube is not broken by freezing without heating; the utility model is suitable for places needing hot water in agriculture and industry, and saves more energy sources for household heating; the utility model has reasonable design and is worth popularizing.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (5)

1. A solar heat collector with high temperature and high efficiency is characterized in that: the solar heat collector comprises a plurality of solar heat collecting components (1), wherein the solar heat collecting components (1) comprise a solar pipe (2), an oil inlet pipe (7), an oil outlet pipe (8) and an outer shell (9);

the solar tube (2) comprises a low-temperature tube (3), a heating tube (4), a constant-temperature tube (5) and a high-temperature output tube (6);

the oil inlet pipe (7) is provided with a first tee joint (10), the oil outlet pipe (8) is provided with a second tee joint (11), and the oil inlet pipe (7) is connected with the solar pipe (2) through the first tee joint (10);

the output of solar tube (2) is connected with the input of low temperature pipe (3), the output of low temperature pipe (3) is connected with the input of intensification pipe (4), the output of intensification pipe (4) is connected with the input of thermostatic tube (5), the output of thermostatic tube (5) is connected with the input of high temperature output tube (6), the output of high temperature output tube (6) is connected with oil outlet pipe (8) through second tee bend (11).

2. A solar collector with high temperature efficiency as defined in claim 1 wherein: the low-temperature tube (3), the heating tube (4), the constant-temperature tube (5) and the high-temperature output tube (6) are all U-shaped tubes.

3. A solar collector with high temperature efficiency as defined in claim 2 wherein: the outer shell (9) comprises a first outer shell (12), a second outer shell (13), a third outer shell (14) and a fourth outer shell (15);

the low-temperature pipe (3) is arranged in a first outer shell (12), and a first cover body (16) is arranged at the bottom of the first outer shell (12);

the heating pipe (4) is arranged in the second outer shell (13), and a second cover body (17) is arranged at the bottom of the second outer shell (13);

the constant temperature pipe (5) is arranged in a third outer shell (14), and a third cover body (18) is arranged at the bottom of the third outer shell (14);

the high-temperature output pipe (6) is arranged in a fourth outer shell (15), and a fourth cover body (19) is arranged at the bottom of the fourth outer shell (15).

4. A solar collector as claimed in claim 3, wherein: the structure sizes of the first cover body (16), the second cover body (17), the third cover body (18) and the fourth cover body (19) are the same, an inlet (20) and an outlet (21) are arranged on the first cover body (16), the inlet (20) is connected with the first tee joint (10) through a first pipeline (22), and the outlet (21) is connected with an inlet on the second cover body (17) through a second pipeline (23).

5. A solar collector with high temperature efficiency as defined in claim 4 wherein: the outer shell (9) is made of metal materials.