CS264962B1 - Control connection of assembly arithmetic unit - Google Patents

Abstract

nature solutions is in how that primary section involvement is a formed only one modulus single-chip microcomputer (1) . on the which They are connected preferences technology the times (2) . outputs before election the Business (3) and output iniciall · starts and monitoring module (4). Elevator outputs module single-chip microcomputer (1) They are connected through optoelectronic from dělovače (6, 9) on the action members (7, 10) operational unit.

Description

It is an object of the invention to engage in the control of operational assembly units for performing various assembly operations such as loading, riveting, screwing, pressing, and others.

Until now, circuits consisting of logic kits consisting of timers, program, power, controllers and other modules are used to autonomously control the operational assembly units. Bindings and connections between sensing elements, actuators, and logic kit modules are fixed and need to be specified for each specific application. A program module containing Timers, control and program blocks brings some variability and flexibility to the control of the operating units. Specific control differences of the operational units are realized in the program block and for units with multiple degrees of freedom also in the control block. The disadvantage of the hitherto known wiring is the higher number of modules of the logic kit and the resulting lower reliability and the necessity to modify the wiring for various specific applications.

The aforementioned disadvantages are overcome by the wiring for the control of the operational assembly units of the invention, which consists in connecting the technology chip preset outputs, the operation mode preset outputs and the initialization and monitoring module outputs to the single-chip microcomputer module. The outputs of the single-chip microcomputer module are connected via optoelectric separators to the actuators of the operating unit. The operating unit sensing and operating elements are connected via optoelectric separators to the inputs of a single-chip microcomputer module.

By engaging the control of the operating assembly units of the invention, maximum variability and easy selection of the mode of operation of the unit is achieved. The invention can advantageously be used for controlling the operating units of riveting, insertion, screwing, pressing with one to three degrees of freedom solely by selection or change of program. No cabling or changing the number of control modules required. The advantage is also rapid identification of the fault.

In the accompanying drawing, a block diagram of an exemplary wiring solution for controlling operational assembly units is illustrated.

The wiring to control the operating assembly units consists of a single-chip microcomputer module 2 / to which the technological time preselection outputs 2, the operation preset mode outputs 2 ^and the initialization and monitoring module 2 outputs are connected · The outputs of the single chip microcomputer module 2 are connected via optoelectric separators the operating units 11, 10 of the operating unit 11. The sensing and operating members 12 of the operating unit _f are connected via optoelectric separators 5, 2 ^{to the} inputs of the single-chip microcomputer module 2.

Single-chip microcomputer module 2 After the initialization and monitoring module 2 has been put into operation and based on the data from the operation mode preselection 2, the technological time preset 2 ^{and the} signals from the operating unit 11 sensors and inputs 12 entering the single-chip microcontroller module 2 via optoelectric separators 5 .

2, programmatically controls the actuators 7, 10 of the operating unit 21. By changing the program in the memory of the single-chip microcomputer module 2, the function of the controlled operating unit 11 is changed.

Claims (1)

Wiring to control the operating assembly units consisting of a single-chip microcomputer module, technology time preselection, operation mode preselection, initialization and monitoring module, optoelectric separators and action planks, characterized in that the technology time preset outputs (2) are connected to the single-chip microcomputer module (1). ), the operation mode preset outputs (3) and the initialization and monitoring module (4) outputs, the outputs of the single-chip microcomputer module (1) being connected via optoelectric separators (6, 9) to the actuators (7, 10) of the operating unit (3). 11), while the sensing and operating members (12) of the operating unit (11) are connected via optoelectric separators (5, 8) to the inputs of the single-chip microcomputer module (1).