KR101166261B1 - Sunlight electric power apparatus of sliding type - Google Patents

Abstract

According to the present invention, a heat collecting panel comprising a main heat collecting panel and a sub-collecting panel for collecting heat energy from the sun; Slide adjusting means for adjusting the sub-collecting panel in the hollow of the main collecting panel to slide in and out; An inclination adjusting means provided at a lower side of the collecting panel to adjust an inclination angle of the collecting panel with a predetermined amount of power; Rotation control means formed on the lower portion of the inclination control means for adjusting the left and right rotation of the heat collecting panel; Support means for supporting the heat collecting panel, the inclination adjusting means and the rotation adjusting means in an axial direction; And a control means for controlling the slide adjusting means, the tilt adjusting means and the rotation adjusting means to change the heat collecting area of the heat collecting panel and to control the heat collecting panel toward the sun. .

Description

Sunlight electric power apparatus of sliding type

The present invention relates to a photovoltaic device, and more particularly, the area of the heat collecting panel that absorbs solar heat energy is varied by a slide method, thereby preventing the heat collecting panel from being damaged by wind pressure, etc., and increasing the area of the heat collecting panel. It relates to a slide-type photovoltaic device capable of absorbing a large amount of solar thermal energy through.

In general, power generation devices using solar thermal energy have been recently disclosed due to the fact that solar thermal energy is easy to utilize compared to other energy sources and that abundant energy with high efficiency can be obtained.

Such a photovoltaic device includes a configuration that measures solar altitude or orientation or tracks sunlight according to a pre-programmed method according to time, and then collects solar thermal energy through a heat collecting panel and then converts it into electricity. Doing.

Here, the heat collecting panel is for collecting heat energy from sunlight, and a plate-shaped panel having a relatively large area is used to collect a large amount of heat energy.

Therefore, in order to change the angle of the heat collecting panel in accordance with the sun's altitude or orientation, a rotating member is provided between the heat collecting panel and the support member to rotate the angle of the heat collecting panel. In the case of many influences, there is a problem in that the rotating member cannot withstand the wind pressure and thus is damaged, so that the heat collecting panel is also separated from the supporting member and broken.

Accordingly, an object of the present invention is to allow the area of the heat collecting panel to be variable by a slide method so as to be minimally affected by wind pressure such as a strong wind, thereby preventing damage to the heat collecting panel and absorbing a large amount of solar thermal energy to improve energy efficiency. It is to provide a slide-type photovoltaic device.

On the other hand, the object of the present invention is not limited to the above-mentioned object, other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

According to the present invention, a heat collecting panel comprising a main heat collecting panel and a sub-collecting panel for collecting heat energy from the sun; Slide adjusting means for adjusting the sub-collecting panel in the hollow of the main collecting panel to slide in and out; An inclination adjusting means provided at a lower side of the collecting panel to adjust an inclination angle of the collecting panel with a predetermined amount of power; Rotation control means formed on the lower portion of the inclination control means for adjusting the left and right rotation of the heat collecting panel; Support means for supporting the heat collecting panel, the inclination adjusting means and the rotation adjusting means in an axial direction; And a control means for controlling the slide adjusting means, the tilt adjusting means and the rotation adjusting means to change the heat collecting area of the heat collecting panel and to control the heat collecting panel toward the sun. .

Here, the collecting panel, the main collecting panel is supported on the upper side of the main frame, it is preferable that the sub-collecting panel is supported in a subframe that is slidably provided in the hollow of the main frame.

In addition, the slide adjustment means, the guide block which is provided in the longitudinal direction of the main heat collecting panel on the side portion of the main frame; A drive gear provided at a lower end of the guide block; A slide block inserted into a side portion of a subframe of the sub collection panel to slide the subframe along the guide block; A rack gear provided in the slide block in a longitudinal direction and engaged with the drive gear; And a drive motor for driving the drive gear along the rack gear according to the control of the control means to allow the subframe to enter and exit the hollow of the main frame.

Therefore, according to the present invention, the sub-collecting panel slides in and out of the hollow of the main collecting panel by the slide adjusting means, thereby making it possible to change the collecting area of the collecting panel through a relatively simple configuration.

 In addition, when a strong wind pressure such as a strong wind is applied to the heat collecting panels, the sub heat collecting panel may be slidably inserted into the main heat collecting panel to prevent the heat collecting panel from being damaged by the strong wind.

In addition, when a strong wind pressure is not applied to the heat collecting panels, the sub heat collecting panels may be slidably discharged from the inside of the main heat collecting panel to increase the heat collecting area and thereby improve the heat collecting efficiency.

