DE10307588A1 - Equipment for cleaning surfaces of rollers raising glass sheet from tin bath of float glass plant comprises spring-loaded rubbing-blocks containing hard ceramics - Google Patents

Abstract

Cleaning blocks (20) are supported against undersides of the lift-out-rollers (10). These comprise hexagonal BN mixed with extremely fine, ground hard materials e.g. SiC, ZrO2, and/or Al2O3.

Description

The invention relates to a device for cleaning the surface of lifting rollers (lift-out rollers) of a float system for producing a floated glass ribbon, the lifting rollers at the end of the float bath pulling the glass ribbon off the surface of the tin bath and transporting it on top. The glass ribbon is pulled off the tin surface of the float bath using 2 or 3 lifting rollers in a lifting box. The glass ribbon therefore carries tin and oxides of tin (SnO, SnO ₂ ) on the underside. When the underside of the glass ribbon comes into contact with the surface of the lifting rollers, the lifting rollers become contaminated with the tin and tin oxides (Dross).

The roll body of the lifting roll is usually made of heat-resistant Steel. Particles of tin and / or tin oxides (Dross) remain as a result of Adhesive forces adhere to the surface of the roll body. It is formed Alloys from the components of the roller body (iron, chrome, nickel) and the adhering tin and / or the tin oxides. This alloy formation occurs the quicker the higher the temperatures in the lift-off box.

Tin adhesion, alloying and oxidation lead to Deposits and local corrosion of the surface of the roll body. This Defects on the surface of the reel body lead to Glass defects such as scratches, roller imprints, micro cracks, etc.

Usually an attempt is made to use these deposits on the reel body Remove wire brushes from the surface of the lifting roller. But this is mostly not very effective. If the glass defects on the bottom of the Glass ribbon must increase due to the contamination of tin and tin oxides the lifting rollers are changed.

An improvement in the quality of the floated glass ribbon can be achieved by Achieved using lifting rollers with a ceramic roller body become. In particular, slip-cast and sintered Fused silica is used. This silica glass ceramic is inert to tin and tin oxides so that no alloying takes place. It also responds the silica glass ceramic does not contain sulfur and sulfur compounds. such Lifting rollers with a roller body made of silica glass ceramic and one continuous roller axis made of heat-resistant steel are from JP 07-069657 A and JP 07-069658 A are known.

As JP 2000-154028 A shows, lifting rollers are also known in which the roll body made of silica glass ceramic has a coating of a inorganic, non-metallic substance.

A disadvantage of the lifting rollers from a ceramic roller body is that low mechanical resistance to cleaning devices (mechanical Brushes, scratches, scrapers, etc.). The surface of such lifting rollers is therefore usually by pressing graphite blocks of adherent External resistance continuously cleaned. The graphite blocks are made by pressed against the lifting rollers below by spring force. The disadvantage of Graphite is the insufficient thermal resistance in oxidizing The atmosphere. The oxidation of carbon begins at 600 ° C. The graphite "Burns". Especially when floating special glasses with a high strain Point temperatures> 700 ° C are required at the lifting rollers. The The service life of the graphite cleaning blocks is very short. The minor Oxidation resistance of the graphite also does not allow the use of "carbon" for the roller body, as proposed in JP 11-302029 A.

It is an object of the invention to a device of the type mentioned create a continuous cleaning of the surface of the lifting rollers allowed, but the roller surface is not mechanically damaged. In addition, it should be ensured that on the roll surface and the bottom no harmful residues are left of the glass ribbon and one Temperature resistance> 600 to 800 ° C is given.

This object is achieved according to the invention in that cleaning blocks are supported on the undersides of the lifting rollers, which consist of a mixture of hexagonal BN with finely ground hard materials, such as SiC, ZrO ₂ and / or Al ₂ O ₃ .

The hexagonal BN (boron nitride) has a graphite structure and is similar in its mechanical and thermal properties of graphite. The maximal The operating temperature of hexagonal BN in air is 1000 ° C. BN counts because of the relatively low hardness (2300 according to Knoop, Vickers hardness approx. 20) Hard materials. Boron nitride (BN) can therefore be the surface of the lifting rollers that are made Stainless steel or silica glass ceramic, do not damage. Because of the If BN is hard, the cleaning effect is less than that of Graphite. A material is therefore required that has the thermal properties of the hexagonal BN and the mechanical properties of graphite.

Such an optimized material for the cleaning blocks has been found with the mixture of hexagonal BN with finely ground hard materials, such as SiC, ZrO ₂ and / or Al ₂ O ₃ .

