TWI754750B - Glass spacer paper, glass plate package, glass spacer paper lamination method, and glass spacer paper lamination device - Google Patents

Abstract

The present invention provides a glass spacer paper, a glass plate package, a glass spacer paper lamination method and a glass spacer paper lamination device which can shorten the time for forming a glass plate package. The glass spacer paper stacking apparatus 1 of the present invention conveys the glass plate 10 and laminates the cut glass spacer paper 20 on the upper part of the glass plate 10, and includes a conveyer 2, a detector 3, a paper feed roller 4, and a paper feeder The belt 5 , the support table 6 , the cutter 30 , and the web 40 . The roll paper 40 is rotated, and the paper 50 is fed in the first direction when the leading edge 11 of the glass plate 10 obtained by the inspection machine 3 passes through. The cutting machine 30 cuts the paper 50 at the moment when the trailing edge 12 of the glass plate 10 obtained by the inspection machine 3 passes. Since the glass spacer paper 20 is cut by the cutting machine 30 having a corrugated front end, the edge of the glass spacer paper 20 has a corrugated shape in which the convex portion 21 and the concave portion 22 are continuously formed.

Description

Glass spacer paper, glass plate package, glass spacer paper lamination method, and glass spacer paper lamination device

The present invention relates to a glass spacer paper, a glass plate package, a glass spacer paper lamination method, and a glass spacer paper lamination device.

Generally, elements or structures such as fine electrodes or partition walls are formed on the surface of glass plates used in flat-panel displays such as plasma displays (PDP: Plasma Display Panel) and liquid crystal displays (LCD: Liquid Crystal Display). There are few fine defects such as scratches and foreign matter on the surface, and there is known one that inserts spacer paper (also referred to as glass spacer paper) between glass plates and packs them (for example, Patent Document 1).

Patent Document 1 relates to a glass sheet packing method and a glass sheet packing body, the glass sheet packing method comprising collecting and packing a spacer paper that satisfies the condition that the content density of the adhering asphalt foreign matter is 0.07 pieces/m ² or less. After the number of glass plates to be packaged corresponds to the required number of glass plates, the above-mentioned spacer paper is interposed between the plurality of glass plates and placed on the packaging tray in a vertical position in a layered form, and it is disclosed that Minimal defects on the glass plate surface that may be caused by sticking of bitumen foreign matter in the case of so-called contact baling with spacer paper are minimized as much as possible. [Prior Art Literature] [Patent Literature]

[Patent Document 1] Japanese Patent Laid-Open No. 2008-143542

[Problems to be Solved by Invention]

In the case of the glass plate package described in Patent Document 1, since the edge of the spacer paper is basically formed by a straight line, the spacer paper and the glass plate are adhered, and it is difficult to disassemble the glass plate package when the glass plate package is disassembled. The problem of peeling off with the glass spacer.

The present invention provides a glass spacer paper, a glass plate package body, a glass spacer paper lamination method, and a glass spacer paper lamination device, which enables the glass plate and the glass spacer paper to be easily peeled off. [Technical means to solve problems]

The glass spacer paper of the present invention is interposed between a plurality of glass plates, and any edge of the glass spacer paper is corrugated.

In the glass plate packing system of the present invention, the glass spacer paper is interposed between the plurality of glass plates, and the plurality of glass plates have a non-coated area that is not covered by the glass spacer paper.

The glass spacer paper lamination method of the present invention is a method for laminating paper on a glass plate, and includes: a conveying step of conveying the glass plate in the first direction; a detection step of detecting the conveying position of the glass plate; and a supplying step, The paper is fed along the first direction according to the passing timing of the leading edge of the glass plate; and the cutting step is to cut the paper according to the passing timing of the trailing edge of the glass plate.

The glass spacer paper lamination device of the present invention is a device for laminating paper on a glass plate, and includes: a conveyor that conveys the glass plate in the first direction; a detector that detects the conveying position of the glass plate; a roll paper , which feeds the paper in the first direction at the time when the glass plate obtained by the above-mentioned inspection machine passes ahead; , and cut the above paper. [Effect of invention]

According to the present invention, there can be provided a glass spacer paper, a glass plate package, a glass spacer paper lamination method, and a glass spacer paper lamination device which can easily peel off the glass plate and the glass spacer paper.

Hereinafter, specific embodiments of the glass spacer paper, the glass plate package, the glass spacer paper lamination method, and the glass spacer paper lamination apparatus of the present invention will be described in detail using the drawings.

As shown in FIG. 1 , the glass spacer paper laminating apparatus 1 of the present embodiment is an apparatus for conveying a glass plate 10 and laminating the cut glass spacer paper 20 on the upper part of the glass plate 10 , and includes a conveyer 2 and a detector 3 , paper feed roller 4, paper feed belt 5, support table 6, cutting machine 30, and roll paper 40.

