CS215445B1 - Involvement in decimal time countdown with plant equipment - Google Patents

Abstract

Connection for decimal time countdown by operation equipment. It relates to the field of control technology. The purpose of the invention is to count the actual operating time of a mains-powered appliance with the possibility of automatic shutdown, thereby saving electrical energy. The essence of the invention lies in connecting the switching contact of the third relay to the pulse counter input, one output of the switch to the switching contact of the pulse counter, the opening contact of which is connected to a diode, a third relay, a power element and a temperature controller.

Description

The invention relates to the connection to a precise decimal countdown of the operating time with automatic operation equipment.

When operating an electroheat system, it is necessary to check the operating time of the actual operating condition at any time, even with a power failure, and to automatically shut down the plant at the required time from operation. Known for decimal time deduction: AO 193 191 has the main drawback of not automatically shutting down the plant, causing considerable time variation, failure rate and noisy operation.

The aforementioned drawbacks are eliminated by the inclusion of a decimal countdown of the time and equipment of the invention.

The essence of the invention is that the switching contact of the third relay is connected to the input: the pulse computer, one switch terminal is connected to a pulse computer changeover contact, whose break contact is connected to the diode and the third relay switching contact and one point of the power member as well as the controller temperature. The advantage of wiring is the deduction of the actual operating state with the possibility of zeroing and reused to deduct from the electricity saving.

In the attached drawing, there is an overall connection of the decimal countdown timer with the plant equipment.

The connection according to the invention consists of an inlet 1 connected to the switches; a switch 2 connected to the pulse computers; a diode 3 connected to one and the other resistor, one resistor 4 connected to one potentiometer 6, a second resistor 5 connected to a second potentiometer 7, one potentiometer 6 connected to one remote 12 and one capacitor 8, a second potentiometer 7 connected to a second remote 13 a second capacitor 9, one capacitor 8, connected to the switches, a second capacitor 9 connected to the switches; a third resistor 10i connected to one capacitor; a fourth resistor 11 connected to the second capacitor; one diacid 12 connected to the second relay; the second remote 13 connected to the third relay! a second relay 14 connected to the switches; a third relay 15 connected to the switches of one relay 16 connected to the second and third relays, to both the third and fourth resistors; a pulse computer 17 connected to both the diode and the third relay; a power member 18 coupled to the pulses of both the temperature controller and the temperature controller 19 connected to the switches. The connection according to the invention works in such a way that the supply! 1 is supplied to the power supply line:

Claims (2)

OBJECT 1. Connecting to a decimal time countdown with a plant equipment where the mains supply is connected to the 215445 member 18. On the pulse computer 17, a desired preset value is set and the switch 2 is energized via the associated break contact of the pulse computer 17 to the power member 18 and the controller 19 the temperature which is actuated and the power is controlled by the temperature controller 19j. At the same time, this line voltage is applied to timing circuits where one capacitor 8 is charged through diode 3, one resistor 4 and one potentiometer 6. After reaching the switching voltage of one remote 12, the charge portion of one capacitor 8 is discharged to the coil of the second relay 14 which is energized for a moment and energized to one relay 16 by switching the switching contact. In the first interleaved contact of the relay 16, the relay is held in further operation, in the second and translated contacts, a third discharge resistor 10 is connected to one capacitor 8 and the fourth discharge resistor 11 is disconnected from the second capacitor 9, the second resistor 5 is simultaneously connected via the diode 3 and second ; the potentiometer 7 charges the second capacitor 9. After the switching voltage of the second remote 13 is reached, the charge portion of the second capacitor 9 is discharged to: a coil of the third relay 15, which is energized at the moment of tripping 1 I and the opening of the break contact is interrupted by the circuit 1 of one relay 16, and joining | the switching contact of the third relay 15 is a voltage pulse applied to the pulse computer 17 which counts one pulse. In the first contact 16 of the relay 16, the voltage supply for the relay is interrupted, in the second relay contact 16 the fourth discharge resistor 11 is connected to the second capacitor 9 and disconnected; the third discharge resistor 10 of the resistive capacitor 8 and the next described transition periodically repeats until the number of pulses (transmitted by the third relay 15) reaches the preset value of the pulse computer 17, when its changeover contact is switched to interrupt the mains supply to the diode 3 and power member 18 and a temperature controller 19, whereby the entire apparatus is; decommissioned. Turning off switch 2 puts the device in a rest position. Next! operation may be indicated by zeroing; The computer 17 is pulsed. i If automatic operation is not required, an infinite preset time is set on the pulse computer 17 and the device is activated by turning the switch 2 on. Its function has been described. Switching off the switch 2 can bring the device to the rest position at any time. The correct time period of one tenth of the clock is set by one and the other potentiometer: 6 and 7. and the operation of all appliances operated from the network. BACKGROUND OF THE INVENTION For switches, a temperature controller switch, a diode as well as one and two resistors, one resistor to a single potentiometer, a second resistor to a second potentiometer, one potentiometer to one remote and one capacitor, a second potentiometer to a second remote and a second capacitor, one and the other capacitor to the switches, the third resistor to one capacitor, the fourth resistor to the second capacitor, one to the second relay, the second to the third relay, the second and third to capacitors, one relay to the second and third relays, and the third and fourth resistors a pulse computer 1 215445 to the switches and a power member to the temperature controller, characterized in that the switching contact of the third relay (15) is connected to the input of the pulse computer (17), one switch of the switch (2) is connected to the switching contact of the computer (17) ) pulses when the NC contact is connected to the diode (3) and to the third relay switching contact (15) ) and to one point of the power member (18) as well as to the temperature controller (19). drawing 215 445 Printed by Moravian Printing Works, provos 12, Leninova 21, Olomouc Price: 2.40 Kés