WO2010108428A1 - Steam box heated by solar collecting tubes - Google Patents

Abstract

A steam box heated by solar collecting tubes comprises solar collecting tubes (1, 11, 22) and a steam box (2, 12, 21). The solar collecting tubes (1, 11, 22) are radially arranged, and the opening ends of which are connected with the steam box (2, 12, 21) hermetically. A cylindrical body (5, 15) made of poor thermal-conducting material is provided within the solar collecting tube (1, 11, 22) and matches with the solar collecting tube (1, 11, 22). An interspace (6, 16) is defined between the cylindrical body (5, 15) and the inner wall of the solar collecting tube (1, 12, 22), wherein heated liquid may be stored. When the solar collecting tubes (1, 11, 22) are irradiated by sunlight, the liquid is heated rapidly to generate steam. The steam enters the steam box (2, 12, 21) and heats the food in the steam box (2, 12, 21). When the steam box heated by solar collecting tubes is not in use, the solar collecting tubes (1, 11, 22) can be removed from the steam box (2, 12, 21) for easy carrying.

Description

 Solar collector tube heating steam box Technical field

The utility model relates to the field of steam heating equipment, in particular to a solar heating type steam device.

Background technique

There are currently two main types of solar heating on the market: concentrating and non-concentrating types of heat collection.

technical problem

Concentrated solar heating equipment is mostly bulky and heavy, not easy to carry, non-concentrating solar heating equipment to heat to boiling for a long time, most of the time spent on the heating of excess water, and solar energy utilization efficiency is not high, heating effect is not Good, especially ordinary solar collector tubes can heat up to 100 degrees Celsius for at least 3 hours. If it is difficult to heat raw food, plus the length of ordinary solar collector tubes is long, it is not conducive to carrying and Assembly is not conducive to going out to play.

Technical solution

In order to solve the above drawbacks, the utility model aims to provide a solar steam box which is easy to disassemble and carry, is convenient for assembly and easy to heat to boiling, and can heat the effective water to boiling in a short time by using solar heat collection. Steam is generated to steam the food, and the technical proposal is that the solar heat collecting tube is arranged in a radial shape and the open end is sealed and connected with the steam box. The length of the solar heat collecting tube can be about 30 cm, and the solar heat collecting tube has a matching and heat a cylindrical body composed of a poor conductor material, and the cylinder has a gap space with the inner wall of the solar heat collecting tube, and the gap space can store the heated liquid, that is, the interlayer liquid. The purpose of the cylindrical heat sink in the solar collector tube is to make the liquid in the tube thin and thin. The open end of the solar heat collecting tube and the cylindrical flange form a structure in which the upper part has an exhaust port and the exhaust port is sealed. The mouth communicates with the gap between the cylinder and the inner wall of the solar collector tube, and can inject liquid and discharge steam through the exhaust port. The solar collector tube is a vacuum insulation structure, the outer layer is transparent glass, and the inner layer is black body heat absorption layer. The steam box is composed of a heat insulating material; on the basis of the above structure, a light reflecting mirror can be installed under each solar heat collecting tube to be reflected on the solar heat collecting tube to increase the temperature inside the tube.

Beneficial effect

 When the sunlight is irradiated to the solar collector tube, the black body heat absorption layer is immediately heated, and the liquid in the gap space is gradually heated. Since the liquid in the gap space is thinner and is in full contact with the black body heat absorbing layer, the liquid absorbs more heat, the liquid temperature rises faster, and the gap space is in a sealed vacuum heat insulating structure. The liquid is rapidly heated to boil to generate steam, and is ejected from the exhaust port. Since a plurality of solar collector tubes are distributed around the steam box, the steam box is co-operated, and a large amount of high-temperature steam is heated to the food placed in the steam box. To cooked When not in use, the solar collector tube can be removed from the steam box for easy carrying.

DRAWINGS

Figure 1 is a plan view of a first embodiment of the present invention.

Figure 2 is a cross-sectional view of the first embodiment of the present invention.

3 is a cross-sectional view of a solar heat collecting tube according to a first embodiment of the present invention.

Figure 4 is a plan view of a second embodiment of the present invention.

Figure 5 is a cross-sectional view of a second embodiment of the present invention.

Figure 6 is a cross-sectional view showing a solar heat collecting tube according to a second embodiment of the present invention.

Figure 7 is a plan view of a third embodiment of the present invention.

Embodiments of the invention

The present invention will be further described below in conjunction with the accompanying drawings.

