KR101076632B1 - Reflector plate of sola collector - Google Patents

Abstract

The present invention relates to a bent reflector of a double vacuum tube solar collector.

<Purpose>

Accordingly, the technical gist of the present invention is a reflector of a solar collector which collects solar heat to heat a heat medium of a double vacuum tube, and the reflector is used to collect solar heat non-tracefully using the principle of a compound parabolic concentrator (CPC). However, the reflecting plate of the present invention is a simple bending of the reflector (plate) itself compared to the conventional parabolic reflector plate to collect all the solar heat, by adding a reflecting plate accompanying each change of the size (size according to the capacity) of the double vacuum tube It eliminates the usual roll forming process (increased manufacturing cost and precision and workability due to the die forming die), and it is easy to set the focusing point and change the design, and it is possible to manufacture precisely. By the production cost is reduced there is a feature that the productivity is improved.

<Composition>

To achieve this object, the present invention includes a seating end 100 having a length in one direction so that the double vacuum tube 10 is seated; An auxiliary reflector plate 200 formed on one side and the other side of the seating end 100 and having a slope D1 set downward from the seating end 100; An obtuse angle reflecting plate 300 extending in contact with the auxiliary reflecting plate 200 and having an inclination D2 set upwardly based on a lower end of the auxiliary reflecting plate 200; An acute angle reflecting plate 400 extending in contact with the obtuse angle reflecting plate 300 and having an inclination D3 set upwardly based on an upper end of the obtuse reflecting plate 300; .

<Effect>

Therefore, the present invention is formed to collect the solar heat non-trace, but by simply bending the reflector (plate) itself compared to the conventional parabolic reflector to collect all the solar heat, by changing the standard (size according to the capacity) of the double vacuum tube The additional roll forming process (reflecting increase in manufacturing cost and precision and workability due to roll forming die processing) of the reflection plate accompanying each time is omitted, and it is possible to precisely set the focusing point and change the design as well as precise manufacturing. By the simple bending process of the reflector, there is an effect of reducing the manufacturing cost and productivity.

Double vacuum tube, reflector, bending, seating end, auxiliary reflector, obtuse angle reflector, acute reflector, solar collector

Description

Curved reflector plate of double vacuum tube solar collector {Reflector plate of sola collector}

The present invention is a reflection plate of the solar collector to collect the heat of the heat to heat the heat medium of the double vacuum tube, the reflector is formed to collect the heat of the heat non-trace by using the principle of CPC (Compound Parabolic Concentrator-hyperbola), Reflector plate of the present invention compared to the conventional parabolic reflector plate by simply bending the reflector (plate) itself to collect all the solar heat, additional roll forming fabrication of the reflector plate accompanying each change of the size (size according to the capacity) of the double vacuum tube The process (increased manufacturing cost and precision and workability due to roll forming die processing) can be omitted, and the focusing point setting and design change can be easily performed, as well as precise manufacturing, and the manufacturing cost is reduced by simple bending processing of the reflector. Bent type of double tube solar collector, characterized in that the productivity is improved Relates to a reflector.

In general, a vacuum tube solar collector is a vacuum tube inside the permeable body and an absorption plate is placed therein. The solar tube is divided into a single vacuum tube and a double vacuum tube according to the shape of the vacuum tube.

At this time, the single vacuum tube is a vacuum inside the glass tube, the double vacuum tube is a double glass tube is formed between the glass tube in a vacuum state.

Thus, the role of the vacuum tube is formed to block the heat loss between the inside and the outside and to block the convection and conduction heat loss.

On the other hand, the bottom (lower) of the double vacuum tube is provided with a reflecting plate for collecting the solar heat to the heat medium formed in the vacuum tube, it is usually formed to collect the solar heat non-trace by using the principle of CPC (Compound Parabolic Concentrator-hyperbolic curve) do.

However, such a conventional reflector is formed in a parabolic shape to collect solar heat by the double vacuum tube, and the parabolic reflector has a problem of precisely designing a light collecting (condensing) point by roll forming. It is occurring.

In other words, when the standard of the double vacuum tube is changed, it is necessary to design a heat collecting point by newly processing the roll forming of the reflector accordingly, which causes a problem in that productivity is reduced along with an excessive increase in manufacturing cost due to the production of a production die.

