KR20090094684A - The porous type plate for collecting solar heat and the apparatus for collecting solar haet using thereof - Google Patents

Abstract

A porous sunlight focusing panel and a solar collector using the same are provided to prevent unnecessary loss of the energy because the sealing unit is included between both ends and head conduit line of the main body. A porous sunlight focusing panel comprises a plate-shaped main body(10), a thermal medium conveying path(20), a head pipe line(30), and a sealing unit(40). The main body absorbs the radiant heat from the sun. The thermal medium conveying path is perforated within the main body for the transfer of the thermal medium. The head pipe line is prepared in both ends of the main body to be connected with the thermal medium conveying path.

Description

Porous solar heat collecting plate and solar heat collecting device using same {THE POROUS TYPE PLATE FOR COLLECTING SOLAR HEAT AND THE APPARATUS FOR COLLECTING SOLAR HAET USING THEREOF}

The present invention relates to a porous solar collector and a solar collector using the same.

Solar thermal energy has long been spotlighted as an alternative energy without fear of pollution and exhaustion. Accordingly, in order to apply solar energy to real life, technology development for solar heat collecting plate or solar heat collecting device is also made in various forms.

In general, the solar heat collecting plate is to apply solar energy to real life such as heating or hot water supply, and circulates a heat medium such as water in the heat collecting plate, and heat and hot water supply is realized by a heat exchange method between the heat medium and solar energy. Is done.

As a conventional technology in such a technical field, Korean Utility Model Publication No. 20-0122969 'solar heat collector' (registered on May 18, 1998) can be mentioned.

The solar heat collecting plate is a form in which the heat medium distribution pipe is embedded, and the upper half of the heat medium distribution pipe is located at the arc-shaped bend of the solar heat collecting plate, and the lower half thereof is wrapped by a pair of protrusions projecting downward from the solar heat collecting plate, and the protrusion Both ends of the are formed in a joined form by known means and methods.

However, the 'solar heat collecting plate' has a problem in that the heat collecting plate forming the heat collecting plate and the heat medium distribution pipe are separately formed and combined, so that the solar heat of the heat collecting plate must pass through the thickness of the heat collecting plate in addition to the thickness of the heat collecting plate.

That is, the 'solar heat collecting plate' is inevitably inferior in the heat transfer efficiency, it is difficult to fully automate the manufacturing and assembly process, so the quality deviation between the finished product is severe, and the time required is long.

In addition, since the heat collector plate is arranged in the arc-shaped bent portion, the solar heat collecting plate must be pressed and bent a pair of protrusions projecting downward, so that bending of the protrusions is not easy, and cracks are generated during bending. Problems arise.

In addition, Korean Utility Model Registration No. 20-0235577 discloses a technology related to a solar heat sink assembly.

The solar collector plate assembly is intended to reduce manufacturing costs while maintaining a multilayer glass structure. In the heat collector plate assembly in which a bottom plate is covered with a heat insulating layer and protected by a heat insulating layer, the inside of the heat collector plate is coated with low iron high strength glass. The upper surface of the glass is coated with a low-strength glass or a heat-resistant transparent film, and the edge is finished by an aluminum chassis or thin plate so that the low-strength glass, the heat collecting plate, and the lower insulating layer are integrally coated.

However, the 'solar heat collecting plate assembly' has a problem in that it does not relieve the burden of manufacturing cost by adopting the low-strength high-strength glass still expensive. In addition, like the 'solar heat collecting plate', the heat collecting plate and the heat transfer pipe of the 'solar heat collecting plate assembly' are also formed separately, which has a problem that the heat transfer efficiency of solar heat is inevitably deteriorated.

Furthermore, the 'solar heat collector plate assembly' is a blank between the low intensity glass or heat resistant transparent film and the heat collecting plate because the heat transfer tube is wrapped in the semicircular groove of the heat collecting plate and the upper half is constrained by the low intensity glass or the heat resistant transparent film. There is a problem that the loss of solar heat transmitted from the space to the heat medium becomes more severe.

The present invention is to solve the problems of the prior art, and to improve the heat collection efficiency of solar heat by the heat collecting plate, as well as to provide a porous solar heat collecting plate that can automate the manufacturing process by using a method of extrusion, injection or press. It is to.

In addition, the present invention not only improves the heat collection efficiency of solar heat, but also reduces the quality deviation between the finished products and at the same time shortens the working time by simple assembly, and the coupling relationship between the technical components can be made firmly, thereby improving durability. It is also to provide a solar heat collecting device using a porous solar heat collecting plate.

The solar heat collecting plate of the present invention for solving the above problems is a plate-shaped body that absorbs radiant heat from the sun, and a heat medium conveying path formed in a porous form in the body for transporting the heat medium, and the heat medium conveying path It is configured to include a sealing means for preventing leakage of the heat medium between the head pipe path provided on both ends of the main body, and both ends and the head pipe path of the main body.

