DE1138192B - Method and device for splitting glass sheets - Google Patents

Description

The invention relates to the splitting of a sheet of glass, i.e. the splitting of the sheet into a central one Plane parallel to the outer surfaces, resulting in two leaves with the same outline like the hand you started from, with each of the two newly won hands having one has an average thickness equal to half the thickness of the original sheet.

A method for splitting has already been described, in which the glass sheet to be split is attached to its edges have initial gaps that are equidistant from the outer surfaces, in an electric furnace is inserted and, after a corresponding heating time, in the vertical direction is pulled out of the oven and passes between two solid blowguns holding the sheet cool symmetrically.

However, this method has the following disadvantage: Since the glass sheet is introduced into the electric furnace cold it creates convection currents that make it possible to obtain a suitable one for splitting Making temperature distribution through the entire length and thickness of the sheet difficult.

Another disadvantage of the process is the excessive splitting "stries" caused by the vibrations to which the sheet is exposed as it passes between the blowpipes.

The subject of the invention is a cleavage process which avoids these disadvantages.

The method according to this invention consists mainly in the glass sheet to be cleaved, the edge of which has the usual initial gaps to be held in a vertical position, then two groups electrically heated horizontal radiant heaters, which are arranged symmetrically to the glass sheet, in front of the To guide outer surfaces of this glass sheet in the vertical direction from top to bottom. After that will be the glass sheet surfaces are symmetrically blown with air coming from one or more pairs of horizontal blowpipes, which move from top to bottom at the same speed as the radiant heaters, flows, whereby the sheet is heated successively by the heat radiators and by the blowers is cooled. In this process, the glass sheet to be split is mainly through Thermal radiation is heated, and thus the irregularities of heating due to convection currents switched off.

On the other hand, vibrations no longer occur in the retained glass sheet, as in that moving glass sheet was the case.

Method and device
for splitting glass sheets

Applicant:
Glaces de Boussois, Paris

Representative: Dr. F. Zumstein,

Dipl.-Chem. Dr. rer. nat. E. Assmann

and DipL-Chem. Dr. R. Koenigsberger,

Patent Attorneys, Munich 2, Bräuhausstr. 4th

Claimed priority:
France of September 8, 1959 (No. 804 603)

Bernard Long, Paris,
has been named as the inventor

The above method has the following additional advantages: One can by gradually reducing the speed with which the heat radiators are moved past the glass sheet, the effect compensate for the lowering of the temperature of the radiant heaters on the glass sheet brings.

The fact that the glass sheet is heated mainly by thermal radiation and thus the undesirable Avoids convection currents, enables a precise transverse distribution of the temperature, especially if you choose the heat radiator in a length that is the width of the glass sheet to be cleaved is equivalent to.

The radiant heaters consist of special metal resistors, such as B. made of nickel-chromium alloys, Iron-chromium-aluminum alloys, etc., or made of silicon carbide and generally have the shape of rods or tubes.

These heat radiators are arranged symmetrically to the glass sheet to be cleaved, namely in for it created recesses in two walls made of refractory materials and facing outwards are insulated against heat loss.

The casing of the whole thing is housed in a metal frame and as a small, light oven educated. In the middle of the furnace there is a heating room that encloses the glass sheet and with it the furnace is guided vertically from top to bottom. The blowpipes are in the upper part of the furnace frame housed. In general, a single

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umpteen pairs of blowpipes to split the glass sheet emitters of the furnace are turned on, and if to trigger and continue, but in some of the oven has reached the predetermined temperature, Cases - especially when the glass sheet to be split is moved downwards in the direction of the arrow, is very high - it is more advantageous to have several blowpipes when the upper part of the glass sheet to be cleaved

to be attached one above the other. 5 is opposite the lower part of the blower,

When using a single pair of blowguns, the blowguns are allowed to operate; these If this is preferably over a certain distance, it then causes the formation of a cleavage front, attached to the top of the furnace, d. H. so that the glass sheet from top to bottom with the same the blowpipes run through only a certain, not to be neglected, speed with which the frame moves Sending period of time after completion of the heating io moved.

the glass surface through the radiant heaters to the effect The split is complete when the upper part

come. the blower opposite the lower side of the

When using several pairs of blown glass sheet 1 arrives.

tubes, the lowermost pair is closer to the furnace frame. Each of the furnace halves 8 generally contains

attached as if you had just a single pair of 15 multiple radiant heaters that are electrically heated Blowpipes used; and in the case of several pairs of will.

Each individual pair brings a smaller blowpipe. Each blower generally comprises several

Cooling off as a pair of blowguns, the only pairs of blowguns. If you have a single be used. Pair of blowguns is used, this pair is preferred

The strength of the blowing can be varied in the course of the gap at a certain height above the furnace process, if this is necessary, because it should be better, especially when it comes to _a ) _e j _{n re} i _a tive strong bubbles only acted after the speed of the progress of the know time of cooling in the open air

To carry out the cleavage front as a function of the displacement,

regulate the speed of the oven. 25 b) to avoid that some of the

The vertical downward movement of the oven and the leaf blown air cools the oven.

