KR800001471Y1 - Solar heat vacuum absorbent panel - Google Patents

Abstract

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Description

Solar vacuum collector plate

1 is a perspective view of a portion of the present invention cut away.

2 is a longitudinal sectional view of the present invention.

3 is a partial perspective view of a part of the present invention.

4 is a partial perspective view of another form in which a gap is formed by the mesh of the present invention.

Figure 5 is an embodiment of the present invention.

In the present invention, the heat collecting plate is sealed by covering a thin heat collecting film so as to block the front and rear surface distribution on both sides of the heat insulating plate, which has a plurality of heat distribution holes in both sides of the heat medium gap forming protrusions and horizontally on both sides. It is characterized by forming a thin heating medium distribution gap on both sides before and after the heat insulation plate by vacuuming the thin heat collecting film to the top surface with atmospheric pressure that affects the outer surface. It is to provide a solar vacuum collector plate.

In recent years, the distribution type heat collecting plate which raises the heat medium temperature in a short time, which is mainly used for the heating and hot water supplying of the house which can be used at a relatively low temperature as the alternative energy, has a large share in the facility cost. It becomes a big trouble to spread it and needs his improvement.

In the conventional distribution type heat collecting plate (heat absorber), the proper flow rate is based on 1 l / min per 1 m ² of the inclined surface, so that the appropriate flow rate is distributed, absorbs heat, and conducts heat to the heat medium. Since the area occupied by one side of the surface is smaller than that of the one side, the heat collection panel for heat absorption is attached to the distribution pipe on the other side, so the production cost and heat absorbing component material caused by this structural complexity reflect the production cost of the heat collecting plate. In consideration of the fact that it is a factor to make the heat collecting plate constituent form, the heat medium distribution pipe (流 通 管) as in the conventional mechanical strength of its own heat distribution or the pressure of the circulation heat medium or the atmospheric pressure on the outer surface by the vacuumization that can be formed inside the distribution pipe and Instead of preventing deformation and attaching heat collectors, on the contrary, heat absorber It consists of a collecting surface on the front surface and relatively thin seal between the thin collecting surface and the gap-form laying plate, and the vacuum is formed between the thin collecting film and the gap-forming plate. It provides a new type of low-cost, low-cost distribution type heat collecting plate with good practical effect, considering the possibility of heat medium distribution in a vacuum state by forming a fine heat medium distribution gap on the entire surface of the collecting surface by interposing the gap forming body. When described in detail according to the drawings as follows.

The front and rear side walls of the heat insulating plate 4 having a plurality of heat medium gap constituent protrusions 3, 3 'protrudingly formed on both sides of the front and rear, and having drilled a plurality of distribution holes 2, 2' above and below. In order to block the front and back side circulation at 4 ', the thin heat collecting film 1 is covered with the outer surface of the heat insulating plate 4 so as to be sealed, and the water outlets 7 and 8 at the upper part of the heat collecting film 1 and the drain hole at the lower part thereof. 9) is installed and the inside of the heat collecting plate 6 is evacuated, so that the heat collecting film 1 is in close contact with the upper surface of the gap constituting protrusions 3, 3 'by the atmospheric pressure applied to the outer surface of the heat collecting film 1, and 5' 5 '. It is a solar vacuum collector plate to form).

In the drawing, reference numeral 4 in FIG. 3 denotes a constituent network showing another example in which the gap forming protrusions 3 and 3 'of the insulating plate 4 are formed into a mesh. The pipes 14, 15 and 15 'shown in the dotted line are valves, T is a heat medium tank, T' is a collecting tank, P is a pump, and H is a tank T and a collecting tank. Free fall with T ', W is a heat exchanger.

