CS214945B1 - Connection to temperature control option - Google Patents

Abstract

The purpose of the invention is to select cyclic and automatic temperature control with the possibility of time switching. The essence of the invention lies in the fact that one point of one relay is connected to the first part of the switch, a delayed switching contact of one time relay to the second part of the switch, a delayed normally closed contact of one time relay to the third part of the switch, a delayed normally open contact of one time relay to the second and third switches as well as to the contactless thyristor switch and the temperature controller, an instantaneous normally open contact of one time relay to the electromechanical pulse counter, an instantaneous normally open contact of the second time relay to the fourth part of the switch, a second mains connection to the third and fourth parts of the switch, the third contacts of the second and third parts of the switch are connected, one mains connection is connected to the electromechanical pulse counter and to the switching contact of the relay, the switching contact of the electromechanical pulse counter to the second relay, the third part of the switch to the second relay, one normally open contact of the second relay to both time relays and one relay and the electromechanical pulse counter, the second normally open contact of the second relay to contactless thyristor switches and temperature regulator and one part of the switch to one and the other time relay.

Description

The invention relates to a wiring for selecting a temperature control with a time switch option.

The known circuit for cyclic temperature control is selected as a single purpose, not suitable for other types of temperature control as well as without the possibility of time switching.

The above-mentioned disadvantages of cyclic temperature control are eliminated and the proposed use ensures the extension of its use.

SUMMARY OF THE INVENTION One coil point of one relay is connected to a changeover contact of one part of a switch, a delayed changeover contact of one time relay is connected to a changeover contact of another part of a switch, a delayed break contact of one time relay is connected to the fourth switch contact of the third part. switch, delayed switching contact of one timing relay is connected to the fourth switching contact of the second part of the switch and to the first switching contact of the third part of the switch as well as to the contactless thyristor switches and temperature controller. changeover contact of the second time relay is connected to the second to fourth switching contact of the fourth part of the switch, the second mains supply is connected to the switch contact of the third and fourth part of the switch, the third switching contacts of the second and the third part of the switch are connected, one power supply is connected to the changeover contact of the electromechanical pulse counter and to one changeover contact of the second relay , the second make contact of the third part of the switch is connected to the second point of the second relay and the second make contact of this relay, one make contact of the second relay is connected to the second points of the motor and clutch of both , the second changeover contact of the second relay is connected to the non-contact thyristor switches and the temperature controller and the second switch contact of one part of the switch is connected to the motor of one time relay and the instantaneous clock of the second time relay.

The advantage of wiring lies in the fully automated operation of both cyclic and automatic temperature control with the possibility of time-saving, energy-saving.

The attached drawing shows a schematic connection for cyclic control with switching to both automatic and time switching.

The circuit according to the invention consists of a non-contact thyristor switch A connected to the mains as well as switches; a temperature controller B connected to a non-contact thyristor switch; one relay C connected to the other relay i switches; one time relay D connected to the other relay i switches; an electromechanical pulse E computer connected to both the temperature controller and the one-time timer; a second timing relay F connected to the switches; a switch G connected to the mains as well as a temperature controller and a second relay H connected to electromechanical pulse and switch counters.

The connection according to the invention is used according to the selected position of the switch G.

Automatic temperature control takes place in the first position of switch G. The second supply line is connected via the first closed contact of the third part of the switch G to the contactless thyristor switches A and the temperature controller B having one supply line directly connected. These are activated and the individual power inputs are automatically adjusted by the temperature controller B according to the control deviation.

