SU132106A1 - Device for automatic control to a mechanical stacker - Google Patents

Description

Known by auth. St. 107585 a device for automatic control to a mechanical stacker does not ensure its uninterrupted operation.

In the described device, this drawback is eliminated by the fact that to avoid the possibility of disrupting the operation of the device and, consequently, of the entire installation as a whole, due to underloading at least one brick in the cradles of one row, it uses a group of sensors-switches, for example, mercury with bricks passing over them and acting on the tipping mechanism of cradles.

FIG. 1 shows the device; in fig. 2 is a view along arrow A in FIG. I; in fig. 3 is a view along arrow B in FIG. 2

The device consists of a base 1, sensor switches 2 installed on the crosspiece 3, limit switch 4 with lever 5, limit switch 6 with lever 7, electromagnets 8 9, directions 10, 11 and 12, reversible bar 13.

When the cradle 14 approaches the device, the sensors 2 touch the bricks 15 passing over them, rotate about the axes 16, operate and break the electrical circuit. After the passage of the cradle 14, the sensors 2. return to their original position.

Upon further movement of the cradle 14, its copier 17 presses lever 5, causing limit switch 4 to work. But since at this time the electrical circuit is broken by sensors 2, the device does not work, and the cradle 14 transports the bricks 15 to the place of laying.

When underloading at least one brick 15 in the cradle 14, the sensor 2 corresponding to this brick will not work, as a result of which the electrical circuit of the device will not be broken. When you press the copier 17 to 5 limit switch 4 zamkpet lattice of the electromagnet S.

No. 132106

Yako1) oud. moves and rotates the cross over bar 13 connected to it by a pull 19, which will prevent the guide pin 2t from the cradle 14 moving from between the guides 10 and 11. The pin 20 slides along the bar 13 to the right until the cradle 14 tilts, and the bricks 15 that are on it will not slide onto the discharge tray. Upon further movement of the pin 20 between the guides 10 and 12, he presses the lever 7, with the result that the limit switch 6 breaks the circuit of the electromagnet 8, which de-energizes. Plank 13 no / j, the action of the spring 21 returns to its original position. At the same time, the limit switch 6 closes the electromagnet U circuit, which, having overcome the resistance of the spring 22, pushes the finger 23 to the trajectory of the copier 17. Meeting with the finger 23, the copier 17 tilts the cradle 14 and, pressing the lever 24, gives impulse to the switch 25, which breaks an electromagnet circuit 9. Under the action of the spring 22, the finger 23 moves back, opening the way for the cradles 14. fully loaded with bricks 15.

PREPARATION AND

Automatic control device for mechanical skgablirovschiku avt. St. cYo 107585, characterized in that, in order to eliminate the possibility of disrupting the operation of the device and, consequently, of the entire installation as a whole, because of the underload of at least one brick in the cradles of one row, it uses a group of sensor switches, for example, mercury contacting with bricks passing over them and acting on mechapism of the focking of the cradles. 9. FIG. I