CS215673B1 - Circuitry for voltage inspection and for evaluation of control units in automated assembly processes - Google Patents

Description

The object of the invention is a wiring for voltage control and for evaluation of ballasts in an automatic assembly comprising a controlled ballast, a voltage converter, a limiting resistor, a switching block, an AC generator, an evaluation circuit, a time circuit logic processor and a sorting device.

Nowadays, when the ballasts are manually mounted, the operator performs a voltage check on the test station. This method is cumbersome and requires a skilled worker as it is a high voltage work. Another disadvantage of the current voltage control method is that when the ballast is shorted, the control device is turned off and for a saler measurement it needs to be turned on by the test station operator. not suitable for automatic assembly.

The above mentioned disadvantages are alleviated and the technical problem is solved by the connection to the voltage control and to the evaluation of ballasts in automatic assembly according to the invention, which is based on the fact that the controlled ballast is shorted winding and ground connected to output terminals of the voltage converter. The voltage transducer is connected to the alternating current generator via the input terminals via a limiting resistor and a switching block. In parallel to the limiting resistor, an evaluation circuit is connected, to whose control input the first logic processor with time circuits is connected. The second output of the logic timer circuit is connected to the control input of the switching block. The third output of the logic processor with timing circuits is connected to the input of the sorter.

Connection to voltage control and evaluation of ballasts in automatic assembly

215 673

215 673 provides an unmanned voltage control of the ballast in a timely convenient automatic assembly. Another advantage of the connection is that the evaluated data processed in a logical process with time circuits are fed to a sorting device which automatically sorts the ballasts. The high voltage, which controls the ballasts, is applied to the output terminals of the voltage converter only during its correct position in the test station.

The attached drawing shows an exemplary embodiment of a block circuit for voltage monitoring and for evaluating ballasts in automatic assembly.

The connection to the voltage control and the evaluation of the ballasts in the automatic assembly is as follows: The controlled ballast 1 moved on the assembly line 13 is winding 2 and the frame 3 is connected to the output terminals 4 of the voltage converter 5. The voltage converter 5 is connected via input terminals 6 via limiting resistor 7 and a switching block 8 with an AC generator 9. Parallel to the limiting resistor 2, the connected evaluation circuit 10 is further coupled to the time circuit logic processor 11 and through this to the switching block 8 with the sorting device 12.

The controlled ballast 1 moved on the assembly line 13 is connected at the inspection point by winding 2 with one output terminal 4 and the frame 3 with the other output terminal 4. After connection, the switching block 8 supplies voltage through the limiting resistor 7 to the voltage converter 5. The magnitude of the current flowing through the limiting resistor 2 ^is evaluated in the evaluation circuit 10 which, by means of the time circuit logic processor 11, controls the check time from the switching block 8 and the function of the sorting device 5 to sort out satisfactory and unsatisfactory ballasts.

The voltage control circuit according to the invention can be used * in the assembly of electrical objects where voltage control is a part of the technological operations, such as the installation of ballasts, transformers, electromagnets and the like.

Claims (1)

The wiring for voltage control and ballast evaluation in automatic assembly includes a controlled ballast, a voltage converter, a limiting resistor, a switching block, an AC generator, an evaluation circuit, a logic processor with time circuits and a sorting device characterized in that the controlled ballast (1) is short circuited (2) and a frame (3) connected to the output terminals (4) of the voltage converter (5) which are connected via input terminals (6) via a limiting resistor (7) and a switching block (8) to an AC generator (9); parallel to the limiting resistor (7), an evaluation circuit (10) is connected, to whose control input the first logic processor (11) is connected with the first output, the second output is connected to the control input of the switching block (8) and the third logical processor output (11) with time circuits is connected to the input of the sorting device (12).