DE292226C - - Google Patents

Description

IMPERIAL

PATENT OFFICE

The invention relates to a glass blowing machine of the type in which one with A blow whistle provided with a glass gob in a swingable, through a rotating main cam controlled blowpipe holder inserted in the horizontal position of the same and from this position with the blowout or End of recording with simultaneous rotation initially in the area of a Marbel device is swung where the glass gob is preformed, whereupon the glass pipe is erected, d. H. is returned to the vertical position in which the meanwhile to Parcel inflated. Glass gob hangs at the lower end of the pipe and blown in a mold will.

The invention consists in a special device to that by the Marbeleinrichtung glass gob (preform) formed into a body, specific shape and size during to inflate gradually and finish blowing in the finished form. The method of treatment is particularly suitable for the production of objects with equal properties Wall thickness, e.g. B. Bulbs for electric lamps. With the known institutions this kind of thing became during the swinging down of the marbled bucket and erecting The pipe either introduces a measured puff of air into the tub, with the help of one on the machine frame fixed and driven in mechanical connection with the righting movement Piston air pump, or several puffs of air, precisely adjustable and measured according to pressure and quantity, were created from one Compressed air tank sent into the kettle.

The peculiarity of the present device "is based on the fact that a piston air pump to generate pressure surges that can be regulated according to quantity and pressure during the transition from the preform layer to the finished form layer on Blow pipe holder immediately in front of the blow nozzle, i.e. the point at which the blow-in end the pipe is connected, attached and set up so that for the purpose of finish blowing a second air pump air in through the decommissioned first piston air pump the parison can push. The arrangement of a second source of compressed air for finish blowing is known in machines of the type mentioned above. The arrangement of the piston air pump on the blowpipe holder directly in front of the connecting nozzle enables the most precise measurement of the compressed air blasts while in the known device, in which the piston pump on the machine frame arranged and connected by a line to the blowpipe holder, through the Influence of the pipe space the exact dimensioning suffers damage.

The invention also consists in the particular Means to give the pump plunger a number while erecting the whistle to issue precisely measured rapid blown cap of adjustable size.

The subject matter of the invention is shown in an exemplary embodiment in the drawings.

Fig. Ι shows an overall front view of the machine,

2 shows a side view with the blowpipe carrier in the position for the final blowing.

Fig. 3 shows in particular the drive of the machine by the main cam the position of the blowpipe carrier in the initial position.

Fig. 4 shows a side view of the drive device.

Fig. 5 shows a vertical cross section through the drive device.

Fig. 6 shows an embodiment of the one ίο coming to use membrane pump. FIG. 7 shows a section along line X ⁷ -X ⁷ from FIG. 6.

Fig. 8 shows in vertical cross section a section through the second for use coming pump designed as a piston pump.

FIG. 9 shows an end view of FIG. 8.
Fig. 10 shows a detail.
The trough-shaped base 1 carries a number of main stands 2 on which the main shaft 3 and the blowpipe rotating shaft 4 are supported. Each stand has at the upper end on the front side a tubular extension 5 (Fig. 5) for receiving the associated cam 6. The disk is by means of spur gear transmission through the pinion 65 (Fig. 1 and 4), which sits on the main shaft, from time to time set in rotation at time while the machine is working.
In the pipe socket 5 for the cam 6, the pivot pin 8 of the blowpipe holder 9 is accommodated, which is provided with a central bore for the passage of the blowpipe rotary shaft 4.
Furthermore, each of the stands carries on one side a mechanism (a disk 100 with the marble surfaces 101, 102, Fig. 1) serving for preforming (marbling) the glass gob, the movements of which are derived from the wheel rim of the main cam 6, while at the foot of the stand the finished 'tigform 74 is attached. The blowpipe holder, the preform (Marbel) and the finished molding mechanism of each unit receive their movements through the main cam (Fig. 3).

The blowpipe holder 9 consists of a casting with a cast on its back Trunnion 8 which is mounted in the tubular socket 5 of the stand 2. This device also includes an out of the pipes 10 and 11 existing frame on both sides of the casting. The tubes 10 and 11 carry the main air head 12 (FIGS. 1, 2 and 9) with the blower nozzle 16 at their upper end for introducing compressed air into the blowpipe 24, which is in the horizontal position of the pipe holder frame 9, 10, 11 (Fig. 5 and 6) is inserted into the funnel 22 (Fig. 9).

