DE1771655B2 - GLASS FEEDING DEVICE - Google Patents

Description

The invention relates to a glass feeding device with a housing with an orifice ring, can flow out through the molten glass, the orifice ring having three flow passages having, and with three support pistons within the housing, each in the vicinity of one of the flow passages, each hearing drive piston in the vertical direction is movable to and from the flow passage in the orifice ring.

Glass feeding devices of this type with a driving piston are already known (US Pat. No. 248,204). In this known glass feed device, the driving pistons can be moved in mutually perpendicular horizontal directions, but the space requirement is very large and a very complicated arrangement results. Therefore, this type of glass feeding device is not suitable for whom; ¹ , multiple propulsion pistons should be used.

The invention is based on the object of providing a glass feeding device of the type mentioned at the beginning three or more propulsion pistons and a corresponding number of flow passages to create the requires little effort and is not very complicated and which, moreover, is only so small Has space requirements that the three driving pistons are arranged close to one another in the orifice ring can.

ίο This object is achieved according to the invention by that only the driving jacks arranged at the end with hooves of two adjustment devices in the horizontal Directions are adjustable and that these adjusting devices with a cylindrical holder for the driving piston are connected.

This embodiment is based on the basic idea that such a horizontal determination of the two outer driving pistons is completely sufficient to avoid the flow pattern of molten Controlling glass in a satisfactory and accurate manner.

Because it is not necessary to adjust the middle drive piston in the horizontal direction, there is a much smaller space requirement and the entire glass feeding device becomes essential simplified.

In the case of the glass feeding device according to the invention, it is advantageous if each drive piston is adjustable is connected at its upper end to the closed end of the cylindrical holder.

It is also advantageous if the cylindrical holders have radially outwardly directed flanges, which are held between plates, holes being provided in these plates which have a 1 diameter have, which is substantially larger than the diameter of the drive piston extending through it Plates extend.

This results in a very simple setting option of the individual propulsion pistons.

A further advantageous embodiment results from the fact that the drive pistons are aligned in a row are, with the cylindrical holder for the central drive piston held by the plate to prevent the holder from moving in a horizontal direction.

The invention is explained in more detail below using an exemplary embodiment shown in the drawing.
In the drawing shows

F i g. 1 in a shortened vertical section the upper part of a glass feeding device according to the invention,

F i g. 2 shows a section along the line 2-2 according to FIG. 1,

Fig. 3 is a section along the line 3-3 of Fig. 1,

F i g. 4 shows a part of the glass feeding device according to FIG. 1 when looking at it from the line 4-4 according to Fig. 1.

In the drawings, a generally designated 10 part of a glass feeding device is shown. This glass feeding device 10 comprises an upper wall 12 which has an elliptical opening 13 is provided. The upper wall 12 carries three driving pistons 14, 16, 18, which extend downward through the opening 13 extend.

The drive pistons 14, 16, 18 protrude downward through a tube 20 made of ceramic material. This

Tube is provided at its upper end with a radially outwardly projecting flange, by means of which the "Pipe connected to the associated construction can be so that the. Pipe can be rotated about its longitudinal axis. This construction can for example be designed as described in U.S. Patent 23102yü. The propulsion pistons have such a length that their lower ends each have one of the three openings 17 in the annular gap 15 are adjacent. The driving pistons are vertically adjustable so that you can place them on a yet to be described Way to the associated openings 17 and can move away from these.

The drive pistons 14 and 18 are of the same construction; therefore, only the drive piston is used in the following 14 described. The drive piston 16 is designed in the same way as the drive piston 14, apart from that it is not supported so that it can be moved in a horizontal direction. From Fig. 1 is also it can be seen that the lower end of the central drive piston 16 is concentric with the longitudinal axis of this Driving piston is formed, while the ends of the driving piston 14 and 18 are profiled so that their outer lower ends 14 'and 18' with respect to the longitudinal axis of the drive piston in question radially offset are.

The drive piston 14 protrudes upward into a cylindrical holder 24. One firmly in the propulsion piston 14 built-in pin 26 cooperates with a contactor 28 formed in the cylindrical holder 24. The pin 26, in conjunction with the slot 28, prevents the drive piston 14 from rotating can if it is adjusted in a vertical direction.

Furthermore, a head screw 30 is provided, the lower ground of which is closed at the lower end Threaded hole in the upper end of the drive piston 14 is screwed. The screw 30 carries one Head 34 and is provided with a ring part or collar 32 fastened to the shaft of the screw. The Bund 32 and the head 34 are arranged on opposite sides of a stationary wall 36 which is the upper End of the cylindrical holder 24 closes. If the screw 30 is turned, the relevant Driving piston 14 or 16 or 18 moved in the longitudinal direction without any rotation.

On the top wall 12 is a plate 42, for. B. with the help of screws 13 releasably attached. The plate 42 has three holes 40. Each of the cylindrical holders 24 protrudes through one of the holes 40 of the plate 42. Each The cylindrical holder 24 has a flange 38 projecting radially outward at its lower end. All of the flanges 38 are arranged under the plate 42.

