CS244087B1 - Mechanism of glassmaking machine's funnel - Google Patents

Abstract

machine is easy and reliable controlling the speed of the piston and piston rod with funnel belt and damping in end positions. The essence of the invention is in conjunction with cam the top and bottom lids they form piet double acting pneumatic cylinder. The cylinder is provided with channels, check valves in conduits, throttle valves and damping spaces in both end positions.

Description

The invention relates to a funnel mechanism of a glass machine for manufacturing glass containers.

The hitherto known embodiment of the funnel mechanism of a glass machine according to the French patent δ. 1 535 844 is provided with a single acting pneumatic cylinder in which the movement of the piston rod with the funnel arm to the working position is dependent on the action of the working air above the pneumatic cylinder piston and the return movement of the piston rod with the funnel arm to the out of working position is controlled by two springs.

The disadvantage of this solution is the difficult control of the piston rod speed with the piston, when the working air when filling over the piston and the movement corresponding to the compression of the springs has to be throttled at the inlet to the pneumatic cylinder. This makes the movement of the piston rod with the piston uneven due to the increase in the spring force for the return movement and cannot be damped simply and effectively in the final position. In addition, when the piston is retracted with the piston rod, the compressed spring causes too high a movement speed to the basic position of the mechanism. End position damping is difficult with adverse inertial effects on the components of the mechanism. For this solution, the working speeds of the mechanism to the working position are limited, in particular, by the magnitude of the impacts in the end position when returning to the non-working position. The limited adjustment times of the funnel mechanism also limit the production speed of the glass machine.

The above drawbacks are overcome by the funnel mechanism of the glass machine according to the invention, which is based on the fact that the cam is connected to the upper and lower lid with which the piston of a double-acting pneumatic cylinder * is provided with ducts, non-return valves. valves and damping spaces.

An advantage of the arrangement of the funnel mechanism of the glass machine according to the invention is the easy and reliable regulation of the speed of movement of the piston and the piston rod with the funnel arm and damping in both end positions. These properties are achieved by using a double-acting pneumatic cylinder to drive a mechanism with speed control in both directions by throttling the exhaust air and controlling pneumatic damping at both end positions by throttling the exhaust air escaping from the damping space.

In the accompanying drawings, Fig. 1 is a longitudinal section of the mechanism with the piston in the upper end position, Fig. 2 is similarly the piston in the lower end position, and Fig. 3 is a cam with a screw and straight groove.

The illustrated funnel mechanism consists of a double-acting pneumatic cylinder 5 with an upper guide 6 and a lower guide 17, in which a piston rod 18 is mounted, the movement of which is controlled by a piston 4 composed of upper cover 2, lower cover 3 and cams 1 interposed therebetween.

Locking of the cam 1 against its rotation is ensured by a fixed pin 23 with a roller 19 housed in a straight groove 20. The rotation of the piston rod 18 with the funnel arm 27 is enabled by a pin 24 mounted in the screw groove 22 when the piston 4 is moved. 2 on the shoulder 26 or by spring action up to the position given by the contact of the ring 28 on the face 29 of the lower guide 17. The upper guide 16 has a check valve 8, the upper channel 14 defines a damping space 12 connected to the throttle 10 and Similarly, a non-return valve 6 is incorporated in the lower conduit 17. The lower channel 18 defines a damping space 13, communicating with the throttle valve 11 and the throttle valve 32.

The funnel mechanism according to the invention operates such that in the out of working position (FIG. 1) the piston rod 18 with the funnel arm 27 and the piston h formed by the upper lid 2, the lower lid 3 and the cam 1 is in the upper end position 6 when the upper lid 2 touches the line 16.

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This position corresponds to the position of the roller 21 in the lower part of the screw groove 22 and the spring 25 is in the biased state.

By introducing the working air over the piston 4 through the open check valve 8, the piston h begins to move downwardly to the lower guide 17 ' while the biasing spring 18 prevents the piston rod 18 from being driven. on a fixed pin 23 in a straight groove 20 formed in the cam 1, thereby blocking its rotation. The pulley 21, guided in the screw groove 22 and mounted on the pin 24, causes the piston rod 4 to swivel with the funnel arm 27 as the piston 4 moves. This pivotal movement of the piston rod 18 stops when the upper lid 2 is moved. 18 with the funnel arm 27 down to the final working position, during which the spring 25 is compressed. By closing the lower channel with the lower lid 3, a damping space 13 is created between it and the lower guide 17. with the non-return valve 6, the piston 4 is continuously braked with the piston rod 18 and the funnel arm 27 down to the lower end position 7 of the piston 4 corresponding to the final operating position of the funnel arm 27.

By introducing working air (Fig. 2) through the open check valve 2 ^{in the} lower guide 17 below the piston 14, the piston 4 begins to move upwardly to the upper guide 16, with the spring 52 acting on the piston rod 38 which follows the movement of the piston 4. At the same time, the funnel arm 27 is raised from the end working position above the front mold of the glass machine (not shown). Lifting of the piston rod 18 with the funnel arm 27 is completed by moving the ring 28 to the face 29 of the lower guide 17 (FIG. 3). The stroke 30 corresponds to this movement. The movement of the piston 4 continues until the closure of the upper channel 14 with the upper cover 2 creates a damping space 12 between it and the upper conduit 16. 4 with the piston rod 18 and the funnel arm 27 up to the upper end position corresponding to the final out-of-work position of the funnel arm 27,

Claims (3)

1 «Mechanism of a glass machine funnel with a sliding cam and an auxiliary spring acting on a sliding and pivoting piston rod of a pneumatic cylinder by means of a pulley on a piston pin, the cam rotation being blocked by a rolling zulu fixed pin connected to said pneumatic cylinder; ) is connected to the upper cover (2) and lower cover (3), with which it forms a piston (4) of a double-acting pneumatic cylinder (5), which is provided with an upper channel (14) and a lower channel (15) · 2. The funnel mechanism according to claim 1, characterized in that the double-acting pneumatic cylinder (5) is provided with a non-return valve (8) in the upper guide (16), a throttle valve (10) and a damping space (12). channel (14) with respect to the end position (6) of the piston (4) 3. Funnel mechanism according to claim 1, characterized in that the double-acting pneumatic cylinder (5) is provided with a non-return valve (9) in the lower guide (17), a throttle valve (11) and a damping space (13) whose volume is defined by the lower position. channel (15) with respect to the end position (7) of the piston (4) «