KR20020029523A - solar collector - Google Patents

Abstract

PURPOSE: A solar energy collecting device is provided to reduce a mounting cost by simplifying structure and to improve heating efficiency through the solar collector. CONSTITUTION: A solar collector comprises a collecting plate(2) absorbing solar energy by changing into heat energy; front and rear plates(5,6) maximizing heat absorption of the solar energy changed into the heat energy; a heat insulating material(7) attached between the front and rear plates; a pipe(8) fixed on the collecting plate; a frame(2) reinforcing endurance of the collecting plate by being mounted on an end portion of the collecting plate; plural inserting grooves(11) formed on an inner portion of the frame; a glass plate(4) inserted to the inserting groove of the frame; and plural clearance maintaining unit(9) arranged on a front portion of the collecting plate. Thereby, the solar collector reduces a mounting cost by simplifying structure.

Description

Solar collector {solar collector}

The present invention relates to a solar energy collector, specifically, by reinforcing a heat collecting plate provided with heat insulator and pipe with a frame and installing a glass plate fixed to the front frame, the structure is simple and the installation cost can be drastically reduced. The present invention relates to a solar collector, which can be used for heating and hot water, can be used to reduce fuel costs in winter, and can be used semi-permanently without periodic inspection and maintenance.

In general, solar energy is a clean energy that is not depleted and provides a source for living on planets such as the earth in the solar system, and especially in resource-poor countries such as Korea. Development is a must.

However, solar energy has severe climate dependence and low energy density compared to other energy sources, and it has considerable difficulty such as costly and high technology to convert it into available technology. have. In other words, the integration efficiency of solar energy is low as 15 ~ 20%, so much technology development is needed to increase the integration efficiency, and the development of solar power plant or solar energy collector is used to increase the efficiency of solar energy and use it in industry. ought.

The above technology is used for industrial processes such as heating and cooling of buildings, hot water and hot water, cultivation and drying of agricultural and aquatic products, solar power generation according to the mechanical or non-mechanical circulation method of solar energy collected by using a heat collecting and heat storage device. It is used to supply the necessary heat.

At this time, the collector is responsible for converting solar energy absorbed on the collector surface into heat energy or electric energy and transferring it to the heat medium. The circulation of the heated heat medium through the collector should be performed continuously and uniformly, but the solar energy is seasonal or climate. Due to the intermittent and inconsistent supply, it is impossible to raise the required temperature without using a heating pump or an auxiliary heat source such as oil or electricity. Therefore, the collector cannot be effectively operated with the phase change heat exchanger.

In addition, the heat medium moving tube and the solar reflecting means in the solar energy collector need not only a complicated structure and expensive structure but also a continuous maintenance and repair because the moving tube is narrow and the circulation is not smooth.

As an example of the prior art for such a solar energy collector, a solar light collector such as Korean Patent Publication No. 96-11342 is disclosed. Looking at the contents, the present invention comprises an asymmetrical configuration of an upward reflector combined with a parabolic curved reflector and an involute curved reflector, and a parabolic curved reflector and an involute curved reflector combined with a ground point solar high light beam in a heat collecting tube. It was done.

The above structure is designed to adjust the angle of the surface reflector according to the season according to the season by the surface reflector, so that the concentration of solar condensation can be increased, but the manufacturing cost is expensive and it is not commercialized. It has the disadvantage that it needs to be checked and repaired regularly, so it is difficult to maintain and repair, and it has the disadvantage that it cannot be commercialized in buildings such as single-family homes, farms, shops and factories.

Accordingly, it was required to develop a collector that is simple in structure and can be installed at low cost, and has a smooth circulation of the heat medium and is easy to be commercialized in various buildings.

In addition, the present invention is an improved invention of the solar energy heat collecting apparatus of the applicant's pre-registered domestic utility model registration No. 0193815.

Looking at the structure of the solar energy collector as described above, a collection panel assembly with a plurality of collecting panels, a plurality of glass surfaces installed on the front of the collection panel assembly to double the heat collecting effect, and installed on the bottom of the glass solar It is composed of a reflector reflecting energy.

However, in the above structure, a structure in which a plurality of glass surfaces are laminated and fixed on a heat collecting panel assembly is complicated, and a task of fixing a plurality of glass surfaces is somewhat difficult, so that standardization of a product is difficult.

The present invention has been developed to solve the above problems, while the structure and installation is simple, it is easy to commercialize in a variety of buildings and provide a solar energy collector having a high heat-collecting effect of the solar energy without continuous inspection and maintenance. There is a purpose.

Another object of the present invention is to improve the structure of the frame for fixing the glass plate on the heat collecting plate to easily fix the multilayer glass plate.

