KR101640250B1 - solar collection panel for construction - Google Patents

Abstract

The present invention relates to a heat exchanger, comprising: a heat collecting part formed by a heat insulating material and formed by being recessed into a space open at a certain part of a front surface; a heat insulating member forming a continuous space with a through hole penetrating through the front and rear surfaces of the heat collecting part; A solar heat collecting plate having a hot water pipe and attached to the heat collecting portion of the main body; A translucent member attached to the front surface of the main body so as to block a space opened to the front surface of the solar collecting unit to which the solar heat collecting plate is attached; A fixed tubular body formed with a female screw to open and close the through hole of the main body and fixed to the through hole of the main body and an inhaler and a dispenser hole forming a space continuous with the through hole of the main body, And an opening / closing means including a pair of moving pipes movably installed on the fixed pipe in the axial direction.

Description

[0001] Solar collecting panel for construction [0002]

The present invention relates to a solar collecting panel for a building which can regulate the indoor temperature by natural convection due to solar heat while producing hot water which can be used for heating and living water by using heat energy to collect solar heat.

Solar energy is attracting attention as a new alternative energy that can replace coal-based energy, which is the cause of resource pollution and environmental pollution.

One of the most widely used technologies for using solar heat as an energy source is the heating of houses.

In a typical facility-type solar heat collecting system, a solar heat collection unit collects solar heat, a heat storage unit that heats a heat transfer medium flowing along the inside of the collecting heat storage unit and heats the heat transfer medium stored in the heat storage unit, And uses the room as a heating or other energy source by using the medium.

The heat collecting device using solar energy is classified into a heat collecting device which can be installed on a roof or a roof to produce electric energy, and a heat collecting device which can convert cold water into hot water by using solar heat to be used for hot water or heating.

Such a conventional solar heat collecting apparatus is limited to a roof or a roof, and requires additional facilities such as a storage tank and a heat storage unit in addition to a heat collecting unit, and can produce electric energy and hot water separately.

Korea Utility Model Registration 20-0408782

If hot water and warm air can be produced at the same time in one unit for collecting solar energy, if hot water and hot air can be used at the same time or if they can be selectively used, the installation area can be reduced to improve space utilization, The maintenance cost will be reduced and it will be more practical.

The present invention can be installed not only on a roof or a rooftop but also on a building panel capable of building a wall of a building, so that it can be constructed not only on a roof or a roof, but also on a wall of a building. The present invention provides a solar collecting panel for construction which can use hot water and hot wind at the same time or can be selectively used without a separate energy conversion device.

Technical features to achieve the object of the present invention are a heat collecting part formed by inserting into a space open at a certain part of a front surface and a through hole penetrating through the front and rear surfaces of the collecting part, An insulating member forming a continuous space with the heating portion; A solar heat collecting plate having a hot water pipe attached to the heat collecting part; A light transmitting member attached to a front surface of the main body to block a space opened to a front surface of the solar collecting unit to which the solar heat collecting plate is attached; And opening / closing means for opening / closing a through hole formed in the main body.

The opening and closing means includes a fixed tube formed with a female screw and fixed to a through hole of the main body; And a pair of moving pipes which are formed on the fixed tubular body so as to be movable in the axial direction and which are connected to the fixed tubular body from the front and rear surfaces of the body.

The outdoor air is introduced into the room by circulation by the convection generated naturally by the temperature difference between the indoor air and the solar heat, and the indoor air is discharged to the outside, thereby maintaining the natural indoor environment.

In addition, it is possible to maximize space utilization by simultaneously producing hot water and hot air from a single heat collecting panel without the need for additional facilities such as a general solar heat collecting system.

1 is a perspective view of an embodiment of the present invention.
2 is a front view of an embodiment of the present invention.
3 is a cross-sectional view of an embodiment of the present invention
4 is an exploded perspective view of the opening and closing means of the embodiment of the present invention.
5 is a partially exploded cross-sectional view showing a state in which the opening and closing means is operated in the embodiment of the present invention
(A) is a sectional view in the closed state
(B) is a section of a partially open state
Fig. 6 is a diagram showing the use state of the present invention
(A) shows the usage state which is an example used for winter
(B) is an example of the usage state

BRIEF DESCRIPTION OF THE DRAWINGS The features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

Hereinafter, embodiments of the present invention will be described.

The construction solar heat-collecting panel of the present invention comprises a heat insulating member (1), a solar heat collecting plate (2), a translucent member (3) and opening and closing means.

The heat insulating member 1 is provided with a reinforcing plate 12 attached to a front surface 11 of a main body 10 made of urethane or foam polystyrene and various kinds of heat insulating materials which can be formed of a single material or a composite material, A plate 14 is formed.

A space for recessing a certain range in the heat insulating member 1 is formed on the front surface of the main body 10 to form a heat collecting portion 15 on which the solar heat collecting plate 2 is installed. The through-hole 16 penetrating through the through-hole 13, that is, the translucent member 3, the reinforcing plate 12, the heat insulating member 91, and the finish plate 14 is formed, .

An air passage 17 is formed between the through hole 16 and the heat collecting portion 15 so that external air can be introduced into the heat collecting portion 15 and discharged.

The solar collector plate (2) is formed with a hot water pipe (20) forming a serpentine flow path.

The hot water pipe 20 produces hot water for heating and hot water used as living water by using collected solar heat energy, and the upper and lower ends of the hot water pipe 20 form hot water usage circulation and circulation system. Such a circulation system corresponds to a technical configuration that can be easily carried out by a person having ordinary skill in the art, so a detailed description thereof will be omitted.

