KR20120024117A

KR20120024117A - A sun battery panel pallet

Info

Publication number: KR20120024117A
Application number: KR1020100086820A
Authority: KR
Inventors: 유상채
Original assignee: 유상채
Priority date: 2010-09-06
Filing date: 2010-09-06
Publication date: 2012-03-14

Abstract

PURPOSE: A pallet for mounting a solar panel is provided to safely laminate large amount of solar panels by closely mounting each edge of the solar panels. CONSTITUTION: A pallet for mounting a solar panel includes a supporter(20), a vertical unit(30), a fixing protrusion unit(40), a recessed groove unit, and a fixing hole(60). The supporter supports the lower side of edges of a frame forming the solar panel. The vertical unit surrounds two surface of the frame, and includes a fixing band hanging unit(70). The fixing protrusion unit is fitted to the bottom of the vertical unit installed on other pallets(10). The recessed groove unit is for inserting the fixing protrusion unit. The fixing hole is for coupling the pallet with a pallet for supporting when laminating the solar panel.

Description

Pallet for lamination of solar cell panel {a sun battery panel pallet}

The present invention relates to a solar panel stacking pallet, and in particular, to store a plurality of solar panels that have been manufactured by lamination so that the solar cells can be safely stored without colliding with each other. In addition, the present invention relates to a solar panel stacking pallet which allows the stacked solar cell panels to be transported without shaking or impact when the laminated solar cell panel is to be transported.

In general, a solar cell is a cell that converts sunlight into electricity by a PN junction of a semiconductor. The solar cell does not require fuel supply and generates unnecessary fuel residues in energy generation. It is known.

The solar cell panel is composed of a large-area solar panel made of glass, a metal frame covering the outer circumferential surface of the solar panel, and a solar electrode element for collecting solar heat on one side of the solar panel. will be.

The solar panel as described above has a large area, and the solar panel is made of glass, so that the solar panels are laminated in order to produce or store a large amount during the production process. There is no choice but to.

When the solar cell panels are stacked in a plurality of layers as described above, when the solar cell panels are stacked as they are, the frame parts forming the solar cell panels are directly contacted and thus the scratches may occur in the frame. Of course, a defect such as crushing may occur, and when the solar cell panel is stacked as described above, the vehicle may be transported using a vehicle or the like. As it was delivered directly, there was an economic loss such as the breakdown of glass panels made of glass.

In recent years, a corrugated sheet having a predetermined thickness is laid on each corner of a frame forming a solar cell panel so that the laminated frames do not directly touch each other, and the vibration absorbs the vibration and impact. The situation that prevents damage by making it possible, but the corrugated paper as described above did not fundamentally solve the problem as a temporary measure.

In addition, when the vehicle is to be stacked in a plurality of layers to be transported using a vehicle or the like, the solar panel is fixed by using a fixing band to prevent the plurality of stacked solar panels from flowing. The fixed band is tied directly to the frame forming the solar cell panel, so that the frame is distorted.

Therefore, the present invention forms a pallet that allows each corner portion of the solar cell panel to be placed closely, so that when a large amount of solar cell panels are to be stacked, the present invention can be laminated in a safe state. The upper and lower sides of the corner portion to hold the plurality of solar panels when stacked, the purpose is to be laminated to the state that the solar panels do not hit directly.

Another embodiment of the present invention is to prevent the vibration and shock generated from the outside to be transmitted directly to the solar cell panel to be transported by using the vehicle in a stacked state as described above so as not to be damaged during transportation. In order to bundle the stacked solar panels using the fixing band to prevent shaking during transportation, the fixing band can be securely and firmly fixed even without being directly tied to the solar panel. The purpose is to prevent damage from occurring.

The present invention for realizing the object and the support portion to support the bottom surface of the corner portion of the frame to form a solar cell panel;

A vertical portion which is vertically erected to be perpendicular to two surfaces of the support portion to hold the two surfaces of the frame;

Fixing protrusions to be fitted to the upper surface of the vertical portion of the other pallet on the upper surface of the vertical portion having the right angle state and

The bottom of the vertical portion is characterized in that it consists of a recessed groove portion to be inserted into the fixing projections provided on the upper surface of the vertical portion of the other pallet.

In addition, when the solar cell panel is laminated to the supporting portion, the bottom of the pallet is characterized in that it further comprises a fastening hole for fastening and fixing by the support pallet and the fastening element to be located on the ground.

In addition, the outer surface of the vertical portion is characterized in that it further comprises a fixing band engaging portion to be fixed to the inner side to be indented vertically.

According to the present invention, each corner portion of the produced solar cell panel is fitted to the pallet so that two right angles are wrapped, so that even if a large amount of solar cell panels are laminated, they are stably stacked in a state where they do not collide with each other. When storing or transporting in a stacked state, the pallet holding the solar panel in a stable manner is securely bundled while the fixing band is positioned on the side of the fixing band locking part provided in the pallet. Therefore, since the fixing band is not tied directly to the solar cell panel, the fixing band is firmly tied in a state where the solar panel is not damaged by the fixing band. As the shock is not transmitted, it can be transported without damage. It will be effective.

