BENT GLASS SHEET HELD DURING THE COOLING THEREOF

Abstract

A cooling frame for a bent glass sheet, includes a support track for the sheet and a removable bearing piece that is able, in a bearing position and during cooling of the sheet by air blowing, to bear on the top face of the sheet and at the periphery thereof. The bent sheet cooled on the cooling frame maintains contact with the frame during the cooling operation and its shape complies better with that which is desired.

Claims

1. A cooling frame for a bent glass sheet, comprising a support track for the sheet and a removable bearing piece that is configured, in a bearing position and during cooling of said sheet by air blowing, to bear on a top face of the sheet and at the a periphery thereof.

2. The frame as claimed in claim 1, wherein the bearing piece can pass into a separated position by being moved away from the sheet so as not to be located above the latter when seen from above.

3. The frame as claimed in claim 2, wherein the removable bearing piece rotates about a fixed axis in order to pass from the bearing position to the separated position and vice versa.

4. The frame as claimed in claim 1, wherein the bearing piece is removable under the action of a cylinder.

5. The frame as claimed in claim 1, wherein the bearing piece bears on the sheet at one of the corners thereof, and, if need be, at several of the corners thereof.

6. The frame as claimed in claim 1, wherein the bearing piece exerts a pressure in the range from 20 g/cm.sup.2 to 1000 g/cm.sup.2.

7. The frame as claimed in claim 1, wherein the bearing piece bears on an area in the range from 0.2 to 20 cm.sup.2.

8. The frame as claimed in claim 1, wherein the bearing piece bears on the top face of the sheet in a region between the an edge of the glass and three centimeters from the edge of the glass.

9. The frame as claimed in claim 8, wherein the bearing piece bears in a region between the edge of the glass and one centimeter from the edge of the glass on the top face of the sheet.

10. The frame as claimed in claim 1, comprising several bearing pieces, in particular four bearing pieces, each acting on a different location at the periphery of the glass sheet.

11. A device for cooling a bent glass sheet, comprising a cooling frame as claimed in claim 1 and air-blowing boxes that can configured to blow air onto the two main faces of the glass sheet.

12. A method for preparing a bent glass sheet, comprising the thermal bending of the sheet and then the cooling of the sheet by air blowing, wherein the cooling is carried out on the cooling frame as claimed in claim 1, the removable bearing piece bearing on the top face of the sheet and at the periphery thereof during the air blowing operation,

13. The method as claimed in claim 12, wherein, between the moment at which the glass rests on the cooling frame and the moment at which it has solidified, the glass collapses by more than 1 cm.

14. The method as claimed in claim 12, wherein the bearing piece exerts a pressure on the glass sheet that is sufficient for the latter not to come away, locally, from the support track during the air blowing operation.

15. The method as claimed in claim 12, wherein the bearing piece starts to bear on the top face of the sheet and at the periphery thereof before the blowing of cooling air.

16. The method as claimed in claim 23, wherein, for cooling, the cooling frame supporting the glass sheet is positioned between the blowing boxes, and then the blowing boxes blow air onto the main faces of the glass sheet.

17. The method as claimed in claim 16, further comprising bending by pressing against an upper bending mold, then reception of the sheet on the cooling frame, then positioning of the cooling frame carrying the sheet between the blowing boxes, and then cooling of the sheet by air blown by the blowing boxes.

18. The method as claimed in claim 17, wherein the bending by pressing is carried out in an oven at the glass deformation temperature, then the glass is collected in the oven by the cooling frame, then the cooling frame carrying the sheet leaves the oven in order to be positioned between the blowing boxes, and then the sheet is cooled by the air blowing operation,

19. The method as claimed in claim 16, wherein the air pressure in the blowing boxes is between 500 and 4000 mm of water column.

20. The method as claimed in claim 12, wherein the sheet has a main face area greater than 0.8 m.sup.2.

21. The method as claimed in claim 12, wherein the cooling is a thermal semitoughening operation or a thermal toughening operation.

22. The frame as claimed in claim 10, comprising four bearing pieces, each acting on a different location at the periphery of the glass sheet.