Blowpipes is controlled so that only a minimum I _n Fig. 2 is the device in a schematic manner

caused by friction and vibration. The movement _t ung shown that the downward and Aufwärtsbegungsgeschwindigkeit the furnace frame as accurately as controls movement of the frame 10 which carries the Heizofennur possible between several millimeters and several 30 centers 8 and the tuyeres. 11 To Zentrmetern per second regulate, _e is Dj movement of the frame is carried out

The frame weight is balanced by counterweights with the help of the horizontal winch 15 through the rope. 16 _a d _as an extension of the united ropes 17

For a better understanding of the invention is _un d lg. These ropes run over rollers 19 in the following a practical example of application be 35 or 20 and then written together on roller 21, which is shown in the drawing. It j _n its downward movement as well as its

shows upward movement, the frame 10 is through a

Fig. 1 is a cleavage device according to the inven- device of a known type performed in the dung in the cross-section, drawing to make this easier, not with

FIG. 2 shows the cross section along the line H-II of FIG.

in Fig. 1 shown cleavage device, I _n pig. 3 j _st the heating chamber 7 of the oven half 8

Fig. 3 in the transverse profile of a furnace according to the invention limited by the inner walls of the casing dung, the four pairs of radiant heaters and a pair of blowers 22 made of heat-insulating, refractory bricks has pipes. exists and is bordered by the frame 10. These

The glass sheet 1 to be split is held by the frame 45 heating chamber contains four resistors 23 made of SiIimen 2 enclosed, the one lower, horizontal Ziumkarbid, whose outer surface in the cylindrical Has bar 3, on which the glass sheet rests, as well as a channel 24, which in the side walls of the Ummanteoberes, horizontal cross piece 4, which the upper lung 22 are let in, rests. Edge of the glass sheet slightly touched, but without the blower device comprises two blowpipes, the

the edge to rest. 50 rest on the supports 25. These blowguns are

The support 5 of the frame 2 is in the heavy through the metal pipes 26 and the rubber base 6, which ensures their stability, let in. hoses 27 fed with compressed air.

The heat radiators are on the heating chambers 7 In Fig. 3, the glass sheet 1 is in the course of

of the two oven halves 8, which are symmetrically cleaving each other in the fixed, vertical position opposite, distributed and bounding between them 55 shown, which he after verdening according to the invention Heating channel 9. driving is assigned.

The heating furnace made by the union of the two arrows show the vertical downward movement

Oven halves 8 is formed, rests in the interior of the frame 10.

stells 10 which slowly moves up and down, the upper part from the glass sheet is already gekann, wherein the speed is adjustable. 60 split what can be easily separated. Two groups of blowpipes 11 are attached in the upper spread of the two parts of the frame created by the split; can recognize the weight of the halves of the blade.

mens is made up of two counterweights 12. The zone bc is subject to the after heating

resembled that hang on ropes 14, the effective cooling via rollers 13, which gradually led to the are. 65 causes the gap to widen.

The operation is as follows: The zone cd, which has just been heated, becomes

Frame 10 is slightly cooled in the open air over the glass sheet to be split before it is attached Brought in Fig. 1 position shown. The heat bubbles will.

The zone de is just being heated in the heating channel 9. The lower part / will soon be enclosed by the heating duct.

Claims (10)

PATENT CLAIMS: 1. A method for splitting a glass sheet in a plane lying parallel to the surfaces of the glass sheet, characterized in that the glass sheet, on which an initial jump has been attached in a known manner, is held in a vertical position and that the glass sheet in a limited zone heated on both sides and this zone slowly shifted from top to bottom and that the glass sheet is then also cooled on both sides a predetermined time after heating within a further delimited zone and is shifted from top to bottom at the same speed as the heating zone. 2. The method according to claim 1, characterized in that the heating of the delimited Zone of the glass sheet is carried out by thermal radiation. 3. The method according to claim 1 or 2, characterized in that the cooling by blowing the surface of the glass sheet is carried out by means of a cooling gas. 4. The method according to claim 1 to 3, characterized in that the speed of the Splitting process by appropriate measurement of the amount and flow velocity of the gaseous cooling medium is regulated. 5. The method according to claim 1 to 4, characterized in that the speed with which is guided down the heating zone, is regulated so that a uniform Cleavage of the glass sheet is achieved. 6. Apparatus for performing the method according to claim 1 to 5, characterized through a frame (2) for holding the glass sheet (1), through on both sides of the glass sheet arranged heating elements and by arranged above these heating elements blowpipes (11) and by means of regulating the speed of the downward movement of the heating elements and blowguns. 7. Apparatus according to claim 6, characterized in that for regulating the speed a winch (15) is used for the downward movement of the heating elements and blowpipes, which is driven by a motor with adjustable speed and its rope via deflection frame is connected to the frame (10) for the heating elements and the blowpipes, the weight of which is balanced by a counterweight (12) will. 8. Apparatus according to claim 6 or 7, characterized in that the heating elements for the vertical movement are mounted in slide rails. 9. Apparatus according to claim 6 to 8, characterized in that resistors as heating elements (23) made of nickel-chromium alloys, iron-chromium-aluminum alloys or silicon carbide which are in the form of rods or tubes can be used. 10. Apparatus according to claim 6 to 9, characterized in that the cooling device consists of one or more pairs of blowpipes (11). 1 sheet of drawings © 209 677/92 10.62