KR100886803B1 - Solar collector - Google Patents

Abstract

An upwind control device of a solar collector is provided to prevent the collector from being damaged due to strong upwind by opening a variable reflector equipped in the solar collector according to the intensity of upwind. An upwind control device of a solar collector comprises a solar collector concentrating solar heat on a solar collector installed at the center of the frame; a plurality of structures(113) in which a plurality of first auxiliary frames(111) and a second auxiliary frame(112) are connected to the frame in the form of a lattice; a variable reflector(400) which is installed in the first assistant frame through a coupling axle(430) and elastically is opened and closed around the coupling axle; and a control unit equipped in the back of the variable reflector and installed onto the first auxiliary frame through a fastening unit.

Description

Wind blower of solar heat collector {SOLAR COLLECTOR}

The present invention is to protect the heat collecting plate for collecting the solar heat from the wind, in particular, the variable reflector provided in the heat collecting plate is open (open) in the front or rear direction in accordance with the intensity of the wind blowing from the front of the heat collecting plate (variable) It is related with the technique which installed so that the said heat collecting plate may be damaged from a strong upwind.

In recent years, the world's oil price has been soaring due to the limited dependence on electricity, gas and oil resources. On the other hand, mankind has seriously raised environmental pollution due to the increase of greenhouse gases caused by the use of petroleum energy. have.

Accordingly, interest in the development of alternative energy using nature such as solar power, wind power, and tidal power, which can be used indefinitely in an environmentally friendly environment without generating environmental pollution, has been focused, especially home and industry using solar power. The development of a device for producing the thermal energy required for hot water or heating used in the trend is actively progressing.

1 is a front view showing the structure of a heat collecting plate for collecting conventional solar heat.

The heat collecting plate 10 for collecting solar heat is connected to and fixed to a frame 11 by a support part 15 including a first support part 15-1 and a second support part 15-2. Installation is performed by fixing the second support member 15-2 to the bottom surface 17 of the roof of the building or the ground using a second fixing member 16 such as an anchor bolt.

In addition, the conventional heat collecting plate 10 installed as described above includes a plurality of first auxiliary frames 11-1 connected in a plurality of horizontal directions to the frame 11 and a second auxiliary frame 11-2 connected in a vertical direction. The fixed reflector 12 is fixed to the structure 11-3 formed by connecting in a lattice form using a first fixing member 13 such as a separate fixing screw or a rivet.

In addition, the conventional heat collecting plate 10 configured as described above receives solar heat radiated from the sun 18 through the fixed reflector 12 provided in the heat collecting plate 10, and then in the fixed reflector 12. The solar heat is collected by reflecting the received solar heat to the collector 14 installed on the center of the heat collecting plate 10.

However, in the related art, when a strong upwind blown from the front surface of the heat collecting plate 10 comes into contact with the fixed reflector 12, at this time, a high temperature fixed reflector 12 installed on the heat collecting plate 10, including a high temperature fixed reflector 12. 14) or the support part 15 is damaged, and serious problems such as damage to the heat collecting plate 10 are caused. Therefore, it is difficult to collect solar heat in a strong wind or a typhoon weather. to be.

The present invention for solving the conventional problems as described above is provided with a plurality of variable reflectors between the structure of the frame (Frame) provided in the heat collecting plate, and automatically by the elastic force of the control piece in accordance with the strength of the upwind to the variable reflector By installing the variable reflector so that the wind is ventilated between the structure and the opening side (Open) to control the (Open), the purpose is to prevent the heat collecting plate from damage from strong upwind in advance.

Means for solving the problems of the present invention as described above is characterized in that a heat collecting plate for collecting the solar heat radiated from the sun to the heat collector installed on the center of the frame is characterized in that the configuration.

In addition, a plurality of structures formed by connecting a plurality of first sub-frames and second sub-frames in a lattice form to a frame provided in the heat collecting plate is characterized in that the configuration.

In addition, there is a gap between the structure is installed on the first sub-frame through the fastening shaft, characterized in that the variable reflector is configured to be opened (open) the opening side in the front or rear direction around the fastening shaft do.

In addition, the variable reflector has an elastic force for the balance (Balance) control that is open (Open), and comprises a control piece installed in the first auxiliary frame through a fixing piece in contact with the rear portion of the variable reflector It is done.

Hereinafter, the objects and solutions to the present invention will become more apparent from the detailed description of the various embodiments shown in the accompanying drawings.

As described above, the present invention can prevent the heat collecting plate from being damaged from strong upwind, thereby providing an effect of efficiently collecting solar heat even in a windy weather.

In describing a specific embodiment of the present invention, it is illustrated by the drawings of the present invention, the configuration and operation thereof will be described as at least one embodiment, whereby the technical spirit of the present invention and its core Configurations and operations should not be limited.

