KR20120000107U - Solar cell panel supporting apparatus using force equilibrium - Google Patents

Abstract

The present invention configures the balance swing means to balance the force by using wires on both sides of the central axis of rotation of the frame supporting the solar panel, so that the frame is always kept in a state where the force balance is maintained. It is an object of the present invention to provide a solar panel support device using a balance of force that is easy to control as well as simple in configuration.
Solar panel support device using the balance of the force according to the present invention for achieving the above object, a plurality of bases installed to protrude upward; A solar panel is mounted and rotatably installed on a support; And a balancing rocking means installed on the support to swing the solar panel up and down, wherein the balancing rocking means includes: a screw guide body having both ends hinged to the hinge coupling portion of the support and the frame, respectively, the length of which is variable; And a wire fixed to the frame so that one end is fixed to the screw guide body and the other end faces the hinge coupling portion about the rotation center axis of the frame.

Description

SOLAR CELL PANEL SUPPORTING APPARATUS USING FORCE EQUILIBRIUM}

The present invention relates to a solar panel support device using a balance of force, and more particularly, to support the solar panel using a balance of force to configure the tension of the wire to achieve a balance, so that the structure can be operated with a small force Relates to a device.

In general, a solar panel support device for adjusting the light receiving position of the solar panel according to the position of the sun is manufactured and used in various forms. In particular, such a solar panel support device is largely configured to be configured to swing only up and down, as well as configured to swing left and right as well as up and down movement.

The vertically swinging solar panel support device controls the vertical swing motion by using an actuator such as a gear or a driving motor. However, the conventional solar panel support device has the following problems.

1) The configuration of the operation means for operating the solar panel support device is complicated. This caused frequent breakdowns in the means of operation and required much time and money to maintain them.

2) The actuators are often overloaded because the solar panel support system is operated only by the actuators. To solve this problem, the actuator had to use a large working capacity. This not only acted to increase the overall size of the solar panel support device but also to increase the manufacturing cost.

3) It was difficult to control up and down fluctuation due to the complicated structure.

The present invention has been devised in view of this point, and the balance swing means is configured to balance the force by using wires on both sides of the center of rotation of the frame supporting the solar panel, so that the force of the frame is always maintained. It is an object of the present invention to provide a solar panel support device using a balance of force that is easy to control because it maintains a state, as well as easy to control up and down fluctuations.

Solar panel support device using the balance of the force according to the present invention for achieving the above object, a plurality of bases installed to protrude upward; A solar panel is mounted and rotatably installed on a support; And a balancing rocking means installed on the support to swing the solar panel up and down. And a wire fixed to the frame so that one end is fixed to the screw guide body and the other end faces the hinge coupling portion about the rotation center axis of the frame.

In particular, the solar panel support device using the balance of the force according to the present invention, it characterized in that the wire is further provided with a buckle. In addition, the wire is characterized in that the buffer spring is further provided with the turnbuckle.

On the other hand, the screw guide body, the casing; A screw bar installed to move longitudinally in the casing; A gear part mounted to the casing to be rotatably engaged with the screw bar; An actuator mounted to the casing to rotate the gear part in the forward and reverse directions; And a hinge pulley mounted to the casing so as to change the operation direction of the wire fixed to the screw bar together with the rotational support of the casing.

In addition, a pulley is further provided between the screw bar and the hinge pulley.

Finally, the casing is further characterized by a screw bar guide for guiding the movement in the longitudinal direction of the screw bar.

According to the solar panel support device using the balance of the power of the present invention has the following effects.

1) The overall configuration is simplified, so the number of parts can be reduced. This is advantageous in terms of maintenance and can lower manufacturing costs.

2) Simple structure makes it easy to control and easy to control.

3) It is easy to manufacture with simple configuration and can lower the manufacturing cost.

4) Because it operates by screw method, there is little possibility of causing parts breakdown.

