SU31589A1 - Gearless synchronizer for glassblowing automats and similar machines - Google Patents

Description

Synchronizers used in pneumatic automata of glass, porcelain and other industries are designed to coordinate the work of various pneumatic organs both in the car itself and in the feeders serving them, and basically have the following device.

On a slowly rotating camshaft (on one of several parallel), the cams are jammed in a number corresponding to the number of pneumatic organs controlled by the synchronizer, acting on cylindrical pneumatic spools connected to the pneumatic parts of the machine.

Most pneumatic automats require frequent changes in operating mode. Therefore, it is very important for the synchronizer to work that it is possible to change the angles of the jaws of the cams on the move, and the practice makes it necessary to adjust on the move not only the angles of the jaws of the cams, but also the angles of their action. In the Rankin synchronizer, the angle of action is changed by arranging four stepped cams with different action angles. Thus, the change in the angle of action is not continuous, but in steps.

The proposed stepless synchronizer means adjusting the angles of action and cam locking on a continuous curve with the help of non-moving shaft-to-stick systems.

In the schematic drawing of FIG. 1 shows the proposed synchronizer in a perspective view, and FIG. 2 is a front view with a partial section of the synchronizer variant.

On a slowly rotating shaft A (Fig. 1) driven by a motor or mechanical drive through the gear means on the key B (simple or roller), a clutch is mounted movably along the shaft axis, which is fitted with an annular groove F and a roller G. roller 3 levers And stuck on the roller / C. At the other end of the roller K, the lever JU is wedged; at the end of the koToporo, there is a finger S, which enters the opening of the slide of the box-shaped spool O. The roller K is in the bearing L of the synchronizer housing. When the clutch is moved from one extreme position to the other, the lever L / turns through a certain angle and moves the valve. In the path of the roller P on the rings E and F, which can rotate in the synchronizer housing, the cams D and D are fastened. When shaft A rotates, and, consequently, clutch B, roller G meets one of the cams D or D and presses it. Directed along the shaft axis, the reaction moves the clutch, and, consequently,; And the spool to the opposite extreme position. Upon further rotation of shaft A, roller G hits the second cam and is transferred together with the slide valve to its initial position.

Since each fist could be installed while running on any point of the circle (one of the ways to implement this setup is to apply oblique or helical teeth on the outer surface of the rings and act on the worm attached to them), it turns out wide adjustment of the moments of displacement of the spool, i.e., wide adjustment of the cam locking angle as well as the angle of its action on the go is a continuous curve.

According to the proposed second variant (Fig. 2}, the cam D acts on a roller mounted not directly on the clutch, but on the lever P having an axis

rotation in the bracket / 7, stuck on the shaft. Moving the roller through the lever arm P is transmitted to the clutch.

The subject matter of the invention.

Claims (2)

1. A gearless synchronizer for glass-blowing machines and similar machines, adapted to change the moment of movement of the box-shaped spool, characterized in that it moves on an extended key along shaft A (Fig. 1), which couples B together with it, and is coupled by means of levers I and M with a spool O, equipped with a roller D, on the path of movement of which the cams D and D, which are used to move coupling B, are mounted, fixed on the rings E, E, which can rotate in the synchronizer housing. 2. The form of making the device according to claim 1, characterized in that the roller under the action of cams x and M is fixed on the lever P coupled to the coupling, rotating on the wedged shaft of the bracket 17. to the author's testimony N. N. Kuleshov M 31589 f, 2.