KR20160027895A

KR20160027895A - Suction equipment for a display panel

Info

Publication number: KR20160027895A
Application number: KR1020150100257A
Authority: KR
Inventors: 정효재; 황명수; 이강득; 심우익
Original assignee: 주식회사 태성기연
Priority date: 2014-08-29
Filing date: 2015-07-15
Publication date: 2016-03-10
Also published as: CN105383928A; JP2016050169A; KR101703032B1; JP2016050167A; CN105382701A; CN105384329A; JP2016050168A; KR101703026B1; TW201607869A; KR20160027896A; TW201607903A; KR20160027894A; TW201608437A; KR101672779B1

Abstract

According to the present invention, a display panel suction apparatus has multiple suction ports and first vacuum lines formed on the upper side of a main body, and allows the suction ports and the first vacuum lines to communicate with a second vacuum line. A suction pipe is mounted to be connected to each of multiple suction ducts communicating with the suction ports, and a porous plate with multiple penetrating holes is tightly coupled and fixed to the upper side of the main body. Accordingly, suction force is generated in the suction ports, the first vacuum lines and the second vacuum line due to suction pressure generated on each suction duct. Furthermore, air is forcibly sucked through the multiple penetrating holes of the porous plate by the suction force, thereby sucking a large-sized glass plate put on the upper side of the porous plate. According to the present invention, the multiple suction ports communicate with each of the different suction ducts and operate individually. Furthermore, even when one of the multiple suction ports is damaged or clogged, one damaged suction port and the other suction ports form suction force by the different suction ducts so the other suction ports are not affected by the damaged suction port. The suction force generated in the multiple suction ports is constant as the suction ducts are formed individually. In addition, the porous plate is replaced when the suction ports are damaged or clogged so the suction work can be quickly re-performed. The maintenance is easy and replacement costs are reduced due to the simple replacement of the porous plate so the product reliability is enhanced.

Description

[0001] The present invention relates to a suction device for a display panel,

The present invention relates to an adsorption apparatus, and more particularly, to a panel adsorption apparatus for adsorbing a large-sized plate glass or a large tempered glass plate or the like.

In general, a display panel used for a smart phone, a tablet PC, and a touch screen TV is manufactured by cutting a single large plate glass into a plurality of predetermined sizes.

In this case, the size of the single large plate glass is difficult to be gripped by the operator due to its size, and also, due to the risk of the large plate glass being dropped on the floor due to the large plate glass being hand- , Both ends of the plate glass are supported by a roller, and the plate glass is conveyed by driving this roller.

However, when the plate glass is moved by the rollers as described above, deflection occurs at the center of the plate glass, so that deformation or breakage of the plate glass occurs, and scratches or the like are generated in the bottom end portions supported by the rollers.

Patent Document 1 discloses a conventional substrate adsorption apparatus for a display panel. The adsorption apparatus includes a suction panel for forcibly sucking air through a plurality of suction holes formed on a bottom surface thereof, A buffer airbag for forcibly sucking and discharging the air through the airbag, and a support bar provided on the top surface of the buffer airbag.

At this time, a hollow portion communicating with the adsorption holes is formed in the adsorption panel, and by forcefully sucking air through the hollow portion, adsorption force is generated in the adsorption holes to adsorb the substrate to the bottom of the adsorption panel.

Here, when the slope of the adsorption panel closely adhered to the substrate is inclined in one direction, air is injected through the inflow hole and the outflow hole of the buffer air bag, or air is forcibly discharged, so that the adsorption panel is aligned with the substrate .

However, in the above-described Patent Document 1, when a plurality of suction holes are blocked by a hollow portion and a plurality of suction holes are clogged or damaged, the forced suction pressure of the air is concentrated to other suction holes, Pressure is generated and a hollow portion of a predetermined area is maintained in a vacuum state, but air is forcedly sucked through the suction hole to require a relatively high suction pressure, and a product due to the cost of replacing the entire adsorption panel when the suction panel is damaged There is a problem that the reliability of the apparatus is deteriorated.

