CN201072201Y - Modular solar air circulation air conditioning device - Google Patents

Abstract

A modular air circulation air conditioning device capable of absorbing solar energy, the air conditioning device comprises: a box, a heat absorbing unit and a transparent cover; wherein the box has a ring wall, the lower edge of the ring wall receives the bottom, a containing space is formed between the ring wall and the bottom, a joint is provided on the inner side of the upper edge of the ring wall, the ring wall and the bottom are both provided with a pipe, the channel in the pipe communicates with the containing space of the box; the heat absorbing unit uses a metal material as a carrier, a heat absorbing component is arranged on the carrier; the transparent cover is arranged on the upper edge of the ring wall, and is provided with a pipe, the channel in the pipe communicates with the containing space. When the weather is cold, after the heat absorbing component absorbs solar heat energy, the heat source can be transported to the house through the transport pipe connected to the pipe to perform indoor heating and regulation.

Description

Modular Solar Air Cycle Air Conditioning Unit

technical field

The utility model relates to an air conditioner, in particular to a modularized solar air circulation device.

Background technique

Since human beings know how to use the original resources of nature to improve life and create a comfortable environment, human demand for energy has been increasing. Therefore, all countries in the world are committed to energy research and development.

Among the energy sources known to mankind, only solar energy is inexhaustible and inexhaustible. Therefore, many solar energy technology products have appeared now. For example, solar water heaters use heat collectors to collect heat from the sun to produce hot water, while solar cells use light-to-electricity converters to convert sunlight into electrical output to provide electricity for electrical products or vehicles.

At present, there is an air-conditioning system that collects heat energy from the sun and circulates air. When the weather is cold, the solar air-conditioning device can absorb the heat energy from the sun and deliver the heat energy to the house to heat and regulate the house. The structure of the known solar air conditioning system includes a solar collector assembly, an inlet assembly and an outlet assembly. Among them, the solar heat collector assembly includes a heat-absorbing assembly, a transparent cover plate and a bottom. The heat-absorbing assembly is surrounded by a plurality of support plates and heat-absorbing plates to form multiple heat-absorbing channels, and the inlet assembly is located at the entrance of the heat-absorbing assembly. It communicates with a plurality of heat-absorbing channels, and the outlet assembly is arranged at the outlet of the heat-absorbing assembly. When sunlight passes through the transparent cover and is absorbed by the heat-absorbing plate, the heat source can be transported into the house, and the house can be heated and adjusted in winter, and the heat source in the house can be led outside in summer, and fresh air can be introduced into the house , so as to realize the air conditioning system of air circulation regulation.

Although the system can adjust the temperature inside the house when the weather is cold, it can introduce fresh air from the outside into the house and discharge the heat source inside the house when the weather is hot, thereby realizing the regulation of the temperature inside the house. However, because the overall structural design of the system is complex and bulky, even if it is made modular, it is difficult for users to install it by themselves.

Utility model content

The main purpose of the utility model is to simplify the structure of the solar air circulation air conditioner.

In order to achieve the above purpose, the utility model proposes a modular solar air circulation air conditioning device, the air conditioning device includes: a box, a heat absorbing unit and a transparent cover; wherein, the box has a ring wall, the ring The lower edge of the wall is supported by a bottom, the ring wall and the bottom form an accommodating space, the inner side of the upper edge of the ring wall is provided with a joint, and the ring wall and the bottom are respectively provided with a pipe part, and the inside of the pipe part The channel communicates with the accommodating space; the heat-absorbing unit is used to be arranged in the accommodating space, and the metal material is used as a carrier, and a heat-absorbing component capable of absorbing solar heat is arranged on the carrier; The transparent cover is arranged on the upper edge of the ring wall, allowing sunlight to pass through, and a tube is provided on the surface, and the passage in the tube communicates with the accommodating space.

The solar air circulation air-conditioning device with the above structure is small in size and light in weight, and tends to be more modularized, so that users can easily and quickly install it by themselves.

Description of drawings

Fig. 1 is the exploded schematic view of solar air circulation air conditioner of the present utility model;

Fig. 2 is the combination schematic diagram of solar air circulation air conditioner of the present utility model;

Fig. 3 is a schematic side sectional view of the solar air circulation air conditioning device of the present utility model;

Fig. 4 is a schematic diagram of the thermal energy flow state of the solar air circulation air conditioning device of the present invention;

Fig. 5 is a schematic diagram of a plurality of solar air circulation air-conditioning devices connected in use of the utility model;

Fig. 6 is a schematic cross-sectional view of the connection of multiple solar air circulation air conditioning devices in Fig. 5;

Fig. 7 is a schematic diagram of another multiple solar air circulation air-conditioning devices connected and used in the present invention;

Fig. 8 is the schematic diagram of another embodiment of the utility model;

Fig. 9 is a schematic diagram of another embodiment of the present invention.