The present invention is to solve the above-mentioned problems, the technical gist of the reflector of the solar heat collector to collect solar heat to heat the heat medium of the double vacuum tube, the reflector uses a principle of CPC (Compound Parabolic Concentrator-hyperbolic curve) It is formed so as to collect the solar heat by non-trace, but the reflecting plate of the present invention compared to the conventional parabolic reflector by simply bending the reflector (plate) itself to collect all the solar heat, the size of the double vacuum tube (size according to the capacity ) The additional roll forming process of the reflecting plate (change in manufacturing cost and precision and workability deterioration due to the roll forming die processing) is omitted for each change. It is possible to reduce the production cost by simple bending processing of the reflector plate to improve productivity To provide a bending-type reflector of the double-tube type solar collector characterized in that it is an object.

To achieve this object, the present invention includes a seating end 100 having a length in one direction so that the double vacuum tube 10 is seated; An auxiliary reflector plate 200 formed on one side and the other side of the seating end 100 and having a slope D1 set downward from the seating end 100; An obtuse angle reflecting plate 300 extending in contact with the auxiliary reflecting plate 200 and having an inclination D2 set upwardly based on a lower end of the auxiliary reflecting plate 200; An acute angle reflecting plate 400 extending in contact with the obtuse angle reflecting plate 300 and having an inclination D3 set upwardly based on an upper end of the obtuse reflecting plate 300; .

At this time, the set slope D1 of the auxiliary reflector 200 is 20 to 25 °, the set slope D2 of the obtuse reflector 300 is 20 to 25 °, and the set slope D3 of the acute reflector 400. It is preferable that it is 30-35 degrees.

In addition, the seating end 100, the auxiliary reflecting plate 200, the obtuse reflecting plate 300 and the acute reflecting plate 400 is formed to be a pair of left and right adjacent to each other in a pair, the acute reflecting plate 400 which is both left and right ends of the entire reflecting plate It is preferable that the bent portion 500 is further formed on the outer peripheral surface of the).

Accordingly, the seating end 100, the auxiliary reflecting plate 200, the obtuse reflecting plate 300 and the acute reflecting plate 400 is a pair of fitting jaws 600 protruding into both ends in the longitudinal direction of the entire reflecting plate is further configured It is preferable that the upper and lower fixed connecting portions 11 and 23 of the vacuum tube 10 are formed to be fitted.

As described above, the present invention is formed to collect the solar heat in a non-trace manner, but by simply bending the reflector (plate) itself to collect all the solar heat as compared to the conventional parabolic reflector, the size of the double vacuum tube (size according to the capacity) The additional roll forming process of the reflecting plate (change in manufacturing cost and precision and workability deterioration due to the roll forming die processing) is omitted for each change, and the focusing point setting and design change can be easily performed, and precise manufacturing is possible. In addition, there is an effect of reducing the manufacturing cost and productivity by the simple bending process of the reflector.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings.

First, as shown in Figures 1 to 2, the present invention is a bent reflector of the double vacuum tube solar collector, the reflector is bent in multiple angles based on the seating end 100 on which the double vacuum tube 10 is seated. The auxiliary reflector 200, the obtuse angle reflecting plate 300 and the acute angle reflecting plate 400 is large.

At this time, the seating end 100 is formed to have a length in one direction so that the double vacuum tube 10 is seated.

That is, the seating end is a corner portion of a mountain shape raised by a plurality of auxiliary reflecting plates, as shown in FIG. 2, and an angle reference point incident to scattering solar radiation by an acute and obtuse reflecting plate to be described later. It is formed to be.

At this time, the auxiliary reflector 200 is formed on one side and the other side of the seating end 100 and is formed to have a slope (D1) set toward the lower side relative to the seating end (100).

At this time, the auxiliary reflector is formed so that the incident angle of the solar heat is collected in a straight month for the incidence angle inclined early or late afternoon at noon or reflected by an obtuse angle reflector to be described later to be collected in a double vacuum tube.

In addition, the obtuse angle reflecting plate 300 extends in contact with the auxiliary reflecting plate 200 and is formed to have an inclination D2 set upward toward the lower end of the auxiliary reflecting plate 200.

Such an obtuse reflecting plate is formed such that the incident angle of solar heat is collected directly at noon or is collected at a straight month with respect to the incidence angle tilted at early morning or late afternoon, or is reflected by an acute angle reflector to be described later to be collected in a double vacuum tube.

