CS269057B1 - Device Master Switch Circuit - Google Patents

Abstract

The circuit prevents the main switch of the device from being locked in the on position, e.g. during maintenance, repair, etc. This is achieved by connecting a sequencer between the locking button and the control circuits of the main contactor or circuit breaker, connected simultaneously to the central button and to the supply voltage source.

Description

The invention relates to a main switch circuit of a machine or device, comprising a locking button, a main contactor and a supply voltage source.

According to current generally known requirements, it is necessary to ensure that the main switch of the machine or device is switched off when cleaning, maintaining and repairing electrically powered machines and devices.

In the known solution using a locking button, connected in the voltage coil of the main contactor or circuit breaker, this requirement cannot be strictly met, because the solution of the locking button allows it to be locked in the switched-on state of the main switch. This does not make it possible to completely reliably secure the switched-off state of the machine or device. In practical embodiments, this deficiency is solved by attaching a label under the locking button with the inscription, for example, “Do not lock in switched-on state!”, which is an insufficient measure and does not eliminate the factor of human error.

The invention aims to eliminate the above-mentioned deficiency by supplementing the main switch circuit with a suitable circuit that does not allow the machine or device to be started even if the locking button is locked in the switched-on state of the machine or device.

The essence of the invention lies in the fact that a sequencer is connected between the locking button and the control circuits of the main contactor or circuit breaker, connected simultaneously to the central button and to the supply voltage source.

Another feature is that the sequential automaton is made up of a memory, to whose inputs the locking button and the central button are connected, with flip-flops.

An example of a circuit of the main switch of the device is described below based on the attached drawings, where Fig. 1 is a block diagram of the circuit and Fig. 2 is a more detailed connection of the sequencer in the circuit.

The locking button χ is connected to the address input A4 and the central button* £ to the address input A3 of the sequential automaton 2.. The output Y3 of the sequential automaton £ is connected to the control circuit J of the main switch 7,. the locking button X is connected by its second terminal to the supply voltage source 6, as well as the resistor <?, through which the capacitor is charged.8. The supply voltage source £ also serves to power the circuits 10 • 11 of the sequential automaton 2. The main switch of the machine 4. is included in the supply line 12 of the controlled device 13.

The sequential automaton 2. contains a memory circuit 10 with address inputs AO. AI. A?. A3, A4 and outputs Yl. Y2. Y3« in which the program of control of the sequential automaton 2_ is stored depending on the logical values at the individual address inputs. The flip-flops 11 with inputs Dl and D2 and outputs QI and Q2 perform the function of a buffer memory of the internal states of the sequential automaton 2, which are generated by outputs Yl and Y2 of the memory circuit 10 according to the inserted program. These states are overwritten from inputs Dl and D2 to outputs QI and Q2 connected β by address inputs Al and A2 of the memory circuit 10 in the time intervals of clock pulses fed to input £ of the circuit 11 from the clock pulse source 14 in the time intervals of clock pulses fed to input £ of the circuit 11.

The state of the output Y3 of the sequential automaton £ is programmatically derived from the time sequence of the input quantities at the inputs A3 and A4. The input quantity of the input A4 is the supply voltage from the output of the source £, fed to the input A4 via the locking button χ. The input quantity of the input A3 is derived from the source £ of the supply voltage so that the presence of the supply voltage at the input A3 is time delayed by the RC element formed by the resistor £ and the capacitor £.

CS 269 057 Bl

Disconnecting the controlled device 13 from the power supply network 12 will allow the connection of the contacts of the central button 2, which will bring the address input A3 of the memory circuit 10 to the logical zero state. The sequencer 2 ensures the disconnection of the contacts of the main switch 7 via the output Y3 via the control circuit J.

Claims (2)

SUBJECT OF THE INVENTION 1. A circuit of the main switch of a device, comprising a locking button, a central button, a sequencer, a main switch and a supply voltage source, characterised in that a sequencer (2) is connected between the locking button (1) and the control circuits (3) of the main switch (7), connected simultaneously to the central button (5) * to the supply voltage source (6). 2. The circuit according to item 1, characterized in that the sequential automaton (2) is formed by a memory circuit (10), to whose address inputs the locking button (1) and the central button (5) are connected, and whose outputs (Yl, Y2) of the internal state are connected to the inputs (Dl, D2) of the flip-flops (11) and whose control output (Y3) is connected to the control circuit (3), while the outputs (QI, Q2) of the flip-flops (11) are connected to the address inputs (A1, A2) of the internal states of the memory circuit (10).