Embodiment 1:

As shown in FIG. 1 , FIG. 2 and FIG. 3 , the solar heat collecting tube 1 is arranged in a radial shape and the open end is sealed and connected to the steam box 2 , and the solar heat collecting tube 1 has a length of about 30 cm, and the solar heat collecting tube 1 has a matching therein. And a cylindrical body 5 composed of a poor heat conductor material, and the cylindrical body 5 and the inner wall of the solar heat collecting tube 1 have a gap space 6, which can store the heated liquid, that is, the sandwich liquid, the open end of the solar heat collecting tube 1 and the cylinder The flange 8 of the object 5 constitutes a structure in which the exhaust port 4 is opened in the upper portion and the periphery of the exhaust port 4 is sealed. The exhaust port 4 communicates with the gap space 6 existing in the cylinder 5 and the inner wall of the solar heat collecting tube 1, and can pass through The exhaust port 4 is filled with water or discharged with water vapor. The solar heat collecting tube 1 is a vacuum heat insulating layer 7 structure, the outer layer is a transparent glass 9, and the inner layer is a black body heat absorbing layer 10, and the steam box 2 is composed of a heat insulating material. . When the sunlight hits the solar collector tube 1, The black body heat absorbing layer 10 is immediately heated, and gradually heats the liquid in the gap space 6. Since the liquid in the gap space 6 is relatively thin and is in full contact with the black body heat absorbing layer 10, the liquid absorbs more heat, and the liquid temperature The rise is faster, and since the gap space 6 is in a sealed vacuum insulation structure, the liquid is rapidly heated to boil to generate steam, and is ejected from the exhaust port 4, Since the four solar heat collecting tubes 1 are symmetrically distributed, acting together on the steam box 2, a large amount of high-temperature steam is heated to the cooked food placed in the steam box 2, and the solar heat collecting tube 1 can be removed from the steam box 2 when not in use. Easy to carry out.

Embodiment 2:

As shown in FIG. 4, FIG. 5 and FIG. 6, the solar heat collecting tubes 11 are arranged in a radial shape, and the open ends are sealedly connected to the steam box 12. The length of the solar heat collecting tubes 11 is about 30 cm, and the solar heat collecting tubes 11 have a matching therein. And a cylindrical body 15 composed of a poor heat conductor material, and the cylindrical body 15 and the inner wall of the solar heat collecting tube 11 have a gap space 16, which can store the heated liquid, that is, the sandwich liquid, the open end of the solar heat collecting tube 11 and the cylinder The flange 18 of the object 15 constitutes a structure in which the exhaust port 14 is opened at the upper portion and the periphery of the exhaust port 14 is sealed. The exhaust port 14 communicates with the gap space 16 existing in the inner wall of the cylinder 15 and the solar heat collecting tube 11, and can pass through The exhaust port 14 is filled with water or discharged with water vapor. The solar heat collecting tube 11 is a vacuum heat insulating layer 17 structure, the outer layer is a transparent glass 19, and the inner layer is a black body heat absorbing layer 20. The steam box 12 is composed of a heat insulating material. . When sunlight is irradiated to the solar heat collecting tube 11, The black body heat absorbing layer 20 is immediately heated, and gradually heats the liquid in the gap space 16. Since the liquid in the gap space 16 is relatively thin and is in full contact with the black body heat absorbing layer 20, the liquid absorbs more heat, and the liquid temperature The rise is faster, and since the gap space 16 is in a sealed vacuum insulation structure, the liquid is rapidly heated to boil to generate steam and ejected from the exhaust port 14, Since the four solar heat collecting tubes 11 are symmetrically distributed, acting together on the steam box 12, a large amount of high-temperature steam is heated to be cooked to the food placed in the steam box 12, and light reflection can also be installed under each of the solar heat collecting tubes 11. The mirror 13 causes more solar light to converge on the solar heat collecting tube 11 to raise the temperature higher. When not in use, the solar heat collecting tube 11 and the light reflecting mirror 13 can be removed from the steam box 12 Remove it for easy carrying and going out.

Embodiment 3:

As shown in FIG. 7, the solar heat collecting tubes 22 are arranged in a radial shape and the open ends are sealedly connected to the steam box 21. The length of the solar heat collecting tubes 22 is about 30 cm, and the inside of the solar heat collecting tubes 22 may be the structure of FIG. 3 or may be a figure. 6 structure, the ultimate purpose is to generate steam to steam the food in the steam box 21 as soon as possible, because four solar heat collecting tubes 22 are distributed at one end of the steam box 21, acting together on the steam box 21, so that a large amount of high temperature steam is placed The food entering the steam box 21 is heated to cooked.

Claims (6)

1.  The utility model relates to a solar collector tube heating type steam box, which is characterized in that the solar heat collecting tubes are arranged in a radial shape and the open end is sealedly connected with the steam box.
2. A solar collector tube-heated steam box according to claim 1, wherein the solar collector tube has a cylindrical body matched with the poor heat conductor material, and the cylinder and the inner wall of the solar heat collecting tube are present. Clearance space.
3. A solar heat collecting tube heating type steam box according to claim 2, wherein the open end of the solar heat collecting tube and the cylindrical flange form a structure in which an exhaust port is opened at the upper portion and the periphery of the exhaust port is sealed.
4. A solar collector tube-heated steam box according to claim 3, wherein the exhaust port is in communication with a gap space between the cylinder and the inner wall of the solar collector tube.
5. A solar heat collecting tube heating type steam box according to claim 1, wherein the solar heat collecting tube is a vacuum heat insulating structure, the outer layer is transparent glass, and the inner layer is a black body heat absorbing layer.
6. A solar collector tube-heated steam box according to claim 1, wherein the steam box is composed of a heat insulating material.

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