KR101280060B1 - Solar Heat Collecting Rate Adjustable Evacuated Tube Solar Collector - Google Patents

Abstract

The present invention relates to a vacuum tube solar collector capable of adjusting the amount of heat collection, and more particularly, each heat collecting plate installed inside each vacuum tube is configured to alternately form '/' and '형태', or each heat collecting plate. They are configured in the form of '형태', but by adjusting the number of installation, or by changing each installation angle of the heat collecting plate having the form as described above, by adjusting the amount of heat collected to prevent overheating of the heat collector, This relates to a possible tubular solar collector.

Description

Solar Heat Collecting Rate Adjustable Evacuated Tube Solar Collector}

The present invention relates to a vacuum tube collector configured to control the amount of heat collected by adjusting the shape of the heat collecting plate and the installation angle of the plurality of heat collecting plates installed to solve the overheating phenomenon of the vacuum tube collector.

Recently, in obtaining energy, environmental pollution due to exhaustion of resources and combustion of fossil fuels has emerged as a serious problem. Accordingly, the importance of securing alternative energy sources has been highlighted, and its development is being actively conducted in major developed countries.

Examples of the development of alternative energy sources include power generation using solar, wind, wave, geothermal and the like. Of these, the power generation using the wind power, wave power, geothermal heat has a disadvantage that the installation place for the generator is limited to a specific location. On the other hand, the power generation using the solar heat is relatively difficult to the location conditions, there is an advantage that it can be installed in the building and the like.

The solar power generation as described above is largely divided into condensing and non-condensing, and again, the non-condensing is divided into flat and vacuum tube types. Among them, it is recognized as the most suitable for the present industrial use, and the spotlight is the vacuum tube solar collector.

The core of the operation of the vacuum tube solar collector is the solar energy collection. The hot water load of the house using the solar collector is concentrated in the morning and evening, but the heat collected in the collector is low in the morning and evening, It is true that it appears highest near noon.

Therefore, the vacuum tube collector has a small hot water load in the middle of the summer, but since the solar radiation is high, the collector may be overheated. Therefore, the technique of the collector that can eliminate the overheating phenomenon by adjusting the amount of heat collector is required. .

The present invention has been made to solve the above problems, an object of the present invention in the use of a vacuum tube collector, in the summer, high solar radiation, hot water supply and heating in accordance with the period during which the specific gravity of the heating is reduced, a plurality of internal vacuum collector plate The shape of the field consists of a west-west direction such as '/', a trend direction such as '＼', and an east-west direction such as '∧', or by adjusting the installation angle of these heat collecting plates, and controlling the amount of heat collection. To provide.

Other objects and advantages of the present invention will be described hereinafter and will be understood by the embodiments of the present invention. Furthermore, the objects and advantages of the present invention can be realized by means and combinations indicated in the claims.

The present invention as a means for solving the above problems, a plurality of vacuum tubes 10 are spaced apart from each other and continuously arranged; A heat collecting plate 20 installed in the lengthwise direction in each of the vacuum tubes 10 to collect solar heat to increase the temperature inside the vacuum tube 10; Heat pipe 30 is installed in the longitudinal direction on the bottom surface of each heat collecting plate 20, the heat exchange refrigerant flows; consisting of, the shape and installation angle of the plurality of heat collecting plate 20 (α _w , α _e , β) It characterized in that to adjust the amount of heat collected by adjusting.

As described above, in the present invention, each of the heat collecting plates for collecting solar heat inside each vacuum tube is alternately arranged in a westward direction such as '/' and a trend direction such as '＼', or the heat collecting plate inside each vacuum tube is arranged. By configuring the '∧' form, it is possible to reduce the amount of heat collected during the daytime in the summer, and to fundamentally solve the overheating phenomenon of the collector.

In addition, the present invention has the effect of adjusting the amount of heat collected by adjusting the installation angle of each heat collecting plate.

1 is a perspective view of an embodiment showing a vacuum tube solar collector capable of adjusting the amount of heat collected according to the present invention.
Figure 2 is a cross-sectional view of an embodiment showing a vacuum tube collector using a heat absorbing plate, a trend heat absorbing plate according to the present invention.
Figure 3 is a cross-sectional view of an embodiment showing a vacuum tube collector using the east-west heat absorbing plate according to the present invention.

Before describing in detail several embodiments of the invention, it will be appreciated that the application is not limited to the details of construction and arrangement of components set forth in the following detailed description or illustrated in the drawings. The invention may be embodied and carried out in other embodiments and carried out in various ways.

The present invention has the following features in order to achieve the above object.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all of the technical ideas of the present invention. It should be understood that there may be equivalents and variations.

