KR200311281Y1 - Solar energy collecting plate - Google Patents

Abstract

The present invention relates to a solar heat collecting plate having high solar heat collecting efficiency. The heat collecting plate of the present invention includes a casing 30 having an upper surface open; A heat insulation layer 32 provided on the bottom of the casing; An integrated insulation layer 34 formed on an upper surface of the insulation layer; A pair of main tubes (42, 44) disposed on an upper surface of the integrated insulation layer and installed in parallel on both sides; It consists of a relatively narrow diameter auxiliary pipe 46 for connecting the main pipe with each other and includes a collecting pipe through which liquid for collecting heat flows. In addition, a cover member 49 having a support member 50 attached to an edge thereof is formed to close the upper portion of the casing 30, and is mounted on the upper portion of the casing 30, and the cover member 49 is a casing ( 30) is coupled to the casing 30 by the bending of the end.

Description

Solar energy collecting plate

The present invention relates to a solar heat collecting plate, and more particularly to a solar heat collecting plate configured to simplify the fixing of the glass plate mounted on the upper portion of the casing in order to prevent the release of heat by the solar energy incident inside the heat collecting plate.

First, referring to FIGS. 1 and 2, the structure of a conventional solar heat collecting plate will be described. As shown in the drawing, a general solar heat collecting plate is provided with a casing 10 on the outside thereof, and a heat insulating layer 18 is formed at the bottom of the casing 10. The heat insulation layer 18 generally uses glass wool, and does not conduct solar heat incident on the casing 10 to the outside, and at the same time, transfers heat therein to the inside of the heat collecting tubes 12, 14, and 16. It will perform the function.

In general, the heat insulation layer 18 performs a thermal insulation function to prevent the heat conducted inside the casing 10 from being taken out of the casing and a function of conducting heat conducted inside the casing 10 to a heat collecting tube inside the casing. Will be done.

A heat collecting tube is arranged at an upper portion of the heat insulating layer 18. The heat collecting tube connects the main tubes 12 and 14 with relatively large diameters arranged parallel to the left and right in the drawing, and the main tubes 12 and 14 are connected to each other. While being composed of a plurality of auxiliary pipes 16 having a relatively small diameter. And a copper plate 19 is provided on the upper surface of the main pipe (12, 14) and the auxiliary pipe 16, the copper plate 19 is absorbed by the incident sunlight is transmitted to the heat collecting pipe.

Therefore, for example, when water flows inside the auxiliary pipe 16 through the main pipes 12 and 14, the solar light is absorbed into the casing 10 to be relatively high in temperature. The water heated in this way is supplied to a desired place through the main pipe on either side, or is stored in the hot water tank.

In addition, a cover member 20 is installed at an upper portion of the casing 10 to transmit external heat into the casing 10, and prevent heat emitted from the heat collecting tube to be discharged to the outside. The cover member 20 is preferably a glass plate with a high reflectance of heat.

Glass plate which is an embodiment of the cover member 20 is formed in a structure in which the surface in contact with the outside and the surface inside the casing 10 is different. That is, the surface in which the glass plate is in contact with the outside is roughened so that the outside heat is reduced by the glass and is introduced into the casing 10. However, the surface where the glass plate is in contact with the inside of the casing 10 is manufactured so that there is no bending or rough surface so that the heat inside is reflected by the glass plate and is not released to the outside.

In addition, the support member 21 is surrounded by the edge of the cover member 20 to support the edge of the cover member 20 to which the casing 10 is in contact, and to prevent heat inside the casing 10 from being released to the outside. . In addition, the support member 21 may be formed of rubber, which is a material suitable for preventing entry of heat while efficiently supporting the cover member 20.

And a fastener (K) is used to bind the cover member 20 on top of the casing (10). The fixing clamp K fixes the cover member 20 to the casing 10 by compressing the edge bottom of the casing 10 and the upper surface of the support member 21. The fastener (K) may be made of a material having elasticity in the '' 'shape.

And a triangular cap (K ') is coupled to each corner of the casing (10). The triangular cap (K ') is attached to the edge of each corner of the casing 10 to cover the cover member 20 of the corner to prevent the release of heat inside the casing 10 and the foreign substance to the inside of the casing 10 To prevent ingress.