KR 10-1345929 B1

SUMMARY OF THE INVENTION It is an object of the present invention to provide a vacuum cleaner in which a plurality of suction ports and a first vacuum line are formed on an upper surface of a main body and the suction port and the first vacuum line communicate with a second vacuum line, A suction pipe is connected to each of the suction pipes communicated with the suction port, and a porous plate having a plurality of through holes formed therein is tightly fixed to the upper surface of the suction pipe, whereby the suction port, the first and second vacuum A suction force is generated in the line, and air is forcedly sucked through a plurality of through holes of the porous plate by the suction force, thereby attracting the large glass plate put on the upper surface of the porous plate.

According to an aspect of the present invention, there is provided a panel adsorbing apparatus comprising: a plurality of suction ports spaced apart from each other at a predetermined interval on an upper surface thereof, the suction port communicating with the suction port below the suction port, A main body having a suction pipe path for discharging air to the lower part; A porous plate closely attached to the upper surface of the body and forcing the air through a plurality of through holes formed in the upper surface to fix the tempered glass mounted on the upper surface; And a suction pipe provided at a lower portion of the main body and communicating with the suction pipe and for forcibly sucking air through the suction pipe. In the panel adsorbing device, the main body has a length defined in one direction from the other side A first vacuum line formed to be recessed to have a predetermined gap and spaced apart from the first vacuum line, and a plurality of first vacuum lines formed to be recessed in a direction orthogonal to the first vacuum line, And a second vacuum line for applying an attraction force to the vacuum line is further formed.

In the panel adsorption apparatus according to the present invention, the main body includes a suction duct frame which is provided on the lower surface so as to connect between the suction duct and the suction pipe, and forms a vacuum space therein, And a filter for filtering out foreign substances contained in the air supplied through the suction pipe.

The panel adsorption apparatus according to the present invention is characterized in that the main body further includes a fixing jig which is installed at both ends in a zigzag structure with respect to each other and presses both ends of the tempered glass raised and raised on the upper surface of the porous plate, do.

According to the present invention, even if one of the plurality of suction ports is communicated with each of the different suction pipe rods and operated individually and any one of the suction ports or the passage is damaged or clogged, the damaged suction port or passage and the other suction port or passage are connected to different suction pipes So that the adsorption force generated in the plurality of suction ports is constant due to the formation of the individual suction pipes. When the passage is damaged or clogged, the porous plates are replaced and the operation is quickly resumed And it is easy to maintain and repair by simple replacement of the porous plate, and the replacement cost is reduced, thereby improving the reliability of the product.

1 is a schematic side view of a panel adsorption apparatus according to the present invention.
2 is an exploded view of Fig.
3 is a partial perspective view of the main body of the panel adsorption apparatus according to the present invention as viewed from above.
4 is a view showing a state in which a display panel adsorbing device according to the present invention is installed in a rotating device and adsorbs tempered glass.
5 is a view showing a state in which a display panel adsorbing device according to the present invention is rotated by a rotating device.

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

1 to 3, the main body 100 has a plurality of suction ports 101 spaced apart from each other by a predetermined distance on the upper surface thereof. The suction port 101 communicates with the suction port 101, 101 to the lower portion thereof.

At least three of the suction ports 101 form a pair and communicate with the suction pipe path 102.

The main body 100 includes a first vacuum line 103 formed in a top surface and recessed to have a predetermined length from one direction to the other, a plurality of vacuum lines 103 spaced apart from each other by a predetermined distance, and a second vacuum line 103 extending in a direction perpendicular to the first vacuum line 103 And a second vacuum line 104 connecting the plurality of first vacuum lines 103 and communicating with the suction port 101 to apply a suction force to the first vacuum line 103 is further formed.

The first vacuum line 103 is recessed in a direction orthogonal to the second vacuum line 104.

The first vacuum line 103 generates a suction force by the suction pressure sucked through the suction port 101 and forcibly sucks air through the through hole 201 of the porous plate 200 by the suction force.

The second vacuum line 104 is formed to be perpendicular to the first vacuum line 103 and is recessed at the same height as the first vacuum line 103 to communicate with the first vacuum line 103 .