On the other hand, the effects of the present invention is not limited to the effects mentioned above, other effects that are not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view showing a slide-type photovoltaic device according to a preferred embodiment of the present invention;
Figure 2 is a side view showing the slide-type photovoltaic device of Figure 1;
Figure 3 is an exploded perspective view showing a heat collecting panel in the slide-type photovoltaic device of Figure 1; And
4 is a side cross-sectional view showing a heat collecting panel in the slide-type photovoltaic device of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a slide-type photovoltaic device according to a preferred embodiment of the present invention, Figure 2 is a side view showing the slide-type photovoltaic device of Figure 1, Figure 3 is a slide-type photovoltaic power generation of Figure 1 4 is an exploded perspective view showing a heat collecting panel in the apparatus, and FIG. 4 is a side cross-sectional view showing the heat collecting panel in the slide type solar cell apparatus of FIG. 3.

As shown in Figures 1 to 4, the slide-type photovoltaic device according to a preferred embodiment of the present invention, the heat collecting plate consisting of the main heat collecting panel 111 and the sub-collecting panel 112 for collecting heat energy from the sun. The panel 110, the slide control means 120 for adjusting the sub-collecting panel 112 in the hollow of the main heat collecting panel 111 to enter and exit in a slide manner, the lower portion of the heat collecting panel 110 is provided in a constant amount Rotation control means for adjusting the inclination angle 130 of the heat collecting panel 110 by the power of the rotation control means for adjusting the left and right rotation of the heat collecting panel 110 is formed in the lower portion of the inclination control means (130) 140, the support means 150 for supporting the heat collecting panel 110, the tilt adjusting means 130 and the rotation adjusting means 140 in the axial direction and the slide adjusting means 120, the tilt adjusting means 130 and By controlling the rotation control means 140 of the heat collecting panel 110 Enabling the heat change area and the heat collecting plate Ner 110 includes control means 160 for controlling this to always face the sun.

The heat collecting panel 110 is provided on the upper side of the rectangular main frame 110a, and is provided to be slidably disposed in the hollow of the main collecting panel 111 and the main frame 110a for collecting heat energy from the sun. It is supported by the sub-frame (110b) includes a sub-collecting panel 112 to enter and exit the hollow by the slide adjusting means 120 described later.

Here, the main heat collecting panel 111 of the heat collecting panel 110 may include a wind pressure measuring sensor for automatically measuring the wind pressure applied to the heat collecting panel 110 and a solar tracking sensor for tracking the movement direction of the sun. have.

The slide adjusting means 120 adjusts the sub-collecting panel 112 to slide in and out of the main heat collecting panel 111 in a hollow manner according to the wind pressure measurement of the wind pressure measuring sensor to adjust the heat collecting area of the heat collecting panel 110. In order to change, the guide block 121 provided in the longitudinal direction of the main heat collecting panel 111 on the side portion of the main frame (110a), that is, the lower end of the guide block 121, that is, the sub-collecting panel 112 ) Is provided at the side of the drive gear 122 and the sub-frame 110b of the sub-collecting panel 112 provided at the entrance and exit so that the sub-frame 110b slides along the guide block 121. The drive gear 122 according to the control of the slide block 123, the rack gear 124 is provided in the longitudinal direction in the slide block 123 and meshed with the drive gear 122 and the control means 160 ) Follow the rack gear (124) To ensure that such a drive motor (not shown) that allows access to the hollow part of the sub-frame (110b), the main frame (110a).

Here, the drive gear 122 is preferably provided with a plurality of the guide block 121.

In addition, in the slide adjusting means 120, the configuration in which the sub-frame (110b) is in and out of the hollow of the main frame (110a) is a drive roller driven by a drive means directly along the guide block 121 It is configured to be guided, or by a hydraulic cylinder connected between the main frame (110a) and the subframe (110b), or constitute a drive motor in the mainframe (110a) and by the drive motor in the subframe (110b) It may be configured in various ways according to a known guide method, such as configured by connecting a wound or recommended wire, the sub-frame (through the operation of the slide block 123 is inserted into the support of the guide block 121) The 110b) may be slidably moved in and out while being stably supported by the mainframe 110a.

In addition, the slide adjusting means 120, a plurality of guide rollers 125 for suppressing the friction during the sliding operation in accordance with the drive of the drive gear 122 to the slide block 123 in contact with the guide block 121. ) May be further provided. Here, the guide roller 125 is guide roller 125 by the elastic member so that the slide block 123 passes over one end of the guide block 121 in order to free access to one end of the guide block 121. It is good to have a configuration in which the height of can vary.

Therefore, according to the slide control means 120, by having a structure in which the sub-collecting panel 112 is sliding in and out of the hollow of the main heat collecting panel 111, the heat collecting area of the heat collecting panel 110 through a relatively simple configuration. It is possible to enable the variable of.