Explanation of main component symbols

Air conditioner 10, 10A, 10B

Box 1

ring wall 11

Storage space 12

Junction 13

Tubes 14, 14', 15, 31

Channels 141, 141', 151, 311

Insulation components 16, 23

Bottom 17

Heat absorption unit 2

Carrier 21

Heat sink assembly 22

Through holes 24, 25, 331

Transparent cover 3

first cover 32

Second cover plate 33

Delivery pipe 4, 4', 7, 7', 9

Plug body 5, 5'

Socket 6

house 8

Detailed ways

Relevant technical content and detailed description of the present utility model, now in conjunction with accompanying drawing, explain as follows:

Fig. 1 and Fig. 2 are the decomposition and assembly diagrams of the solar air circulation air conditioning device of the present utility model. As shown in the figure, it is a modularized solar air circulation air conditioning device of the present invention. The air conditioning device 10 includes: a box body 1 , a heat absorbing unit 2 and a transparent cover body 3 . Among them, the box body 1 has a ring wall 11, the lower edge of the ring wall 11 bears a bottom 17, the ring wall 11 and the bottom 17 form an accommodating space 12, and the inner side of the upper edge of the ring wall 11 is provided with an L-shaped section. The joint part 13 and the ring wall 11 are provided with two symmetrical circular pipe parts 14, 14', the channels 141, 141' in the pipe parts 14, 14' communicate with the accommodating space 12, and the bottom 17 of the box body 1 also A pipe portion 15 is provided, and the passage 151 in the pipe portion 15 communicates with the accommodating space 12, and the pipe portions 14, 14′, 15 can also be connected with pipes of another box body (not shown in the figure) in addition to the circulation of the heat source. In addition, a thermal insulation component 16 is attached to the inner wall of the ring wall 11, and the thermal insulation component 16 is a heat insulating material, which is used to prevent the internal heat source from being transmitted from the ring wall 11 of the box body 1 to the outside.

The heat-absorbing unit 2 is used to be arranged in the accommodating space 12, and has a carrier 21 on it. The carrier 21 is made of a metal material. One side of the carrier 21 is provided with a heat-absorbing component 22, which can absorb the heat of the sun through the heat-absorbing component 22. Heat energy, while the other side is provided with a thermal insulation component 23, the thermal insulation component 23 is a thermal insulation material, which is used to prevent the internal heat source from being transmitted from the bottom of the box body 1 to the outside. In addition, the carrier 21 , the heat absorbing component 22 and the heat insulating component 23 are provided with through holes 24 , 25 with the same position and shape for the heat source to flow into the channel 151 in the tube portion 15 . In this figure, the heat-absorbing component 22 is far-infrared rays, PTC inorganic oxidation heat-storage paint or dark paint (such as black paint).

The transparent cover 3 is a plate made of glass or acrylic transparent material. The transparent cover 3 is arranged on the upper edge of the ring wall 11 and joined with the L-shaped joint 13. The surface of the transparent cover 3 A pipe portion 31 is disposed on it, and the transparent cover 3 covers the joint portion 13 on the ring wall 11 , so that the channel 311 in the pipe portion 31 communicates with the accommodating space 11 .

Fig. 3 and Fig. 4 are side sectional views and schematic diagrams of thermal energy flow state of the solar air circulation air conditioning device of the present invention. As shown in the figure, when assembling the air conditioner 10 , first assemble the heat absorbing unit 2 in the accommodating space 12 of the box body 1 , and then cover the transparent cover 3 on the joint portion 13 on the upper edge of the ring wall 11 . The pipes 15, 31 can be connected to the pipes 4, 4' or to pipes of another tank (not shown). And the pipe portion 14, 14 ′ that is not connected with another casing or delivery pipe 4, 4 ′ can be sealed with a plug body (or cover body) 5, 5 ′ to prevent worms from entering or heat sources from leaking.

Since the transparent cover 3 can allow sunlight to penetrate into the inside of the box body 1, the heat absorbing component 22 can absorb solar heat energy, thereby generating a heat source inside the box body 1, and then through the pipe portion 14, 14', 15 or 31 can The heat source is exported or transported to the inside of another box (not shown in the figure).

Fig. 5 and Fig. 6 are the connection and use states of multiple solar air circulation air conditioning devices of the present invention and the connection cross-sectional schematic diagrams of the multiple solar air circulation air conditioning devices of Fig. 5 . As shown in the figure, when the weather is cold, multiple air conditioners 10 , 10A, 10B can be connected, and the air conditioners 10 , 10A, 10B can be locked on the roof of the house 8 through the L-shaped angle iron fixing assembly 20 . When connecting the air conditioners 10, 10A, 10B, the sleeve pipe 6 can be sleeved on the pipes 14', 14 of the air conditioners 10, 10A and 10A, 10B, at the bottom of the air conditioner 10 or the pipe portion of the air conditioner 10B 15, 14' is connected with conveying pipes 7, 7', and the unconnected pipes 14 or 31 are closed with plugs (or lids) 5, 5' to prevent insects from invading or heat sources from leaking out. The heat source generated by the absorption of solar energy by a plurality of heat-absorbing components 2 is transported to the house through the delivery pipes 7, 7', so as to adjust the temperature of the house. Or the heat source in the house is drawn out by the delivery pipe 7', and then transported to the house by the delivery pipe 7 after passing through the air conditioners 10B, 10A, 10C, so as to achieve the heating and regulation of the house in a cyclic manner.

