KR101433628B1 - Integral solar thermal ＆ photovoltaic hybrid frame with anti-overheating system - Google Patents

Abstract

[0001] The present invention relates to a frame-integrated solar-thermal hybrid apparatus in which a solar thermal overheating prevention system is formed, and more particularly, The solar collector and the photovoltaic module are integrally formed in the frame so that the solar collector and the solar module can be integrally formed, And the cost is reduced because the unit is simplified and installation is simplified.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an integrated solar thermal < RTI ID = 0.0 > photovoltaic <

[0001] The present invention relates to a frame-integrated solar-thermal hybrid apparatus in which a solar thermal overheating prevention system is formed, and more particularly, The solar collector and the photovoltaic module are integrally formed in the frame so that the solar collector and the solar module can be integrally formed, Integrated solar-type solar photovoltaic device in which a solar thermal overheating prevention system is formed in which the cost is reduced because a unit is simplified and installation is simplified.

Generally, the solar energy system refers to a system that uses solar energy as a substitute energy for fossil energy to produce electricity using heat energy or solar panels required for hot water supply and heating.

Such known solar systems are classified into hot water and heating systems, which use solar heat as heating or hot water, and solar power generation systems, which convert the light from the sun into electrical energy to supply the required electrical energy.

Since solar energy has a low energy density and is seasonal and time-intensive, it is necessary to optimize the system to maximize utilization of solar energy and to minimize the overall load of the system. For example, in summer, it is best to collect solar heat, but because there is little or no use of heating or hot water, the capacity of the heat storage unit should be increased so that the system can be prevented from overheating.

Conventionally, to overheat the system by increasing the storage capacity of the storage unit in case the consumption energy is relatively small as compared with the solar energy collected as described above. However, since the storage capacity of the heat storage unit is proportional to the size of the heat storage unit, when the installation space is limited as in a typical home, there are many difficulties in installing the heat storage unit having a large size because of space limitation.

In order to prevent overheating of the system in the summer when there is little use of heating or hot water, in a typical home, a part of or all of the solar collector exposed to the sun is covered with a separate sun shield to prevent the system from overheating In fact. However, in the case of this method, if the heating or hot water is required in the summer, it is very difficult to manage because it is required to cover the remainder when the remainder is not used or not used. In addition, There is a problem that considerable care is required to maintain the device due to overheating of the device.

However, in the season when the heating or the hot water is not used, the solar heat collector is overheated due to the exposure of the sun for a long period of time. As a result, the solar heat collector and other equipment

Korean Registered Patent No. 10-1114504 (Feb. 2, 2012) Korean Registered Patent No. 10-1019098 (Feb. 24, 2011)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

By opening and closing the upper side of the solar collector, it is possible to function as a solar collector continuously while preventing the overheating of the solar collector due to exposure to the sun for a long time in the season when the heater or hot water is not used. And a solar thermal overheating prevention system for preventing a solar thermal overheating prevention system.

Also, a frame integrated type solar photovoltaic system in which a solar heat collector and a solar module are provided in a frame to form a unit, thereby simplifying the installation and reducing the cost, is provided. .

In order to achieve the above object, the present invention provides a solar heating system, comprising: a solar collector for collecting solar heat and supplying a hot water / heating heat source;

A solar module mounted on the upper portion of the solar collector so as to prevent overheating by exposing or blocking the upper surface of the solar collector to the sun and converting sunlight into electric energy;

And a frame for integrally supporting the solar collector and the solar module, wherein the frame supports the solar module so that the solar module is movable on both upper sides of the solar collector. To a solar photovoltaic device.

As described above, the frame-integrated solar-thermal hybrid apparatus according to the present invention has a solar thermal overheating prevention system, which is constructed by opening and closing the upper side of the solar heat collector, It is possible to continuously function as a solar collector while preventing overheating of the solar collector due to exposure of the solar collector, thereby preventing damage to the equipment.

In addition, the solar collector and the solar module are integrally formed in the frame, thereby simplifying the installation and simplifying the installation.

1 is a perspective view of a frame-integrated solar-thermal hybrid apparatus according to an embodiment of the present invention,
2 is a front view showing a frame-integrated solar-thermal hybrid apparatus according to an embodiment of the present invention,
FIG. 3 is a side view of a frame-integrated solar-thermal hybrid vehicle according to an embodiment of the present invention,
4 is a plan view of a frame-integrated solar thermal hybrid apparatus according to an embodiment of the present invention.

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

The present invention relates to a solar heat collecting apparatus for collecting solar heat and supplying a heat source for hot water / heating;

A solar module mounted on the upper portion of the solar collector so as to prevent overheating by exposing or blocking the upper surface of the solar collector to the sun and converting sunlight into electric energy;

And a frame for supporting the solar collector and the solar module integrally and supporting the solar module so that the solar module can be moved on both sides of the upper part of the solar collector.

The present invention having such characteristics can be more clearly described by the preferred embodiments thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Before describing in detail several embodiments of the present invention with reference to the accompanying drawings, it is to be understood that the present invention is not limited to the details of construction and the arrangement of components shown in the following detailed description or illustrated in the drawings will be. The invention may be embodied and carried out in other embodiments and carried out in various ways. It should also be noted that the device or element orientation (e.g., "front," "back," "up," "down," "top," "bottom, Expressions and predicates used herein for terms such as "left," " right, "" lateral, " and the like are used merely to simplify the description of the present invention, Or that the element has to have a particular orientation. Also, terms such as " first "and" second "are used herein for the purpose of the description and the appended claims, and are not intended to indicate or imply their relative importance or purpose.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

FIG. 1 is a perspective view of a frame-integrated solar-thermal hybrid apparatus according to an embodiment of the present invention, FIG. 2 is a front view of a frame-integrated solar-thermal hybrid apparatus according to an embodiment of the present invention, FIG. 4 is a plan view of a frame-integrated solar-thermal hybrid device according to an embodiment of the present invention. FIG. 4 is a plan view of a frame-integrated solar-thermal hybrid device according to an embodiment of the present invention.

