CS196575B1 - Connection for the preselection of the section of the stepping sequence particularly for the determinating block of the control processes - Google Patents

Description

The invention provides a circuit for presetting a step sequence section, in particular for a determining block of control processors.

In known devices, similar circuits are solved by logic, which allows to determine the selected state of the device by preselecting the target of the start-up process within the conceptual solution of the given automatics. However, such systems do not allow, due to the links to other parts of the automatics and due to the internal division, the operation of the device, which would enable the selection of the determined state even in those operating states where operation of the automatics is possible only to a limited extent with manual intervention in the automatics; function of the equipment in all phases of the technological process.

These drawbacks are largely eliminated by the pre-selection circuit of the stepping sequence according to the invention. It is based on the fact that a memory member is connected to the output of the actuator by its first input, while its second input is connected to the second output of the summation member to whose first output the actuator input is connected. The input of the barrier member, the input of the product member and the input of the signaling member are connected to the output of the memory member.

The wiring sequence pre-selection of the stepping sequence of the invention allows selection of a designated target state of the device and, together with the associated control processor blocks, ensures safe operation of the automation while ensuring the correct function of the device at all stages of the process. Furthermore, it enables blocking of the selection function of the system in case of incorrect selection of the target section, and at the same time prevents occurrence of automatic gambling states in case of incorrect manual intervention of the operator.

An exemplary circuit arrangement according to the invention is schematically illustrated in the accompanying drawing.

The wiring for presetting the jumper sequence consists of an actuating member 1, a summation member 2, a memory member 3, a signaling member 4, a barrier member 5, and a product member 6. The individual wiring members are connected to other control processor blocks by their external inputs and outputs. they are interconnected. The actuator 1 is connected by its external actuator input 11 to the input processor block of the control processor, and to its external interlock memory output 14 the summation members 2 of the other logic systems of the determining block are connected. The first input 31 of the memory member 3 is connected to the output 13 of the actuator 1. The second input 33 of the memory member 3 is connected to the second output 24 of the summation member 2, to the first output 23 of which the input 12 of the actuator 1 is connected.

198575 of the external jog inputs 21a, 21b, to 21m are coupled to the jog block outputs, and a plurality of the latch blocking inputs 22a, 22b to 22n of the summing member 2 are coupled to the other logic systems of the determining block. The memory member 3 is coupled by its external conditioning input 32 to the operation block and its external activation output 35 is coupled to the summation member of the determining block. The input 34 of the barrier member 5, the input 62 of the product member 6 and the input 42 of the signaling member 4 are coupled to the output 34 of the memory member 3. A plurality of second external stepping inputs 41a, 41b, to 41n are coupled to the stepping block. The external pulse input 43 of the signaling member 4 is coupled to the output of the central source of oscillating voltage. The external signaling output 44 of the signaling member 4 is for outputting the signal to the signaling element in the control room, the external acknowledgment input 51 of the barrier member 5 is for the signal supplied from the operation block, and the external blocking output 53 outputs the signal to the stepping block. The release input 61 of the product 6 is coupled to the output of the last jog unit in the designated section of the jog block, and the external barrier output 63 of the product 6 is outputted to the operation block.

The inactivation of the memory member 3 is performed provided that its external conditional input 32 has a continuous signal and its first input 31 receives a signal at least briefly. However, at the same time, the signal must not be on its second input 33. In this case, the signal at the external blocking output 53 of the barrier member 5 permanently blocks further progress in the stepping block until manual acknowledgment via the external acknowledgment input 51 of the barrier member 5. operating block program. The stop program in the operation block is automatically activated by the external barrier output 63 of the product member 6 upon receipt of the signal from the last jog unit in a predetermined section of the jog block, the signal being supplied by the release input 61 of the barrier member 6. which determine the individual members of the connection.

The possibility to use the wiring for presetting of the step sequence is in all binary automatics with more complicated internal structure, where it is necessary to provide a pre-selectable target of the control process with ensuring the correct function of automatics in all states of the device.

Claims (1)

A circuit for presetting a step sequence section, in particular for a determining block of control processors comprising an actuator, a summation, a memory member, a signaling member, a barrier member, a product, characterized in that the output (13) of the actuator (1) is its first an input (31) connected to the memory member (3), while its second input (33) is connected to a second output (24) of the summation member (2), to whose first output (23) the input (12) of the actuator (1) is connected; further, the input (52) of the barrier member (5), the input (62) of the product member (6) and the input (42) of the signaling member (4) are connected to the output (34) of the memory member (3).