The main body 100 is provided with a suction duct frame 110 installed to connect between the suction duct 102 and the suction pipe 300 and forming a vacuum space 111 therein, A filter 112 is installed in the vacuum space 111 of the frame 110 to filter foreign substances contained in the air supplied through the suction pipe 102.

The suction tube furnace frame 110 is opened at an upper portion thereof, and a vacuum space 111 formed at an inner center portion thereof is formed.

The suction tube furnace frame 110 is installed to communicate with each of the suction tube furnaces 102.

The filter 112 filters foreign substances (for example, dust or abrasive) contained in the air forced into the suction pipe 300 through the suction pipe line 102.

The main body 100 further includes a fixing jig 120 installed at both ends in a zigzag structure to press and fix both ends of the tempered glass G raised and lowered on the upper surface of the porous plate 200.

The fixing jig 120 is lifted and lowered by a pneumatic or hydraulic method, and both ends of the upper surface of the tempered glass G mounted on the upper surface of the porous plate 200 are pressed and fixed.

The fixing jig 120 is provided with a cushion member 121 attached to one surface of the fixing jig 120 which is in contact with the upper surface of the tempered glass G.

The cushion member 121 applies a buffering force between the fixing jig 120 and the tempered glass G when the fixing jig 120 presses the upper surface of the tempered glass G, And is prevented from being broken by the fixing jig (120).

The porous plate 200 is tightly fixed to the upper surface of the main body 100 and forcibly sucks air through a plurality of through holes 201 formed in the upper surface thereof to fix the tempered glass G mounted on the upper surface.

The through hole 201 forcibly sucks the outside air by the suction pressure generated in the first vacuum line 103 and the second vacuum line 104 of the main body 100.

Preferably, the through holes 201 are formed along the first vacuum line 103 and the second vacuum line 104.

The suction pipe 300 is provided at a lower portion of the main body 100 and communicates with the suction pipe 102 to forcefully suck air through the suction pipe 02.

The suction pipe 300 is connected to an external vacuum pump (not shown) to forcefully suck air.

The supply pressure forcibly supplied through the suction pipe 300 can be adjusted by the user.

The display panel adsorption apparatus according to the present invention configured as described above is used as follows.

The display panel adsorption apparatus of the present invention can be selected and installed in various devices such as a horizontally moving conveying device (not shown), a lifting device (not shown) moving up and down or a rotating device 10 rotated at a predetermined angle, In the present invention, a description will be made by way of example provided in the rotating device 10. [

4, a display panel adsorption device is installed on a rotating device 10, a tempered glass G is placed on the upper surface of the porous plate 200 of the display panel adsorption device, 300). &Lt; / RTI >

Then, the air in the suction pipe 102 of the main body 100 is forcedly discharged by the suction pressure forced through the suction pipe 300 to maintain the vacuum state. At the same time, air is forced into the suction port 101 Inhaled.

The suction port 101 communicates with the second vacuum line 104 to form a suction force in the second vacuum line 104. The first vacuum line 104 communicates with the first vacuum line 104, The vacuum line 103 forms a suction force by the second vacuum line 104.

That is, a suction force is generated by the suction pressure sucked into the suction port 101 in the second vacuum line 104 formed to penetrate the central portion of the plurality of first vacuum lines 103, 104) forcibly sucks air in the first vacuum line (103), and a suction force is generated in the first vacuum line (103).

Particularly, the first and second vacuum lines 103 and 104 communicate with the through holes 201 of the porous plate 200 to forcibly suck air through the through holes 201 of the porous plate 200 The outside air is forcibly sucked.

At least three of the suction ports 101 are formed as a pair and the suction port 101 forming a pair is communicated with the suction pipe 102 different from the pair of the suction ports 101 to be individually operated do.

At this time, even if the through hole 201 of the porous plate 200 is blocked or damaged by the dust, the medium and the fragments to lose the suction force, the air hole 201 that gives the suction force to the through hole 201, The suction port 101 and the normally operating suction port 101 are individually operated by different suction path 102. [

The reinforcing glass G placed on the upper surface of the porous plate 200 is held on the upper surface of the porous plate 200 by the suction force of the through holes 201.