In order to transport the heat source to the house quickly, a fan (not shown) can be arranged inside the pipe body of the delivery pipe 7, 7' or on the output port, so that the heat source delivered by the delivery pipe 7, 7' can be sent to the house or far away quickly. .

Fig. 7 is a schematic view of another multiple solar air circulation air conditioners connected and used according to the present invention. As shown in the figure, the utility model can make a plurality of air conditioners 10, 10A, 10B in a parallel state by connecting the elongated delivery pipe 9 to the pipe portion 31 of a plurality of air conditioners 10, 10A, 10B (or use a pipe parts 14, 14' are connected in series) so that the heat sources absorbed by the multiple air conditioners 10, 10A, 10B flow into the delivery pipe 9, and then the delivery pipe 9 transports the heat sources to the house intensively, so as to Heating regulation in the house.

Fig. 8 is a schematic diagram of another embodiment of the present invention. As shown in the figure, the transparent cover body 3 of the present invention includes two cover plates 32, 33, the first cover plate 32 covers the upper edge of the heat insulation assembly 16, and has a hollow tube portion 321 on the first cover plate 32, The second cover plate 33 is closed on the box body 1 , and the second cover plate 33 is provided with a through hole 331 sleeved on the tube portion 321 . The first cover plate 32 and the second cover plate 33 can allow sunlight to pass through, and can prevent heat energy from being transmitted to the outside by the cover plate 3 and causing heat energy loss.

Fig. 9 is a schematic diagram of another embodiment of the present invention. As shown in the figure, the ring wall 11 of the box body 1 of the present invention can be made of heat-insulating material or non-heat-insulating material (such as metal), and the bottom 17 of the box body 1 can directly be the heat-insulating assembly 23 of the heat-absorbing unit 2, so that The box body 1 forms a combined box body.

The above descriptions are only preferred embodiments of the present utility model, and are not intended to limit the patent scope of the present utility model. All equivalent structural transformations made by using the description of the utility model and the contents of the accompanying drawings are directly or indirectly used in other related applications. Technical fields are all included in the patent scope of the present utility model in the same way.

Claims (10)

1. modular solar air circulation aircondition is characterized in that described device comprises:

Casing has ringwall on it, the lower edge of described ringwall undertakes the bottom, described ringwall and described bottom formation accommodation space, and described ringwall and described bottom are provided with pipe portion, and the passage in the described pipe portion communicates with described accommodation space;

Heat absorbing units is disposed in the described accommodation space, has carrier on it, and described carrier is provided with the heat absorption assembly; And

Transparent cover body is disposed at the junction surface of the upper limb of described ringwall.

2. modular solar air circulation aircondition as claimed in claim 1 is characterized in that the upper limb of described ringwall is provided with the junction surface, and the section at described junction surface is the L type, is pasted with the heat-insulation assembly of being made by heat-insulating material on the inwall of described ringwall.

3. modular solar air circulation aircondition as claimed in claim 1 is characterized in that two pipe portions on the described ringwall are symmetrical arranged, and configurable when described pipe portion does not use have lid or a cock body.

4. modular solar air circulation aircondition as claimed in claim 1 is characterized in that the another side of described carrier is pasted with heat-insulation assembly.

5. modular solar air circulation aircondition as claimed in claim 1 is characterized in that the another side of described carrier is pasted with heat-insulation assembly, is used for the bottom as described casing.

6. modular solar air circulation aircondition as claimed in claim 1, it is characterized in that, the surface of described transparent cover body is provided with pipe portion, passage in the described pipe portion communicates with the accommodation space of described casing, the plates of described transparent cover body for making with the transparent material of glass or acryl.

7. modular solar air circulation aircondition as claimed in claim 1 is characterized in that described transparent cover body comprises first cover plate and second cover plate, and wherein said first cover plate is placed on the upper limb of heat-insulation assembly, and has hollow tube portion thereon; Described second cover plate is positioned at described box cover and closes, and described second cover plate is provided with the through hole that is placed in described pipe portion.

8. modular solar air circulation aircondition as claimed in claim 1, it is characterized in that described pipe portion can further connect carrier pipe, is used to carry thermal source, the equipped at outlet port of described carrier pipe disposes fan, makes it possible to carry described thermal source or deliver to described thermal source long-range fast.

9. modular solar air circulation aircondition as claimed in claim 1 is characterized in that, further is socketed with socket pipe in described two pipe portions, makes described solar air circulation aircondition in parallel or be connected in series.

10. modular solar air circulation aircondition as claimed in claim 1 is characterized in that, is connected with microscler carrier pipe in the pipe portion of a plurality of solar air circulation airconditions.

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