In addition, the solar heat collecting apparatus of the present invention includes a fixing frame integrally formed at an upper end portion, and includes a transmitting member for transmitting solar light in a case provided with a predetermined installation hole on one side, and an insulating material for blocking the emission of solar heat. Between the sieve and the heat insulating material is configured to include a solar heat collecting plate of the present invention.

According to the solar heat collecting plate of the present invention, by adopting a heat transfer path integrated into the body in a porous form, it is possible to improve the solar heat collecting efficiency of the heat collecting plate and to prevent leakage of the heat medium between both ends of the main body and the head pipe. By providing means, the effect of preventing unnecessary energy loss is exhibited.

In addition, the present invention is easy to automate the manufacturing process by using a method such as extrusion, injection or press, so that the quality of the finished product is improved, and at the same time, it is excellent in reducing the quality deviation between the products.

In addition, the present invention has a variety of effects, such as to facilitate the assembly between the technical configuration can shorten the working time during assembly, and to improve the durability because the coupling between the components are robust.

Furthermore, the solar heat collecting device of the present invention is excellent in the effect of improving the effectiveness of the device, such as smooth heating and hot water supply in all seasons, regardless of the amount of sunlight depending on the season by adopting a heat collecting plate with high heat collecting efficiency.

Hereinafter, with reference to the accompanying drawings, a configuration according to a preferred embodiment of the present invention will be described in detail.

As shown in FIG. 1 and FIG. 2, in the solar heat collecting plate of the present invention, a head line 30 is integrated at both ends of the main body 10, and a predetermined heat transfer path 20 is provided in the main body 10. In the form of

The main body 10 uses a synthetic resin or metal material such as silicon having good thermal conductivity, so that the surface radiation efficiency from the sun, i.e., the internal heating medium from the solar heat, is smoothly formed, but is formed in a predetermined plate shape. At this time, the thickness of the plate is formed to be as thin as possible so that the conduction of heat can proceed quickly as a whole.

In addition, the main body 10 further includes a scratch groove 11 in a longitudinal direction or a transverse direction on a surface directly receiving sunlight, and further increases the heat collecting efficiency of the heat collecting plate, or a selective absorption film 12 on the surface thereof. By coating, it can be carried out in a variety of forms, such as a form that can prevent the radiation of the infrared portion of the wavelength region of the solar light, that is, by reducing the radiant heat of the heat collecting plate, to increase the heat collection efficiency.

Preferably, the scratch groove 11 is formed on the surface of the main body 10, and the selective absorption film 12 is coated thereon. At this time, in the case of the selective absorption film 12, the form of any one of the color of black or blue with good absorption of sunlight is good.

The heat medium conveying path 20 formed in the main body 10 corresponds to a path formed in a kind of porous form for transporting a heat medium such as water, and heat exchange between the heat medium and the main body 10 is directly performed. If only can be made, as shown in Figures 4a to 4d it can be implemented in various sizes, shapes and shapes.

The head conduit 30 of the present invention is configured in the form of a predetermined pipe or the like provided at both ends of the main body 10, and is associated with a pump for circulating the thermal medium, and in particular, the thermal medium conveying path 20 in the main body 10. It is configured to be associated with.

Here, the heat transfer path 20 and the head pipe 30 are each surface treated to prevent corrosion, such as galvanized or plasma coating, the inner circumferential surface, it is possible to improve the heat resistance and durability of the solar heat collecting plate 80 Good form

In addition, a predetermined sealing means 40 may be provided between both ends of the main body 10 and the head line 30 to prevent heat loss due to leakage of the heat medium. At this time, the sealing means 40 can be implemented in a variety of forms, such as a male and female coupling flange in addition to the predetermined form is integrated by welding or special adhesive.

The head channel 30 of the present invention employs a predetermined pad as a sealing means 40 between male and female flanges which face each other in addition to a form in which both ends of the main body 10 are integrally welded as shown in FIGS. 3A to 3C. It can be carried out in various ways such as fastening with a screw bolt or integrally formed with an adhesive that is firmly maintained even under high temperature and high pressure.

In addition, in the present invention, the fixing frame 51 is integrated at the upper end as shown in FIG. 5, and the transmission body 60 for transmitting solar light in the case 50 having the installation hole 52 at one side thereof, and blocking the emission of solar heat. Including a heat insulating material 70, but may be configured as a predetermined solar heat collecting device by applying the above-described solar heat collecting plate 80 between the transmission body 60 and the heat insulating material (70).

At this time, the transmissive body 60 is applied to the glass having a predetermined strength while having a good transmittance of solar light, the heat insulating material 70 is urethane foam which can block the solar heat is emitted to the outside or loss of solar heat by the outside air. Or glasswool.

With reference to the accompanying drawings, the operating relationship between the technical configuration of the present invention as described above will be briefly described. For convenience of explanation, the following description focuses on the operational relationship of the solar heat collecting device.