The conveyor 2 is belt-shaped, and a plurality of glass plates 10 are arranged on the upper part of the conveyor 2 in the conveying direction, and the glass plates 10 are conveyed in the first direction (conveying direction: the direction from the right to the left in FIG. 1 ). The detector 3 is arranged above the conveyor 2, and detects the conveyance position of the glass plate 10 by detecting the leading edge 11 and the trailing edge 12 of the glass plate 10 to be conveyed.

As shown in FIG. 2 , the roll paper 40 is in a state in which a shaft 41 is passed through the central axis. Both ends of the shaft 41 are rotatably supported by the support members 42. By driving the support members 42 to rotate the shaft 41, The roll paper 40 is rotated to feed the paper 50 into the glass spacer paper laminating apparatus 1 . At this time, according to the position information of the glass plate 10 obtained by the detector 3 and the conveying speed of the glass plate 10, the timing and the amount of feeding out the paper 50 can be calculated, and the roll paper 40 can be controlled by a controller not shown. of rotation. Moreover, in order to suppress the deflection of the shaft 41 due to the weight of the roll paper 40 , the shaft 41 is rotatably supported by the backup roller 43 in the region between the roll paper 40 and the support member 42 .

A plurality of paper feed rollers 4 are arranged, and when the paper feed roller 4 rotates, the paper 50 is smoothly flowed in the glass spacer paper stacking device 1 and fed into the upper part of the glass plate 10 . In addition, the paper feed belt 5 is rotatably supported by a plurality of support rollers 5a, and together with the paper feed roller 4, the paper 50 to be fed is clamped to feed the paper 50, and the speed adjustment and feeding state are stabilized. . At this time, according to the position information of the glass plate 10 obtained by the detector 3 and the conveying speed of the glass plate 10, the timing and the amount of feeding the paper 50 can be calculated, and the paper feeding roller can be controlled by a controller not shown. 4 rotations. In addition, the support table 6 supports the paper 50 from below, so that the paper 50 can be placed at an appropriate position on the upper part of the glass plate 10 , and the paper 50 can be easily cut by the cutter 30 .

The cutting machine 30 of the present embodiment for cutting the paper 50 to an appropriate length includes a first cutting blade 32 provided on the cutting roller 31 and a second cutting blade 33 fixed in the vicinity of the front end of the support table 6, and each has a wave. Shaped blades 32, 33. In addition, the second cutting blade 33 is provided on the opposite side across the paper 50 so as to engage with the first cutting blade 32 in a wavy shape.

The glass spacer 20 is laminated on the glass plate 10 by the following method.

<Conveyance step> The conveyer 2 is driven, and the glass plate 10 mounted on the conveyer 2 is conveyed in the 1st direction.

<Detection step 2> The detection machine 3 detects the conveyance position of the glass plate 10 by detecting the leading edge 11 and the trailing edge 12 of the glass plate 10 conveyed by the conveying machine 2.

<Supplying Step> The roll paper 40 is rotated, and the paper 50 is fed in the first direction when the leading edge 11 of the glass plate 10 obtained by the inspection machine 3 passes through.

<Cutting step> The cutting machine 30 cuts the paper 50 at the timing when the line 12 passes after the glass plate 10 obtained by the inspection machine 3 . The cutting of the paper 50 is carried out by rotating the cutting roller 31 at the moment when the line edge 12 behind the glass plate 10 passes, so that the first cutting blade 32 and the second cutting blade 33 are engaged, and the cut paper 50 is used as a glass spacer paper. 20 and laminated on the glass plate 10 .

As shown in FIG. 3, the glass plates 10 on which the glass spacer paper 20 is stacked are sequentially stacked on the upper part of the preceding glass spacer paper 20, placed as a glass plate package 15, and transported by a container or the like. That is, the glass plate package 15 is formed by interposing the glass spacer paper 20 between a plurality of glass plates 10 . In addition, by providing the non-coated area 16 (refer to FIG. 3( b )) that is not covered by the glass spacer paper 20 on the surface of the glass plate 10 , air can easily enter between the glass spacer paper 20 and the glass plate 10 , so that the The glass spacer 20 is peeled off from the glass plate 10 . Furthermore, whether or not to provide the non-covered area 16 may be arbitrary.

Furthermore, the non-coated region 16 is preferably provided along any side of the plurality of glass plates 10 . If peeled from the non-coated area 16 in the in-plane direction of the glass plate 10, the glass spacer paper 20 will not rub against the edge of the glass plate 10, so the glass spacer paper 20 can be easily removed without being caught by the glass plate 10. peeled from the glass plate 10 .

