KR20110113051A

KR20110113051A - Apparatus for storing of glass panel

Info

Publication number: KR20110113051A
Application number: KR1020100032376A
Authority: KR
Inventors: 정효재
Original assignee: 주식회사 태성기연
Priority date: 2010-04-08
Filing date: 2010-04-08
Publication date: 2011-10-14
Also published as: JP2011219174A; KR101213052B1; TW201134732A; CN102233993A

Abstract

The present invention relates to a plate glass storage device, a pair of walls 11 are arranged in parallel to be spaced in a predetermined width, and the wall 11 is connected by spaced apart at regular intervals in the up, down direction and the longitudinal direction Receiving unit 10 is provided with a plurality of plate glass support straps 12; An elevating part 20 connected to an outer surface of each wall 11 of the accommodating part 10 so as to elevate the wall 11 up and down so that the accommodating part 10 is elevated; And a guide part 30 for guiding the plate glass 5, which has been fixedly disposed and conveyed throughout the longitudinal direction, on the plate glass support strap 12, at a predetermined height in the housing part 10. In the plate glass accommodating device, the guide part 30 is disposed between the plurality of rollers 31 and the rollers 31 which are axially rotated at regular intervals over the entire inner side of the wall 11. And an air ejector 32 for discharging air upward, the air ejectors 32 are formed in plural numbers so as to be individually disposed between the rollers 31, and the rollers 31 are It is characterized in that it is further provided with a width-width adjusting means that can move in the width direction to adjust the width. Therefore, it is possible to prevent damage to the central portion of the glass plate in advance, as well as to enable the guidance of the glass plate of various sizes, improve the overall work efficiency and increase the reliability of the product according to the storage of the glass plate of various sizes, etc. Gets the effect.

Description

Plate glass storage device {Apparatus for storing of glass panel}

The present invention relates to a plate glass receiving device, and more particularly, a plurality of rollers are arranged on both sides as guides for guiding the plate glass to the housing, and an air discharger is disposed at the center between these rollers, but the rollers on both sides are air discharged. By allowing the width to be adjusted so that it can be opened and narrowed toward the machine side, it basically supports the central part of the pane which is guided to the receiving part by air, thereby preventing damage to the central part of the pane. It is possible to maximize the utilization of the plate glass, and furthermore, it is possible to guide the glass of various sizes as well as to improve the overall work efficiency as well as to increase the reliability of the product according to the storage of the glass plate of various sizes relates to a plate glass storage device.

In general, the plate glass housing means that a plurality of plate glass layers can be stacked for the purpose of storing the plate glass before use. As an example, the plate glass storage device of the prior art is roughly spaced apart by a predetermined width and arranged in parallel. A pair of walls which are connected to each other, a plurality of plate glass support straps which are spaced apart at regular intervals in the up, down direction and the longitudinal direction by connecting the walls, and connected to the outer surface of each wall of the storage section to connect the walls. Lifting part to elevate up and down to raise and lower the receiving part, and a plurality of rollers for guiding the plate glass, which has been fixedly arranged and transported over the entire length direction at a predetermined height in the receiving part, to be mounted on the plate glass support strap, both sides and the center part. And a guide portion spaced apart from each other.

The prior art plate glass receiving device having such a configuration has a structure in which the rollers of the guide portion are lifted up and down by passing between the plate glass support straps of the housing portion, that is, the plate glass housing is loaded by descending the plate glass from the top plate glass strap of the uppermost portion. The work must be carried out.

Therefore, the elevator unit lowers the receiving unit before storing the glass plate so that the uppermost plate glass support strap is placed in line with the guide unit, and then the conveyed plate glass is guided and loaded onto the upper plate glass support strap, and then the lower layer The plate glass support straps were raised to be in line with the rollers so that the plate glass was guided by the rollers and then loaded.

