DE1596685C - Glass piston ejector for a tape machine - Google Patents

Description

3 4

Ejection of the levers 17 formed below the glass ribbon are at their angular part on the pane

Glass bulb hinged in the manner described below 16, close to the adjacent

he follows. Disc circumference. At the inner end of each L-shaped

As the glass ribbon moves forward, a roller 18 is attached to the lever, which presses against the shaped pistons one after the other of the ejector 5 peripheral surface of a fixed cam disk 19,

device fed at high speed and then which is coaxial with the disc 16 is loaded, namely

knocked down by this device. Because with the help of a spring 20, which is attached between a pin

however, the plunger of the ejector such the lower surface of the disc 16 and the lever 17

is attached that it is clamped at an angle with the feed. An arm 21 is with the outer end

Direction of the glass ribbon includes, those on each lever are connected and carries a hammer head

the above-mentioned way of separated glass from the tape 22 made of heat-resistant, elastic material, both

Pistons in one direction out of the machine, for example made of carbon or the like.

meet which corresponds to the direction of the angle of reflection A sector wheel 23 with a concentric to shaft 10

is equivalent to. So if for example the surface is Irish part of a worm wheel at the top

of the ram an angle of 45 ° with the feed 15 gear box 11 attached, the sector wheel with

Direction of the belt includes, the glass a worm wheel 24 is in mesh, which is parallel

piston ejected at an angle of 90 °. to the horizontal shaft 9 runs. It is understandable,

In such a device, the impact causes the fixed cam 19 to be arranged

the piston on the plunger is often damaged by the fact that the one passing through its crest 19 α

and a rupture of the piston. Furthermore, the radius takes under the line of movement of the glass ribbon

the force of the impact with the speed of rotation intersects an angle of 90 °,

speed of the machine or the manufacturing speed. The ejection device according to the invention works

speed of the piston, but with which the accrual in the following way: The shaft 15 and the disk 16

Scrap also increases. This means that the forced turn is synchronized with the speed of the belt

Gradual increase in the impact force with the rise and thus with the one formed from the band

a considerable glass piston, and each hammer head 22 is so arranged.

Licher disadvantage of the known tape blow molding machines. arranges that it attacks a glass bulb B , if

Since the piston is knocked down and then this passes through a line which is ejected through the axis of the cam disk and through its crest, the ejection distance through the belt 30 If consequently the roller 18 is at Inner end of the lever speed or the production speed 17 rests on the comb 19 α , the lever is set against the for the piston, so that it is impossible to pivot clockwise and thus brings its ejection distance independently of this speed outer arm essentially in a Radial direction to choose. At a certain speed, the cam disk, with which the piston B is in unison, there is thus the risk that pistons which are knocked off and pushed out one after the other in a direction essentially perpendicular to its movement will be repelled. Thus, the next thing is to touch the outlet of the engine, with the thrust of the piston B not resulting in damage. flexionswmkel, as is the case with the usual ejection

As already mentioned at the beginning, the aim of the inventive devices is determined, rather than by the case

tion to create a new ejector, 40 the resultant of the movements of the hammer heads

which avoids these disadvantages. and the piston.

The ejector device according to the invention, which further executes the rotation of the transmission 11

at 6 in the belt blow molding machine of Fig. 1, the shaft 10, caused by the screw 24,

can be set, an electric motor 7 moves the turntable 16 in the direction

driven via a transmission mechanism 8. 45 direction perpendicular to the movement line of the glass bulb B,

As shown in detail in FIGS. 2 and 3, the overlap between the hammer heads is driven by a horizontal shaft 9, which in turn can be adjusted via 22 and the piston S. This one arranged in the transmission mechanism 8, setting of the overlap allows an adjustment not shown synchronization device to the impact force on the pistons, with which the expulsion is, a vertical shaft 10, namely 50 impact width of the piston can be fixed,
via bevel gears 9 α and 10 a. The shaft 10 is It is thus obvious that with the ejector in a cylindrical part 11 α of a transmission device according to the invention, since it is possible, box 11 and a hammer drive shaft offset the impact force on the piston and ejector 15 Via gears 12, 13 and 14 in rotation. width regardless of the production speed

At the top of the hammer drive shaft 15 is 55 speed to adjust the piston, all the difficulties

a circular disk 16 is attached, and avoids a large number of which, as explained in detail above,

equally spaced, L-shaped ones adhere to the usual ejectors.

