DE1916082C - Electrolytic process for changing the surface properties of moving flat glass through material migration from a molten body - Google Patents

Description

The Erlindimg refers to an electrolytic Temptation to change animal hips of moving escape gas through material migration, it is called a stationary molten body that supports an electrode, the immigrant Material gives off at one next to the glass surface Belindlichen holder held wirtl by sticking, in a limited area with the glass surface is in contact and is electrically isolated from the electrode by the glass.

Material from the molten body may appear on the treated glass surface, which has evaporated from the molten body and subsequently condensed on the treated glass surface. Furthermore, it is possible that particles from the molten body adhering to the glass surface are carried along by the latter. These contaminants can prevent a haze in the treated glass surface.

The invention is based on the task of these to remove unwanted contamination of the treated glass surface.

This object is achieved according to the invention in that an electroless stationary molten Body is subordinated to the first molten body in the direction of movement and on the glass surface Particles deposited from the first body oiler condensed vapors on it absorbed.

The currentless molten body does not have to necessarily consist of the same material like animal's first solid body, but it is preferable to have a single body for both bodies. ean material to use, if it is predominantly stupid, a condensate from the treated glass surface to remove.

In the drawing, an embodiment of a device according to the F.rfmdung is shown. In the Drawing is

Fig. I a partial central longitudinal section through a flat glass device and

F i g. 2 is a plan view of FIG. 1 with the hood removed.

In tier drawing are tlie in the following description mentioned reference numerals are indicated by a border.

Melt is carried out from a forehearth 1 of a continuously operated glass melting furnace Glass of a bath 10 of molten metal located in a container 6! zugcspcist and on this a glass hand JO formed, which solidifies sufficiently on the resulting ties lladbch.ilters 6 by driven Aiistiagswal / s IK discharged from the 'bath and is fed to a conventional cooling furnace.

In order to change the surface properties of the glass ribbon, a molten body is held in contact with the upper surface of the glass, from which material immigration into the glass surface takes place under the uneven thermal conditions.

As the F i g. 1 and 2 show, a holder 31 made of copper is placed just above the upper surface of the glass ribbon in an area of the bath tank where the temperature of the advancing glass ribbon is cooled to 700 to KOO "C. Fin Spall of, for example, 3/4 to 4 mm / wipe the lower surface of the holder Jl and the l) e \>. igimgshahn the upper surface of the Glasbaiides 30 aiifreclileihallen, for which the holder 31 is attached to a support 32, which extends through the space 25 above the bath between the rope walls of the bath container The carrier 32 is electrically insulated from the bath container and supports the holder 31, which is electrically connected to a power source via the carrier 32. Additional adjustment devices, not shown, can be used to precisely align the holder 3! cause the upper surface of the glass ribbon that at

ίο Use of the holder 31 as an anode electrical must be isolated.

A molten body 33 is adhered to the holder 31 from a Legienng of copper and lead, for example, from ^(.> K "/ u lead and 2VU copper, and is held in the glass Federal between the lower surface of the holder 31 and the upper surface, so that the molten body is in constant intimate contact with the upper normal of the glass ribbon

so the Haller 31 secures its position in relation to the glass ribbon and prevents it from being carried along by the advancing glass ribbon. An electric current becomes passed through the molten body 33 to the bath metal in order to use electrolytic action to

a5 migration of the material into the glass surface cause. For this purpose, a two electrode 34 dips into the bath metal next to the movement path of the glass ribbon near one end of the holder 31 and is followed by a side wall of the bath tank out to be connected to the power source.

The electrical connections are chosen so that the holder 31 as the anode of the electronic Circle acts from the holder 31, the gesehmolzenen Body 33, the glass ribbon 30 and the bath metal existi. The current in this electrolytic Kreis ensures a controlled migration of ions from the alloy of the molten body into the upper surface of the glass ribbon, creating a

<o correct change in the surface properties of the Glass is achieved.