In addition, since the cutting of the paper 50 is performed by the rotation of the cutting roller 31, it is possible to cut the paper 50 instantaneously, unlike the sliding type cutter, without stopping the conveyance of the glass plate 10, and the glass plate 10 can be continuously conveyed on one side. The glass spacer 20 is laminated on the glass plate 10 on one side. Here, "continuous" means that the conveyance of a glass plate is not temporarily stopped substantially. In the conventional method like Patent Document 1, it is necessary to suck up the spacer paper one by one with a suction pad or the like and insert it between the glass plates, which takes time. According to the structure of this embodiment, the time required to form the glass plate package 15 can be shortened. In addition, the paper 50 can be continuously sent out at the same speed as the conveyance speed of the glass plate 10 from the supplying step to the cutting step, and the sending can be temporarily stopped at the time point when the cutting step is completed. And, the paper 50 is sent out again according to the passing timing of the leading edge 11 of the next glass plate 10 .

Since the glass spacer paper 20 is cut by the cutter 30 having a corrugated front end, the edge of the glass spacer paper 20 has a corrugated shape in which the convex portion 21 and the concave portion 22 are continuously formed. The waveform can be formed on one side of the end edge or on both sides (refer to FIG. 4 ).

By setting the edge of the glass spacer paper 20 into a corrugated shape, the apex of the corrugated shape can be easily rolled up, so that the air can easily enter between the glass plate 10 and the glass spacer paper 20. Compared with the configuration where the edge of the spacer paper is straight, The glass plate 10 and the glass spacer paper 20 are easily peeled off. In addition, since the cutting of the paper 50 is performed by the rotation of the cutting roller 31, it can be cut instantly, unlike the sliding type cutter, and the paper 50 can be easily cut in the above-mentioned cutting step, and paper dust is not easily generated. .

In addition, it is preferable to place the glass spacer paper 20 on the glass plate 10 at the time when the leading edge 11 of the glass plate 10 passes through, and to attach the glass spacer paper 20 and the glass plate 10 by the electrostatic force between them. , the glass spacer paper 20 can be prevented from being separated from the glass plate 10 .

In order to make the above effect more remarkable, the distance P between the apexes of the convex portions 21 is preferably 5 mm or more and 20 mm or less. If the pitch P is less than 5 mm, it is difficult to cut and paper dust is likely to be generated. Moreover, when it exceeds 20 mm, peeling of the glass plate 10 and the glass spacer paper 20 cannot be performed smoothly.

Moreover, it is preferable that the angle (theta) of the vertex of the convex part 21 is 20 degrees or more and 60 degrees or less. When the angle θ is less than 20°, the waveform becomes thin and cutting becomes difficult, and paper dust tends to be generated. Moreover, when the angle (theta) exceeds 60 degrees, the peeling of the glass plate 10 and the glass spacer paper 20 cannot be performed smoothly.

Furthermore, the height H of the apex of the convex portion 21 is preferably 5 mm or more and 20 mm or less based on the apex of the concave portion 22 . If the height H is less than 5 mm, the wave shape is small and the edge is linear, and it is difficult to peel off the glass plate 10 and the spacer paper 20 . If the height H exceeds 20 mm, it will be difficult to cut.

In addition, it is preferable that the edge of the glass spacer paper 20 is located between the ridges from the apex of the outermost convex portion 21 to the apex of the imaginary concave portion outside the glass spacer paper 20 in the waveform of the edge of the glass spacer paper 20 (see FIG. 5 ). (b)). For example, if the ridgeline from the apex of the concave portion 22 to the apex of the imaginary convex portion outside the glass spacer paper 20 is located at the edge as shown in FIG. 5( c ), the glass spacer paper 20 is likely to be caught and easily damaged. In the embodiment, the vicinity of the end portion of the glass spacer paper 20 is not easily caught, and is not easily damaged. Furthermore, the present embodiment can be preferably applied to the case where the short side of the glass spacer paper 20 has a size of 2500 mm or more. When the size of the glass spacer paper 20 is increased, the handling of the glass spacer paper becomes difficult, and it is difficult for air to enter between the glass plate 10 and the glass spacer paper 20 , and smooth peeling cannot be performed. According to this embodiment, such a problem can be easily solved. This embodiment can be preferably applied to those whose short side of the glass spacer paper 20 is preferably 2800 mm or more, and more preferably 3000 mm or more.

In addition, this invention is not limited to the said embodiment, It can change, improve, etc. suitably. In addition, the material, shape, size, numerical value, form, number, arrangement position, etc. of each constituent element of the above-described embodiment are arbitrary and not limited as long as they can achieve the present invention.

This application is based on Japanese Patent Application No. 2017-102706 filed on May 24, 2017, the contents of which are incorporated herein by reference. [Industrial Availability]

The glass spacer paper, the glass plate package, the glass spacer paper lamination method, the glass spacer paper lamination device, and the glass plate and the forming method thereof of the present invention can be preferably used, for example, in a field requiring that the time required to form a glass plate package can be shortened , or the area where the glass plate and the glass spacer paper are required to be easily peeled off.