1 is a perspective view showing the overall configuration of a solar panel support apparatus according to a first embodiment of the present invention.
Figure 2 is a side view for explaining the configuration of a solar panel support device according to a first embodiment of the present invention.
Figure 3 is a cross-sectional view for explaining the configuration of the screw guide body according to the first embodiment of the present invention.
Figure 4 is a perspective view showing the overall configuration of a solar panel support device according to a second embodiment of the present invention.
5 is a perspective view showing the overall configuration of a solar panel support apparatus according to a third embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more 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 meanings, and the inventor may appropriately design the concept of the term appropriately to describe its own design in the best way possible. It should be interpreted as a meaning and a 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 constitutions 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, various equivalents It should be understood that water and variations may be present.

( First embodiment )

1 is a perspective view showing the overall configuration of a solar panel support apparatus according to a first embodiment of the present invention, Figure 2 is a side view for explaining the configuration of the solar panel support device according to a first embodiment of the present invention, 3 is a cross-sectional view for explaining the configuration of the screw guide body according to the first embodiment of the present invention. Here, reference numeral "C" denotes a solar panel.

The solar panel support apparatus 1000 according to the first embodiment of the present invention includes a frame 200 for supporting the solar panel C, and a plurality of supports for allowing the frame 200 to swing up and down. It comprises a base 100, and the balance rocking means 300 for substantially rocking the frame 200.

The base 100 is manufactured in the form of a plate as a part installed on the ground. In particular, the base 100 has a support 110 protruding from the center of the upper portion. The upper end of the support 110 is formed with a hinge 111 to mount the frame 200 to be described later.

In particular, the support 110 is equipped with a rotation support 112 on one side, the lead hole 113 is formed so that the wire 320 which is introduced through the rotation support 112 can be drawn out. At this time, the withdrawal hole 113 is formed on the side and the side facing the rotary support 112 is mounted, respectively. In addition, at least one pulley 316 is provided inside the rotation support 112 to smoothly perform the tensioning operation of the wire 320. 3 shows an example in which one pulley 316 is provided at one side of the rotary support 112 mounted to the support 110.

Frame 200 is composed of a vertical frame 230 and a horizontal frame 240 to support the solar panel (C) is formed in a rectangular shape as a whole. In particular, the rotation supporting member 210 is hinged to the hinge portion 111 is mounted in the middle portion of the length of the vertical frame 230.

Rotating support member 210 is manufactured in a hollow form to fit the vertical frame 230, the lower portion is provided with a hinge coupling portion 211 to be rotatably mounted to the hinge portion (111).

Equilibrium swing means 300, one end is mounted to the support 110, the length of the screw guide body 310 is variable, and one end is connected to the end of the screw guide body 310 to maintain the balance of force Wire 320. In particular, the other end of the screw guide body 310 is fixed to the upper portion of the vertical frame 230, the other end of the wire 320 is fixed to the lower portion of the vertical frame 230, respectively.

The screw guide body 310 is configured to include a casing 311 and a screw bar 312 coupled to extend and contract so that the length is adjustable in the form of a cylinder. Here, the screw bar 312 is a kind of rod, and a threaded thread 312a is formed on the outer circumferential surface thereof, and hinge connectors 312b and a wire fixing tool 312c are formed at both ends, respectively.

The casing 311 is manufactured to have an empty hollow shape, and a gear part 313 screwed to the screw thread 312a is rotatably installed therein. To this end, a pair of support members 313b are installed in the casing 311 at predetermined intervals, and the gear portion 313 is rotatably supported by the thrust bearing 313a between the support members 313b. Is installed.

In addition, the casing 311 is provided with an actuator 314 to rotate the gear portion 313 to stretch the length of the screw bar 312.

The actuator 314 is mounted to the casing 311 to be engaged with the gear portion 313. To this end, the mounting seat surface 311b protrudes from the casing 311 so as to be located between the support members 313b, and the actuator 314 is mounted on the mounting seat surface 311b.