The heat collecting film 1 of the heat collecting plate 6 constructed as described above uses a plastic film or metal film such as heat-resistant crosslinked high-density polyetherene, and the heat insulating plate 4 is a flexible foamed plastic plate or a water-resistant cardboard. It can be selected in a wide range and the gap forming protrusions (3) and (3 ') can be formed directly on the insulating plate (4) surface or replaced by a plastic net (3 "). Covers both sides of the heat insulating plate 4 on which the flow gap constituent protrusions 3 and 3 'are placed to seal the flexible thin heat collecting film 1 to form a heat absorber, and at the same time, to equalize the entire surface on both sides of the heat collecting plate 6 by vacuuming inside. By distributing the dispersed heat medium distribution gaps 5 and 5 ', the heat collecting plate 6 may be inclined to one solar surface according to the purpose of the heat collecting plate, and one surface of the heat collecting membrane 1 may be used as a solar heat absorbing surface. (懸垂) one side to direct sunlight absorption surface It is possible to provide a structurally simple distributed double-sided solar heat sink (heat absorber) that can make the tile surface a solar scattering energy absorbing surface, and such a distributed heat collector is structurally simple and thin in the heat collecting film (1) and the gap. Formed insulation plates 4 and the like are inexpensive and widely selected, and their structural flexibility enables the production of extra large heat collecting plates that are easily transported by folding or rolling, resulting in a more inexpensive distribution heat collecting plate. In the practical use of the heat collecting plate, it is possible to replace the roof of the building by integrally integrating the roof structure of the building with a single heat collecting plate in the home heating hot water supply.In addition, the cost of installation and plumbing is greatly reduced compared to the installation of several heat collecting plates. The heat collecting plate is suspended, and the heat pump is used for heat absorption. The practical effect of the heat source or quality around the hot water production and distribution panels formula Ido has promising benefits to low heat sink or heat absorber such as air-conditioning.

The present invention describes the operation in the embodiment of FIG. 5, when the pump P is operated by being connected to the heat medium tank T heat collecting tank T ′ in the solar heat incident state of the heat collecting plate 6. ) And the thinner heat collecting film 1 is vacuum-composed and the inner surface is in close contact with the upper surface of the gap-forming protrusions 3 and 3 'by the vacuum composition while the air inside the pipe 10 and 11 is removed. (5 ') is formed and the heat medium of the heat medium tank (T) rises along the pipe (11) and is supplied to the heat collecting plate (6) through the connection port (8), and the upper and lower sides of the heat insulating plate (4) inside the heat collecting film (1). The heating medium supplied to the connection port 8 is formed by covering the distribution on the wall 4 'and passing through the distribution gap 5' on the rear surface to the one-sided distribution gap 5 through the descending distribution hole 2 '. It fills and rises, and it flows to reflux to the heat medium collection tank T 'by the piping 10. As shown in FIG.

In addition, the pump P is stopped and the tank T, the collecting tank T 'and the free fall H, or the pump P is used to maintain the vacuum of the heat collecting plate. The proper flow rate is the free drop H or the pump P. The low temperature heat medium of the tank T is sent to the heat collecting plate 6, and the heat collecting plate heat medium is transferred to the heat collecting tank T 'with sensible heat to be used for heating and heating a large quantity of houses. 13) by connecting the heat exchanger (W) with the connection port (7) (8) to fill the heat medium in the heat collecting plate (6) lower than the connection port (7) to vacuum the heat exchanger (W) and the heat collecting plate (6) The temperature of the heat exchanger (W) is kept lower than the temperature of the heating heat medium on the top of the heat collecting plate (6) to transfer heat to the heat exchanger (W) in the form of a mixed heat of evaporated vapor of the heat medium heated at the top of the heat collecting plate (6) It may also be used for a low temperature heat medium or job heat radiated by sensible heat transfer in the fifth embodiment In the transfer, the low temperature heat medium which is condensed by heat radiation in the heat exchanger (W) is supplied and mixed to the heat medium of the heat collecting plate 6 through the flow gap 5 'through the connection port 8, and the heat medium of the flow gap 5 absorbs heat at the incident surface. Heated, but the heat conduction of the heat insulating plate (4) is a temperature difference between the distribution gap (5) (5 ') heat medium is to promote the heat absorption of the heat medium through the natural circulation through the distribution hole (2) (2'). The heat medium can be sucked into the connector 9 to discharge the heat medium heated by the upper connectors 7 and 9.

Claims (1)

The heat collecting membrane (1) thins the front and back surfaces of the heat insulating plate (4) in which a plurality of heat medium distribution holes (2) (2 ') are formed in a horizontal row on the upper and lower sides, and gaps (3) and (3') are formed on the front and back surfaces. A solar vacuum heat collecting plate, characterized in that it is covered with a seal and forms a distribution gap (5) (5 ') on the front and rear surfaces.