The current passed through the glass ribbon is applied to the speed of movement of the glass ribbon matched so that the migration of ions into the glass ribbon can be controlled very precisely to achieve a perfect change in properties.

When using an alloy of 98% lead and 2% copper for the molten body 33, at the treatment temperature of about 750 "C, vapor formation of the lead results in the space above the bath, and it has been found that these vapors are on the To remove such deposits, an electroless, stationary, molten body 36 of a copper-lead alloy is in wiping contact with the treated glass surface in one Distance is provided downstream of the molten body 33. For this purpose, a second holder 37, for example made of refractory material or copper, is arranged on a support 38 via attachments 38 above the glass surface at the same distance as the holder 31, i.e. about 3 to 4 mm, and although at a distance between 2.5 and 5 m downstream of the holder Jl. In this area, the glass has a Tem temperature of 700 "C, and the melted le-

I 916

The alloy consists of ¹ J ¹ J ¹ Vn Hlei and I ¹ Vu copper. The glass ribbon is normally discharged from the bud at a temperature of about <δ () "C, and the distance between the halls 31 and 37 is therefore dependent on the temperature gradient in the downstream part of the bath container.

The adhesion of the molten body 36 to the holder 37 ^ 'währleislel its fixed position for Glass ribbon. Ks makes intimate contact with the treated upper surface of the glass ribbon, see above there are precipitated constituents, such as uli, or small particles of the alloy that result from the Bodies 33 have been accidentally carried away by the glass ribbon, by the molten body 36 are absorbed or dissolved and thereby the upper surface of the treated cilasbandcs is cleaned before it is discharged from your bath container. At the lower temperature in the area of the flalter 37 and the molten body 36 there is no risk of vapor formation from the ao molten body 36.

It was also found that wiping the treated glass surface, for example was treated with copper, with the molten metal body 36 the coloring of the glass in the following treatment of the glass protects, in the case of atmospheric oxygen, for example when annealing or hardening the glass, with the glass surface comes into contact.

In other embodiments of the invention, flat glass can be supported on a roller conveyor and moved forward while the two molten bodies against the top surface des Giases are kept in plant. Another molten body of electrically conductive material can be between two of the rollers of the conveyor so ingcOiJnct that an electric current with enters the lower surface of the glass opposite to the first molten body 33. The electric one Current then flows between the opposing upper and lower molten ones Bodies through the glass and causes the desired modification of the surface properties of the glass.

The lower surface of the glass can be modified the surface properties are treated by a first molten body, the is arranged between rollers of the conveyor, with a molten body for wiping off the lic acted surface is arranged between other rollers of the conveyor isl.

Against the upper surface of the glass there is a molten one Body on the opposite side of the first body held in contact so that the current from the first molten body enters the lower surface of the glass.

Furthermore, the hot glass body can be held in place his while he is being treated, and the ge schinolzene bodies can just as well as (! he body, you Wiping the treated surface in a Kamniei be disordered, which is movable in relation to the glass, causing the molten bodies one after the other be brought into contact with different areas of the glass surface.

The movement of the chamber with the two j! C melted Bodies in relation to the glass can be done, for example, by Dreher, which during the treatment of the glass surface will.

FJn molten body to wipe the treated surface can also, between two molten Bodies of various metals are arranged that are in contact with the surface of the glass Maintained contact, causing two changes in the surface inclination diameters in succession, so that the glass surface is cleaned before the second treatment.

Claims (1)

Palent claim: Electrolytic process for changing the surface properties of moving flat glass by material immigration, in which a stationary molten body forming an electrode forms, the immigrating material gives off and on one located next to the glass surface Holder is held by sticking in a limited area with the glass surface stands in contact and dvirch the glass against them second electrode is electrically isolated, characterized in that a currentless stationary molten body the first molten body in the moving direction is downstream and deposited on the glass surface from the first body Particles or vapors condensed on them absorbed. In addition 1 Rlatt drawings