In a preferred embodiment of the present invention, it is preferable to use a drive motor capable of rotation control in the forward and reverse directions as the actuator 314. In addition, a gear (not shown) may be provided between the actuator 314 and the gear unit 313 to configure the transmission of the operating force and the change of direction.

In addition to the driving motor described above, the actuator 314 may optionally further include a rotary lever 330. In this case, the rotary lever 330 is used during manual operation, it is preferable to be able to transmit the rotational force through the screw gear so that the rotational force proceeds in only one direction so that it can be used even without a reversal prevention device.

The actuator 314 configured as described above is connected to other adjacent actuators 314 and the power transmission pipe 331 as shown in FIG. 1. The power transmission pipe 331 is a kind of rotating shaft to allow the rotation of several balancing means 300 at the same time. Of course, the configuration of the power transmission pipe 331 can be omitted when using the drive motor capable of forward and reverse direction as the actuator 314.

Finally, the casing 311 is provided with a hinge pulley 315 so that the wire 320 fixed to the screw bar 312 can change direction without contacting the casing 311. In addition, as shown in FIG. 3, the casing 311 may further include a pulley 316 between the screw bar 312 and the hinge pulley 315. Here, the hinge pulley portion 315 is hinged and configured to be capable of changing the direction of the wire 320 like the pulley together with the rotational support of the casing 311 so that the wire 320 does not touch the casing 311.

In addition, in addition to the pulley 316 mounted inside the casing 311, the balance swing means 300 further comprises a pulley 316 inside the outer support 110 and the rotation support 112 of the casing 311 ( 3). These pulleys 316 may be provided in plural so as to avoid interference with other components when the wire 320 is operated.

On the other hand, in a preferred embodiment of the present invention, the screw bar guide 311a may be further configured inside the casing 311. This may be a torsion or bending when the length of the screw bar 312 is long, for the purpose of guiding the length adjustment in a certain direction to prevent this.

The balance rocking means 300 formed as described above is mounted between the base 100 or the support 110 and the vertical frame 230. Here, the support 110 will be described as an example.

In order to mount the screw guide body 310, the support 110 further comprises a rotation support 112, and hinge-fixes the hinge pulley portion 315 to the end of the rotation support 112. Then, the other end of the screw guide body 310 is hinged to the hinge coupling portion 221 of the rotary support member 220 mounted on the upper side of the rotary support member 210. Here, the rotation support member 220 is the same configuration as the above-described rotation support member 210, the detailed description thereof will be omitted here.

In addition, one end of the wire 320 is fixed to the wire fixing tool 312c of the screw bar 312, and the other end thereof is fixed to the vertical frame 230. In particular, the other end of the wire 320 is fixed to the vertical frame 230 to be in a position symmetrical with the rotation support member 220 about the rotation support member 210. At this time, the wire 320 is made of a direction change through the hinge pulley 315 while receiving the support of the pulley 316, and is then mounted in the longitudinal direction inside the rotation support (112). In addition, the wire 320 is fixed to the vertical frame 230 in a state where the wire 320 is drawn out of the support 110 through two lead holes 113.

Accordingly, the frame 200 is mounted at a state in which both ends of the screw guide 310 and the wire 320 are connected to each other in a state in which both ends of the frame 200 are fixed to the vertical frame 230. As a result, the rotational angle of the frame 200 is adjusted as shown in FIG. 2 according to the expansion and contraction length of the screw bar 312 by the operation of the actuator 314, and thus the incident angle of the solar panel C mounted on the frame 200. The degree can be adjusted. At this time, the wire 320 serves to fix the solar panel (C) to prevent shaking.

That is, when the screw bar 312 is extended, the wire 320 is pulled out so that the frame 200 rotates counterclockwise about the hinge coupler 211. At this time, the screw guide body 300 is to rotate the counterclockwise around the hinge pulley 315 while avoiding the rotational interference caused by the extension of the screw bar 312 to achieve the rotation of the solar panel (C). .