The inclination control unit 130, for adjusting the inclination angle of the heat collecting panel 110 according to the sun tracking of the solar tracking sensor, is provided on the rear of the main frame (110a) of the heat collecting panel 110. Is configured in the form of a known linear motor (not shown) so that the heat collecting panel 110 is movable according to the altitude of the sun, the linear motor (not shown) can lower or increase the height of the heat collecting panel (110) At the same time, the main frame 110a of the heat collecting panel 110 may be supported in a stable state.

The rotation control means 140, for adjusting the left and right rotation of the heat collecting panel 110 in accordance with the sun tracking of the solar tracking sensor, supporting the lower side of the inclination control means 130, the direction of movement of the sun As described above, the heat collecting panel 110 has a configuration of a rotating body module (not shown) including a known rotating motor (not shown) to rotate left and right.

The support means 150, for supporting the heat collecting panel 110, the inclination control means 130 and the rotation control means 140 in the axial direction, is composed of a known thrust bearing structure and the rotation control means ( Supporting the rotation control means 140 so that the heat collecting panel 110 is rotatable about the axis of 140.

The control means 160, so that the heat collecting area of the heat collecting panel 110 is changed according to the wind pressure measurement of the wind pressure measuring sensor and the heat collecting panel 110 is always facing the sun according to the sun tracking of the solar tracking sensor. A driving motor (not shown) of the slide adjusting means 120, a linear motor (not shown) of the tilt adjusting means 130, and a rotating motor (not shown) of the rotation adjusting means 140 are controlled.

That is, the control means 160, when a strong wind pressure such as a strong wind is applied to the heat collecting panel 110 as a result of the wind pressure measurement of the wind pressure measuring sensor rotation of the drive motor (not shown) of the slide adjusting means 120 The sub-collecting panel 112 is inserted into the hollow of the main heat collecting panel 111 so that the heat collecting panel 110 is broken from the inclination adjusting means 130 to the supporting means 150 by the strong wind. Can be prevented. In addition, when a strong wind pressure is not applied to the heat collecting panel 110, the drive motor (not shown) is controlled to allow the sub heat collecting panel 112 to slide out from the hollow of the main heat collecting panel 111. It can increase the area and improve the heat collection efficiency.

In addition, the control means 160, if the sun is not irradiated perpendicular to the heat collecting panel 110 as a result of the sun tracking of the solar tracking sensor, the linear motor (not shown) and the rotation control of the inclination control means 130 By controlling the rotation of the rotating motor (not shown) of the means 140, the heat collecting panel 110 can always maintain the vertical angle of the sun to improve the heat collecting efficiency.

 On the other hand, the slide-type photovoltaic device according to a preferred embodiment of the present invention, in addition to the components, the heat storage tank in which the hot water heat exchanged by the heat medium having the heat energy collected by the heat collecting panel 110 is stored, the heat storage A heat exchanger provided between the tank and the heat collecting panel 110 to supply the heat medium heated by the heat collecting panel 110 to the heat storage tank to heat exchange water stored in the heat storage tank, and between the heat exchanger and the heat collecting panel 110. It is preferable to further include a circulation pump for circulating the heat medium and the power generation means connected to the heat storage tank to generate electricity using hot water heat exchanged by the heat medium.

Hereinafter, the operation and effects of the slide-type photovoltaic device according to the preferred embodiment of the present invention will be described.

In the slide-type photovoltaic device according to the preferred embodiment of the present invention, the control means when the wind pressure is not generated as a result of the measurement of the wind pressure measuring sensor provided inside the main heat collecting panel 111 of the heat collecting panel 110. Under the control of 160, the operation of the driving motor (not shown) is controlled, and accordingly, the driving gear 122 of the guide block 121 provided on the side of the main frame 100a rotates forward.

Subsequently, the slide block 123 of the subframe 100b having the rack gear 124 meshed with the driving gear 122 slides to the lower side of the guide block 121, and thus the lower side of the main frame 100a. As a result, the sub-frame 100b is discharged so that the sub-collecting panel 112 slides to the outside of the main collecting panel 111 so that the collecting area is widened and the collecting efficiency is increased by increasing the collecting area.

On the other hand, in the state where the heat collecting area of the heat collecting panel 110 is increased as described above, when a lot of wind pressure is generated as a result of the measurement of the wind pressure measuring sensor provided in the main heat collecting panel 111 of the heat collecting panel 110 Under the control of the control means 160, the operation of the driving motor (not shown) is controlled, and the driving gear 122 of the guide block 121 provided on the side of the main frame 100a is thereby reversed.

Subsequently, the slide block 123 of the subframe 100b having the rack gear 124 meshed with the driving gear 122 slides to the upper side of the guide block 121, and the upper side of the main frame 100a. However, the sub-frame 100b is inserted into the sub-collecting panel 112 to slide into the main heat collecting panel 111 so that the heat collecting area is narrowed, but the heat collecting plate is minimized by minimizing the influence of the high wind pressure applied to the heat collecting panel 110. It is possible to prevent breakage of the channel 110 or separation from the inclination adjustment means 130 to the support means 150.

