JP2006245519A - Installation mechanism of solar power generation panel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a solar cell panel of which the function of a manual or electric sensor at an angle of solar light is sufficiently utilized for easy installation and use by allowing an interlocking device of an installation mechanism to be used within the operation distance of a panel, with a reduced thickness as possible. <P>SOLUTION: A right-angle arm is provided outside the inner frame and a panel, and an interlocking arm is attached outside it. The upper and lower plates of a sensor at the angle of solar light are fixed parallel and horizontally using a member, in which a vertical hole is formed. The manual sensor corrects the lower plate to be at a right angle against the solar light using it, so that the upper plate of the sensor is easily directed to the sun to keep a right angle. Relating to the electric sensor, the hole of the lower plate is a slot to allow a power generation plate to be installed on both sides, and a correction current to flow, coping with compound action in front and behind and right and left. To fully utilize the function of a sensor for the angle of solar light, and to make installation easy, a hole is formed in the surface of a solar power generation panel. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

In the present invention, in order to increase the power generation efficiency of the photovoltaic power generation panel, the panel is to be held at a right angle to the sunlight for as long as possible. For this purpose, we will develop a solar panel mounting mechanism that is freely movable in the front-rear and left-right directions. In addition, a new technology will be used to utilize the sensor of the angle of sunlight that is indispensable for operating this.

Conventionally, a photovoltaic power generation panel is fixed to a frame and attached to a roof or the like. Therefore, neither a movable mounting mechanism with an interlocking function nor a sunbeam angle sensor was required. The interlocking mechanism must be made underneath so that the movable mounting mechanism does not interfere with the adjustment operation to hold the panel at a right angle to the sun. This increases the thickness of the attachment mechanism.
The sensor for the angle of sunlight should be mounted horizontally and parallel to the panel. It is not easy to install it in the same movement as a panel that operates back and forth and left and right. After all, the shaft is extended and attached to the outside of the inner frame, but this is not a place where the working distance is large and easy to use. Furthermore, it is difficult to mount sensors on the same plane of the panel surface because shadows can be produced and the conventional technology is difficult.

Problems to be solved by the invention

The movable panel of the mounting mechanism is operated until it is perpendicular to the sun. The angle with the horizontal plane may exceed 60 °. In the present application, not only the interlocking mechanism can be used within the working distance of the panel, but also its thickness is made as thin as possible so that it can be used regardless of the operation of the panel.
It is also intended to make full use of the function of the manual and electric sun light angle sensor, which is the standard for operating the attachment mechanism, and to make it easy to attach to the panel and use it.

Means for solving the problem

An arm is provided downward from the axis on the outer axis of each panel at a right angle to the panel surface. Attach a connecting arm for interlocking to the outside.
The two plates of the sunlight angle sensor are connected and fixed horizontally and in parallel by members.
A manual sensor is drilled perpendicular to it. The motorized sensor is drilled in the same way, and the holes in the lower plate are made into grooves of the same width. Install the power generation plate or photosensitive material on both sides of the groove.
Make a hole in the surface of the photovoltaic panel.

Embodiments of the Invention

Embodiments of the invention will be described below.
(A) The arm 3 is provided on the axis 2 on the axis line outside the panel 1 at a right angle to the panel 1. The connecting arm 4 is attached to it. This is a lateral interlocking mechanism. An arm 3 is provided at a right angle to the inner frame 5 on the axis 2 on the outer axis of the inner frame 5. It is connected by a connecting arm 4. This is a vertical interlocking function. In this way, all the panels can be linked to the required angle within the working distance regardless of the operation by adjusting the front, rear, left and right panels 1.
(B) The manual angle sensor has the upper plate 6 and the lower plate 7 fixed horizontally and parallelly by members 8 as shown in FIG. The holes 9 are formed at right angles to the upper and lower plates. When the upper plate 6 is not perpendicular to the sunlight 10, the light beam is out of the lower hole and is on the lower plate 7. This indicates how far the sun rays at that time are out of the right angle and indicates the direction to make the right angle. If it is adjusted and put in the hole, it is a right angle. The purpose of the angle sensor is to hold the panel 1 at a right angle to the sunlight, and is required to be mounted horizontally and parallel to the panel 1.
As for the angle sensor for electric motors, the upper plate 6 and the lower plate 7 are fixed in parallel by the member 8 and the hole 9 is formed at a right angle to the same as in the manual use, but the hole on the lower plate is a groove of the same width. 11 is set. There are two types of electric angle sensors, and the east-west groove 11 is shown vertically in FIG. For the north-south direction, the groove 11 lies sideways. A power generation plate and a photosensitive material 12 are attached to both sides of the groove 11. The reason for these two types of angle sensors is to send completely different currents to the two actuating motors. It is a condition for all the panels 1 to be correctly interlocked and operated that this electric angle sensor is also mounted horizontally in parallel with the panel 1.
If the length of the member 8 is increased, the sensitivity of the sensor is increased. Shortening the sensitivity decreases. The sensor of this angle is not large, and FIGS. 3 and 4 are close to the actual size.
(C) It is not possible to attach the sensor of the angle of sunlight to the photovoltaic power generation panel 1 in parallel and horizontally. It's not easy with technology.
In the present application, as shown in FIG. 1, a hole 14 is formed in the panel 1 itself. An angle sensor was attached to the lower side. The position of the hole 14 may be anywhere on the panel surface, but there is little change due to the operation at the point where the axis and the axis intersect as shown in FIG.

