BE1018739A5 - DEVICE FOR GUIDING BUBBLES PRODUCED UNDER FROZEN GLASS SHEET. - Google Patents

Abstract

Barrier device immersed in a liquid bath of molten tin (3) of a float chamber (R) in which a pasty glass ribbon (2) moves on the surface of the tin bath ; the first face (B) of the barrier device, following the direction of unwinding of the glass ribbon, is not perpendicular to the axis of unwinding (X-X) of the glass ribbon.

Description

DEVICE FOR GUIDING BUBBLES PRODUCED UNDER FROZEN GLASS SHEET.

The present invention relates to a barrier device immersed in a molten tin liquid bath of a floating chamber in which a pasty glass ribbon moves on the surface of the tin bath.

A floating chamber is generally composed of a metal casing containing refractory blocks constituting a bath inside which there is tin kept molten. The level of tin inside this bath is of the order of a hundred millimeters. This thickness is however generally not regular, because the bottom of the bath is generally not flat. Paste glass at approximately 1000 ° C is poured continuously so as to let it float, spread out and obtain the desired thickness before the glass ribbon undergoes the heat treatment of the lehr at the exit of the bath.

The process is continuous in that, from the outlet of the furnace, where the glass flows into the floating chamber, to the cutting line of the glass, there is only one and the same glass ribbon. different temperatures and states.

The properties (temperatures, viscosity, density, ...) of glass and tin are such that, under the usual conditions of production, the glass floats and spreads to a thickness of about 6.0 mm, called natural thickness.

The barrier devices are installed at the bottom of the bath to control the movements of the liquid tin in the bath and create isolated chambers from each other. These devices create a pressure drop preventing or limiting the hot tin from moving to less hot areas. These devices are generally made of carbon. Several interchangeable sections of the barrier device are slid into a dovetail groove cut into the refractory blocks isolating the metal casing of the molten tin bath contained therein; these dovetail grooves make it possible to maintain the dam elements in position and facilitate the removal or the installation of these so-called dam elements. These blocks placed end to end make it possible to create a rectangular parallelepiped outside the refractory blocks of about 50 mm high, 40 mm wide and a length equal to the internal width of the bath (several meters depending on the production capacity of the 'installation). The barrier device is placed perpendicular to the direction of travel of the glass ribbon. The level of residual tin above the barrier device is generally of the order of 10 mm and varies according to the glass ribbon to be produced.

In some contexts, bubbles may form and settle between the surface of the liquid tin and the underside of the glass ribbon. These bubbles may have different origins as a result of the porosity of the blocks, the presence of air under the refractories, the diffusion of H2 in tin; they can be locked to the right of the barrier device depending on the space remaining between the glass ribbon and the upper part of this barrier device.

With the devices used to date, these bubbles can accumulate and thus grow by merging each other to get to lift the ribbon of glass and pass on the other side of the barrier while having left a footprint on the underside of the glass ribbon, this impression is considered a major defect.

The object of the invention is, above all, to avoid or at least reduce the defects created in the glass ribbon by such bubbles.

To solve this problem, the invention provides a barrier device immersed in a molten tin liquid bath of a floating chamber, characterized in that the first face of the barrier device, in the direction of travel of the glass ribbon, is not perpendicular to the scroll axis of the glass ribbon.

Preferably, the barrier device is made of carbon, or ceramic, or any other material compatible with the temperature of molten tin and glass ribbon.

The barrier device can be made in the form of a vertical edge dihedron, with two flat faces inclined in opposite directions, not perpendicular to the axis of travel.

The first face of the barrier device, in the direction of travel of the glass ribbon, can be inclined by about 0.5 ° to 2 ° relative to the plane perpendicular to the scroll axis of the glass ribbon.

The invention also relates to a floating chamber in which a sliver of pasty glass moves, characterized in that it contains a submerged barrier device as defined above.

The invention consists, apart from the above provisions, in a number of other arrangements which will be more explicitly discussed below with reference to exemplary embodiments described with reference to the accompanying drawings, but which are in no way limiting. On these drawings:

Fig. 1 is a schematic top view of a barrier device according to the invention.

Fig. 2 is a vertical section, on a larger scale, along the line II-II of Fig.1, and

Fig. 3 is a vertical section, on a larger scale, along the line III-III of FIG.

Referring to Fig.1, one can see a barrier device 1, according to the invention, having a special profile, to evacuate the bubbles on the edges of the glass ribbon 2 and to prevent them from happening. in the residual space between the barrier device 1 and the glass ribbon 2 leaving an imprint on the underside of the latter.

The barrier device 1 is immersed in a molten tin liquid bath 3 of a floating chamber in which the pasty glass ribbon 2 moves on the surface of the tin bath. The first face B of the barrier device, in the direction of travel F, of the glass ribbon is not perpendicular to the X-X scroll axis of the glass ribbon. This means that all the points of the first face B of the dam admit, in a horizontal plane, a tangent that is not perpendicular to the scroll axis.

Thus no point of the first face B admits, in a horizontal plane, a tangent perpendicular to the scroll axis XX, so that no zone is created near such a point where the bubbles could maintain and not be evacuated to the sides.

The barrier device 1 can be made, as illustrated in FIG. 1, such as a chevron, in the form of a dihedron with a vertical edge, turning its convexity against the direction of travel. The two vertical plane faces B1, B2 of the dihedron are inclined in opposite directions, not perpendicular to the scroll axis F.

The faces of the barrier device 1 allow the lateral evacuation of the bubbles because they are not perpendicular to the direction of travel of the glass ribbon 2. The flow of tin causes the bubbles towards the lateral ends of the barrier device 1 and bubbles emerge on the edge of the glass sheet.

The tip of the chevron, located on the X-X axis in the example shown, is a singular point on which can not accumulate bubbles that will slide on one side or the other.

According to one embodiment of the invention, the barrier device 1 has been made of several carbon sections; these sections may also be ceramic or any other material resistant to operating conditions.

Each section is placed in a dovetail groove. The outer part 4, 4a to the refractory blocks 5 of each section is different in order to obtain, once the set of blocks in place, two secant planes B1, B2 on the scroll axis XX of the glass ribbon and slightly inclined approximately 0.5 ° to 2 ° with respect to the plane perpendicular to the latter.

Claims (5)

A barrier device immersed in a molten tin liquid bath (3) of a floating chamber in which a pasty glass ribbon (2) moves on the surface of the tin bath, characterized in that the first face (B) of the barrier device, in the direction of travel of the glass ribbon, is not perpendicular to the scroll axis (XX) of the glass ribbon, and in that it is made in the form of a dihedron of vertical edge, with two plane faces (B1, B2) inclined in opposite directions, not perpendicular to the axis of scroll (XX). 2. Barrier device according to claim 1, characterized in that the first face (B) of the barrier device, in the direction of travel of the glass ribbon, is inclined by about 0.5 ° to 2 ° relative to the plane perpendicular to scrolling tax (XX) of the glass ribbon. 3. Barrier device according to claim 1 or 2, characterized in that it is made, such a chevron, turning its convexity against the direction of travel. . 4. Barrier device according to any one of claims 1 to 3, characterized in that it is made of several sections, each section being placed in a dovetail groove, the outer portion (4, 4a) of each section being different in order to obtain, once all the blocks are in place, two intersecting planes (B1, B2) on the scroll axis XX of the glass ribbon and slightly inclined by approximately 0.5 ° to 2 ° with respect to the plane perpendicular to the latter. 5. Floating chamber in which moves a pasty glass ribbon (2) characterized in that it contains a dipping device (1) immersed according to any one of claims 1 to 4.