1‧‧‧Glass spacer paper stacking device 2‧‧‧Conveyor 3‧‧‧Detector 4‧‧‧Paper feed roller 5‧‧‧Paper feed belt 5a‧‧‧Support roller 6‧‧‧Support table 10‧‧ ‧Glass plate 11‧‧‧Leading edge 12‧‧‧Last running edge 15‧‧‧Glass plate packing body 16‧‧‧Non-coated area 20‧‧‧Glass spacer paper 21‧‧‧Protruding part 22‧‧‧Concave part 30‧‧‧Cutting machine 31‧‧‧Cutting roller 32‧‧‧First cutting blade 33‧‧‧Second cutting blade 40‧‧‧Roll paper 41‧‧‧Shaft 42‧‧‧Support member 43‧‧ ‧Backup Roll 50‧‧‧Paper AA‧‧‧Line H‧‧‧Height P‧‧‧Spacing θ‧‧‧Angle

FIG. 1 is a conceptual diagram showing an example of the glass spacer paper lamination apparatus of the present invention. Fig. 2 is an enlarged view of the web and the backup roller of Fig. 1, (a) is a side view, (b) is a cross-sectional view along the line A-A of (a). Fig. 3 shows a glass plate package according to the present invention, with (a) a side view and (b) a front view. Fig. 4 is an enlarged view of Fig. 3(b). Fig. 5 shows the glass plate package of the present invention, (a) is a front view, (b) is an enlarged view of part A of (a), and (c) is a comparison view of (b).

10‧‧‧Glass

15‧‧‧Glass plate packing body

16‧‧‧Uncovered area

20‧‧‧Glass spacer

Claims (13)

A glass spacer paper is interposed between a plurality of glass plates, and any end edge of the glass spacer paper is corrugated. The glass spacer paper according to claim 1, wherein the distance between the vertices of the convex portions of the waveform is 5 mm or more and 20 mm or less. The glass spacer paper according to claim 1 or 2, wherein the angle of the apex of the convex portion of the wave shape is 20° or more and 60° or less. The glass spacer paper according to claim 1 or 2, wherein the height of the apex of the convex portion of the waveform is 5 mm or more and 20 mm or less based on the apex of the concave portion of the waveform. The glass spacer paper of claim 1 or 2, wherein the opposite ends of the glass spacer paper are corrugated. The glass spacer paper according to claim 1 or 2, wherein the edge of the glass spacer paper is located between the ridges in the waveform from the apex of the outermost convex portion to the apex of the imaginary concave portion outside the glass spacer paper. A glass plate package, which is made by interposing the glass spacer paper according to any one of claims 1 to 6 between the above-mentioned plural glass plates, and The said plurality of glass plates have the non-covered area|region which is not covered with the said glass spacer paper. The glass plate package according to claim 7, wherein the non-coated area is provided along any side of the plurality of glass plates. A method for laminating glass spacer paper, comprising laminating paper on a glass plate, and comprising: a conveying step of continuously conveying the glass plate in a first direction; a detection step of detecting a conveying position of the glass plate; supplying a step of feeding paper along the first direction according to the passing time of the leading edge of the glass plate; and a cutting step of cutting the paper according to the passing time of the trailing edge of the glass plate; The above-mentioned paper is laminated on the above-mentioned glass plate as a glass spacer paper whose either edge is corrugated. A glass spacer paper lamination device, which laminates paper on a glass plate, and includes: a conveyor that continuously conveys the glass plate in a first direction; a detector that detects a conveying position of the glass plate; a roll A roll paper that feeds the paper in the first direction at the time when the glass plate obtained by the above-mentioned inspection machine passes ahead; and a cutter that passes after the glass plate obtained by the above-mentioned inspection machine. At the time of cutting, the paper is cut; wherein, the cut paper is laminated on the above-mentioned paper as a glass spacer paper having a corrugated edge at either end. on a glass plate. The glass spacer paper lamination device according to claim 10, wherein the cutting machine performs the cutting by meshing a wave-shaped first cutting blade with a second cutting blade, the second cutting blade being spaced apart from the first cutting blade The above-mentioned paper is provided on the opposite side and has a corrugated shape. The glass spacer paper lamination device according to claim 11, wherein the first cutting blade is provided on the cutting roller, the second cutting blade is a fixed cutting blade, and the cutting roller is rotated at the time when the rear-running edge passes, and the The first cutting blade meshes with the second cutting blade. The glass spacer paper lamination device according to any one of claims 10 to 12, wherein the roll paper is connected to the central axis with a shaft passing therethrough, both ends of the shaft are rotatably supported by support members, and the shaft is attached to the roll The area between the web and the above-mentioned support member is rotatably supported by the backup roller.

Images