However, since the plate glass receiving device of the prior art is a way that the roller for guiding the plate glass supports not only the bottom of both ends of the plate glass but also guides the bottom of the center portion thereof. Although it is possible to use only the center portion by cutting the damage to the bottom surface of the central portion had a problem that the entire plate glass should be discarded.

In addition, since it is a fixed structure that can not control the width of the rollers on both sides, it is impossible to apply to the glass of various sizes, it is possible to guide only the glass of a certain size, reducing the overall work efficiency as well as single work There was a problem that the reliability of the product according to the ability to fall.

The present invention has been made in order to solve this problem, as a guide for guiding the plate glass to the receiving unit arranged a plurality of rollers on both sides and the air discharger in the center between the rollers, but the rollers on both sides By allowing the width to be adjusted so that it can be opened and narrowed toward the side, it basically supports the central part of the plate glass to be guided to the housing by air, thereby preventing damage to the center of the plate glass in advance. The purpose of the present invention is to provide a plate glass storage device which can maximize the utilization of the glass plate and also improve the overall work efficiency as well as increase the reliability of the product according to the storage of plate glass of various sizes. There is this.

Plate glass storage device of the present invention for achieving the above object is a pair of walls are arranged in parallel spaced in a predetermined width and a plurality of spaced apart at regular intervals in the vertical direction by connecting between the walls Receiving portion provided with a plate glass support strap; An elevating part connected to an outer surface of each wall of the accommodating part to elevate the wall up and down so that the accommodating part is elevated; And a guide portion for guiding the plate glass fixedly disposed over the entire longitudinal direction at a predetermined height in the storage portion to be mounted on the plate glass support strap, wherein the guide portion is configured to include the wall. And a plurality of rollers disposed axially rotated at regular intervals throughout the adjacent inner side of the air discharger, and an air ejector disposed between the rollers and discharging air upwardly, wherein the air ejector is individually disposed between the respective rollers. It is made of a plurality so as to be arranged, the rollers are characterized in that the width is further provided with a width adjustment means that can move in the width direction to adjust the width.

In addition, the plate glass receiving apparatus according to the present invention, the width adjusting means, the fixed guide bar for sliding in the width direction in a state rotatably supporting the rotation axis of the roller; A shaft rotating part which is connected to a rotating shaft of the roller and an upper end thereof and is connected to a rotating motor at a lower end thereof to axially rotate the rotating shaft; And a cylinder having a rod configured to move the fixed guide bar forward and backward in the width direction.

In addition, in the plate glass accommodating device according to the present invention, it is preferable that a connecting rod is further provided to connect the respective axial rotation parts of the rollers to each other and to be connected to the rods of the cylinders so that the entire rollers can be moved simultaneously in the width direction.

In addition, in the plate glass accommodating device according to the present invention, it is preferable that a release prevention jaw is provided on the outer surface of the rollers to prevent both ends of the plate glass mounted on the rollers from being separated to the outside.

In addition, in the plate glass accommodating device according to the present invention, it is preferable that the lifting portion is provided with a wall support for supporting the lower end of each wall of the accommodating portion, and a ball screw that is axially rotated so that the wall support is elevated up and down.

As described above, the plate glass accommodating device according to the present invention arranges a plurality of rollers on both sides as guides for guiding the plate glass to the accommodating portion, and arranges an air ejector at a central portion between the rollers, while the rollers on both sides are disposed on the air ejector side. By allowing the width to be adjusted so that it can be opened and narrowed, the air is basically supported by the central portion of the plate glass that is guided to the housing, so that damage to the center portion of the plate glass can be prevented in advance. It is possible to maximize the utilization, and also, it is possible to guide the glass of various sizes, thereby improving the overall work efficiency and the effect of increasing the reliability of the product according to the storage of the glass of various sizes.