A driver consisting of three; Articulated arms 57, 58, 59 are provided. The arm 57 is firmly seated on the tubular extension 5 of the frame. The pivot pin 60 is connected to the blowpipe holder, and the Pins 61 connecting arms 58, 59 runs in a cam track 62 of the cam. the ir. closed cam track 62 consists of several parts which are shaped so that the pipe holder is initially horizontally in its initial position, then opposite the direction of rotation of the cam disc is swung upwards with the glass gob, whereupon it swung back down to the vertical position with the glass post in order to then be transferred from this back into the horizontal position.

The creation of these different layers is necessary in order to achieve that with a glass post Insert the blowpipe 9 provided by hand in the horizontal position of the blowpipe holder, in the raised position of the end of the blower. preform the glass gob with the blowpipe (marble) and finish this in the vertical position of the blowpipe in the form 74 can. During these vibrations of the blowpipe holder, the compressed air has to be certain Times are blown in, on the way from the Marbel position to the vertical position of the blowpipe holder and then in the vertical position of the latter during the period of inflation in the finished form. The means for introducing the air in the present case are two air pumps, One of which is a piston air pump, which is located on the head of the blower pipe holder immediately before the connection point of the blower pipe is arranged on the main air head 12, the other a diaphragm pump, which the air puffs on the way via the piston air pump into the blowpipe. The piston air pump is fixed to the frame during the oscillation of the pipe holder Controlled stops while the diaphragm pump is actuated by a cam 6 on the cam.

On each of the main stands 2 there is a fixed cam plate 120 at the same height as the main cam disk 6 in the form of a sector concentrically arranged around the tube attachment 5 of the stand (FIGS. 3 and 5). This sector carries a number of radially adjustable curve pieces 121, 121 ^a , 121 ^δ etc. and also a number of stops 122 ", I22 ⁶ etc., which are located on the circumference. while the stops form such elevations, which are radially and at right angles on the plane of the plate 120. These curved pieces and stops are used to control an air cock rod 133, which is in the main

air head 12 is performed, in which the blowpipe 24 is inserted (Fig. 8).

In this main air head a cylinder 13 is mounted, through the head of which the piston rod 123 goes, the inner remote end of which is a widened head piece 124 with a pack 125 carries which usually by means of the coil spring 126 against the outer end the nozzle 16 is pressed. Located on the stepped part of the piston rod 123 The piston 127 with opening 128 is longitudinally displaceable, while firmly on the piston rod a disk 129 with associated packing 130 is located in front of the outer surface of the piston, by means of which, when the piston is in contact, the openings 128 are closed. At the outer end of the piston rod there is a head piece 131 which is connected to a lever 132 (Fig. 9) can be related.

This lever 132 is located on the outer end of the air cocking rod 133, which is slidable in the main air head and mounted on the blowpipe holder carrying arm 136. The roller 135 comes into contact with the elevation curves of the pieces I2i ^{a etc., while the roller 137 comes into contact with the elevations of the stops I22 ffi} etc. located on the periphery of the sector 120, whereby the rod is at a certain angle is rotated. The rod 133 thus receives two movements, of which the longitudinal movement, when the lever 132 is in engagement with the head piece 131, causes the same to lift, while the rotary movement removes the lever 132 from the head piece 131 again. The rod 133 is normally pulled inwards by the spring 138 (FIG. 6) (towards the center of the cam 6) and at the same time tends to move the lever 132 laterally towards the head 131, for which purpose a leaf spring 139 (FIG. 3) is used which is attached to the blowpipe holder and rests against the arm 136. The outer end of the head 131 has a conical shape.

At the lower part of the fixed cam 120 is an angle lever 140, the upper arm 141 provided with a beveled nose is adjustable, while the other horizontal arm rests against the stop 143 with the aid of a spring 142.

When the blowpipe holder is in the position required for preforming, is located the roller 137 of the rod 133 is opposite the beveled nose of the lever 141. and in the movement necessary for completing the preforming, the horizontal arm of the Angle lever 140 taken from the outer stop 90 of the main cam, whereby the upper end of the lever 141 is brought outward, wherein the rod 133 around one Angle is rotated by the roller running off the beveled nose of the arm 141.