1 sheet of drawings

Claims (4)

high speed on the ram: and are ejected from this knocked-off piston in a direction which the direction 1. Ejector for a glass bubble corresponds to the angle of reflection. The ones on the machine with belt-shaped melt feed, 5 pistons acting impact force decreases with the characterized by a hammer feed speed of the glass blowing machine, (21, 22), the one with the out of the blowing process. with which also the tendency to a-destruction or a band-shaped, along a certain damage 'of the manufactured_glass bulb increases. Path of the conveyed glass blank is also "also" the "outer stroke" of the glass bulb (B) Pistons pushed through the production speed by means of a drive device Touch. Can be brought, and determined by a unity and at a certain speed (17,18,19), softening hammer (21, - ability -can "successively ejected glass-22) then essentially plunger meet in one direction, whereupon they are destroyed right to the direction of movement of the glass blank. brings when the hammer on a glass bulb 15 object of the invention specified in claim 1 strikes. Therefore the creation of a new ejection device 2. Device according to claim !, marked, which also at high operating speed net by a device (24) for moving "the glass piston blowing machine no strong impacts a support body (16) for the hammer (21, 22) exerts on the glass bulb. Furthermore, the with in a direction substantially perpendicular to the ejection device to be provided by the invention Direction of movement of the glass blank. The discharge width of the glass bulbs can be adjusted as required, 3. Apparatus according to claim 1, characterized in that the drive device for the blow molding machine is independent of the running speed. Finally, with the hammer (21, 22) according to the invention, a circular disk (16), a device (9, 10, 15) according to the invention for the rotary drive of the 25 should be avoided that successively ejected glass bulbs - Disc (16), a stationary, coaxial to the. come into contact with each other. ^r ^ - disc arranged cam body (19) with other features, advantages and details of the a raised comb (19 α), a large number of invention emerge from the description, the equally spaced levers (17), ■ drawing and the claims, Tn Her 7r ^ "" n% on the circumference of the disc (16) 30, an embodiment of the invention is shown, for example, arranged at the outer end of each lever (17)
Neten hammer head (22), a roller (18) attached to the inner end of each " 18) can be used against 'device according to the invention,
comprising the cam body (19), the 35 Fig disposed · 2 a Draufsicnt a Ausiuniuug _3l orm cam body (19) so that its the inventive device, and
passing through the cam comb (19 a) . 3 shows a cross section along the line III-III radius line, the path of movement of the belt through the embodiment of FIG.
shaped raw glass blown glass bulb (B) Fig. 1 shows a typical example from the side essentially at an angle of about 40 of a glass blowing machine with feeding of the glass-90 ° cuts in what way the piston blanks as a band. This machine is used by knocked off and expelled. a not shown .melting furnace fed glass 4. Apparatus according to claim 3, gekennzeich- melt 1 pressed into a band-shaped blank, net through a gear box (11) with drive. namely through two feed rollers 2 passed gear (10,12,13,14,15) for the circular disk 45 ^w «" ^d · The glass ribbon is then on an endless (16) and a device (23,24) for shifting ' - ■ Plate conveyor, which is also not shown, ben the circular disk (16) applied vertically in a direction, which moves on a guide 3 in horizontal .recht to the direction of movement of the glass bulb (B) .tal direction, namely on the drawing .,. ". .-. ·:, ■. · ....". in the direction to the right; '-.: . " ':. So- ■ During this movement each of the from openings of the corresponding plates of the plate , conveyor hanging parison from a form ; '. ".. closed, the forms on the limbs of a . . -. The conveyor 4 carrying the forms are attached, the The invention relates to a glass ^{piston ejector 55 sicn moved over a} guide 4 α . Furthermore, a device for use in a so-called during this movement is a blow head on the upper tape machine, in which the molten glass discharged from an opening in the opening of the parison and causes the bottom of a melting furnace to blow the parison into a glass bulb. The blown heads are pressed into a band-shaped glass blank and are attached to the members of a conveyor which carries the blow heads while the glass blank is moved along 60 and moves a plurality of glass piston guides 5 on a certain path. After the blow heads and molds are blown out of the blank one after the other and 'men are shaped out from the one formed under the glass ribbon. The blown glass bulb has been removed again, A known ejector device for blowing off the glass bulb is through an ejector device 6 gen and pushing off the glass bulb has a solid 65 knocked off downwards. standing ram, which is used at an angle to the usual, in such machines Direction of movement of the glass ribbon is arranged. Ejectors only have a fixed-out but it results that the one after the other with standing plunger on, with the knocking off and the