1 is a perspective view for showing the configuration of the present invention.
Figure 2 is a side cross-sectional view showing a state of use of the present invention.
3 is a plan view showing a state of use of the present invention.

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

1 is a perspective view for showing the configuration of the present invention, Figure 2 is a side cross-sectional view showing a state of use of the present invention, Figure 3 is a plan view showing a state of use of the present invention, prior to the description of the present invention the solar cell panel (1) is a large-area solar panel (2) made of glass, a metal frame (3) to surround the outer peripheral surface of the solar panel and to collect the solar heat on one side of the solar panel It consists of a solar electrode element (4).

Pallet 10 of the present invention to be laminated in a state in which the solar cell panel having the configuration as described above do not hit each other is the bottom surface of the corner portion of the frame (3) forming the solar cell panel (1) Supporting portion 20 to support, and vertical portion 30 to stand vertically to be in a right angle to the two sides of the supporting portion to hold the two sides of the frame (3) and the right angle of Fixing protrusion 40 to be fitted to the vertical surface of the other pallet on the upper surface of the vertical portion having a state and a recess groove for allowing the fixing projection provided on the upper surface of the vertical portion of the other pallet to be inserted into the bottom of the vertical portion It consists of 50.

At this time, when the fastening hole 60 is formed in the supporting part to stack the solar cell panels, the pallet 10 positioned at the lower end is fastened and fixed by the supporting pallet 5 and the fastening element positioned on the ground. It is to make it possible.

In addition, the outer surface of the vertical portion 30 is formed in the fixed band locking portion 70 to allow the fixed band (5) to be indented vertically inwardly.

The fixed band catching part 70 includes a fixed band 80 when the solar cell panel 1 is transported by a vehicle or the like in a state in which a plurality of solar panels 1 are stacked at a predetermined height by the pallet 10. When fixed through the fixing band locking part 70 of the pallet 10 by the fixing band which is located in the fixing band locking part is maintained firmly fixed state during the vibration and shock occurs during transport Even if it is not damaged or broken.

In the present invention having the above-described configuration, first, one pallet 10 is placed on a supporting pallet 5 which is positioned on the ground.

At this time, the pallet 10 is fastened through the fastening hole 60 provided in the supporting portion 20 of the pallet 10 in a state in which each corner portion of the solar cell panel 1 can be seated therebetween. It penetrates the element so as to be firmly fastened to the support pallet (5).

One solar cell panel 1 produced in this state is to be placed in the pallet 10, that is, each corner portion of the frame 3 to form the solar cell panel 1 is supported by the supporting portion 20 To be enshrined in

As described above, when the frame 3 is placed on the supporting part 20, two surfaces of the frame starting from the corners are perpendicular to the outside of the supporting part 20 so as to be perpendicular to the inner surface of the vertical part 30. Will be interviewed.

When the corners of the solar cell panel are fixed stably in the state as described above and placed on the pallet 10, another pallet 10 is placed on the top of the pallet 10 in which the solar cell panel is already placed. Combine

That is, when the pressing groove 50 provided on the bottom surface of the vertical portion 30 of the other pallet 10 is pressed in the state to be located in the fixing projection 40 of the pallet 10 located at the lower position is located on the upper portion The fixing protrusions 40 of the pallet 10 located in the lower portion are inserted into the recessed groove portions 50 of the pallet 10, so that the pallets 10 are coupled in a multi-stacked state.

In this state, a plurality of solar cell panels 1 are laminated in a state in which other solar cell panels 1 are laminated.

If the solar cell panel 1 that has been stacked and stored in the above state is to be transported to another place, or to be moved by using a vehicle, an impact from the outside is generated during transportation, and it is shaken or stacked by the impact. When the combined pallet 10 is separated, the solar cell panel 1 may be damaged, so that the fixing band 80 may have an outer surface of the vertical portion 30 of the pallet 10 to prevent such cases. When the fixing band is bundled in a state in which the fixing band catching part 70 is formed in the pallet 10, the pallet 10 stacked by the fixing band 80 is firmly bundled so that an impact is transmitted from the outside during transportation. Even if the pallet is tied by the fixing band, the solar cell panel is not damaged.

10: pallet 20: support
30: vertical part 40: fixing protrusion
50: groove groove 70: fixing band locking portion

Claims

And a support for supporting the bottom surface of the corner portion of the frame to form a solar cell panel;
A vertical portion which is vertically erected to be perpendicular to two surfaces of the support portion to hold the two surfaces of the frame;
Fixing protrusions to be fitted to the upper surface of the vertical portion of the other pallet on the upper surface of the vertical portion having the right angle state and
The bottom surface of the vertical portion of the solar cell panel stacking pallet, characterized in that consisting of a recessed groove portion to be inserted into the fixing projections provided on the upper surface of the vertical portion of the other pallet.

The method of claim 1,
The solar cell panel stacking further comprises a fastening hole for fastening and fixing by the support pallet and the fastening element, the bottom pallet is located on the ground when the solar panel is laminated on the support portion. Pallet for.

The method of claim 1,
The outer surface of the vertical portion vertically concave inwardly so as to be fixed to the fixing band to catch the fixing band further comprises a solar cell panel stack pallet.