On the other hand, in the slide-type photovoltaic device, the solar light is not irradiated perpendicularly to the heat collecting panel 110 as a result of the tracking of the solar tracking sensor provided in the main heat collecting panel 111 of the heat collecting panel 110. If not, the rotation of the linear motor (not shown) of the inclination adjustment means 130 and the rotation motor (not shown) of the rotation control means 140 are controlled according to the control of the control means 160 and accordingly the heat collecting plate. The channel 110 can always maintain the sun at a vertical angle to improve the heat collection efficiency.

Therefore, as described above, according to the slide-type photovoltaic device of the present invention, the sub-collecting panel slides in and out of the hollow of the main collecting panel by the slide adjusting means, so that the collecting area of the collecting panel can be changed through a relatively simple configuration. It can be done.

 In addition, when a strong wind pressure such as a strong wind is applied to the heat collecting panels, the sub heat collecting panel may be slidably inserted into the main heat collecting panel to prevent the heat collecting panel from being damaged by the strong wind.

In addition, when a strong wind pressure is not applied to the heat collecting panels, the sub heat collecting panels may be slidably discharged from the inside of the main heat collecting panel to increase the heat collecting area and thereby improve the heat collecting efficiency.

Although preferred embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains have various permutations and modifications without departing from the spirit or essential features of the present invention. It is to be understood that the present invention may be practiced in other specific forms, since modifications may be made. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

110: heat collecting panel 111: main heat collecting panel
112: sub-collecting panel 120: slide adjusting means
130: inclination control means 140: rotation control means
150 support means 160 control means

Claims (9)

The heat collecting panel 110 is provided with a main collecting panel 111 and a sub-collecting panel 112 having a solar tracking sensor that tracks the movement direction of the sun while collecting heat energy from the sun and a wind pressure measuring sensor that automatically measures wind pressure. )and;
A slide adjusting means (120) for adjusting the sub-collecting panel (112) to enter and exit in a hollow manner in the main collecting panel (111);
An inclination adjusting unit (130) provided at a lower side of the heat collecting panel (110) to adjust the inclination angle of the heat collecting panel (110) with a predetermined amount of power;
Rotation control means 140 formed on the lower side of the inclination control means 130 to control the left and right rotation of the heat collecting panel 110;
Support means 150 for supporting the heat collecting panel 110, the inclination control means 130 and the rotation control means 140 in the axial direction; And
By controlling the slide adjusting means 120, the tilt adjusting means 130 and the rotation adjusting means 140 to enable the heat collecting area change of the heat collecting panel 110 and to control the heat collecting panel 110 to face the sun at all times. Slide type photovoltaic device characterized in that it comprises a control means (160).
The method of claim 1, wherein the heat collecting panel 110,
The main collecting panel 111 is supported on the upper side of the main frame 110a, and the sub collecting panel 112 is supported on the subframe 110b slidably provided in the hollow of the main frame 110a. Slide type photovoltaic device.
The method of claim 2, wherein the slide adjusting means 120,
A guide block 121 provided in the longitudinal direction of the main heat collecting panel 111 on a side portion of the main frame 110a;
A drive gear 122 provided at a lower end of the guide block 121;
A slide block 123 inserted into a side portion of the sub-frame 110b of the sub-collecting panel 112 to slide the sub-frame 110b along the guide block 121;
A rack gear 124 provided in the slide block 123 in a longitudinal direction and engaged with the driving gear 122; And
Under the control of the control means 160, the drive gear 122 is driven along the rack gear 124 to drive the sub-frame (110b) into the hollow of the main frame (110a) (not shown) Slide type photovoltaic device comprising a).
delete The slide type solar cell apparatus according to claim 3, wherein the slide block (123) is further provided with a plurality of guide rollers (125) at a contact portion with the guide block (121).
According to claim 2, wherein the inclination adjustment means 130,
Slide-type solar light, characterized in that formed in the form of a linear motor (not shown) is provided on the rear of the main frame (110a) of the heat collecting panel 110 to move the heat collecting panel 110 according to the altitude of the sun. Power generation device.
According to claim 6, The rotation control means 140,
Having a configuration of a rotating body module (not shown) including a rotating motor (not shown) to support the lower side of the inclination control means 130 so that the heat collecting panel 110 is rotated left and right according to the moving direction of the sun. Slide type photovoltaic device characterized in that.
The method of claim 7, wherein the support means 150,
The thrust bearing structure is configured to support the rotation control means 140 so that the heat collecting panel 110 is rotatable about the axis of the rotation control means (140).
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