The solar heat collecting device of the present invention includes a solar heat collecting plate 80 between a permeable body 60, a heat insulating material 70, a permeable body 60, and a heat insulating material 70 in a case 50 in which a fixing frame 51 is integrated at an upper end thereof. The residual heat reflection sheet 90 is configured, but the head channel 30 of the solar heat collecting plate 80 is disposed at each of the installation holes 52 of the case 50.

When solar light shines on the solar heat collecting device as described above, predetermined radiant heat is formed in the entire body 10 of the solar heat collecting plate 80 from the light passing through the predetermined transmission body 60, and the radiant heat is again returned to the head pipe 30. Heat transfer medium such as water passing through the heat transfer path 20 is transferred to the heat transfer path (20) connected to the heating medium and is converted to a heating and hot water supply source.

At this time, the scratch groove 11 or the selective absorption film 12 in the longitudinal direction or the transverse direction provided on the surface directly receiving the sun light of the main body 10 of the solar heat collecting plate 80 increases the heat collecting efficiency of solar heat. In particular, in the case of the selective absorption film 12, by adopting black or blue to prevent radiation of the infrared portion of the wavelength region of the solar light, it serves to reduce the radiant heat of the heat collecting plate, and improve the heat collecting efficiency.

Solar heat collecting plate 80 of the present invention because the body 10 and the heat transfer path (20) is formed of a body using a good thermal conductivity material not only high radiation efficiency of solar heat, but also the efficiency of heating the heat medium from radiant heat Will be improved. That is, the present invention exhibits technical features to improve the heat collecting efficiency of solar heat.

Furthermore, the solar heat collecting apparatus of the present invention is a heat insulating material 70 to block the loss of solar heat by the outside heat or solar heat, by adopting urethane foam or glasswool (glasswool), the body 10 and the heat transfer path In addition to improving the heat exchange efficiency of the heat medium of (20), it is also possible to exhibit a technical feature that can expect a heating efficiency of a certain level even in winter when the amount of sunshine is insufficient.

The detailed description of the present invention as described above has been representatively exemplified specific embodiments to help the understanding of the invention, but this is not intended to limit the technical spirit of the present invention, the present invention within the scope of not departing from the concept of the present invention It is also included in the claims of the present invention that the invention can be modified or changed by those skilled in the art.

1 is an exploded perspective view showing a porous solar heat sink of the present invention.

Figure 2 is a perspective view of the bonded state showing the porous solar collector plate of the present invention.

Figure 3 is a cross-sectional view of the porous solar heat sink of the present invention along the line "AA" shown in Figure 2, respectively, Figure 3a is one embodiment of the head pipe, Figure 3b is another embodiment, Figure 3c is another 2 shows another embodiment.

Figure 4 is a cross-sectional view of the porous solar heat sink of the present invention taken along the line "BB" shown in Figure 2, Figure 4a is one embodiment of the heat transfer path of the present invention, Figure 4b is another embodiment, Figure 4c and 4d show yet another embodiment.

5 is an exploded perspective view showing a solar heat collecting device using the porous solar heat collecting plate of the present invention.

<Code Description of Main Parts of Drawing>

10: main body 11: scratch groove

12: selective absorption membrane 20: heat transfer path

30: head pipe 40: sealing means

50: case 51: fixing frame

52: installation hole 60: transmission body

70: heat insulating material 80: solar heat collecting plate

Claims (6)

A plate-shaped body 10 which absorbs radiant heat from the sun; A heating medium conveying path 20 formed in a porous form in the main body 10 for transferring the heating medium; A head conduit 30 provided at both ends of the main body 10 in association with the heat medium conveying path 20; A porous solar heat collecting plate, comprising a sealing means (40) provided between both ends of the main body (10) and the head conduit (30) to prevent leakage of the heat medium. The method of claim 1, The sealing means 40 is characterized in that configured in the form of male and female coupling flange, porous solar heat sink. The method of claim 1, The main body 10 is characterized in that the scratch groove 11 is further provided on the surface is configured to increase the heat collecting efficiency, porous solar heat collecting plate. The method of claim 1, The main body 10 is characterized in that the selective absorption film 12 is coated on the surface is configured to increase the heat collection efficiency, porous solar heat collecting plate. The fixing frame 51 is integrated in the upper end portion, and includes a transmissive body 60 for transmitting solar light in a case 50 having an installation hole 52 on one side thereof, and a heat insulating material 70 for blocking the emission of solar heat. However, the solar heat collecting device using a porous solar heat collecting plate, comprising a solar heat collecting plate (80) of any one of claims 1 to 4 between the permeable body (60) and the heat insulating material (70). The method of claim 5, The heat insulating material 70 is made of urethane foam or glasswool (glasswool), characterized in that configured to increase the heat collecting efficiency, solar heat collector using a porous solar heat collecting plate.

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