A three-armed lever 144 is mounted around the pivot point 145 located on the stationary cam disk 120. The rising arm has a beveled nose 146 at its end, while another arm 147 is bent forward (out of the plane of FIG. 3). A lug 148 (Fig. 4) of this arm is based on a curve 149 of the main disk 6 (Fig. 3 and 4), whereby the lever system is swung in a plane parallel to the cam disk, through the eccentric starting part of the curve, which occurs during the time in which the blowpipe is in the vertical position is necessary. A pull rod 150 (FIGS. 3, 4 and 9) is mounted on the main air head 12 and the blower pipe holder 11, 12 and is usually pressed inwards, ie towards the shaft 4, by a spring 151 (FIG. 6). The upper end of the pull rod 150 carries an arm 152 enclosing the piston rod 123 under its head 131, and also on a second arm, bent at right angles, a displaceable valve 153 which is pressed by a spring against the cylinder 13 and which serves to support the outward movement of the rod 150 to close an opening 154 located in the cylinder jacket. At the lower end of the blowpipe holder there is a diaphragm pump with a cylinder 155 and with a diaphragm piston 156 (FIG. 7), which is guided by means of the bolts 157 in the holder 158 bridging the open end of the cylinder. One end of an articulated arm 159 is connected to the piston, to the other end of which an arm of a three-armed lever 160 is articulated. The second arm thereof is rotatably attached to the blowpipe holder, and the third forward arm is connected by means of the pull rod 161 to the front arm of the bell crank 162 which is provided with a slot. This angle lever is also mounted on the blowpipe holder. His second provided with a roller 163 arm goes up and n is ₀ backward-behind Blaspfeifenhalter. This roller can be moved by a cam 164 located on the main cam disc as the disc rotates. By adjusting to the curve 164 as well as setting of the joint n ₅ of the rod 161 in the slot of the bell crank 162, the air supplied from the diaphragm pump to change the Quantum. The interior of the pump cylinder 155 is in communication with the head of the cylinder 13 in the main air head 12 through the pipe 10 and pipe 76.

The failure mode of the mechanism described above is as follows:

If the blowpipe holder is out of the

"Right position set in motion, that is, the receiving end of the blowpipe is raised, the curve piece Ι2τ ■ · pushes the rod 133 outward, and since the lever 132 of the rod 133 includes the head 131 of the piston rod 123 (Fig. 8), this takes on This lifting of the piston rod causes the head 124 to be lifted off the socket 16 of the main air cap and also causes the disc 129 to lift off the piston 127, thereby exposing the openings 128 At the end of the preforming, i.e. at the end of the inclined upward position of the pipe, the stop 90 on the main cam presses the horizontal arm of the angle lever 140 upwards and thereby the other arm 141, which is beveled at the front, outwards behind the roller 137, the air cock rod 133 being given a Tcildrotation by unrolling the roller 137 of 141 old, which decoupling of the lever 132 from the head 131 of the piston rod and thus a retreat of the latter, which is under the influence of the spring 126, has the consequence. This movement of the piston rod first closes the openings 128 and then presses a certain amount of air into the glass gob on the blowpipe, which creates a central cavity in the same and the blowpipe opening is freed from any glass mass that may have penetrated, which is what happens when working with the molded beaker 106 the Marbeleinrichtung could have done. This movement of the piston rod finally also closes the end of the blowpipe 24, thus also enclosing the air located in the same at the same time. The air cocking rod 133 in the meantime returns to its normal position with the aid of the spring 138 when the highest point of the curve 121 is exceeded by the movement of the blowpipe holder. The lever 132 has slipped past the beveled head 131 of the piston rod and has finally stepped under the leaf spring 139 (FIG. 3) again under the influence of the latter. This triggering action of the lever arm 141 (as noted above) is caused by the rotation of the main cam disk by the stop 90, which can be adjusted as required while the blowpipe holder is at rest in its inclined position corresponding to the preforming. As a result of the movement of the blowpipe holder into the vertical position following the preforming, the cock rod 133 and the piston rod 123 are raised again by the successive curve pieces I2i ° etc. and triggered again by the stops I22a ^, etc., which also follow each other, whereby each time a quantum Air is forced into the glass gob. The number of different curve pieces 121 °, I2I ⁶ etc. and the associated stops 122 °, I22 ⁶ etc. can be changed, and the amount of air can be changed every time by adjusting the curve pieces in their slots. At the end of the erection range of the blowpipe holder, the air cock rod 133 is raised by the curve I2i ^e , and the end of a lever 34 (Figs. 1, 4 and 6) serving to implement the blowpipe coupling passes over the protruding part 147 of the three-armed lever 144. As a result, at the end of the first section of the movement of the main cam disc, just before it comes to a standstill (through a disengagement of its drive which it itself causes) with the blowpipe holder that has now reached the vertical position, the lever 34 is raised slightly and thereby the clutch , solved, with which the rotation of the blow whistle around its axis stops. This is done by AVert during the time that the freely hanging parison is elongated, and prevents twisting of the glass mass in the event of any uneven distribution of the same.