( Second embodiment )

4 is a perspective view showing the overall configuration of a solar panel support apparatus according to a second embodiment of the present invention. Here, the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted.

The solar panel support apparatus 1000 ′ according to the second embodiment of the present invention not only facilitates the mounting of the support apparatus but also makes it easier to adjust the tensile force of the wire 320 ′.

To this end, the turnbuckle 321 is further configured on the wire 320 '. The turnbuckle 321 is generally one of the fastening mechanisms used for pulling and tightening ropes, chains, wires, and the like, and uses those made by a conventional technique. The turnbuckle 321 can easily adjust the tension of the wire 320 'by using the tightening force of the screw.

( Third embodiment )

5 is a perspective view showing the overall configuration of a solar panel support apparatus according to a third embodiment of the present invention. Here, the same components as those in the second embodiment are denoted by the same reference numerals and the detailed description thereof will be omitted.

The solar panel support apparatus 1000 ″ according to the third embodiment of the present invention further includes a buffer unit so that an operation of the balance rocking means 300 including the wire 320 ″ can be performed stably. As the shock absorbing means, the shock absorbing spring 322 is attached to the wire 320 ″ together with the turnbuckle 321 of the second embodiment. Thus, even if the screw guide body 310 is operated suddenly, it absorbs it and stably swings up and down the swing angle. You can control it.

As described above, the subject innovation is the screw guide body 310 and

By configuring the balance rocking means 300 so that the wires 320, 320 'and 320 "receive a constant tensile force, not only can the structure be simply manufactured as a whole, but also the force is balanced so that it can be easily operated with a small force. Will be.

100: base 110: support
111: hinge portion 112: rotation support
113: outlet hole
200: frame 210, 220: rotation support member
211, 221: hinge coupling 230: vertical frame
240: horizontal frame 300: equilibrium swing means
310: screw guide body 311: casing
311a: Screw bar guide 311b: Mounting seat
312 screw bar 312a thread
312b: Hinge connection 312c: Wire fixture
313: gear portion 313a: thrust bearing
313b: support member 314: actuator
315: hinge pulley 316: pulley
320: wire 321: turnbuckle
322: buffer spring 330: rotary lever
331: power transmission pipe

Claims (6)

A plurality of bases 100 installed to protrude upwardly from the support 110;
A solar panel (C) is mounted, and the frame (200) rotatably installed on the support (110); And
Includes; the equilibrium rocking means (300) which is installed on the support 110 to swing the solar panel (C);
The balance swing means 300,
Screw guide bodies 310 whose both ends are hinged to the hinge coupler 221 of the support 110 and the frame 200 to vary in length; And
One end is fixed to the screw guide body 310, the other end wire 320 is fixed to the frame 200 so as to face the hinge coupling portion 221 around the center of rotation of the frame 200; Solar panel support device using a balance of power comprising a.
The method of claim 1,
The wire 320 is a solar panel support device using a balance of power, characterized in that the turnbuckle 321 is provided.
The method according to claim 1 or 2,
The wire 320 is a solar panel support device using a balance of force, characterized in that the buffer spring 322 is further provided.
The method according to claim 1 or 2,
The screw guide body 310,
Casing 311;
A screw bar 312 installed to move in the longitudinal direction in the casing 311;
A gear part 313 mounted to the casing 311 to be rotatably engaged with the screw bar 312;
An actuator 314 mounted to the casing 311 to rotate the gear portion 313 in the forward and reverse directions; And
And a hinge pulley part 315 mounted to the casing 311 so as to change an operation direction of the wire 320 fixed to the screw bar 312 together with the rotational support of the casing 311. Solar panel support device using the balance of power.
The method of claim 4, wherein
Pulley 316 between the screw bar (312) and the hinge pulley 315 is further provided with a solar panel support device using the balance of the power.
The method of claim 4, wherein
The casing 311 is a solar panel support device using a balance of force, characterized in that the screw bar guide (311a) for guiding the movement in the longitudinal direction of the screw bar (312) is further provided.

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