1 is a perspective view showing a plate glass receiving device according to an embodiment of the present invention.
Figure 2 is a schematic cross-sectional view showing a plate glass receiving apparatus according to an embodiment of the present invention.
Figure 3a, 3b is a schematic side view showing that the receiving portion of the plate glass accommodating device according to an embodiment of the present invention is raised.
Figure 4 is a schematic plan view showing a plate glass receiving device according to an embodiment of the present invention.
5A and 5B are partial cutaway perspective views illustrating a state in which the roller of the plate glass accommodating device according to an embodiment of the present invention is moved in the width direction.

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

As shown in Figures 1 to 5b, the plate glass accommodating device according to an embodiment of the present invention includes an accommodating portion 10 for accommodating the plate glass 5, and the lifting portion 20 to raise and lower the accommodating portion 10. ) And a guide part (30) for guiding the plate glass (5) in the housing part (10).

The accommodating part 10 is a pair of walls 11 which are spaced apart in a predetermined width and arranged upright in parallel with each other, and a plurality of which are spaced apart at regular intervals in the vertical direction by connecting the walls 11. The plate glass support strap 12 of the structure is provided.

The lifting unit 20 is connected to the outer surface of each wall 11 of the storage unit 10 to elevate the wall 11 upwards and downwards so that the storage unit 10 is elevated. A wall support 21 for supporting the lower end of each wall 11 is provided, and the wall support 21 is provided with a ball screw 22 which is axially rotated so that the wall support 21 is moved up and down.

The guide part 30 is for loading the plate glass 5, which has been transferred from the outside, in a state in which the guide part 30 is fixedly disposed over the entire longitudinal direction at a predetermined height in the receiving part 10, The guide portion 30 is arranged between the plurality of rollers 31 which are axially rotated at regular intervals over the entire inner side of the wall 11 and disposed between the rollers 31 to discharge air upwards. It is configured to include an air ejector (32).

Here, the air ejector 32 is composed of a plurality of so as to be individually disposed between each roller 31, each air ejector 32 is discharged through the upper surface of the chamber (32a) having an inner space ( The upper plate 32c on which 32b) is formed is covered, and an air fan 32d is provided in the inner space thereof.

In addition, the rollers 31 are provided with a width width adjusting means that can move in the width direction to adjust the width width.

The width-width adjusting means includes a fixed guide bar 41 for sliding in the width direction in a state in which the rotation shaft 31a of the roller 31 is rotatably supported, and the rotation shaft 31a of the roller 31; A rod 43a having an upper end gear connected thereto and a lower end thereof connected with a rotary motor 42a to move the shaft rotating part 42 for rotating the rotary shaft 31a and the fixed guide bar 41 in a width direction. It is configured to include a cylinder 43 is provided.

Here, the respective axial rotation parts 42 of the roller 31 are connected to each other and connected to the rod 43a of the cylinder 43 and the fixed guide bar 41 so that the entire roller 31 is moved forward and at the same time in the width direction. It is further provided with a connecting table 44 for retreating movement.

And, on the outer surface of the roller 31 is provided a separation prevention jaw (31b) for preventing the both ends of the plate glass (5) mounted on the roller 31 to be separated to the outside.

The plate glass receiving device according to the embodiment of the present invention has a structure in which the rollers 31 of the guide part 30 are lifted up and down through the plate glass support straps 12 of the storage part 10. , The plate glass receiving strap 12 should be carried out in such a way that the plate glass 5 is loaded and lowered.

Therefore, the lifting unit 20 lowers the receiving unit 10 before storing the plate glass 5 so that the uppermost plate glass support strap 12 is in line with the guide unit 20, and then the air ejector 32. To discharge the air.

Then, the uppermost plate glass restraint of the receiving portion 10 in the state in which both ends of the bottom surface of the lower surface of the conveyed glass plate 5 is supported by the roller 31 and the center thereof is supported by the air floating of the air ejector 32. (12) Guide and load onto the stack.

Then, the elevating portion 20 raises the receiving portion 10 again so that the plate glass support strap 12 on the lower layer is in line with the roller 31 so that the plate glass 5 is moved with the roller 31 and air. The plural panes are stacked on each plate glass support strap 12 in a manner of being guided to the storage unit 10 by injuries and then stacked.