The invention's effect

The attachment mechanism of the present application can be used even when the angle between the panel 1 and the horizontal plane is 30 °. Even within that, it can be used regardless of the operation of the panel. Therefore, since the thickness of the attachment mechanism can be reduced as necessary, the range of efficient attachment and use of the photovoltaic power generation panel can be expanded. The installation range is not only for flat roofs, but also for houses where the panels are separately divided and fixed to roofs in each direction, if the problem of thickness can be limited, it will be related to the shape of the roof as a flat single working panel It can be installed in an ideal and efficient form.
The reason why the thickness is limited is to reduce the thickness of the attachment mechanism and the interlocking mechanism accordingly, and to limit the operating range of the panel. In order to use the power generation panel most effectively, the operation angle may need to be 60 ° or more. However, even if not all of them are used, the angle of operation is limited to 30 ° or 20 °, considering the case where the panel mounting direction has been greatly deviated in several directions and with respect to the sun. Even so, the power generation panel 1 held by the mounting mechanism of the present application so as to be as perpendicular to the sun as possible as a single unit at any time can make a significant difference in power generation. It seems to be certain.
This attachment mechanism also doesn't work at all without a sunbeam angle sensor.
The sun of a manual model in which the upper plate 6 of the manual sunbeam angle sensor in FIG. 3 is provided with a frame and a shaft in the same manner as the panel 1 of the mounting mechanism so as to freely move back and forth and left and right. Even in the experiment of the sensor of the angle of light, the front and rear left and right 60 degrees, but since the sun does not leave the south 90 degrees, the upper limit of the angle formed by the horizontal of the sensor surface operating forward and backward is higher than 60 degrees downward However, all the sunlight in this range can be easily put into the hole of the lower plate 7. This is very easy because the top plate 6 is at right angles to the sunlight, so that if the sensor for the angle of the sun's rays can be mounted horizontally and parallel to the panel 1 of the mounting mechanism, all panels Can be held at right angles to the sun at all times.
The electric angle sensor is also simple in structure, and the operating current flows instead of the hand, which also greatly expands the range of use of the attachment mechanism.
If the sensor can slide the member 8 vertically, the sensitivity can be easily adjusted.
The panel 1 having the holes 14 shown in FIG. 1 facilitates the mounting and use of the angle sensor. This ensures that it is horizontal to the panel, which is the ideal mounting of the sensor of the angle of the sun, which has been considered difficult and impossible until now, and even more difficult to achieve on the same plane. I made it. This is because the sensor upper plate 6 can be removed and attached directly to the photovoltaic power generation panel 1.

The perspective view of an attachment mechanism. The perspective view of a part of interlocking mechanism. The perspective view of the sensor of the angle of sunlight for manual operation. The perspective view of the sensor of the angle of sunlight for electric.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Photovoltaic power generation panel 2 Axis 3 Arm which descends at right angle 4 Connecting arm 5 Inner frame 6 Upper plate of sensor of solar ray angle 7 Lower plate of solar beam angle sensor 8 Sensor member 9 Open on upper plate of sensor of angle Hole 10 Solar ray 11 Groove in lower plate 12 of electric sensor Electric power generation plate 13 Outer frame 14 having bearing of mounting mechanism Hole made in solar power generation panel

Claims (4)

A photovoltaic panel mounting mechanism in which an arm perpendicular to the panel surface is provided outside the axis of the photovoltaic panel, and the outside is connected by an interlocking arm. A sensor for the angle of sunlight for manual operation, in which two plates are fixed in parallel by a member and a hole is made perpendicularly to the plate. Two plates are fixed in parallel with a member and a hole is made vertically. An electric sunbeam angle sensor with a bottom hole in the shape of a groove and a power generation plate and photosensitive material attached on both sides. Solar power generation parnet with holes in the panel surface.

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