WO2013071691A1

WO2013071691A1 - Blade-type solar and air dual-energy heat collector

Info

Publication number: WO2013071691A1
Application number: PCT/CN2012/001416
Authority: WO
Inventors: 王斌
Original assignee: Wang Bin
Priority date: 2011-11-14
Filing date: 2012-10-23
Publication date: 2013-05-23
Also published as: CN102393080A; CN102393080B

Abstract

A blade-type solar and air dual-energy heat collector comprises a heat absorption plate (1) and a heat exchange medium circulation pipe (2). The heat exchange medium circulation pipe (2) is arranged on the heat absorption plate (1). Vent grooves (3) for circulating air through the front side and the back side of the heat absorption plate (1), are formed on the heat absorption plate (1). The heat absorption plate (1) is formed by a group of blades (11) separated from one another and inclined outwards. Vertical blades (12) vertical to the blades (11) are provided at the back side of the blades (11). The blade-type solar and air dual-energy heat collector improves the angle of sunshine irradiation, so that the solar heat collection efficiency is improved. Therefore, the heat collector can not only directly absorb the solar energy, but also directly absorb the air energy, thereby achieving the effect of dual-energy heat collection.

Description

Blade type solar energy-air energy dual energy collector

Technical field

The invention relates to a solar collector, in particular to a blade type solar-air energy dual energy collector. Background technique

In the thermal utilization of solar energy, the key is to convert the radiant energy of the sun into heat. Since solar energy is more dispersed, it must be managed to concentrate it. Therefore, collectors are a key part of various solar installations.

Flat plate collectors are generally used in solar water heaters and the like. The flat type solar collector mainly consists of a heat absorbing plate, a transparent cover plate, a heat insulating back plate and a casing.

When the flat type solar collector works, the solar radiation passes through the transparent cover, is projected on the heat absorption plate, is absorbed by the heat absorption plate and converted into heat energy, and then transmitted to the heat transfer medium in the heat absorption plate, so that The temperature of the heat transfer medium rises and serves as a useful energy output for the collector.

The flat type solar collector is one of the most basic types of solar collectors. It has the advantages of simple structure, reliable operation, reasonable cost, strong pressure bearing capacity and large heat absorption area. It is the best combination of solar energy and building. One of the selected collector types.

At present, all the solar energy and air energy collectors of the panel type are conventionally and fixedly adopting an integral heat absorbing plate. The frame structure is divided into two parts by the whole heat absorbing plate, and the two are not connected or the air cannot be fully formed. Circulation space. This type of structure fundamentally limits the simultaneous and sufficient absorption of air heat energy while absorbing solar thermal energy, reducing the heat collecting effect.

Summary of the invention

In order to improve the heat absorption efficiency of the absorption of air heat energy and the convective exchange rate of the hot and cold air on the basis of ensuring the solar heat absorption efficiency, the object of the present invention is to provide a blade type solar-air energy double. The heat collector can ensure the absorption of the solar heat energy by obtaining a good sunlight exposure angle while increasing the heat collecting area and improving the solar heat collecting efficiency; and simultaneously utilizing the ventilation groove formed between the upper and lower blades as the air Smooth convection, which allows for faster and better access to air, creates very good conditions and good heat collection.

The object of the present invention is achieved by the following technical solutions:

A blade type solar-air energy dual energy collector, comprising a heat absorption plate and a heat exchange medium circulation pipe, wherein the heat exchange medium circulation pipe is disposed on the heat absorption plate, wherein: the suction plate is provided with suction A venting groove through which the front and back of the hot plate circulate.

In the present invention, the heat absorbing plate is composed of a set of separate blades, the venting groove being a space between a plurality of separate blades; and the heat exchange medium circulation pipe is connected to a group of blades.

To achieve optimum endothermic efficiency, the heat absorbing plate consists of a set of separate and outwardly inclined blades. The heat absorbing plate may be a set of horizontally oriented blades that are longitudinally aligned and outwardly inclined.

In order to provide and absorb the area of the air heat, vertical blades arranged perpendicular to the front heat absorbing plate blades are provided on the back side of the blade. The axial direction of the blade is perpendicular to the axial direction of the vertical blade, and a set of blades are attached to the vertical blade.

In the present invention, a groove is provided on the back or front side of the blade, and the heat exchange medium circulation pipe is disposed on the back or front groove Inside, and fit on the blade.

In the present invention, the heat absorbing plate and the heat exchange medium circulation pipe are disposed in the outer casing such that the heat exchanger forms a frame structure. In the present invention, a set of front faces of the blades are used to absorb the solar heat energy generated by the directly exposed sunlight, and absorb the heat energy of the air in the contacted air in the absence of light, and transmit them to the inlaid in the grooves and closely match them. The heat circulation tube realizes the heat collecting and heat exchange function of the collector for solar energy and air energy. A set of vertical blades connected to the back of a set of blades utilizes a set of venting grooves formed independently of the blades and having a certain inclination. The ventilation conditions are good, and the air heat is naturally absorbed, and is transmitted to the heat exchange circulation pipe through the front blades, so that In the absence of light conditions or in the heat transfer of a set of blades, the heat absorption area is doubled to absorb the heat of the air, and relatively sufficient heat energy is obtained to realize the dual energy heat collecting and heat exchange function of solar energy and air energy.