Depending on the type and proportion of the finely ground hard materials, the Wear resistance of the lifting rollers can be set in a defined manner. The must Wear resistance of the cleaning blocks may be smaller than that of the roller body, however large enough to adequately clean the surface of the reel body to reach.

In order to maintain the cleaning evenly, see a training the invention that the cleaning blocks under tension of a compression spring rest on the underside of the lifting rollers. It can help you achieve a sufficiently large cleaning area can also be provided that the Contact surface of the cleaning blocks on the curved peripheral surface of the Lifting rollers is adjusted.

The structure of the cleaning blocks is advantageously such that they consist of one Graphite body and an insert made of hexagonal BN with the Hard materials consist of the lifting roller facing the graphite body is used.

The insert and base body thus become a cleaning block composed that the use of a tongue and groove connection, in particular Dovetail connection is connected to the graphite base body, the connection being aligned in the axial direction of the lifting rollers.

Since the width of the glass ribbon can be considerably large, Manufacturing reasons provided that several in the axial direction of the lifting rollers Cleaning blocks are arranged side by side.

A particularly suitable mixture for the use of the cleaning blocks consists of 50% by weight of hexagonal BN, 10% by weight of SiC and 40% by weight of ZrO ₂ and is produced by hot pressing or hot isostatic pressing to give a shaped body.

Is provided according to a development of the invention that the Cleaning blocks are supported in a holder by means of compression springs and that the Holder with the cleaning block in vertical position using an actuator Is adjustable and lockable towards the bottom of the lifting roller, then the cleaning blocks can be adjusted accordingly after wear become. The lifting rollers still consist of one on a steel Roller axis made of heat-resistant steel or made of Ceramics, such as slip-cast and sintered silica glass ceramics (fused Silica).

The device according to the invention with cleaning blocks made from a mixture of hexagonal BN with finely ground hard materials, such as SiC, ZrO ₂ and / or Al ₂ O _3, has significant advantages over a cleaning block made from graphite. On the one hand, oxidation resistance up to 1000 ° C and higher wear resistance are achieved. The cleaning effect on the surface of the lifting rollers is improved, but without fear of damage to the surface of the roller body, so that glass defects due to defects in the surface of the roller body can be avoided.

In addition, a thin film forms on the surface of the lifting rollers Materials of the cleaning block, d. H. of use with the new one Material mixture. This film is not wetted by the glass melt and therefore works as a protective layer for the lifting rollers, d. H. whose reel body.

The invention is illustrated by one in the drawing Embodiment explained in more detail. Show it:

Fig. 1 is a partial view, which extends in the region of Ausheberolle over part of the width of the float bath,

Fig. 2 shows a partial longitudinal section through the transition region from the float bath to the lifting device,

Fig. 3 shows a cleaning block with an insert of a material mixture according to the invention, which is connected to a base body made of graphite,

FIGS. 4 and 5 into two twisted by 90 ° views of a composite cleaning block, in which the insert is connected via a dovetail joint to the base body made of graphite.

In the manufacture of float glass using the float process, it is common that Melting, refining and melting glass in a glass melting pan Feeder channel with adjustable setting slides (tweel) over an overflow stone feed the float bath, with the glass melt on top of a Tin bath.

A lifting device with lifting rollers 10 , 10.1 , 10.2 and 10.3 ( FIGS. 1 and 2) adjoins the float bath, which pull the floated glass ribbon off the surface 31 of the tin bath and transport it further over its upper sides. A lifting roller 10 , 10.1 , 10.2 and 10.3 can have a roller axis 11 made of steel, which is set in rotary movements via its ends 12 . The roller axis 11 carries a roller body, consisting of heat-resistant steel, for example made of stainless steel or ceramic, for example slip-cast and sintered silica glass ceramic.

As shown in FIG. 2, the lifting device has three lifting rollers 10.1 , 10.2 and 10.3 , the upper side of which is set over the surface 31 of the tin bath. A cleaning device is arranged below each lifting roller, which consists of a plurality of cleaning blocks 20 lined up in the axial direction of the lifting roller. These cleaning blocks 20 are held under tension on the underside of the lifting rollers 10.1 , 10.2 and 10.3 by means of compression springs 25 in order to obtain a sufficient cleaning effect. The cleaning blocks 20 are fixed in a holder 13 on which the compression springs 25 are supported . The holder 13 with the cleaning blocks 20 can be vertically adjusted and readjusted via an adjusting device 14 , 15 . The cleaned goods can be collected and removed.