As shown in FIGS. 1 to 4, the frame-integrated solar thermal hybrid apparatus of the present invention includes a solar heat collector 10, a solar module 20, and a frame 30, .

As shown in FIGS. 1 to 4, the solar collector 10 is a structure for collecting solar heat and supplying a hot water / heating heat source. At least one solar collector 10 is formed. Each of the separately formed solar collectors 10 is movable in a mutually overlapping direction suitable for unfolding in a direction favorable to solar heat collection or minimizing heat collection. That is, in many seasons of use such as heating or hot water, a large number of the solar heat collectors 10 are unfolded so as not to overlap each other, thereby maximizing the amount of heat.

Here, the structure of the solar collector 10 may include a vacuum tube type solar collector having a heat collecting plate and a heat pipe therein, or a plate type solar collector having a heat collecting plate formed in a frame and a solar film So that detailed description of the technology is not given.

The solar collector 10 collects solar heat to heat the refrigerant therein to supply a hot water / heating heat source. The refrigerant is delivered to the heat accumulating unit (not shown), and the heat accumulating unit converts the refrigerant used for hot water / To the solar collector (10).

1 to 4, the solar module 20 is installed on both sides of the solar collector 10 or on the upper and lower sides thereof. The solar module 20 is provided on the upper side of the solar collector 10, To the electric energy (DC power), while controlling the area of the solar collector 10 exposed to the sun. At this time, the solar module 20 is installed on both sides of the solar collector 10 in the present invention and operates to slide left and right in the drawing.

2, the solar module 20 is configured such that the upper part of the solar collector 10 can be moved by the drive unit 40, A moving means (not shown) is installed.

1, a gear tooth 21 is formed on the upper surface of the solar module 20 so as to be connected to the driving device 40 for repeatedly moving left and right by the driving device 40 , The gear teeth 21 are elongated in the longitudinal direction on the upper surface of the solar module 20.

1 to 4, the frame 30 integrally supports the solar collector 10 and the solar module 20, and the solar module 20 is mounted on the solar collector 10 So as to be movable in the upper side. At this time, the frame 30 may be formed in a rectangular box shape such that all the faces are closed and only the front face is opened, or a frame is formed only at the corner portion, and all faces are opened. It is possible.

4, the frame 30 is divided into a plurality of sections such that the inside of the frame 30 is hollow and the solar collector 10 and the solar module 20 are provided, and the frame 30 is divided into a plurality of sections A plurality of barrier ribs 31 are formed and the solar collector 10 and the solar module 20 are supported on the barrier ribs 31.

3, a rail 32 is formed on the bottom surface of the frame 30 so that the solar module 20 is moved to the upper side of the solar collector 10 and the frame 30 is attached to the rail 32. [ And a solar module 20 is provided on the upper part of the solar cell module.

1, a drive device 40 for moving the solar module 20 is further formed at one end of the frame 30, and the drive device 40 is mounted on the upper side of the frame 30, And is composed of a rotary gear 41, a rotary shaft 42,

The rotation gear 41 is engaged with the gear 21 of the solar module 20 to directly move the solar module 20 by rotation and the rotation shaft 42 is rotated by the rotation gear 41 And the rotating motor 43 is connected to the end of the rotating shaft 42 to generate a rotating force.

10: solar collector 20: solar module
21: gear 30: frame
31: bulkhead 32: rail
40: drive device 41: rotary gear
42: rotating shaft 43: rotating motor

Claims (7)

A solar collector 10 for collecting solar heat and supplying a hot water / heating heat source;
A solar module 20 which is provided to be movable in an upper portion of the solar collector 10 to prevent overheating by exposing or blocking the upper surface of the solar collector 10 to the sun and converting sunlight into electric energy )and;
And a frame 30 supporting the solar collector 10 and the solar module 20 integrally and supporting the solar module 20 so that the solar module 20 can be moved on both sides of the upper portion of the solar collector 10 Respectively,
The frame 30 is partitioned into a plurality of spaces such that the interior of the frame 30 is hollow and the solar collector 10 and the solar module 20 are provided. Inside the frame 30, a plurality of partition walls 31 are divided into a plurality of compartments. A solar collector 10 and a solar module 20 are supported on the partition 31 and a solar module 20 is mounted on the bottom of the frame 30 on the upper side of the solar collector 10 And a solar module (20) is formed on the rail (32) in a longitudinal direction of the frame (30), and a solar thermal module (20) is provided on the rail (32) Photovoltaic complex device.
The method according to claim 1,
And a drive unit (40) for moving the solar module (20) is further formed at one end of the frame (30).
3. The method of claim 2,
The driving device 40 is formed in accordance with the number of the solar modules 20 on the upper side of the frame 30,
A rotary gear 41 for directly moving the solar module 20 by rotation with the solar module 20;
A rotary shaft 42 connected to the rotary gear 41 to transmit rotational force;
A rotating motor 43 connected to an end of the rotating shaft 42 to generate a rotating force;
Wherein the solar thermal over-temperature protection system comprises a solar thermal over-temperature protection system.
The method of claim 3,
Wherein a gear tooth (21) is formed in the upper portion of the solar module (20) so as to be engaged with the rotary gear (41) of the drive unit (40) Frame - integrated solar photovoltaic system. delete delete delete

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