DE2359329C2 - Device for discharging a platified material under pressure from a conveying device through a discharge channel - Google Patents

Description

The invention relates to a device for discharging a plasticized, under the pressure of a Conveying device standing material through a discharge channel, according to the generic term of Claim 1.

Such a device is known from DE-AS 11 74 053.

The invention is used in particular in the production of insulating glass panes, which are made from two or more individual panes of glass are made, each by one along the circumference of the panes of glass arranged frame spaced apart and by a plastic sealant on The edges are glued together tightly. It is known that when sealing such insulating glass panes from im generally rectangular shape the discharge of the sealant after sealing an edge on the Corners of the insulating glass pane are interrupted to allow the pane to seal the subsequent Edge can be rotated.

In the known device, a comparatively large displacement of the discharge nozzle itself is in Axial direction required and it is also necessary to shut down the conveyor for the sealant, as soon as the discharge process is interrupted. Especially in the specified area of application however, a large displacement of the discharge nozzle is undesirable. It is also undesirable for the conveyor shut down as soon as the discharge process is interrupted, because this causes the material to rest comes and is possibly adversely affected.

The object of the invention is to create a device in which the discharge nozzle is only small is displaceable and the conveyor device is not shut down when the discharge process is interrupted needs to be.

This object is achieved according to the invention in that the switching valve and the plunger can be actuated independently of one another and that when the supply of the plasticized material is interrupted in the discharge channel with uninterrupted operation of the conveyor device, the pressurized plasticized material can be returned to the conveyor device through return lines upstream of the switching valve
Preferably the plunger is in further

ίο Formation of the invention by a double-acting Hydraulic servomotor displaceable. The drawings show in

F i g. 1 shows a section through a device for the simultaneous discharge of two strands from the same Plastic material;

FIG. 2 shows a plan view of the device according to FIG. 1;

Fig.3 is an enlarged partial view of something modified embodiment of the discharge nozzle.

The F i g. 1,2 and 3 show discharge devices for simultaneous discharge of two strands of plastic each between the two outer discs and the middle pane in the manufacture of triple glazing.

The plastic is circulated to a discharge nozzle 1 with the aid of a conveying device (not shown) fed to which the discharge device is connected upstream. The plastic flows in through channel 2, from where it passes through the line 6 to the discharge nozzle 1 or through the return line 5 in the return line 3 to the conveyor, depending on the position of the Switching valve needle 4 is passed, which can close the line 5 or 6. The switching valve needle 4 is of actuated a piston 7 which can be acted upon on both sides and which is movably arranged in a cylinder 8 and is actuated by compressed air from lines 9 and 10.

A cylinder 12 branches off from the delivery channel 11, in which a plunger 13 which is actuated by a piston 14 can move. The piston 14 is also a piston that can be acted upon on both sides and can be pressurized through the openings 16 and 15 is blown back and forth.

The discharge nozzle 1 is movable in its seat 17, so that it under the pressure of the in the glazing 18 Material to be introduced extends and presses against the edges of the glass pane. She is in hers Movement is restricted by two projections 19 which engage in a recess 20.

If the switching valve needle 4 is in the position shown in FIG. 1 position shown, the plastic flows through the lines 6 and 26 and the discharge channel 11 to the discharge nozzle 1. The piston 14 is located here

due to the compressed air introduced through the opening 16 in its front position, which is shown in FIG. 1 The air pressure is slightly higher than the pressure of the plastic so that the piston 14 does not is pushed back by the plastic.

If the discharge process is to be interrupted, then the pressurization through the lines 9 and 10 swapped. The switching valve needle 4 actuated by the piston 7 now closes the line 26, by resting against the recess 21 in a seat 22 made, for example, of polytetrafluoroethylene consists. At the same time, the pressurization through lines 15 and 16 is reversed and the Piston 14 releases the plunger 13, its

Return movement results in a pressure reduction in the discharge channel 11. This pressure reduction automatically eliminates the overpressure present in the delivery channel 11 and consequently interrupts the Discharge process at the discharge nozzle 1. The pressure reduction by means of a plunger has the advantage that the plastic is not with the Outside air comes into contact, which is undesirable Could bring about change in the polymerization conditions.

As can be seen from the drawing, the glazing 18 is a triple glazing and the The head of the discharge nozzle 1 has two discharge openings 27, each of which allows one discharge at the same time Intermediate web on the circumference of the spaces allows the middle pane of glazing 18 of the two Separate outer panes. In the embodiment described, the head of the discharge nozzle 1 can only be in Shift the direction of the nozzle axis in the seat 17. It can therefore not misalign the edges of the Correct three panes of glass on the triple glazing 18. This is made possible with a discharge nozzle, at which the discharge head not only as shown in FIG. 1 is axially movable, but also with respect to the nozzle axis can be tilted. In Fig. 3 are for the already in connection with F i g. 1 elements described the Retained reference numbers, but additionally provided with the index a.

In this embodiment, the head 1 a of the discharge nozzle is via an elastic intermediate disk 31 stored, which is held by a screw 32 in place

The discharge nozzle itself is screwed to a support element 33 in such a way that it squeezes the intermediate disk 31 Since a game is provided between the discharge head 34, the retaining screw 32 and the head la, the head la can be tilted slightly to avoid misalignment of the glass panes 18a with respect to one another balance. Such a position is indicated by dashed lines in the drawing at 25

The discharge material flowing in through the discharge channel 11a flows through the screw 32 and presses on the inside of the head la, as a result of which it is displaced outwards and fits exactly the edge of the glass panes 18a applies

As soon as the pressure subsides, the head la is through the intermediate disk 31 in its starting position brought back.

In the two embodiments just described, the plunger 13 or 13a is displaced along the axis of the feed line for the plastic into the discharge nozzle 1. This arrangement is special advantageous, because the effect of the plunger 13,13a is transferred due to the small distance from the Discharge nozzle 1 fully and quickly on the material that has accumulated in this. In addition, the Movement of the piston 14 takes place in front of the switching valve needle 4.

1 sheet of drawings

Claims (2)

Patent claims: 1. Device for discharging a plasticized, under the pressure of a conveyor standing material through a discharge channel, with a switching valve for interrupting the supply of the plasticized material into the discharge channel and with a device for generating a negative pressure in the plasticized material contained in the discharge channel, which has a cylinder which is arranged between the switching valve and the discharge channel and is connected to the discharge channel, and a plunger which can be displaced therein, characterized in that,
that the switching valve (4, 7, 21, 22) and the plunger piston (13) can be actuated independently of one another and that when the supply of the plasticized material is interrupted in the discharge channel (11) uninterrupted operation of the conveyor before the pressurized plasticized material the switching valve (4, 7,21,22) through return lines (3.5) is traceable to the conveyor 2. Device according to claim 1, characterized in that the plunger (13) through a double-acting pressure medium servomotor (14_ 16) is displaceable