SU534266A1 - Device for automatic sheet sorting - Google Patents

Claims (2)

The drawing shows a block diagram of a sheet sorting device which contains an input conveyor 1 on which the front and rear edges of the sheet 3 are installed. A flaw detector 4 is installed on the sorting line, behind which the main conveyor 5 begins. A conveyor 6 is kinematically connected conveyor belt. At the conveyor, there are switches for the flow of sheets 7, for example of the electromagnetic type, controlled by the output circuit 8. At the flow switches there are receiving devices 9 for sorted sheets. The design of flow switches and receivers may be as good as with known systems, and the number is determined by the need. The front and rear edges of the sheet are electrically connected to the shift registers 10 for the front edge of the sheet and 11 for the rear edge of the sheet. The outputs of the registers 10 and 11 are connected to the trigger 12, the output of which is connected to the logic element AND 13, the other input of which is connected to the flaw detector 4, the output of the logic element I is connected to the memory block 14, which is also connected to the rear edge edge register 11. The leading edge register is connected to register 15, which is bitwise connected to register 16 via matching blocks 17, the second inputs of matching blocks are connected to memory block 14. The output of register 15 is connected to the output circuit 8, which controls the switches 7 of sheet flow. The device works as follows. Sheets 3 are fed to conveyor 1, where sensor 2 determines the first leading edge of sheet 3. The signal about the passage of the front edge of the sheet is recorded in register 10. The capacity of this register is chosen so that the output signal for wil after hitting the sheet's edge under the flaw detector 4. Upon further movement of sheet 3 along the commands of sensor 6, moving the conveyor belt, the information is rewritten from register 10 to register 15. When a signal appears at the output of register 1O, transfer trigger 12 and a signal is sent to the logic element AND 13. The second input of this element receives the signal of flaw detector 4. Thus, when the front edge of sheet 3 passes through the position of flaw detector 4, information from flaw detector 4 is allowed to be stored in memory 14. When the trailing edge of sheet 3 intersects the position of the edge sensor 2, a signal appears in the register 11, the capacitance of which is chosen so that the signal at its output spins when the trailing edge of the sheet 3 is removed from the position of the flaw detector 4. The trigger 12 is retracted and prohibits further coupling and formations from flaw detector 4 to block 14. At the same time, block 14 is polled. If the defect information is recorded there, the position of the leading edge of the sheet through one of the matching cells is rewritten into register 16, which simulates the movement of sheet 3 to receiving devices 9 and through output circuit 8 gives a command to drop a sheet into the pocket for defective sheets. If there is no defect information in block 14, register 16 is empty and the output circuit passes the sheet to the pocket for suitable sheets. Formula and acquisitions A device for automatic sheet screening on cutting units containing a flaw detector, a memory unit, a conveyor belt motion sensor and a shift register connected between the memory unit and the sheet flow switch, characterized in that individual sheets, it is additionally equipped with a sensor for the front and rear edges of the sheet, two additional shift registers, the first of which is connected to the main register, and the second to the memory unit, trigger, output which is connected to the inputs of additional registers, the outputs of these registers are connected to the inputs of the trigger, and the logic element I is connected to the flaw detector and the memory unit. Sources of information taken into account in the examination: 1. Electrical equipment of a modern cross-cutting unit for cold-rolled sheet with a magnetic stacker. VIIISS1CO No. I.Thomas durtten Banden-BEeche-Rohne 1972, 13, No. 9, 466, .. 470 2. Systems of automatic sheet sorting on the units of cross-cutting and combined cutting of sb.Metalurgicheskoe mechanical engineering NIIINFORMTYAZHMASH, l. 7-66-6, 1966