For reference, in designating reference numerals in the drawings to be described in the present invention, it should be noted that the same components are given the same reference numerals as much as possible, even if shown in different drawings.

Hereinafter, the upwind control device for a solar heat collecting plate of the present invention will be described in detail with reference to the accompanying drawings.

2 is a front view schematically showing a structure of a heat collecting plate for collecting solar heat according to the present invention.

Looking at the overall configuration of the heat collecting plate 100 for collecting the solar heat radiated from the sun 800 as a means for solving the problem of the present invention, the heat collecting plate 100 is a frame (Frame) 110 is provided, the installation is made by fixing the collector 200 to the fixed shaft 140 provided on the center of the frame 110.

In addition, the heat collecting plate 100 is connected to and fixed to the frame 110 by a support part 500 including a first support part 510 and a second support part 520 by separate fixing means and welding, and the second support part. Installation is performed by firmly fixing the roof surface of the building or the floor 700 such as the ground using a fourth fixing member 641 such as an anchor bolt to the 520.

In this case, the frame 110 and the support part 500 is required to have sufficient strength so that the heat collecting plate 100 is not damaged by strong winds, which may be made of a metal material or a material having a strength equal to or greater than that.

Next will be described in detail with respect to the heat collecting plate 100, the key technical configuration of the present invention.

First, a heat collecting plate 100 is configured to collect solar heat radiated from the sun 800 in a heat collector 200 installed as described above on the center of the frame 110.

In addition, in the frame 110 provided in the heat collecting plate 100, a plurality of first auxiliary frames 111 formed in a plurality of horizontal directions and a second auxiliary frame 112 formed in a vertical direction are connected to each other in a grid shape. A plurality of structures 113 are configured.

In addition, the structure 113 is provided in the first auxiliary frame 111 through the fastening shaft 430 with a gap 421, 422 to maintain a constant interval in the horizontal and vertical directions, the The variable reflector 400 is installed so that the opening side 423 is open-controlled by a strong wind in the front or rear direction about the fastening shaft 430.

In addition, the variable reflector 400 has its own elastic force for balance control to be open, and the fixing piece 453 is in contact with the rear portion of the variable reflector 400 to separate fixing screws or rivets. It characterized in that it comprises a control piece 450 installed in the first auxiliary frame 111 through a third fixing member 631, such as).

The heat collecting plate 100 configured as described above is provided at the front portion of the fixed reflector 300 and the variable reflector 400 installed in the structure 113 of the heat collecting plate 100 to radiate solar heat from the sun 800. Collector 200 is collected through the slopes 311 and 411, and then the solar heat collected by the reflective surfaces 311 and 411 is fixed to the fixed shaft 140 provided on the center of the frame 110. By reflecting so that the focus is focused on the solar heat is collected.

On the other hand, according to the local environment where the heat collecting plate 100 is installed, that is, the inland region where the wind is not strongly blown or the mountainous region and the beach where the wind is very strong, the structure 113 includes a plurality of fixed reflectors ( 300 and a plurality of variable reflectors 400 may be installed in combination, or only a plurality of variable reflectors 400 may be installed.

At this time, in the installation by mixing the fixed reflector 300 and the variable reflector 400, the fixed reflector 300 is installed on the center or the edge portion of the frame 110, or in the frame 110 (內) It may be possible to control the upwind by installing a variety of cross (+), X-shaped (X), Zigzag (Z) shape.

On the contrary, in the case where the variable reflector 400 and the fixed reflector 300 are mixed and installed, the variable reflector 400 is installed on the center or the edge of the frame 110 or in the frame 110. It is also possible to control the upwind by installing variously in (內) such as cross shape (+) shape, X shape (X) shape, and zigzag shape (Z) shape.

In addition, in the mountainous region where the wind blows very strongly and the beach as mentioned above, the structure 113 provided on the center of the frame 110 in which the collector 200 is installed includes both the fixed reflector 300 and the variable reflector 400. Leaving it empty without installation will be even more useful for controlling strong headwinds.

Here, the fixed reflector 300 may be preferably fixed to the structure 113 formed on the frame 110 using a first fixing member 611, such as a separate fixing screw or rivet (Rivet). .

In addition, the shape of the structure 113 may be variously formed, such as a triangular shape, a triangular shape, a circular shape, an elliptical shape, and a polygonal shape as shown in FIG. 2.

On the other hand, the shape of the frame 110 is a triangular, circle, as shown in Figure 2 in order to focus the solar heat reflected from the reflecting surface (311, 411) collector 200 It is formed in the shape, oval shape, polygonal shape, etc., but it is formed so as to be curved concave toward the inside in the range of 120 to 180 degrees relative to the collector 200 installed on the center of the frame 110, the solar house It will be more favorable to heat.