The fixing jig 120 installed at both ends of the main body 100 is lifted and lowered by a hydraulic or pneumatic method and the cushion member 121 of the fixing jig 120 is moved up and down by the porous plate 200, The tempered glass G is firmly fixed on the upper surface of the porous plate 200 by pressing the upper surfaces of both ends of the tempered glass G mounted on the upper surface.

5, the rotating body 10 is operated to raise the main body 100 at a predetermined angle, so that the tempered glass G is strongly attracted to the porous plate 200, Is fixed firmly by the fixing jig 120 and stands up at a predetermined angle.

When the tempered glass G raised at an angle determined by the rotating device 10 is cut with a cutting device such as a sandblast, the tempered glass G is cut and dust, media, And some of these dusts, media and fragments are introduced into the suction pipe passage 102 through the through holes 201 of the porous plate 200.

At this time, dust, media, and fragments introduced into the suction pipe 102 enter the vacuum space 111 of the frame 110 through the suction pipe, and the filter 112, which is provided in the vacuum space 111, And is prevented from being introduced into a suction pump (not shown) provided outside through the suction pipe 300.

That is, dust, media, and debris are filtered from the filter 112 to prevent dust, media, and debris from entering the suction pump (not shown), so that the suction pump (not shown) It is prevented from being damaged by the fragments or causing mechanical defects.

The air is forcedly sucked through the through holes 201 of the porous plate 200 by the suction force formed on the first and second vacuum lines 103 and 104 so that the tempered glass G is absorbed while the tempered glass G Is structured so that foreign matter contained in the air to be forcedly sucked is filtered by the filter 112 so that a plurality of suction ports 101 are connected to the suction pipes 102 And the damaged inlet port 101 or the vent hole 201 and the other inlet port 101 or the vent hole 201 are different from each other even if the suction port 101 or the vent hole 201 is damaged or clogged The suction force is formed by the suction pipe 102 so that the suction force generated in the plurality of suction holes 101 is constant due to the formation of the individual suction pipe 102 without being affected by the damaged suction port 101 or the through hole 201, (201) When the porous plate (200) is damaged or clogged, the work Belongs can be re-performed, and the maintenance by a simple replacement of the porous plate 200 is at the same time reducing the cost and ease of replacement.

The present invention is not limited to the above-described embodiments, but may be modified in various ways within the spirit and scope of the present invention as set forth in the appended claims. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10: Rotation device 100:
101: Suction port 102: Suction pipe
103: first vacuum line 104: second vacuum line
110: suction tube frame 111: vacuum space
112: filter 120: fixed jig
121: cushion member 200: porous plate
201: through hole 300: suction pipe
G: tempered glass

Claims

A plurality of suction ports 101 are formed on the upper surface of the suction port 101 so as to be spaced apart from each other by a predetermined distance and the suction port 101 communicates with the suction port 101 and sucks air sucked through the suction port 101 downwardly, A main body 100 having a base 102 formed thereon;
A porous plate 200 tightly fixed to the upper surface of the body 100 and forcing the air through the plurality of through holes 201 formed on the upper surface thereof to fix the tempered glass G mounted on the upper surface; And
A suction pipe 300 provided under the main body 100 and communicating with the suction pipe path 102 to forcibly suck air through the suction pipe path 02;
The display panel adsorption device according to claim 1,
In the main body 100,
A first vacuum line 103 formed on the upper surface of the first vacuum line 103 so as to have a predetermined length in one direction and spaced apart from the first vacuum line 103 by a predetermined distance, Further comprising a second vacuum line (104) connecting the first vacuum line (103) and communicating with the suction port (101) to apply an attraction force to the first vacuum line (103) Panel adsorption device.

The method according to claim 1,
In the main body 100,
A suction duct frame 110 installed to connect between the suction pipe 102 and the suction pipe 300 and forming a vacuum space 111 inside the suction pipe furnace frame 110, Wherein a filter (112) for filtering foreign substances contained in air supplied through the suction pipe path (102) is provided in the space (111).

The method according to claim 1,
In the main body 100,
Further comprising a fixing jig (120) installed at both ends in a staggered structure so as to press and fix both ends of the tempered glass (G) raised and lowered on the upper surface of the porous plate (200) Device.