1 is a front view showing a solar collector according to a preferred embodiment of the present invention

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a partially enlarged view showing a frame according to the present invention as another embodiment of FIG.

4 is a front view of a state in which a plurality of solar collectors of FIG. 1 are assembled;

5 is an installation state of FIG.

<Code Description of Main Parts of Drawing>

1: solar energy collector 2: heat collector

3: frame 4: glass plate

5: front panel 6: rear panel

7: insulation material 8: pipe

9: space maintenance area 10: space part

11: insertion groove 12: reflector

Solar energy collector according to the present invention to achieve the above object, at least one heat collecting plate is fixed to the pipe in front; A frame installed at an edge of the heat collecting plate; And at least one glass plate having a predetermined space in front of the heat collecting plate and fixed by the frame.

According to another embodiment of the present invention, the solar energy collector of the present invention further includes at least one insertion groove formed on all sides of the inner surface of the frame to fix the glass plate.

According to another embodiment of the present invention, the solar energy collector of the present invention is characterized in that the insertion groove is formed deeper in any one of the insertion groove to facilitate the insertion of the glass plate.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 shows the configuration of a solar energy collector according to a preferred embodiment of the present invention, the solar energy collector is used for heating and hot water in a small area by assembling at least one building on the roof of a building, such as a general house, a shopping mall, a factory It can be.

Referring to the drawings, the solar energy collector of the present invention is composed of a heat collecting plate (2), a frame (3) and a glass plate (4).

The heat collecting plate 2 converts the absorbed solar energy into heat energy and transfers it to the heat medium, and uses a material having excellent thermal conductivity, and includes a front plate 5, a back plate 6, a heat insulating material 7, and a pipe ( 8).

The front and back plates 5 and 6 may be coated with a black paint to maximize heat absorption of solar energy converted into thermal energy.

The heat insulating material 7 is attached with a predetermined thickness between the front and back plates 5 and 6, and serves to minimize heat loss of the heat collector 1 according to the present invention, and is mainly made of a material such as styrofoam.

The pipe 8 is a pipe in which a heat medium, such as water or air, is mainly used, and a copper pipe is used. The pipe 8 is fixed to the front of the front plate 5 and arranged in a zigzag while moving from side to side like a coil. It can be configured by assembling on the plurality of heat collecting plates 2 described above.

In addition, the pipe 8 may be manufactured in a state in which the pipe 8 is attached to and fixed on the heat collecting plate 2 in advance during the manufacturing process of the heat collecting plate 2, and pipes of the curved portions at both ends may be manufactured separately. Can be assembled.

On the other hand, if the heat medium circulating inside the pipe (8) is water to contain a certain ratio of antifreeze to prevent the freezing of the pipe at night without the incidence of solar energy in winter.

The frame 3 is installed at the edge of the heat collecting plate 2 to reinforce the durability of the heat collecting plate 2 and to fix the plurality of laminated glass plates 4 in front of the heat collecting plate 2. .

The frame 3 has at least one insertion groove 11 formed on all sides of the inner side, and the glass plate 4 is inserted into and fixed to the insertion groove 11.

At this time, the insertion groove of the upper inner surface of the frame 3 is formed deeper inward to have a free space in a round shape, the insertion groove of the lower inner surface of the frame 3 is formed by the width that the glass plate 4 is inserted When the glass plate 4 is inserted into the insertion groove 11 of the frame 3, it is inserted into the upper portion of the frame 3 in the upper portion of the frame 3, as if the glass window is fitted into the window frame and fixed. After inserting at an angle (see Fig. 3) to fit the bottom of the glass plate 4 to the insertion groove formed in the lower portion of the frame (3).

The glass plate 4 is intended to obtain a heat insulating effect inside the collector while solar energy can be transmitted therethrough, and is supported by a plurality of gap holders 9 in front of the collector plate 2, and the edge of the glass plate is the frame 3. It is inserted into and fixed to the insertion groove 11 of the), and the heat collecting plate 2 by the glass plate 4 has a space portion 10 in a blocked state on all sides.

At least one glass plate 4 may be formed in a multi-layered manner, preferably two to three layers, with a predetermined interval by the gap holder 9, and heated by the heat collecting plate 2. The pipe 8 and the space 10 are cut off from the outside air so as to reduce the difference between the temperature of the space 10 and the outside air temperature to prevent the collected solar energy from being lost to the outside again.

On the other hand, the glass plate 4 may be a transparent plastic, but in this case, since the surface is easily scratched and discolored after a certain period of time, the permeability and strength may drop, it is preferable to use glass, and the glass is not easily broken by external impact. Good.

An example of using the solar energy collector of the present invention having the configuration as described above is as follows.