At this time, the surface of the reflecting surfaces 311 and 411 provided on the front surface of the fixed reflector 300 and the variable reflector 400 is made of a material having a high reflectance to efficiently reflect the solar heat emitted from the sun 800. It would be desirable to use it, and for this purpose it would be possible to smoothly process the surface, or to smooth the plating on the surface, or to attach a thin film of reflective film or silver foil to the surface using a separate adhesive means. .

Of course, the fixed reflector 300 and the variable reflector 400 should not be harmful to the environment, particularly, it is preferable to be provided with a material that does not occur rust.

In addition, the variable reflector 400 installed in both the left and right directions on the basis of the collector 200 has a direction in which the opening side 423 faces the collector 200 installed on the center of the frame 110 as shown in FIG. 2. In other words, by installing in a symmetrical direction, even if the opening side 423 is opened in the rearward direction by the upwind, it is possible to increase the heat collection efficiency of solar heat.

In addition, the fastening shaft 430 provided in the variable reflector 400 may divide the variable reflector 400 into three equal parts P1 (P2) (P3) in a direction parallel to the fastening shaft 430, as shown in FIG. In this case, it is more advantageous for the control of the upwind to be provided between the second half point P2 and the third half point P3 with the opening side 423 as a starting point.

The variable reflector 400 is installed by fastening the fastening shaft 430 to the fastening groove 433 formed in the first auxiliary frame 111 of the structure 113, as shown in FIG. The variable reflector 400 is bent to be bent by an elastic force in the front or rear direction so that the fastening shaft 430 is installed in the fastening groove 433.

At this time, by engaging the ring (432) to the fastening shaft 430 to form a gap 421 between the inner surface portion 114 of the structure 113 and the variable reflector 400, the variable reflector It is advantageous for the open control of the 400.

Meanwhile, in order to prevent the variable reflector 400 from being damaged from strong upwind, the variable reflection body 400 is separately provided at one end of the fastening shaft 430 in the direction in which the fastening shaft 430 is installed. The auxiliary support piece 431 having a predetermined thickness, which is integrally bonded by using a fixing means or welding of the variable reflector 400 using a second fixing member 621 such as a separate fixing screw or rivet, etc. It may be desirable to fix the

Of course, the auxiliary support piece 431, like the fixed reflector 300 and the variable reflector 400 should not be harmful to the environment, particularly, it is preferable to be provided with a material that does not occur rust.

In addition, the control piece 450 is provided with at least one contacting to generate its own elastic force on the rear portion of the variable reflector 400, as shown in Figures 5 and 6 attached, the opening side 423 by the upwind By opening in the front or rear direction of the frame 110 and being restored by its own elastic force, balance control of the variable reflector 400 is achieved.

At this time, the first control piece 451 and the second control piece 452 provided in the control piece 450 is preferably provided in parallel along the inner surface 114 of the first auxiliary frame (111). In addition, one side end (not shown) of the fixing piece 453 provided in the control piece 450 is the first control piece 451 and the second control piece by using a separate fixing means or welding. It is integrally bonded between the 452.

The fixing piece 453 is divided into two portions based on the opening side 423 when the variable reflector 400 is divided into three portions P1, P2, and P3 in a direction parallel to the fastening shaft 430. Robust to the first auxiliary frame 111 of the structure 113 by using a third fixing member 631, such as a separate fixing screw or rivet (Rivet) to be located between the point (P2) and the third quarter point (P3). It may be desirable to fix it.

In addition, as shown in FIGS. 5 and 6, the length of the first control piece 451 provided in the control piece 450 is two times longer than the length of the first control piece 452, for example. It is preferable that the opening side 423 located in the first control piece 451, which has a longer length due to the head wind, causes the elastic force to drop, to be open controlled first.

Of course, the fixing piece 453 preferably uses a material rich in its own elastic force, and in particular, it should not be harmful to the environment, and it may be preferable that the fixing piece 453 is made of a material that does not generate rust.

It will be apparent to those skilled in the art that various changes, modifications, and the like can be made without departing from the technical spirit of the present invention through the above description.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments as mentioned, but should be defined by the claims of the present invention.

The present invention relates to a solar heat collecting plate capable of coping with strong winds, and is an invention which is highly expected in the future in view of efficient solar heat collecting even in a windy weather.

1 is a front view showing the structure of a heat collecting plate for collecting conventional solar heat.

2 is a front view schematically showing a structure of a heat collecting plate for collecting solar heat according to the present invention.

3 is a front view showing a detailed example of a state in which the variable reflector is fastened to any one structure in Figure 2 according to the present invention.