On the other hand, the acute angle reflecting plate 400 extends in contact with the obtuse reflecting plate 300 and is formed to have a slope (D3) set toward the upper side relative to the upper end of the obtuse reflecting plate (300).

That is, when the angle of incidence of solar heat is inclined early or late afternoon, it is formed to be reflected by an obtuse angle reflector or an acute angle reflector and collected in a double vacuum tube.

In other words, the auxiliary, obtuse and acute reflection plates of the present invention are configured to collect both straight and scattered yarns, but are simply formed by bending a plate-type reflector in the form of a flat plate, thereby actively responding to the change of the standard of a double vacuum tube, and easily varying. It is possible to design, thereby reducing the production cost and workability is expected.

At this time, the set slope D1 of the auxiliary reflector 200 is 20 to 25 °, the set slope D2 of the obtuse reflector 300 is 20 to 25 °, and the set slope D3 of the acute reflector 400. It is preferable that it is 30-35 degrees.

That is, the inclination setting value is an optimal design angle according to the incident angle of solar heat, and both direct delivery and scattering solar radiation are formed to be collected by the reflecting plates into the double vacuum tube.

In addition, the seating end 100, the auxiliary reflecting plate 200, the obtuse reflecting plate 300 and the acute reflecting plate 400 is formed to be a pair of left and right adjacent to each other in succession, the acute reflecting plate to be the left and right both ends of the entire reflecting plate ( It is preferable that the bent portion 500 is further formed on the outer circumferential surface of 400.

The bent portion is intended to prevent the occurrence of safety accidents caused by the side of the reflector plate made of a metal plate at the time of manufacture and transport.

In addition, the seating end 100, the auxiliary reflecting plate 200, the obtuse reflecting plate 300 and the acute reflecting plate 400 is a pair of fitting jaw (600) protruding to both ends in the longitudinal direction of the entire reflecting plate is further configured double It is preferable that the upper and lower fixed connecting portions 11 and 23 of the vacuum tube 10 are formed to be fitted.

That is, the fitting jaw 600 is formed to be simply fitted without a fixed connection portion and bolting or welding when coupled to the collector, so that the construction work is easy for the operator and easy to disassemble and combine according to future maintenance. have.

The present invention is not limited to the above-described specific preferred embodiments, and those skilled in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a perspective view of a bent reflector according to the present invention;

2 is a side view showing an embodiment of a bent reflector according to the present invention.

<Description of Major Symbols in Drawing>

100 ... mounting seat 200 ... auxiliary reflector

300 ... obtuse reflector 400 ... acute reflector

500 ... bend

Claims (4)

A seating end 100 having a length in one direction so that the double vacuum tube 10 is seated; An auxiliary reflector plate 200 formed on one side and the other side of the seating end 100 and having a slope D1 set downward from the seating end 100; An obtuse angle reflecting plate 300 extending in contact with the auxiliary reflecting plate 200 and having an inclination D2 set upwardly based on a lower end of the auxiliary reflecting plate 200; An acute angle reflecting plate 400 extending in contact with the obtuse reflecting plate 300 and having an inclination D3 set upwardly based on an upper end of the obtuse reflecting plate 300; The bent reflector of the double tube-type solar collector, characterized in that consisting of. According to claim 1, wherein the set slope (D1) of the auxiliary reflector 200 is 20 to 25 °, the set slope (D2) of the obtuse reflecting plate 300 is 20 to 25 °, the set of the acute angle reflector 400 Tilt (D3) is a bent reflector of the double tube-type solar collector, characterized in that 30 ~ 35 °. According to claim 1 or 2, wherein the seating end 100, the auxiliary reflecting plate 200, obtuse reflecting plate 300 and the acute reflecting plate 400 is formed in a pair adjacent to the left and right to be continuous, of the entire reflecting plate Bending reflector of the double vacuum tube solar collector, characterized in that the bent portion 500 is further formed on the outer circumferential surface of the acute angle reflection plate 400 to be left and right ends. According to claim 3, The seating end 100, the auxiliary reflecting plate 200, obtuse reflecting plate 300 and the acute reflecting plate 400 is a pair of fitting jaws 600 protruding to both ends of the longitudinal direction of the entire reflecting plate, respectively The bent reflector of the double vacuum tube solar collector, characterized in that is configured to be fitted to each of the upper and lower fixed connection (11, 23) of the double vacuum tube (10).

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