SU1350120A1 - Device for separating glass sheets - Google Patents

Abstract

The invention relates to the glass industry and can be used in the processing of sheet glass, for example, in mechanized flow lines for complex processing of sheet glass. The aim of the invention is to increase productivity by combining fracture and dilution operations. The device comprises a frame 4 with a guide 12 on which the carriages 13 with vacuum suction cups 17 are mounted. The carriages 13 are mounted with the possibility of reciprocating movement along the guide. Each vacuum m-sucker is connected to the carriage and mounted on it with the possibility of fixed movement. The air supply is regulated by a pneumatic distributor mounted on each vacuum suction cup. The device saves production space, reduces processing time and increases productivity. 4 il. with (O (L with No. in 6 6 J 7 5 oo ate ND O m X / 27 FIG. 1 I 26

Description

The invention relates to the stent industry and can be used in processing sheet glass, for example, in mechanized flow lines for complex processing of sheet glass.

The purpose of the invention is to increase productivity by combining fracture and dilution operations.

FIG. 1 shows the device, a general view; FIG. 2 shows a carriage with a vacuum suction cup; via fig. 3 - the same, in plan view; in fig. 4 shows a pneumatic diagram of the lifting mechanism.

The device includes a guide which moves along beam 2. The lift-lowering mechanism 3 is rigidly fixed to the guide 1. The guide 1 contains a common frame 4 on which the ball guides 5 are mounted, the vacuum system, pneumatic system, two pneumatic cylinders 6 lifting and pneumatic supports 7, the rods of which are rigidly connected by a frame 8.

Air is supplied to the pneumatic cylinders 6 by means of the pneumatic distributor 9 and to the pneumatic cylinder 7 via the reducing valve 10 and the safety valve 11.

In the rod cavities of the pneumatic cylinders 6, air is supplied under pressure existing in the factory pneumatic circuits x, i.e. 0.4 MPa. In the rod cavity of the pneumatic cylinder 7 to eliminate the crushing of the sheet of glass by the force of the frame 8, when the frame is lowered, pressure, adjustable and installed by the reducing 10 and safety valve 1, is constantly applied to the glass. The pressure is regulated in such a way that the glass sheet perceives the minimum force when the frame 8 is lowered, but it also would not prevent the frame 8 from lowering when the air supply to the rod end of the pneumatic cylinders 6 is stopped.

Structurally, a pressure of 0.15 MPa and a sheet of glass is applied to the rod cavity of the pneumatic cylinder 7 and, with a blank frame 8 of the guide 1, it perceives a gravity pressure wounding 10 kg. The frame 8 has guides 12, which are spread out in parallel, the planes of the glass, along which the carriages 13 move. The latter are interconnected and make a return by picking the needle. To: K: ni. pc.rif uir.HHH in terms of 2 using pnmopi.chindroi 14. The carriage 13 is thinner, and it is equipped with a welded frame 5 on which is mounted a support for 16 rolling, vacuum

suction cups

guides 18 and 19.

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The vacuum pump 17 is connected with the carriage igarnirno through the axis 20 of rotation and the ability to move along the guide 18, which in turn can move along the guides 19. Moving to the cupper 17 along the guide 18 and fixing them in position with screws 21, and the guide 18 along the guides 19 and the fixing screws 22, the vacuum suckers 17 can be installed in the position necessary to obtain any size of flat glass. Depending on the breakable glass sizes, the distributors 23 can turn off both the individual vacuum pumps and all the vacuum pumps of the carriages that are not involved in the gripping and breaking of the glass sheet.

If necessary, breaking the glass sheet into large sizes, support pneumatic cylinders 24 are introduced into the operation of the device.

The incised glass sheet 25 is fed to the board 26 cutting table. Broken glass formats are placed on the receiving roller table 27 in the foot 28. It is convenient to process a glass sheet with a maximum size of 2x3 meters and break it into five or less parts. The device works in automatic mode.

The device works as follows.

The glass sheet 25 cut into formats is fed to table 26, after which the command is given to trigger the pneumatic distributor 9 of the lifting and lowering mechanism 3. By means of pneumatic distributor1 9 into the schtokovye cavities of the pneumatic cylinders 6, the air supply under pressure is stopped. The rod cavity of the pneumatic cylinders 6 begins to be displaced, and the pneumatic cylinder 7 that is in the rod cavity shrinks, causing an increase in the pressure of the regulated and maintained reducer 1 underwear 11 valves. The excess pressure opens the safety valve 11, the air is released, and the frame 8 begins to descend smoothly. When the vacuum inlays 17 reach the plane of the glass, the force of gravity of the frame 8 stops, the safety valve 1 closes, the frame 8 stops, pressing on the glass with the minimum force. The remaining weight of the frame 8 is held by the pneumatic cylinder 7, into the rod cavity of which air is constantly supplied under pressure. The vacuum pump 17 is connected to the vacuum system, and the glass sets. After a sufficient vacuum has been established, by the command of the electrocontact vacuum gauge, the pneumatic distributor 9 is activated, air is supplied to the gatoc strips of the pneumatic cylinders 6 under pressure, and the frame 8 with a sheet of glass rises up. When the upper position sensor is triggered, the guide 1 moves along the beam 2 and transports a sheet of glass to the laying position. Here, by means of pneumatic cylinders 14, the carriages 13 are moved apart, as a result of which the Vacuum suction device tilts due to the rotation axes 20 present. A bending force is created, which is necessary and sufficient to break the glass sheet into formats, the glass sheet breaks along the cut lines. After the sheet breaks, a command is issued to actuate the pneumatic distributor 9 and the frame 8 with diluted formats smoothly goes down. The operation and mechanism of the smooth lowering of the frame are described earlier. Upon reaching the formats

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the glass of the plane of the roller table 27 or the surface of the assembled feet 28 is given a command to develop the evacuation, the cavities of the vacuum pumps 17 are disconnected from the vacuum network and air is fed into them. After the glasses are detached, the frame 8 rises up, the carriages 13 roof. T, the guide 1 returns to

Q is the starting position, above the table 26, where the next notched sheet 25 of glass is fed.

A device for dividing glass sheets allows breaking the operation of glass into formats 5, diluting the formats, transporting and stacking the formats in the feet. This saves production space, reduces processing time.

2Q glass, thereby increasing labor productivity, reducing the metal intensity of equipment for complex processing of sheet glass.

Claims (1)

Invention Formula A device for separating glass sheets, comprising a frame with a guide, on which is mounted with the possibility of reciprocating movement of the carriage with vacuum suction cups, characterized in that, in order to increase productivity by combining the fracturing and diluting operations, each The vacuum suction device is equipped with a pneumatic defroster, pivotally connected to the carriage and installed on it with the possibility of fixed movement. 77 FIG. g Fig.Z Editor N.Lazarenko Compiled by N. Borisov Tehred A. Kravchuk Order 5224/21 Circulation 428 Subscription BHPfflTlH of the USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, ul.P11oztery, 4 0 srigM Proof-reader I.Erdeyi