FIG. 4 is a rear view illustrating one embodiment of the variable reflector coupled to any one structure in detail according to the present invention.

FIG. 5 is a rear view illustrating an example in detail in which a control piece is coupled to a rear portion of a variable reflector in FIG. 4 according to the present invention.

FIG. 6 is a side view illustrating an exemplary embodiment of a control piece formed in a structure in which self elastic force is generated in FIG. 5 according to the present invention.

Explanation of symbols on the main parts of the drawings

100: heat collecting plate 110: frame

111: first auxiliary frame 112: second auxiliary frame

113: structure 114: inner side

140: fixed shaft 200: collector

300: fixed reflector 311, 411: reflecting surface

400: variable reflector 421, 422: gap

423: opening side 430: fastening shaft

431: auxiliary support 432: ring

433: fastening groove 450: control piece

451: First Control Part 452: Second Control Part

453: fixing piece 500: support part

510: first support portion 520: second support portion

611: first fixing member 621: second fixing member

631: third fixing member 641: fourth fixing member

700: bottom 800: the sun

Claims (12)

A heat collecting plate 100 for collecting the solar heat radiated from the sun 800 in the heat collector 200 installed on the center of the frame 110; A plurality of structures 113 formed by connecting a plurality of first auxiliary frames 111 and second auxiliary frames 112 to a frame 110 provided in the heat collecting plate 100 in a lattice form; It is installed on the first auxiliary frame 111 through the fastening shaft 430 with the gaps 421 and 422 between the structures 113, and the front or rear direction with respect to the fastening shaft 430. A variable reflector 400 installed so that the opening side 423 is open controlled; a) has a resilient force for balance control in which the variable reflector 400 is open; And, b) a control piece 450 installed in the first auxiliary frame 111 through a fixing piece 453 in contact with a rear portion of the variable reflector 400; Upwind control device of the solar heat collecting plate, characterized in that configured to include. The method of claim 1, wherein the frame (110); a) formed into at least one of square, triangular, circular, elliptical and polygonal; b) formed to be concavely curved inwardly in a range of 120 degrees to 180 degrees with respect to the collector 200 installed on the center of the frame 110; The upwind control device of the solar heat collecting plate, characterized in that. According to claim 1, wherein the shape of the structure (113); a) consisting of at least one of square, triangular, circular, elliptical and polygonal; And, b) the structure 113, the fixed reflector 300 and the variable reflector 400 is installed mixed; The upwind control device of the solar heat collecting plate, characterized in that. The method of claim 3, wherein the fixed reflector 300; a) installed at the center or the edge of the frame 110; or, b) at least one of a cross shape (+) shape, an X shape (X) shape, and a zigzag shape (Z) shape in the frame 110; The upwind control device of the solar heat collecting plate, characterized in that. According to claim 1 or claim 3, The reflector of the solar radiation emitted from the sun 800 on the surface of the reflective surface (411, 311) provided on the front portion of the variable reflector 400 and the fixed reflector 300 To increase; a) processing the surface; or b) plating the surface; or c) attaching a thin film of reflective film or silver foil to the surface; At least one of the upwind control device of the solar heat collecting plate, characterized in that. According to claim 1, The fastening shaft (430) is; When the variable reflector 400 is divided into three equal portions P1, P2, and P3 in a direction parallel to the fastening shaft 430, the second and third dividing points P2 and the third dividing point are defined based on the opening side 423. Installed between P3); The upwind control device of the solar heat collecting plate, characterized in that. According to claim 1 or 6, The fastening shaft (430); Fastening a ring 432 to form a gap portion 421 between the inner surface portion 114 of the structure 113 and the variable reflector 400; The upwind control device of the solar heat collecting plate, characterized in that. The method of claim 1, wherein the fixing piece (453); When the variable reflector 400 is divided into three equal portions P1, P2, and P3 in a direction parallel to the fastening shaft 430, the second and third dividing points P2 and the third dividing point are defined based on the opening side 423. Installed between P3); The upwind control device of the solar heat collecting plate, characterized in that. The method of claim 1, wherein the control piece (450); At least one installed on the rear portion of the variable reflector 400; The upwind control device of the solar heat collecting plate, characterized in that. The method of claim 1, wherein the control piece (450); Installed in parallel along the inner surface portion 114 of the first auxiliary frame 111; The upwind control device of the solar heat collecting plate, characterized in that. According to claim 1, wherein the length of the first control piece (451) provided in the control piece (450); Two times longer than the length of the first control piece 452; The upwind control device of the solar heat collecting plate, characterized in that. According to claim 1, Variable reflector 400 is installed in both the left and right on the basis of the collector 200; An opening side 423 installed in a direction toward the collector 200; The upwind control device of the solar heat collecting plate, characterized in that.

Images