According to one embodiment of the present invention,

A plurality of vacuum tubes 10 spaced apart from each other and arranged in series; A heat collecting plate 20 installed in the lengthwise direction in each of the vacuum tubes 10 to collect solar heat to increase the temperature inside the vacuum tube 10; Heat pipe 30 is installed in the longitudinal direction on the bottom surface of each heat collecting plate 20, the heat exchange refrigerant flows; consisting of, the shape and installation angle of the plurality of heat collecting plate 20 (α _w , α _e , β) To adjust the amount of heat collected.

In addition, the plurality of heat collecting plate 20 is installed westward heat collecting plate (40) forming the '/' direction by adjusting the installation angle (α _w ) in the west, and the installation angle (α _e ) by the trend is adjusted in the '＼' direction Consisting of the trend heat collecting plate 50, the west heat collecting plate 40 and the trend heat collecting plate 50 are alternately installed in the plurality of vacuum tubes (10).

In addition, the plurality of heat collecting plate 20 is installed westward heat collecting plate (40) forming the '/' direction by adjusting the installation angle (α _w ) in the west, and the installation angle (α _e ) by the trend is adjusted in the '＼' direction Trending the heat collecting plate 50 and the horizontal heat collecting plate 60 of the '-' shape to be parallel to the ground is characterized in that it is used.

In addition, the plurality of heat collecting plate 20 is used in the east-west heat collecting plate 70 of the '∧' cross-section bent interruption, the installation angle (β) of the east-west collecting plate 70 is characterized in that it can be changed. do.

In addition, the east-west heat collecting plate 70 is rotated at the outer circumference of the heat pipe 30 is characterized in that the installation position is changed.

In addition, the plurality of heat collecting plate 20 is composed of a east-west heat collecting plate 70 of the '∧' cross-sectional shape bent interruption, and a horizontal heat collecting plate 60 of the '-' shape parallel to the ground, a plurality of vacuum tubes The east-west direction heat collecting plate 70 and the horizontal heat collecting plate 60 are mixed and used at 10.

Hereinafter, a vacuum tube solar collector capable of adjusting the amount of heat collected according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 3.

The vacuum tube solar collector which can adjust the amount of heat collection of the present invention includes a vacuum tube 10, a heat collecting plate 20, and a heat pipe 30.

As shown in Figure 1, the vacuum tube collector of the present invention, the vacuum tube 10 has a circular cross-sectional tube shape, such that the inside of the tube is in a vacuum state, the vacuum tube 10 is a mounting table (1) The upper surface of) has a form in which a plurality of predetermined intervals spaced in one direction in a continuous arrangement.

The heat collecting plate 20 is installed in each of the above-described vacuum tube 10 in the longitudinal direction to collect solar heat, and the temperature inside the vacuum tube 10 is increased by the collected heat, in which case the vacuum tube 10 The inside of the vacuum state serves to block the heat loss between the inside and outside of the vacuum tube (10).

The heat pipe 30 is installed in the longitudinal direction of the vacuum tube 10 at the bottom surface of the heat collecting plate 20, and flows through the heat pipe 30 due to the inside of the vacuum tube 10 heated by the heat collecting plate 20. The heat exchange medium takes heat and vaporizes, and the vaporized heat exchange medium is heat exchanged while being heat exchanged in the manifold 2 connected to the upper end of the heat pipe 30 to transfer heat to condense.

In the present invention, by adjusting the shape and the installation angle (α _w , α _e , β) of the vacuum tube collector 100, it is possible to adjust the amount of heat collector.

To this end, the first embodiment of the present invention, as shown in Figure 2 (A),

'/' Direction westward heat collecting plate 40 of which the installation angle (α _w ) is adjusted to look westward by adjusting the angle of horizontal heat collecting plate 20 that is horizontal in the form of '―', and the installation angle to see the trend ( α _e ) is to use the west heat collecting plate 40 of the '형태' direction is adjusted at the same time.

In this case, the west heat collecting plate 40 and the trend heat collecting plate 50 are alternately installed in the plurality of vacuum tubes 10. In this case, when the west heat collecting plate 40 and the trend heat collecting plate 50 are alternately arranged, a problem that occurs when the west heat collecting plate 40 is continuously arranged or the trend collecting plate 50 is continuously arranged, that is, each heat collecting plate 20 is disposed. The shadow of) interferes with the adjacent heat collecting plate 20 (or the vacuum tube 10), which can alleviate the problem of heat collection.