23. A method for preparing a bent glass sheet, comprising the thermal bending of the sheet and then the cooling of the sheet by air blowing, wherein the cooling is carried out by the cooling device as claimed in claim 11, the removable bearing piece bearing on the top face of the sheet and at the periphery thereof during the air blowing operation.

24. The method as claimed in claim 13, wherein, between the moment at which the glass rests on the cooling frame and the moment at which it has solidified, the glass collapses by more than 2 cm.

25. The method as claimed in claim 24, wherein, between the moment at which the glass rests on the cooling frame and the moment at which it has solidified, the glass collapses by more than 3 cm.

26. The method as claimed in claim 14, wherein the bearing piece exerts a pressure in the range from 20 g/cm.sup.2 to 1000 g/cm.sup.2.

Description

[0015] FIG. 1 shows the corner of a glass sheet placed on the cooling frame according to the invention, a bearing piece being in a separated position in a) and in a bearing position in b).

[0016] FIG. 2 shows a support track for a cooling frame, each of the four corners of the support track being provided with a bearing piece according to the invention that is actuated by a rotary cylinder, the bearing pieces being in a separated position.

[0017] The invention firstly relates to a cooling frame for a bent glass sheet, comprising a support track for the sheet and a removable bearing piece that is able, in a bearing position, to bear on the top face of the sheet and at the periphery thereof. The support track has a shape corresponding to the final desired shape of the glass sheet. This support track is generally connected to a more rigid structural frame. This structural frame can be positioned under the support track. It can also surround the support track. An adjustment means that is part of the connecting means between the structural frame and the support track makes it possible to act on the shape of the support track by moving points of the support track from the fixed structural frame. The bearing piece can be connected to the support track or to the structural frame. This bearing piece is removable in that it can pass from the bearing position bearing on the sheet to a separated position by being moved away from the sheet so as not to be located above the latter when seen from above. In the separated position, the bearing piece no longer touches the sheet. The bearing piece is thus in the separated position before the glass sheet rests on the support track of the cooling frame and after the glass sheet has been cooled to a sufficient extent such that there is no longer a risk of changing the shape of the sheet. This separated position makes it possible to free up sufficient space above the support track in order to place the sheet on the support track prior to cooling and in order to move away and thus recover the sheet from the cooling frame after cooling. In particular, the glass sheet can be separated from the cooling frame by an operation of blowing air from below that is sufficiently powerful to lift the sheet, or by the sheet being gripped from above by a suction cup gripper.

[0018] In particular, the movement of the bearing piece in order to pass from the bearing position to the separated position can be carried out under the action of a cylinder, in particular a pneumatic cylinder, in particular a rotary pneumatic cylinder. Thus, the removable bearing piece can rotate about a fixed axis in order to pass from the bearing position to the separated position and vice versa.

[0019] The bearing piece is positioned so as to bear at a location of the rim of the glass that lifts in the absence of bearing by the bearing piece. The cooling frame can comprise several bearing pieces, in particular four bearing pieces, that each act on a different location on the periphery of the glass sheet, said location being likely to lift in the absence of a bearing piece. A location in question is often a corner of the sheet, but it may also be located at an indentation in an edge of the sheet. In practice, cooling tests without a bearing piece are carried out beforehand in order to observe the locations at which it is appropriate to equip the cooling frame with bearing pieces, and secondly, for production, the cooling frame is equipped with bearing pieces at the locations that require them. In particular, the bearing piece can bear on the sheet at one of the corners thereof and, if need be, at several of the corners thereof. In the case of a sheet comprising several corners, the cooling frame can be equipped with several bearing pieces, in particular as many bearing pieces as there are corners. Generally, the glass sheet comprises four corners and the cooling frame comprises four bearing pieces for treating each of these corners.

[0020] The bearing piece exerts a pressure on the glass sheet that is sufficient for the latter not to come away, locally (that is to say under the bearing piece), from the support track during cooling. Generally, this pressure is in the range from 20 g/cm.sup.2 to 1000 g/cm.sup.2.