Insulating material (7) is attached between the front plate (5) and the back plate (6) having good thermal conductivity, and the heat collecting plate (2) assembled by installing a plurality of copper pipes (8) in front of the front plate (5) is prepared. do. Two glass plates are provided on the edge of the heat collecting plate 2 and the frame 3 is supported by the spacer 9 in front of the heat collecting plate 2 so as to transmit and block solar energy. (4) is installed and the glass plate (4) is fixed to the inner side insertion groove (11) of the frame (3).

When inserting the glass plate 4 into the insertion groove 11 of the inner surface of the frame 3, first insert the upper portion of the left glass plate obliquely into the upper insertion groove of the frame 3 and then the glass plate in the lower insertion groove of the frame 3 Align the bottom of the lip and slide it slightly toward the left insertion groove of the frame. Then, the right glass plate is also pushed into the insertion groove 11 inside the frame 3 in the same manner as above, and then the left and right glass plates are adjusted to each other so that both glass plates are positioned at the center of the frame 3, and then the top, bottom, left and right sides. In order to prevent it from being pushed by the connection part with silicon, the space part 10 is formed between the heat collecting plate 2 and the glass plate 4, and the heat collector 1 is completed in this way.

The sensor is installed at a predetermined position inside the completed collector 1, and solar energy is incident on the collector, so that the copper pipe 8 installed in the collector plate 2 is heated, thereby increasing the temperature of the water flowing in the copper pipe 8. When the circulation pump for circulating the hot water by the temperature sensor of the sensor is connected to the copper pipe (8) and the heat storage tank connected to the pipe or the indoor floor heating pipe of the building can be used to heat the interior of the building or use hot water. will be.

3 and 4 show the configuration of a solar energy collector according to another embodiment of the present invention. Here, the same reference numerals as in FIG. 2 denote the same members having the same function.

According to the present embodiment, in the case of assembling and installing a plurality of collectors, the insertion grooves 11 are formed in the inner side of the frame 3 between the collector plates in which a plurality of collectors are arranged.

That is, as shown in the frame shown at the bottom of FIG. 3, the insertion groove of the frame 3 into which the bottom of the glass plate 4 is inserted is formed by the width to which the glass plate 4 can be inserted, and the glass plate 4. The insertion groove of the frame 3 into which the upper side of the frame 3 is inserted is formed to have a rounded free space deeper inward to prevent the glass plate 4 from being inserted. Can be assembled in multiple directions.

In addition, a plurality of insertion grooves 11 may be formed inside the frame 3 according to the number of glass plates 4 to be installed, and the heat collecting plates 2 are coupled to each other by separate fixing means.

Meanwhile, as shown in FIG. 5, the solar energy collector is installed at a predetermined angle with a reflecting plate 12 selectively attached to the bottom or top and bottom ends of the completed collector 1 to collect the partially reflected solar energy. It is also possible to increase the solar heat collecting effect by making it reflect back toward (1).

Although the solar energy collector according to the present invention has been described with reference to the illustrated drawings, the present invention is not limited by the embodiments and drawings disclosed herein, and various modifications may be made by those skilled in the art within the technical scope of the present invention. Of course it can be done.

As described above, the solar energy collector of the present invention fixes a pipe to a heat collecting plate having a predetermined thickness including a heat insulating material, and installs a frame for protecting the heat collecting plate and fixing a glass plate at the edge of the heat collecting plate, and forming a space in front of the heat collecting plate. By installing a large number of glass plates, the product can be standardized, and the installation of solar energy collectors is relatively simple and the installation cost can be drastically reduced. Therefore, solar collectors can be installed at low cost. Afterwards, even if not periodically inspected and repaired, it collects solar energy semi-permanently, so it is excellent in heating effect in small areas such as farming and fishing villages, houses, malls and factories.

In addition, the hot water temperature for heating in a state where the collector is installed not only can reduce the fuel cost in winter, but also make it compatible with existing household boilers, so that it is heated by the collector of the present invention even without using a domestic boiler during the day. The heating effect can be expected with hot water, and at night, heating and hot water can be used by using a heat storage tank that stores thermal energy through the collector of the present invention together with an auxiliary heat source such as a domestic boiler.

Claims (3)

At least one heat collecting plate 2 on which the pipe 8 is fixed; A frame 3 installed at an edge of the heat collecting plate 2; And A solar energy collector comprising at least one glass plate (4) having a predetermined space (10) in front of the heat collecting plate (2) and fixed by the frame (3). The method of claim 1, The solar energy collector further comprises at least one insertion groove (11) formed on all sides of the inner surface of the frame (3) to fix the glass plate (4). The method of claim 2, The insertion groove (11) is a solar energy collector, characterized in that the insertion groove of any one of the deeper to facilitate the insertion of the glass plate (4) deeper.