On the other hand, when the width of the plate glass 5 which has been conveyed does not match the width between the rollers 31 on both sides of the present state, the cylinder 43 is operated to allow the rod 43a to pass through the connecting table 44. By properly moving the axial rotation part 42 in the width direction to match the width of the plate glass 5 is to be able to perform the storage operation of the plate glass 5 again.

In this way, when the plate glass 5 is loaded, the central bottom of the plate glass 5 can prevent damage to the plate glass 5 due to air injury, and furthermore, to the plate glass 5 of various widths. In this case, the cylinder 43 is operated to appropriately match the width of the roller 31, so that the loading work can be performed on the plate glass 5 of various sizes, thereby improving work efficiency and product reliability. .

As described above, the present invention has been described with reference to the above preferred embodiments, but in the claims and detailed description of the present invention, as well as modifications of the present invention in combination with the conventional well-known technology of the present invention belongs to It will be appreciated that all of the techniques readily available to those skilled in the art will be included in the technical scope of the present invention.

5: plate glass 10: storage
11 wall 12 plate glass support strap
20: lifting unit 21: wall support
22: ball screw 30: guide
31: roller 31a: rotation axis
31b: Breakaway prevention jaw 32: Air ejector
32a: chamber 32b: discharge hole
32c: top plate 32d: air fan
32e: Filter 41: Fixed guide bar
42: shaft rotation portion 42a: rotation motor
43: cylinder 43a: rod
44: connecting rod

Claims

A pair of walls 11 arranged in parallel and spaced apart by a predetermined width and a plurality of plate glass support straps 12 spaced apart at regular intervals in the vertical direction by connecting the walls 11 are connected to each other. A storage unit 10 provided;
An elevating part 20 connected to an outer surface of each wall 11 of the accommodating part 10 so as to elevate the wall 11 up and down so that the accommodating part 10 is elevated; And
A guide part (30) for guiding the plate glass (5) which has been fixedly disposed and conveyed throughout the longitudinal direction at a predetermined height in the receiving part (10) on the plate glass support strap (12);
In the plate glass receiving device configured to include,
The guide unit 30,
A plurality of rollers 31 which are arranged at regular intervals and axially rotated over the entire inner side of the wall 11 and an air ejector 32 disposed between the rollers 31 to discharge air upwards; Configured by
The air ejector 32 is composed of a plurality of to be individually disposed between each roller 31,
The rollers 31 are plate glass receiving apparatus, characterized in that the width width adjustment means for adjusting the width to move in the width direction is further provided.

The method of claim 1,
The width adjusting means,
A fixed guide bar 41 for sliding in the width direction in a state in which the rotation shaft 31a of the roller 31 is rotatably supported;
An axis rotating part 42 configured to gear-rotate the rotary shaft 31a of the roller 31 and a lower end thereof connected to the rotary motor 42a to axially rotate the rotary shaft 31a; And
A cylinder 43 having a rod 43a for moving the fixed guide bar 41 forward and backward in the width direction;
Plate glass storage device characterized in that it comprises a.

The method of claim 2,
A connecting rod 44 is further provided to connect the respective shaft rotation parts 42 of the roller 31 to each other and to be connected to the rod 43a of the cylinder 43 so that the entire roller 31 can be simultaneously moved in the width direction. Plate glass storage device characterized in that.

The method of claim 1,
An outer surface of the rollers 31, the plate glass receiving device characterized in that the separation prevention jaw (31b) is provided to prevent the both ends of the plate glass (5) mounted on the rollers to be separated to the outside.

The method of claim 1,
The lifting unit 20 is provided with a wall support 21 for supporting the lower end of each wall 11 of the storage unit 10, the ball screw 22 is axially rotated so that the wall support 21 is moved up and down. Plate glass storage device characterized in that it is provided.