When the main cam is reconnected to its drive after a standstill and if it is turned further in the same sense, the lever 144 is raised further by the curve 149, so that the lever 34 slides off the arm 147. So it becomes the rotary motion clutch of the blowpipe closed again, at the same time the upper curved edge 146 of the lever 144 in contact comes with the roller 137 of the air cocking rod 133. This causes the piston rod 123 again free and then forced air into the glass post. When it is turned, it bumps three-armed lever 144 with the protruding arm 147 against the bumper 150 and lifts they at what closing the opening 154 in the cylinder 13 and lifting the piston rod 123 has the consequence. As a result, the head piece 124 is lifted from the socket 16 and the opening 128 of the piston 127 released.

At the same time, the curve 164 of the main cam occurs behind the roller 163 of the angle lever 162 moving the pump, the Diaphragm piston 156 is pushed into the cylinder and air into the cylinder 13 pressed. Since the opening 154 is closed, this air then passes through the uncovered ones Openings 128 and the socket 16 and the Blow whistle in the glass gob, which is in the finished form. The curve 164

is shaped so that the movement of the piston in the pump and thus the amount of air in correct relationship to the growing cavity of the glass bulb remains. It should be noted that the cylinder 13 is in communication with the outside air through the opening 154 during the period in which the piston pump from which the cylinder 13 represents a part of air being forced into the blowpipe.

It should also be noted that in the normal starting position of the Whistle (Fig. 3) the air cock rod 133 is raised slightly, causing the end of the socket 16 and also the openings 128 are exposed so that the interior of the blowpipe through this Openings and through the opening 154 is in communication with the atmospheric air. This will avoid any premature air compression in the blowpipe during deployment avoided.

It should also be noted that before and after the introduction of each Luftqüantums through the piston 127 into the blowpipe and the glass body this through the aforementioned Openings communicate with the outside air, which is caused by the backward movement the piston rod 123, which is used in preparation for the next air feed occurs, is effected.

Before blowing the parison in a vertical position, the mold is made around the glass gob closed, whereupon after a certain time, during which the final molding took place, the mold halves open again and the finished blown object can be removed from the mold, during the Blowpipe holder returns to its normal position.

In order to hold the air cocking rod 133 during the return of the blowpipe holder from the vertical to the horizontal position and thus prevent unnecessary movement of the same through the series of curve pieces I2i ^a etc.

and to avoid the movement of the piston rod 123, a rotatable pawl 192 (Fig. 10) is provided, which engages with its nose under the lower end of the piece 134 on the air cock rod 133 when this through the last curve piece Ϊ2Ι ⁶ with the blow whistle in a vertical position is lifted. The stroke is greater than that caused by the other curve pieces. In this way it is achieved that the air cock rod 133 is held in the raised position, the inclined edge 146 of the three-lever system nevertheless causing the rod and thus of the arm 132 to rotate by releasing the piston rod 123 due to the rolling up of the roller 137. Only when a curve stop 193 (FIGS. 1 and 3), which is seated on the fixed sector 120, lifts an arm 194 of the pawl 192 as the blowpipe approaches the horizontal position, the air cock rod 133 is released again.

Claims (3)

Patent Claims: 1. Glass blowing machine with swingable blowpipe carrier through which the blowpipe from a horizontal starting position with the blow-out end against a Marbel device is raised and raised from this position in the opposite direction into a vertical position, with in mechanical connection with the upright movement, a piston air pump sends compressed air into the parison and after the erection a second source of compressed air inflates the parison in the finished form, characterized in that the piston air pump (13, 123, 127) on the blowpipe support is attached immediately in front of the nozzle (16). 2. Embodiment of the glass blowing machine according to claim i, characterized by two with the center of oscillation (4) of the pipe carrier (10, 11) concentric arc rows of stops (121, I2i ^a ..., 122 ", 122 *.. ..), of which the first moves the drive element (132, 133) releasably coupled to the pump piston (123), which causes the suction stroke of the pump, while the second one releases the drive element from the pump piston after each suction stroke, so that it is under the action a spring (126) performs a rapid blow stroke, the stroke size being precisely adjustable by adjusting the corresponding stops. 3. Embodiment of the glass blowing machine according to claim 1, characterized characterized in that the inlet opening (154) of the KoI-benluftpump through a common drive (150) before the final blowing closed and the passages (128) of the piston are opened (and vice versa), for the purpose of Air used for final blowing through the piston air pump, which has been shut down here to be able to blow into the pipe and the tub. In addition 3 sheets of drawings.