Of course, the trend heat collecting plate 50 and the west heat collecting plate 40 have a '/' direction and '＼' direction, respectively, the installation angle (α _w , α _e ) inclined by the user can be adjusted, In the middle of the summer or when hot water and hot water are not used, the amount of heat collected by the user can be adjusted. That is, in the case where it is desired that more heat collection in the east direction is required than in the west direction, the trending heat collecting plate 50 may be installed more than the west heat collecting plate 40, and in this case, the installation angle of the trending heat collecting plate 50 may be α _e ) is also adjusted so that the amount of heat collected can be adjusted. On the contrary, in the case where it is desired that the heat collection in the west direction is relatively greater than the heat collection in the east direction, the west heat collecting plate 40 may be adjusted by adjusting the installation angle α _{w of} the west heat collecting plate 40, as described above. What is necessary is to install more than the trend heat collecting plate 50.

In addition, as shown in FIG. 2 (B) of the present invention, in addition to the trend heat collecting plate 50 and the west heat collecting plate 40, further using a horizontal heat collecting plate 60 horizontally formed in a '-' shape, 3 It is also possible to use a mixture of the heat collecting plate 20 of the branch shape (trend heat collecting plate 50, the west heat collecting plate 40, the horizontal heat collecting plate 60), that is, these three types of heat collecting plate 20 is a plurality of vacuum tubes (10) By selectively mixing and installing in each of them, by selectively using a combination of three types of heat collecting plates 20 having different heat collecting performances depending on the installation form, it is possible to adjust the amount of heat collected by a user.

In the second embodiment of the present invention, as shown in (C) of Figure 3, the heat collecting plate 20 installed in each of the plurality of vacuum tubes 10, the middle of the bent so that both ends are inclined to the lower end ' It is to use the east-west collector plate 70 to have a '∧' shape. That is, by bending the interruption of the horizontal heat collecting plate 60, which is horizontal in the existing '-' shape, in contact with the heat pipe 30, one heat collecting plate 20 receives the solar heat of the trend side and collects heat. And the other half is to collect the solar heat from the west side.

In addition, the east-west heat collecting plate 70 according to various embodiments of the user, as shown in (D) of FIG. By changing the installation angle β, it is possible to adjust the amount of heat that can be collected according to the installation angle (β), in the case of the east-west heat collecting plate 70, according to the embodiment, the heat pipe 30 It is also possible to adjust the amount of heat collection by rotating a predetermined angle θ between the left heat collecting plate from an imaginary horizontal line passing through) and changing the installation position.

In addition, the user may use the east-west heat collecting plate 70 and the horizontal heat collecting plate 60 together with the plurality of vacuum tubes by using the horizontal heat collecting plate 60 horizontally formed in a '-' shape together with the east-west heat collecting plate 70. (10) By variously arranged and applied to each of the interior according to the embodiment of the user, it is possible to adjust the amount of heat collected by the user to be satisfied.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

1: mounting stand 2: manifold
10: vacuum tube 20: heat collecting plate
30: heat pipe 40: west heat collecting plate
50: trend collector plate 60: level collector plate
70: east-west collector plate

Claims (6)

A plurality of vacuum tubes 10 spaced apart from each other and arranged in series;
A heat collecting plate 20 installed in the lengthwise direction in each of the vacuum tubes 10 to collect solar heat to increase the temperature inside the vacuum tube 10;
It is installed in the longitudinal direction on the bottom surface of each of the heat collecting plate 20, the heat pipe 30 through which the heat exchange refrigerant flows;
By adjusting the shape and the installation angle (α _w , α _e , β) of the plurality of heat collecting plate 20 to adjust the amount of heat collected,
The plurality of heat collecting plates 20
Westward heat collecting plate 40 to adjust the installation angle (α _w ) in the west direction to form the '/' direction, and trend heat collecting plate 50 to adjust the installation angle (α _e ) to the '＼' direction as the trend, and the ground and Horizontal horizontal heat collecting plate 60 of the horizontal '-' shape to be mixed or used,
Alternatively, the middle section has a '∧' cross-section shape that is bent, and collects half the solar heat from the trend side, and the other half is the east-west collector plate 70 that can collect the solar heat from the west side, and is horizontal to the ground. It consists of a horizontal heat collecting plate 60 of the '-' form, so that the east-west heat collecting plate 70 and the horizontal heat collecting plate 60 are mixed and used in a plurality of vacuum tubes 10,
The east-west direction heat collecting plate 70 is configured to adjust the heat collection amount according to the installation angle β by changing the spreading angle β of the east-west heat collecting plate 70 so that the heat collecting plate desired by the user is satisfied, or the east-west direction The heat collecting plate 70 is rotated at the outer circumference of the heat pipe 30, the installation position is changed, the heat collecting amount adjustable vacuum tube type solar collector, characterized in that it is possible.
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