CS243323B1 - Nabdrač ákloviny - Google Patents

Abstract

The invention solves the problem of an enamel removal device in the shape of a tube equipped with a head at the end and dosing it into a forming machine. The essence of the invention is that the head /2/ consists of two parts /3, 4/, each of which has the shape of a part of the spherical surface at least on the outside. One part /3/ is connected to the rotating tube /1/ and the other part /4/ is connected to the carrier /5/ which is slidably adjustable in the rotating tube /1/ and connected to the servomotor /7/.

Description

The present invention relates to a ski scoop. comprising a rotatable tube supporting at the end of the head.

There are known devices for removing glass from the melting furnace and feeding it into molds, known as spherical dispensers. The apparatus consists of a movement mechanism and a glass scoop which comprises a rotating bar or tube terminated by a spherical head.

The movement mechanism pushes the scoop into the melting furnace and bends to the glass surface.

While rotating, some of the glass is wrapped on the head when immersed in the glass and, after being removed from the furnace, is moved over the mold, where the rotation is interrupted and the forming glass drop is separated from the head and falls into the mold.

The head generally has the shape of a ball as described and illustrated in France Patent No. 2 070 014 or DAS 29 05 767, or has an egg shape according to DAS 20 31 054.

These scoops require a stable glass temperature and an unchanged glass level in order to be the same. If it is necessary to change the enamel batch size during shaping, change the enamel pickup temperature or replace the warhead. Both are difficult to operate and are associated with loss times, which means reduced production.

These drawbacks are eliminated or substantially reduced by the scoop in the embodiment of the invention, which consists in that the head consists of two parts, each of which at least on the outside has the shape of a part of the spherical surface. One part is connected to the swivel tube and the other part is connected to a support mounted movably adjustable in the swivel tube and connected to the servomotor.

The scoop with the head according to the invention makes it possible to produce batches of molten glass of equal weight even with fluctuations in the molten glass temperature and fluctuations in the molten glass level at the sampling sites. On the other hand, it makes it possible, if necessary, to change the amount of enamel taken up to a considerable extent and, if necessary, to change the shape of the droplet by changing the shape of the parts.

The regulation can be performed from the point of control of the forming machine and mechanize the enamel pickup even in small-batch manual production, where this activity is performed by test glass-scoops whose work requires long-term experience and is physically strenuous and harmful to health.

1 shows a front axle section of a scoop, FIG. 2 shows a scoop position when immersed in glass, FIG. 3 shows a scoop position after emergence from glass, FIG. and FIG. 5 shows the scoop position after droplet separation.

Dipper / fig. 1) forms a rotatable tube 6 connected to a movement mechanism (not shown) and provided at the end with a head 6. The head 2 as a whole consists of two parts 6, 6 having the shape of a part of the spherical surface on the outside.

In the drawing, parts 8, 6 are shown which also have the shape of a part of a spherical surface on the inside, so that each part 8, 4 has the shape of a disc in cross-section. However, another embodiment is also possible, for example with a planar inner surface, so that each part 18 has a canopy-like cross-section or a concave surface so that it has the shape of a moon crescent or the like.

One part 4 of the head 4 is connected to the rotatable tube 1, the other part 4 is connected to the support 4, which is slidably and adjustablely mounted in the rotatable tube 8 by means of a guide sleeve 4. The carrier 6 is connected to a motor 8 operated from the position of the machine operator (not shown).

The scoop works as follows:

A suitable shape of the parts 3, the head 5 is selected and their spacing is adjusted by means of the servomotor 7. The scoop with the preheated head 2 is inserted through the scoop opening into the furnace and is slowly immersed in the molten glass 4 without rotating the head 2.

After filling the lower part of the parts 8, 8, the head 8 starts to rotate slowly / FIG. 2 /. Po naba-!

By dividing the required amount of glass 8, the rotation of the head 6 is accelerated while surfacing f

From enamel £. At the end of the pickup, the speed is accelerated so that. the glass 6 from the head 2 did not flow, and the head 6 moved away from the level of the glass 8 / FIG. 3 /. j

The pick-up head 6 is pulled out of the furnace, moved to the forming machine and tilted above the forming mold 8, whereupon its rotation is interrupted (FIG. 1). 4 /. The molten glass 8 flows from the head 2 to form a drop 10 which is cut off and falls into the mold 6.

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Immediately after the drop 10 has been cut off, the head 6 is again rotated and lifted (FIG. 1). 5) and then moved as quickly as possible into the furnace to cool down at least the remainder of the glass 8 between the parts 6, 6 of the head 6, which is then inclined into the glass 8 and rotated, thereby recharging.

If the temperature of the molten glass 8 or its level changes, the operator of the molding machine by means of a servomotor 6 compensates for this change by adjusting the distance of the parts 8, 8 of the head 5 to dispense droplets 10 of the same weight.

Claims (1)

SUBJECT OF THE INVENTION A glass scoop comprising a rotatable tube bearing at the end of the head, characterized by: The head (2) consists of two parts (3, 4), each of which at least on the outside has the shape of a part of the spherical surface, one part (3) being connected to the rotatable tube (1) and the other part (4). it is connected to a carrier (5) mounted in a rotatable tube (1), which is movably adjustable and connected to a servomotor (7).