KR200453397Y1 - Penetration type vacuum tube for solar collect - Google Patents

Abstract

The present invention relates to a solar heat collecting vacuum tube for use in a solar heat collecting device, and the heat collecting heat pipe is designed to penetrate a double glass tube having an open top and a bottom open so that heat recovery efficiency can be improved through smooth heat transfer in the heat absorbing tube. It relates to a vacuum tube.

Solar heat collection vacuum tube by this invention,

In a solar heat collecting vacuum tube in which a heat absorbing tube is provided in a vacuum treated double glass tube, and the heat absorbing tube is fixed to the double glass tube by packing,

The centers of the top and bottom of the double glass tube 11 are opened, and the heat absorbing tube 12 which receives the heat medium through the top and bottom of the open double glass tube 11 penetrates, and the top and bottom of the double glass tube 11 opened. The packing 13 is provided between the heat absorbing tube 12 and the outer circumferential surface, and the thin aluminum 14 is wrapped around the heat absorbing tube 12 outer circumferential surface and the inner glass tube inner surface of the double glass tube 11.

Solar heat collector, vacuum tube, double glass tube, endothermic tube, packing, heat recovery

Description

Solar type vacuum tube {Penetration type vacuum tube for solar collect}

The present invention relates to a solar heat collecting vacuum tube for collecting solar heat, and more particularly, the heat absorbing tube penetrates a double glass tube having an open top and a lower end so as to improve heat recovery efficiency through smooth heat transfer in the heat absorbing tube. It relates to a solar heat collecting vacuum tube.

The solar heat collecting device is provided with a collecting vacuum tube.
In this case, the conventional heat collecting vacuum tube is formed by forming a coating film 26 on the inner surface of the cylindrical transparent double glass tube 21 vacuum-treated as shown in FIG. 2, and the double glass tube 21 is opened at one end of both ends. Since the heat medium inflow and outflow proceed through the same path, the heat medium having thermal energy causes a circulation failure in the process of collecting solar heat, resulting in a decrease in overall heat recovery efficiency.
That is, in the conventional heat collecting vacuum tube, an opening is formed in the upper portion of the double glass tube 21 having the vacuum portion 25, and the heat pipe 22 wrapped in the aluminum thin plate 24 is inserted through the opening of the double glass tube. Since the heat pipe 22 is fixed by the fixing packing 23, and the heat medium is circulated in the heat pipe 22, the heat medium circulation is not smooth and there is a problem that the heat recovery efficiency is lowered.

The present invention has been proposed in view of the above-mentioned circumstances, and the solar heat collecting vacuum tube which allows the heat absorbing tube to penetrate the double glass tube having the upper and lower ends open to increase the heat recovery efficiency through smooth heat transfer in the heat absorbing tube. The purpose is to provide.

Solar heat collecting vacuum tube according to the present invention for achieving the above object,
In a solar heat collecting vacuum tube in which a heat absorbing tube is provided in a vacuum treated double glass tube, and the heat absorbing tube is fixed to the double glass tube by packing,
The center of the top and bottom of the double glass tube is opened, the heat absorbing tube for receiving the heat medium passes through the open top and bottom of the open double glass tube, and a packing is provided between the top and bottom of the open double glass tube and the outer circumferential surface of the heat absorbing tube. The thin aluminum is wrapped around the outer circumferential surface of the endothermic tube and the inner glass tube of the double glass tube.

Solar heat collecting vacuum tube according to the present invention is that the heat absorbing tube penetrates the upper and lower ends of the double glass tube, the heat medium flowing from the bottom of the heat absorbing tube is discharged to the upper end of the heat absorbing tube, so the heat medium in the heat absorbing tube can be made smoothly. It is possible to increase the heat recovery efficiency through the heat medium progression.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

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As shown in FIG. 1, the solar heat collecting vacuum tube according to the present invention includes a double glass tube 11, a heat absorbing tube 12, a packing 13, and an aluminum thin plate 14.
The double glass tube 11 is a vacuum unit 15 between the outer glass tube and the inner glass tube, and the upper and lower centers thereof are opened.
It is preferable that a coating film 16 for absorbing heat is formed on the outer circumferential surface of the inner glass tube serving as the light receiving portion in the double glass tube 11.
Since the coating film for absorbing heat is generally formed in the solar heat collecting vacuum tube, a detailed description of the method of forming the coating film and the material of the coating film is omitted.
The heat absorbing tube 12 accommodates the heat medium, and penetrates the upper and lower ends of the open double glass tube 11.
At this time, the heat absorbing tube 12 is preferably made of a material having high thermal conductivity, such as a copper pipe, and the heat medium contained in the heat absorbing tube 12 is preferably water or an antifreeze.
The packing 13 is coupled to the open top and bottom of the double glass tube (11).
Since the packing 13 is coupled to the open top and bottom of the double glass tube 11, it is possible to prevent a space from occurring between the top and bottom of the double glass tube 11 and the outer circumferential surface of the heat absorbing tube 12. It is possible to maintain the state 12 penetrated the double glass tube 11.
The thin aluminum plate 14 surrounds the inner circumferential surface of the heat absorbing tube 12 and the inner glass tube of the double glass tube 11.
At this time, the surface of the aluminum thin plate 14 may be coated with a heat absorbing material.
Since the surface of the aluminum thin plate 14 is coated with a heat absorbing material, it is possible to increase the heat absorbing efficiency.

In the solar heat collecting vacuum tube according to the present invention as described above, the heat absorbing tube 12 in the double glass tube 11 is heated inside the heat medium when the double glass tube 11 receives light.
At this time, the heat absorbing tube 12 is to penetrate the double glass tube 11 up and down in a fixed state by the packing 13, the heat medium heated in the heat absorbing tube 12 is able to expand and proceed to the top. Since the heat medium before heating is continuously introduced from the bottom of the heat absorbing tube 12, the heat medium in the heat absorbing tube 12 can be smoothly made to increase the heat recovery efficiency.

The present invention as described above is not limited to the above-described embodiment and can be changed within the scope without departing from the spirit of the present invention claimed in the claims, such changes are within the scope of the claims.

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1 is a cross-sectional view for explaining the structure of a solar heat collecting vacuum tube according to the present invention
2 is a cross-sectional view for explaining the structure of a conventional solar heat collecting vacuum tube
<Explanation of symbols for the main parts of the drawings>

11 double glass tube 12 endothermic tube
13: packing 14: aluminum sheet
15: vacuum 16: coating film

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21: double 22: heat pipe
23 packing 24 aluminum sheet
25: vacuum portion 26: coating film

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Claims (3)

In a solar heat collecting vacuum tube in which a heat absorbing tube is provided in a vacuum treated double glass tube, and the heat absorbing tube is fixed to the double glass tube by packing, The center of the top and bottom of the double glass tube is opened, the heat absorbing tube for receiving the heat medium passes through the open top and bottom of the open double glass tube, and a packing is provided between the top and bottom of the open double glass tube and the outer circumferential surface of the heat absorbing tube. The solar heat collecting vacuum tube, characterized in that the thin aluminum wrapped around the inner circumferential surface of the heat absorbing tube and the inner glass tube of the double glass tube. The method of claim 1, The solar heat collecting vacuum tube, characterized in that the coating film for absorbing heat is formed on the outer peripheral surface of the inner glass tube of the double glass tube. The method of claim 1, The surface of the aluminum sheet is a solar heat collecting vacuum tube, characterized in that the coating with a heat absorbing material.

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