However, the fixing structure for fixing the cover member 20 to the conventional casing 10 having the above configuration has a disadvantage in that the operation is complicated. That is, the clamping bracket K must be used to simultaneously compress the casing 10 and the supporting member 21 which extend to almost the middle of the supporting member 21. In addition, a corner cap (K ') is attached to each corner to treat the corners. As such, by using a separate component to combine the casing 10 and the cover member 20, the work becomes complicated, there is a problem that the manufacturing cost is increased to increase the unit price.

The present invention aims to solve such a conventional problem, and its basic purpose is to simply attach the cover member to the casing. And another purpose is to reduce the material cost by reducing the parts to be assembled.

1 is a plan view of a conventional heat collecting plate,

2 is a cross-sectional view of a conventional heat collecting plate,

3 is a cross-sectional view of the heat collecting plate of the present invention,

4 is a cross-sectional view of the upper end of the casing of the present invention,

5 is a plan view of the heat collecting plate of the present invention.

Explanation of symbols on the main parts of the drawings

30 ..... casing 32 ..... insulation layer

34 ..... Integrated Insulation Layer 42 ..... Main Tube

44 ..... Main Hall 46 ..... Assistant

47 ..... Copper plate 49 ..... Cover member

50 ..... support member 52 ..... projection

54 ..... Support

Solar heat collecting plate according to the present invention for achieving the above object, the upper surface is open casing 30; A heat insulation layer provided on the bottom of the casing; A heat collecting tube disposed on an upper surface of the heat insulating layer and configured as a pair of main pipes installed in parallel on both sides, and an auxiliary pipe having a relatively narrow diameter connecting the main pipes to each other, and having a liquid flowing therein for collecting heat; A cover member for closing the upper surface of the casing from the upper surface of the heat collecting tube; And a support member surrounded by an edge of the cover member to support the cover member and to prevent heat from being discharged inside the casing; The upper end of the casing is characterized in that the end treatment to surround the support member attached to the edge of the cover member.

And the upper surface of the heat collecting tube is characterized in that the copper plate for collecting sunlight.

And between the heat insulation layer and the heat collecting tube is characterized in that the integrated insulation layer is installed.

Next, the present invention will be described in more detail with reference to the embodiments shown in FIGS. 3 to 5.

3 is a cross-sectional view of a solar heat collecting plate of the present invention corresponding to FIG. 2 showing a conventional technology. As shown, in the heat collecting plate according to the present invention, the heat collecting tubes 42, 44 and 46 are arranged inside the casing 30 made of aluminum, for example. The heat collecting tube has the same arrangement as in the prior art, and the main tubes 42 and 44 having a relatively large diameter and parallel to each other on both sides and the parallel main tubes 42 and 44 are connected to each other. It consists of the some auxiliary pipe 46 which has a comparatively small diameter.

Water flowing through the main pipes 42 and 44 on either side will be heated by solar heat while flowing through the auxiliary pipe 46 inside the casing 30, and will be sent to the desired place for use.

According to the present invention, the heat insulating layer 32 is formed on the bottom portion of the casing 30. The heat insulating layer 32 is a part made of glass wool or a replaceable heat insulating material.

According to the present invention, the integrated insulation layer 34 is formed on the heat insulation layer 32. Integrated heat insulating layer 34 of the present invention is a portion that is configured to have a high density so as to maximize the function as a heat insulating layer, the function to efficiently receive solar heat incident into the casing 30 and to conduct it to the heat collecting tube, and the casing ( 30) It is the part that is configured to secure the insulation function to prevent the heat inside from being taken out of the casing.

And a cover member 49 for closing the upper portion of the casing 30 is installed on the top of the heat collecting tube. The cover member 49 transmits external heat to the inside of the casing 30 and prevents heat stored in the collecting tube from being discharged to the outside. The cover member 49 may be a glass plate in one embodiment.

Glass plate which is an embodiment of the cover member 49 is manufactured in a structure in which the surface in contact with the outside and the surface inside the casing 30 is different. That is, the surface in which the glass plate is in contact with the outside is roughened so that the outside heat is reduced by the glass and the ratio of the glass plate is introduced into the casing 30. And the surface of the glass plate in contact with the interior of the casing 30 is processed so that there is no bending or rough surface so that the heat inside is reflected by the glass plate is not emitted to the outside.