In the second position of the switch G, periodic cyclic regulation takes place. The second supply line is via the second closed contact of the third part of the switch G and the second break and changeover contact of the second relay H connected to the non-contact thyristor switches A and the temperature controller B, having one supply line directly connected. These are activated and at the same time, the second mains supply is fed via the second closed contact of the fourth part of the switch G as well as the instantaneous break and break contact of the second timing relay F as well as the instantaneous break and break contact of one timing relay D to the electromechanical pulse counter. If the network is connected via one NC contact of the other relay H, the computer is activated and counts one pulse. At the same time, from the instantaneous NC contact of the second timing relay F, a second power supply is applied to both the motor and the clutch of one timing relay D as well as through the other closed contact of the first switcher G to one relay C actuated. the changeover contact of one timing relay D, which interrupts the power supply for the pulse counter E. The contacts of one relay C connect to the temperature controller B the potentiometer of the upper cycle limit setting and the potentiometer of the setpoint setpoint of the upper cycle limit. The one-time relay D immediately counts down the set time of one part of the cycle and, after the time has elapsed, the delayed changeover contact of this time relay D switches over. This is the second power supply from the second closed contact of the third switch the changeover contact of one timing relay D as well as the other closed contact of the other part of the switch G for the delayed normally open contact i of the motor and the coupling of the second timing relay F having one mains connection connected via one changeover and break contact of the other relay H. operation and switching its instantaneous changeover contact interrupts the second power supply to the motor and clutch of one timing relay D and one relay C. One timing relay D returns to its initial position, switches both its contacts and disconnected One relay C in its relay. To set the contacts, the potentiometer on the lower cycle limit and the setpoint of the lower cycle limit setpoint are connected to the temperature controller. The second timing relay F immediately counts down the set time of the second part of the cycle and switches over and its delayed changeover contact, interrupts the second motor power supply and the second timing relay clutch F. network to the electromechanical pulse counters E, the motor, the clutch of one timing relay D and one relay C, thus repeating the further operation described above. The second time relay F returns to the initial position and this periodic cycling is repeated until the preset pulse value E is reached in the electromechanical pulse counter E. At this time, a changeover contact is provided in the electromechanical pulse counter E which, via the changeover and switching contact, supplies one mains supply to the other relay H, having a second mains supply connected from the second closed contact of the third switch member G. the switching contact interrupts one mains supply to one and the other of timing relays D and F as well as one relay C and electromechanical computers Ε. In the second switching contact, the second supply line interrupts the contactless thyristor switches A and temperature controller B and the whole device is disabled. The device can be restarted by pressing the reset button of the electromechanical pulse counter E.

In the third position of the switch G there is an automatic temperature control with the possibility of switching on the device in time. The second mains supply is via the third closed contact of the fourth part of the switch G and the instantaneous normally open and normally closed contacts of the second timing relay F are connected to the motor and the clutch of one timing relay D. into operation and immediately counts down the set time, after which elapses its own delayed changeover contact. In the switched-on delayed contact of one timing relay D, the second network supply is applied via the third closed contact of the third and second switch components G and the switching and switching delayed contacts of one timing relay D to the non-contact thyristor switches A and temperature controller B. at the required time until the mains supply to the device is interrupted by the main switch.

In the fourth position of switch G, automatic temperature control takes place with the option to switch the device off in time. The second mains supply is via the fourth closed contact of the third part of switch G i and the break and switch delayed contact of one timing relay D as well as through the fourth closed contact of the second part of switch G connected to contactless thyristor switches A and temperature controller B. The second mains lead is fed through the fourth closed contact of the fourth part of switch G and the instantaneous break and break contacts of the second timing relay F to the motor and clutch of one timing relay D having one mains lead fed through one break and break contact One time relay D is activated and immediately counts down the set time, after passing it translates its own delayed changeover contact, which interrupts the second power supply to the contactless thyristor switches A and the controller. Thus, the automatic temperature control at the desired time is disabled. A further switch-off of the device is effected by interrupting the mains current to the device by the main switch.

The circuit according to the invention can also be used to select the control of other automation devices.

Claims (1)

SUBJECT Temperature control wiring where one power supply is connected to both contactless thyristor switches and temperature controller, one motor and clutch point of one timing relay to the instantaneous normally open contact of the other timing relay, the instantaneous normally open contact of the other timing relay, one point of the motor and clutch of the other timing relay to the delayed break contact of the relay, characterized in that one coil point of one relay (CJ is connected to the changeover contact of one part of the switch (G), delayed changeover contact of one timing relay (D) to the changeover contact of the second switch part (G), the delayed break contact of one time relay (D) is connected to the fourth switch contact of the third switch part (G), the delayed switch contact of one time relay (D) is connected to the fourth switch contact the second part of the switch (G) and the first switching contact of the third part of the switch (G) as well as the contactless thyristor switches (A) and the temperature controller (BJ) instantaneous changeover contact of one time relay (Dj is connected to one point of the electromechanical pulse counter the instantaneous changeover contact of the second timing relay (F) is connected to the second to fourth switching contacts of the fourth switch part (GJ), the third switching contacts of the second and third switch part (G) are connected, one power supply is connected to the changeover contact of the electromechanical pulse counter ) to one changeover contact of the second relay (H), the switch contact of the electromechanical pulse counter (E) is connected to one point of the second relay (H), the second switch contact of the third switch part (GJ is connected to the second point of the second relay) break contact of this relay (H), one break contact the second relay contact (Hj is connected to the second points of the motor and the clutch of one and the other timing relay (DJ and (E) as well as to the other points of one relay (CJ and the electromechanical computer Pulse (Έ)) connected to non-contact thyristor switches (A) and temperature controller (B), the second make contact of one part of the switch (G) is connected to the motor of one time relay (D) and instantaneous make contact of one time relay (D) the switch (G) is connected to the delayed normally open contact of the second timing relay (F) and the second power supply is connected to the changeover contacts of the third and fourth parts of the switch (G).