The light transmitting member 3 is made of a material capable of transmitting sunlight, for example, a tempered glass or a vinyl sheet. A through hole 30 is formed in the upper and lower portions of the translucent member 3 to correspond to the through hole 16 formed in the main body 10 And is attached and fixed to the reinforcing plate 12 attached to the front surface 11 of the heat insulating member 1. [

The opening and closing means is constituted by one fixed tube body (40) and a pair of moving pipes (42, 43).

The fixed tubular body 40 is formed in a cylindrical shape, and a plurality of ventilation holes 44 are formed in the central circumferential surface thereof. A flange 45 is formed at one end, a male screw 46 is formed at the other end, and a female screw 47 is formed on the inner circumferential surface.

The fixed tubular body 40 is fixed to the heat insulating member 1 by inserting the end where the male screw 46 is formed into the through hole 16 and the fixing nut 41 is fastened to the male screw 46.

When the fixed tubular body 40 is thus fixed to the heat insulating member 1, the vent hole 44 is placed in the air passage 17 of the heat insulating member 1. [

The movable pipe bodies 42 and 43 are formed as hollow bodies in the inside of the male screw 420. The movable pipe bodies 42 and 43 are provided with a thin intake and exhaust hole 421 formed at a portion where the male screw 420 is formed, And a radial intake and exhaust hole 422 is formed in the side surface facing the fixed tube body 40. As shown in Fig.

A flange 423 and a handle 424 are formed on one end of the male screw 420 and a heat insulating material 424 is embedded on the inner surface of the flange 423.

Each of the moving pipes 42 and 43 is screwed to the female screw 47 of the fixed pipe body 40 from the front and back surfaces of the heat insulating member 1 to be movable in the axial direction.

5 (a), the intake and exhaust port 421 is inserted into the fixed pipe body 40, as shown in FIG. 5 (a), when the movable pipe bodies 42, 43 are moved in the direction in which the screw 42 is loosened and the handle 424 is retracted to move the movable pipes 42, 43 in the state that the space of the collecting column 15 is completely blocked from the outside, The intake and exhaust holes 421 are exposed to the outside so that the outside air can be introduced into the inside of the heat collecting part 15 at the lower part and the air inside the heat collecting part 15 is discharged to the outside at the upper part .

By controlling the positions of the moving pipes 42 and 43 fastened to the fixed pipe body 40, the degree of exposure of the intake / exhaust port 421 to the outside can be adjusted, so that the intake amount and the exhaust amount can be adjusted.

Although the intake and exhaust holes 422 are shown as rectangular elongated grooves, they may be formed in a net shape.

In the solar heat collecting panel of the present invention constructed as described above, solar energy is condensed on the solar heat collecting plate 2 through the translucent member 3, and hot water is generated in the hot water pipe 20 so that it can be used as hot water for living use or heating And a natural circulation structure in which indoor air and natural convection are generated while discharging the indoor air to a room by discharging the indoor air to the indoor space and heating the indoor space by discharging the indoor air to the outdoor space, Or to ventilate.

This will be described in more detail.

FIG. 6 shows an example of a state in which the present invention is used for each season.

As shown in (a) of FIG. 6, in the winter, when the upper and lower movable bodies of the wall are closed and the upper and lower movable bodies of the wall are opened in the room, The convection phenomenon of the air whose temperature is raised in the heat part causes the air to flow in the lower part and the air in the upper part to be heated to raise the air in the room.

In addition, when the building solar panel is installed on a roof, when the outdoor side is closed and the indoor side is opened and a separate air blowing fan is installed to form a forced circulation structure, air whose temperature is raised in the heat collecting portion circulates So that it can be heated.

On the other hand, in the case of the summer season, when the indoor and the outdoor side moving pipes are opened in the other side wall while the lower side is the indoor side moving pipe, the upper side is the outdoor pipe and the moving pipe is opened, The outside air is introduced into the room from the lower part of the wall of the other wall, and the room air can be circulated by the natural convection phenomenon. In addition, if the indoor side moving pipe is closed on the roof and the outdoor side moving pipe on the opposite side is opened, the air generated in the heat collecting part 15 is discharged to the outside from the roof where the solar heat is incident for a long time, .

1: Insulating member 2: Solar panel
3: translucent member 10:
11: Front 12: Stiffening plate
13: rear face 14: finish plate
15: collecting section 16: passage
17: air passage 30: through hole
40: Fixing tube 41: Fixing nut
42, 43: moving pipe body 44: through hole
45: flange 46: male thread
420: male thread 421, 422:
423: Flange 424: Handle
425: Insulation

Claims (2)

The heat insulating member 1 forms a space continuous with the heat collecting part 15 through a through hole 16 passing through the front and rear surfaces of the heat collecting part 15, Wow;
A solar heat collecting plate (2) having a hot water pipe (20) and attached to the heat collecting part (15);
A light transmitting member 3 attached to the front surface of the main body 10 to block a space opened to the front surface of the solar collector 15 to which the solar collector 2 is attached;
And opening / closing means for opening / closing the through hole (16) formed in the main body (10)
The opening / closing means includes a fixed tube body 40 having a female screw 47 and fixed to the through hole 16 of the main body 10;
The intake and exhaust holes 421 and 422 forming a space continuous with the through hole 16 of the main body 10 are formed and the screw thread 47 of the fixed tube body 40 is screwed from the front surface and the rear surface of the main body 10, And a pair of moving pipes (42, 43) coupled to the fixed tube (40) so as to be movable in the axial direction. delete

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