Next, look at the coupling relationship between the casing 30 and the cover member 49 of the present invention based on FIG. 4 illustrates a cross-sectional view of the edge portion of FIG. 3.

As shown, the cover member 49 is mounted on the upper portion of the casing 30 with the support member 50 attached to the edge thereof.

The support member 50 supports the edge of the cover member 49 and prevents heat inside the casing 30 from being released to the outside and foreign matter from entering the casing 30. In addition, the support member 50 is preferably formed of a resilient rubber material in order to effectively adhere the cover member 49 to the rim of the casing 30 to prevent the entry of heat and the inflow of foreign matter.

In addition, a plurality of protrusions 52 having sharply formed end portions in the longitudinal direction of the support member 50 protrude from upper and lower surfaces of the support member 50. The plurality of protrusions 52 protrude outwardly from the surface of the support member 50, and inside the casing 30 through the contact surface gap between the support member 50 and the casing 30 from the outside by the protrusions 52. It is possible to prevent foreign substances such as water from flowing in. In addition, a support end 54 is formed at the inner end of the support member 50 extending upward. The support end 54 serves to support the end of the casing 30.

The casing 30 serves as a casing for embedding the heat collecting tubes 42, 44, 46, and a heat insulating material, and the cover member 49 is placed on the casing 30 as described above.

In the related art, in order to attach the casing 30 and the cover member 49 to each other, the edges of the casing 30 and the cover member 49 are simultaneously clamped using separate parts. However, in the present invention, the casing 30 and the cover member 49 are combined using the end portion of the casing 30 in consideration of the above-mentioned work-related inconvenience and increase in manufacturing cost.

A process of attaching the cover member 49 to the casing 30 will be described below. Unlike the prior art, the upper end of the casing 30 extends to protrude upward from the side of the support member 50. And the upper end of the casing 30 protruding to the upper portion of the support member 50 is bent to contact the upper surface of the support member 50. In addition, the end of the casing 30 is bent again to bring it into close contact with the support member 50. The bent end surface of the casing 30 is supported by the support end 54 of the support member 50.

And the edge portion of the edge of the casing 30 is installed so that the casing 30 does not overlap each other, as shown in FIG. As shown in the drawing, the overlapping portions at the points where the two side edges meet are cut to cover the upper portion of the support member 50 without the side edges overlapping.

3 and 5, the copper plate 47 is covered on the upper surface of the heat collecting tube including the main tubes 42 and 44 and the auxiliary tube 46. The function of the copper plate 47 itself is the same as the conventional one, and performs the function of collecting solar light and transmitting it to the heat collecting tube installed on its back side.

According to the present invention as described above, in the solar heat collecting plate, it can be seen that the basic technical idea to attach the cover member 49 to the casing 30 by bending the end of the casing 30. . Within the scope of the basic technical idea of the present invention, many other modifications are possible to those skilled in the art, and should be interpreted based on the appended claims of the present invention.

According to the present invention having the above configuration, the solar heat collecting plate is more easily manufactured. That is, the casing and the cover member coupling method according to the present invention, the solar heat collecting plate can be produced more efficiently, and the elimination of parts is expected to reduce the manufacturing cost.

Claims (3)

A casing 30 having an upper surface open; A heat insulation layer 32 provided on the bottom of the casing; It is composed of a pair of main pipes (42,44) disposed on the upper surface of the heat insulating layer (32) and installed in parallel on both sides, and a relatively narrow diameter auxiliary pipe (46) connecting the main pipes to each other, A collecting tube through which liquid for collecting the liquid flows; A cover member 49 for closing the upper surface of the casing 30 from the upper surface of the heat collecting tube; And It is surrounded by the edge of the cover member (49) to support the cover member (49) and includes a support member (50) for preventing heat from being discharged in the casing (30); The upper end of the casing 30 is a heat collecting plate, characterized in that the end treatment to surround the support member (50) attached to the edge of the cover member (49). The solar heat collecting plate according to claim 1, wherein a copper plate (47) for collecting sunlight is provided on an upper surface of the heat collecting tube. The solar heat collecting plate according to claim 1, wherein an integrated heat insulating layer (34) is provided between the heat insulating layer (32) and the heat collecting tube.