[0021] The bearing piece generally bears on an area in the range from 0.2 to 20 cm.sup.2. This area relates to each bearing piece that is used. If n bearing pieces are used, the total bearing area that is used per sheet is n times 0.2 to 20 cm.sup.2, distributed over n locations. The bearing piece is perforated, i.e. it allows air to pass between different regions of contact between said bearing piece and the glass. To this end, it can have for example the shape of a “hand” with three fingers, as can be seen in FIG. 1. Advantageously, this bearing piece is made of a thin steel plate (for example each finger of the “hand” is a thin steel plate) the elasticity of which makes it possible to soften and meter the pressure exerted on the glass, in particular at the moment of contact. Preferably, the bearing piece is provided with an insert made of refractory fibers for coming into contact with the glass.

[0022] The peripheral region in which the bearing piece bears on the top face of the sheet is generally between the edge of the glass and three centimeters from the edge of the glass. Preferably, bearing is carried out on the top face of the sheet between the edge of the glass and one centimeter from the edge of the glass.

[0023] The invention also relates to a method for cooling a bent glass sheet on a cooling frame by blowing cooling air, the cooling being carried out on the cooling frame according to the invention, the removable bearing piece bearing on the top face of the sheet and at the periphery thereof during the cooling air blowing operation. Preferably, the bearing piece already bears on the sheet before the start of the cooling air blowing operation. The bearing piece bears on the sheet just after the bent sheet has been set down on the track of the cooling frame and preferably already before the start of blowing. The invention is particularly useful for cooling a sheet having a curvature inversion in a given direction on the same face. It is also particularly useful in the case of the cooling of large sheets, in particular in which the area of a main face is greater than 0.8 m.sup.2.

[0024] The cooling carried out on a sheet resting on the cooling frame according to the invention is in particular a thermal semitoughening operation or a thermal toughening operation. In order to carry out a semitoughening or toughening treatment, the air pressure in the blowing boxes is between 500 and 4000 mm of water column, it being understood that the greater the pressure, the greater the hardening effect (that is to say the toughening effect).

[0025] Thus, the invention also relates to a method for manufacturing a bent glass sheet, comprising the thermal bending of the sheet and then the cooling of the sheet by the cooling method on the cooling frame according to the invention. This method can comprise bending by pressing against an upper bending mold, in particular in an oven at the deformation temperature of the glass, in particular a solid bending mold, then reception of the sheet on the cooling frame in the oven, then removal of the cooling frame carrying the sheet from the oven, then positioning of the cooling frame carrying the sheet between blowing boxes, and then blowing of air by the blowing boxes onto the two main faces of the sheet. In particular, the bending by pressing can be carried out by suction against the upper mold, the latter being able to be provided with suction means for keeping the sheet against it. The cooling frame can be positioned under the bending mold holding the sheet against it by suction, and then the stopping of the suction allows the sheet to detach from the upper mold and to be received on the cooling frame. A lower counterpart mold also makes it possible to press the sheet against the upper bending mold.

[0026] FIG. 1 shows the corner of a glass sheet 1 placed on the cooling frame according to the invention. In a), the metal track 2 covered with a knitted fabric 3 made of refractory fibers can be seen, said knitted fabric being held on the track by virtue of protuberances 4. The track comprises through-orifices 5 for increasing access of the cooling air coming from below to the sheet. A bearing piece 6, of the “hand” type comprising three fingers made of thin steel plates, is in the separated position. In b), the same elements can be seen as in a), the bearing piece 6 being in the bearing position. An insert of the fabric or felt type made of refractory fibers (not shown) equips the bearing piece 6 in order to come into contact with the glass.

[0027] FIG. 2 shows a support track 21 of a cooling frame according to the invention. Each of the four corners of the support track 21 is provided with a bearing piece 22, 23, 24, 25 shown in the separated position (as in FIG. 1a)). Each bearing piece is actuated by a rotary pneumatic cylinder 26, 27, 28, 29 for moving each bearing piece from a separated position to a bearing position by simple rotation.