The invention breaks through the traditional concept, and the heat absorbing plate is composed of a set of blades with camber angles, which ensures the good sunlight receiving angle while increasing the heat collecting area and improving the solar heat collecting efficiency; and simultaneously utilizing the ventilation formed between the upper and lower blades The trough creates conditions for smooth convection of the air, resulting in faster and better access to air energy.

Compared with the prior art, the invention uses the positive inclination of the front heat absorbing plate to improve the sunlight exposure angle, increase the solar heat energy absorption rate and increase the heat collecting area, and improve the solar heat collecting efficiency; The venting groove makes the other group of blades connected with the τ-type structure on the back become the effective area for direct contact with the air, and realizes the dual-energy collection of the entire collector which can directly absorb the solar heat energy and directly absorb the air heat energy. effect.

DRAWINGS

Figure 1 is a schematic view of the structure of the present invention.

Fig. 2 is a schematic view showing the structure of the heat absorbing plate of the present invention which adopts a set of separate blades and is inclined outward.

Figure 3 is a schematic view showing the structure in which the heat absorbing plate of the present invention adopts a set of separate blades but is not inclined outward.

detailed description

A blade type solar-air energy dual energy collector according to the present invention is shown in Fig. 1. The heat collector comprises a heat absorbing plate 1 and a heat exchange medium circulation pipe 2, and the heat exchange medium circulation pipe 2 is arranged at an endothermic On the plate 1, the heat absorbing plate 1 is provided with a venting groove 3 through which the front and back surfaces of the heat absorbing plate are circulated.

Fig. 2 is a schematic view showing the structure of the heat absorbing plate of the present invention which adopts a set of separate blades and is inclined outward. The heat absorbing plate 1 is composed of a plurality of separate blades 11 which are longitudinally arranged and inclined outward. The venting groove 3 is a space between a plurality of separate blades; the heat exchange medium circulation pipe 2 is connected to a group of blades 11.

In order to have and expand the area for absorbing air heat, a vertical vane 12 disposed perpendicular to the vane is provided on the back surface of the vane 11. The axial direction of the blade 11 is perpendicular to the axial direction of the vertical blade 12, and a group of blades 11 are attached to the vertical blade 12.

A groove 13 is provided on the back or front surface of the blade 11, and the heat exchange medium circulation pipe 2 is disposed in the groove 13 on the back or front surface and fitted to the blade 11.

The heat absorbing plate 1 and the heat exchange medium circulation pipe 2 may be disposed in the outer casing such that the heat exchanger forms a frame structure.

Fig. 3 is a schematic view showing the structure of the heat absorbing plate of the present invention which adopts a set of separate blades but is not inclined outward. Heat absorbing plate 1 by one The set of separate vanes 11 is formed, the venting groove 3 is a space between a set of separate vanes; the heat exchange medium circulation pipe 2 is connected to a set of vanes 11.

In the present invention, the heat absorbing plate and the heat exchange medium circulation pipe may be disposed in the outer casing such that the heat exchanger forms a frame structure. The heat absorbing plate of the invention is composed of a set of blades with camber angles, which ensures the good sunlight receiving angle while increasing the heat collecting area and improving the solar heat collecting efficiency; and simultaneously adopting the venting groove formed between the upper and lower blades as the air Smooth convection creates conditions to obtain air energy faster and better, and improve the heat collection and heat transfer efficiency of solar thermal energy and air thermal energy.

Claims

Rights request

1. A vane type solar-air energy dual energy collector comprising a heat absorbing plate (1) and a heat exchange medium circulation pipe (2), and a heat exchange medium circulation pipe (2) disposed on the heat absorbing plate (1) , characterized in that: a heat absorbing plate is provided on the heat absorbing plate (1)

(1) Ventilation slots for front and back air circulation (3).

2. The blade type solar-air energy dual energy collector according to claim 1, wherein: the heat absorbing plate (1) is composed of a set of separate blades (11), and the venting groove (3) is The spacing between a set of separate blades (11); the heat exchange medium circulation pipe (2) is connected to a set of blades (11).

3. A blade type solar-air energy dual energy collector according to claim 2, characterized in that the heat absorbing plate (1) consists of a set of separate and outwardly inclined blades (11).

The blade type solar-air energy dual energy collector according to claim 2, characterized in that the heat absorbing plate (1) is a set of blades (11) which are longitudinally arranged and inclined outward.

The blade type solar-air energy dual energy collector according to claim 2 or 3, characterized in that: on the back side of the blade (11), a vertical blade (12) arranged perpendicularly to the blade (11) is provided .

6. The blade type solar-air energy dual energy collector according to claim 5, characterized in that: the axial direction of the blade (11) is perpendicular to the axial direction of the vertical blade (12), and a group of blades (11) are connected. On the vertical blade (12).

7. The blade type solar-air energy dual energy collector according to claim 2, characterized in that: a groove (13) is provided on the back or front side of the blade (11), and the heat exchange medium circulation pipe (2) Set in the groove (13) on the back or front side and fit on the blade (11).

8. The blade type solar-air energy dual energy collector according to claim 2, characterized in that the heat absorbing plate (1) and the heat exchange medium circulation pipe (2) are disposed in the outer casing.