In Figs. 1 and 2, only the parts are provided with reference signs, which are for explaining the apparatus of the invention is important. The design and arrangement of the other parts of the float system are carried out in a known manner.

The cleaning block 20 can be composed of a base body 22 made of graphite and an insert 21 made from the new material mixture, as shown in FIG. 3. The insert 21 can be connected to the base body 22 by a tongue and groove connection 23 , the direction of connection (insertion) of which is directed parallel to the roller axis 11 of the lifting roller 10 , 10.1 , 10.2 or 10.3 .

As the two views according to FIGS. 4 and 5 show, the insert 21 can also be connected to the base body 22 via a dovetail connection 24 . In any case, the choice of the connection direction means that the insert 21 cannot detach itself from the base body 22 if the lifting roller 10 , 10.1 , 10.2 or 10.3 exerts a tensile force on the inserts 21 against the direction of the moving glass ribbon.

The entire cleaning block therefore does not need to be made entirely from the new material mixture. A fraction of the total volume is sufficient, as shown by the inserts of the lifting rollers 10.1 , 10.2 and 10.3 facing the undersides of the roller bodies.

The decisive factor in the new device is the choice of material for the inserts 21 of the cleaning blocks 20 . It should also be mentioned that only cleaning blocks 20 of the size and shape of the inserts 21 can be used, which are then produced from the new material mixture. A material mixture of 50% by weight of hexagonal boron nitride (BN) with finely ground hard materials, such as SiC, ZrO ₂ and / or Al ₂ O ₃ , in particular 10% by weight of SiC and 40% by weight of ZrO, has proven particularly suitable ₂ proved, which is hot pressed to a shaped body.

Claims (9)

1. Device for cleaning the surface of lifting rolls (lift-out rolls) of a float system for producing a floated glass band, by means of cleaning blocks, the lifting rolls pulling off the floated glass band at the end of the float bath from the surface of the tin bath and transporting it on top, thereby characterized in that cleaning blocks ( 20 ), which consist of a mixture of hexagonal BN with finely ground hard materials, such as SiC, ZrO ₂ and / or Al ₂ O ₃ , are supported on the undersides of the lifting rollers ( 10 , 10.1 , 10.2 , 10.3 ). 2. Device according to claim 1, characterized in that the cleaning blocks ( 20 ) bear under tension of a compression spring ( 25 ) on the underside of the lifting rollers ( 10 , 10.1 , 10.2 , 10.3 ). 3. Device according to claim 1 or 2, characterized in that the contact surface of the cleaning blocks ( 20 ) to the curved peripheral surface of the lifting rollers ( 10 , 10.1 , 10.2 , 10.3 ) is adapted. 4. Device according to one of claims 1 to 3, characterized in that the cleaning blocks ( 20 ) consist of a graphite base body ( 22 ) and an insert ( 21 ) made of hexagonal BN with the hard materials, which the lifting roller ( 10 , 10.1 , 10.2 , 10.3 ) facing in the graphite body ( 2 ) is used. 5. The device according to claim 4, characterized in that the insert ( 21 ) by means of a tongue and groove connection ( 23 ), in particular dovetail connection ( 24 ) with the graphite base body ( 22 ) is connected, the connection in the axial direction of the lifting rollers ( 10 , 10.1 , 10.2 , 10.3 ) is aligned. 6. Device according to one of claims 1 to 5, characterized in that a plurality of cleaning blocks ( 20 ) are arranged side by side in the axial direction of the lifting rollers ( 10 , 10.1 , 10.2 , 10.3 ). 7. Device according to one of claims 1 to 6, characterized in that the inserts ( 21 ) of the cleaning blocks ( 20 ) from a mixture of 50 wt .-% hexagonal BN, 10 wt .-% SiC and 40 wt .-% ZrO _{2 are manufactured} by hot pressing or hot isostatic pressing. 8. Device according to one of claims 1 to 7, characterized in
that the cleaning blocks ( 20 ) are supported in a holder ( 13 ) by means of compression springs and
that the holder ( 13 ) with the cleaning block ( 20 ) can be adjusted and locked vertically in the direction of the underside of the lifting roller ( 10 , 10.1 , 10.2 , 10.3 ) by means of an adjusting device ( 14 , 15 ). 9. Device according to one of claims 1 to 8, characterized in that the lifting rollers ( 10 , 10.1 , 10.2 , 10.3 ) on a steel roller axis ( 11 ) applied roller body made of heat-resistant steel or ceramic, such as slip-cast and sintered silica glass ceramic ( Fused silica).