The diameter of the central hole 40 corresponds to the outer diameter of the central one of the three cylindrical holders 24. It is therefore not possible to move the drive piston 16 in a horizontal direction or parallel to the plane of the plate 42. The other two holes 40 have a diameter which is considerably larger than the outer diameter of the associated cylindrical brackets 24, e.g. B. by about 12.5 mm, so the brackets 24 associated with the drive pistons 14 and 18 can be adjusted horizontally. Each of the flanges 38 is supported on a stationary spacer plate 44. The opening 13 is provided with an extension for receiving the spacer plate 44. The spacer plate has openings concentric with the holes 40.

Furthermore, annular components 46 and 48 are provided, which enclose the cylindrical holders 24 assigned to the drive pistons 14 and 18 and can be rotated with respect to these brackets. Each of the components 46 and 48 can Rotate freely with respect to the other component and with respect to the associated holder 24. That annular component 48 has a threaded hole into which the free end of a screw 50 is inserted.

is screwed. The screw 50 carries a fixedly connected to it and at a distance from the head 56 arranged collar 54. The screw 50 protrudes through an eye 58 between the collar 54 and the Head 56 is arranged.

Correspondingly, the component 46 is provided with a threaded hole into which one end of a screw 52 is screwed in, which is similar to how it looks with a collar 60 and a head 62 v "' Fig. 2 shows. The screw J2 protrudes through

jo eye 64, the one between the collar 60 and the head 62 is arranged. If the screws 50 and 52 are adjusted individually or at the same time, it is possible to the flange 38 of the holder 24, which is assigned to the drive piston 14 or the drive piston 18, in each to move any direction, as far as such a movement by the in F i g. 1 shown at 66 Annular gap is allowed. According to Fig. 1 and 3, the space 66 is elliptical Recess on the underside of the plate 42.

Eyes 58 and 64 are integral with plate 42 or are attached to the plate. the The openings of the eyes 58 and 64, through which the screws 50 and 52 protrude, are elliptical Shape with the major axis of the ellipse running horizontally. According to FIG. 4 enables e-; a slot 70 of the eye part 58 to insert the screw 50 into the elliptical opening 55. When the head of a the screw is tightened, the other head must be loosened so that the loosened screw is can move in the associated elliptical opening. When the lower tip 14 'of the power piston is in the desired position with respect to the associated opening 17 has been brought, the heads of the Screws tightened again. The amount of movement the drive piston 14 and 18 in any horizontal direction rarely exceeds the Amount of about 6.5mm in a radial direction when the diameter of each drive piston is about 38mm amounts to. In the following, the plate 42 and

all components supported by it, including the bracket 24 r.ls, are designated as a device, which is supported by the feeding device 10 and makes it possible, e.g. B. the driving piston 14 to adjust the ring 15 to and away from this and

the driving column 14 in any horizontal direction substantially at right angles to his Move longitudinal axis. For the expert it is it is obvious that the top wall 12 forms part of a housing or is supported by a housing is, in which s-ch can be molten glass, and that the molten glass out of the housing flows out through the openings 17 in the ring part 15. The exiting streams of molten glass are divided into so-called items in a known manner with the aid of suitable knives.

The ring part 15 consists of a refractory material. The propulsion pistons can be made of a heat-resistant Material exist, but they are preferred

wisely made of a high temperature withstanding and gas-free metal, z. B. from the below the legally protected designation Inconel 600 material. In the case of wall 12, it takes not to be the top wall of the feeder housing, it can be be a movable plate or partition, which is coupled to a handwheel, which is used to to facilitate simultaneous upward and downward movement of all drive pistons.

1 sheet of drawings

Claims (4)

Patent claims: 1. Glass feeder with a housing with a mouth ring through which molten material Glass can flow out, the orifice ring having three flow passages, and with three drive pistons within the housing each in the vicinity of one of the flow passages, wherein each drive piston vertically towards the flow passage in the orifice ring and is movable away from this, thereby ger indicates that only those at the end arranged driving piston (14 and 18) with the help of two adjustment devices (50, 52) in horizontal Directions are adjustable and that these adjusting devices with a cylindrical Holder (24) for the drive piston (14, 18) are connected. 2. Glass feeding device according to claim 1, characterized in that each driving piston (14, 16, 18) adjustable at its upper end with the closed end of the cylindrical holder (24) is connected. 3. Glass feeding »device according to claim 1, characterized in that d-.ß the 7lindrischen holder (24) have radially outwardly directed flanges (38) which are held between pistes (42, 44) are, wherein holes (40) are provided in these plates (42, 44) which have a diameter have, which is much larger than the diameter of the drive piston (14, 18), which is through these panels extend. 4. Glass feeding device according to claim 1, characterized in that the driving piston (14, 16, 18) are aligned in a row, the cylindrical holder (24) for the central drive piston (16) is retained by the plate (42) to allow movement of the holder in a horizontal direction to prevent.