CS201209B1 - Connection for control of the continuous temperature regulator - Google Patents

Description

The invention relates to a wiring for controlling a continuous temperature controller by means of basic thermocouples with the possibility of setting a set point outside the controller.

Known connection of continuous temperature controllers as a comparator of the diagonal of ironseatstone to the thermoelectric voltage of a pair of PtRh-Pt thermocouples, for example: the TRS-97 ZPA flSSR electronic controller, which is amplified, has the disadvantage of increasing costs PtRh-Pt thermocouple pair used. The sensitivity of such a continuous temperature regulator controlled by a pair of PtRh-Pt thermocouples is at least four times less in the range from C to 4 ° C than when using conventional, less expensive, basic types of thermocouples to the continuous temperature regulator. In addition, it is not possible to set the teploxy setpoint outside the controller.

These described drawbacks of the continuous temperature controller are eliminated by the control circuit according to the invention.

SUMMARY OF THE INVENTION One of the resistors forming one branch of the field is connected to a setpoint potentiometer inlet, the lead of this potentiometer being connected to the first and second supply contacts of the first part of the switch, whose output contact is connected to the other of the resistors. the second branch of the mstic and the slider of the setpoint potentiometer is connected to the first and second contacts of the second part of the switch, its outlet contact is connected to the divider potentiometer

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201 209 thermocouple terminal, the second thermocouple terminal is connected to the second input contact of the fourth switch member and at the same time to the first input contact of the third switch member, its terminal contact being connected to the amplifier input and the fourth contact switch terminal contact connected to the divider potentiometer terminal; the slider is connected to the second lead contact of the third switch portion, one of the resistors forming one string of the channel is connected to one terminal, and the other resistor of the other string is connected to the second terminal and one thermocouple terminal is connected to the third terminal of the connector the contact of the fourth switch member and the first and third lead contacts of the third switch member are interconnected.

The advantage of the proposed wiring is to increase the sensitivity of the control, to make the temperature control more economical and to set the Setpoint on the remote.

An overall schematic for controlling a continuous temperature controller with a different pair of thermocouples and a remote setting is shown in the attached drawing.

The wiring consists of a control thermocouple A connected by terminal 2 to contacts 1 and 3, 2 and 4 of the third III and fourth IV part of switch B and half 6 to contact 2 of second part II switch and B, three-part switch B in contacts 1 and 2 of first I and a second II part connected to potentiometer D, contacts 1 and 2 and 4 of the third III and fourth IV part to pole 2, contacting the first part I to resistor CH and terminal 10, contact 2 of second II and fourth IV part to potentiometer C, contacts 8 of the third part III to the amplifier J; a divider potentiometer C connected to contacts 2 and 4 of the third III. the £ contact of the fourth,

IV of the switch member B and to terminal 6; setpoint potentiometer D connected to contacts 1 and 2 of first I and second II of switch B and Resistor F; remote setpoint potentiometer E connected to terminals 8, 2, 10 of connector L; an amplifier J connected to the bridge K and to the contact 4 of the third part 11I of the switch B; The amplifier J is connected to one part of the diagonal of resistors G and H and the other from resistor k to the tensometer Dik of terminal 9 and from resistor CH to the contact £ of the first part I of switch B i to terminal 10 and connector L connected by terminals 8 to terminal 6 of thermocouple A and 9 and 10 to F. and CH.

The wiring according to the invention operates in such a way that the direct connection of the thermocouple is achieved in the first position of the selector switch 8 when one of the thermocouple terminals 6 is connected via the connected contacts 1 and 2 of the switch B to the slider of the potentiometer D. the connection of which is directly connected to the resistor F and its outlet. Via the connected contacts 1 of the first part I of the switch B to the resistor CH of the coupling K. The second pole 2 of the thermocouple A is connected via the connected contacts 1aj? the third part III of the switch B directly to the amplifier J having a second lead directly connected from between resistors G and H. The voltage of the thermocouple A is thus compared with the voltage of the bridge K set by the slider position D. the amplifier voltage is the output signal for the contactless phase controlled switch. In the second position of the functional switch 5, thermocouple A is first fed from thermocouple A to the divider potentiometer C, where it is adjusted to the necessary input value, which is fed to the controller so that one pole 6 of thermocouple A is connected to the divider potentiometer C and simultaneously the connected contacts 2 and 2 of the second part II of the switch

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B to the slider of the potentiometer D, the input of which is directly connected to the resistor F and the terminal through the connected contacts 2 and fi of the first part I of the switch B to the resistor CH of the bridge K. IV of the switch B with the divider potentiometer C outlet, its slider is connected through the connected contacts 2 and fi of the third part III of the switch B directly but the amplifier J> this has a second lead connected directly from between resistors G and H of bridge K. the thermocouple A adjusts to the operating value of the controller input, the violet operation is the same as in the first position of the functional switch B.

In the third position of the functional switch B aa, the setpoint value is remotely set by a potentiometer E with a direct connection of thermocouple A such that one pole 6 of thermocouple A is connected via terminal 8 to the slider of potentiometer E. The second pole fi of the thermocouple A is connected via the connected contacts fi and fi of the third part of the switch B to the amplifier J, which has a second lead directly between G and H. The voltage of thermocouple A is thus compared by 8 volts jumper K, set by potentiometer slider position E. violet operation is the same as in the first position of functional switch B.

In the fourth position of the function switch B, the setpoint is set by potentiometer E, the thermocouple from thermocouple A is first fed to the divider C, where it is adjusted and fed to the controller so that one thermocouple A terminal 6 is connected via terminal 8 to the potentiometer E the terminal of which is connected via terminal 9 to resistor F and the terminal via terminal 10 of connector L to resistor CH of bridge K. The second pole fi of thermocouple A is connected via the connected contacts 4 and fi of the fourth part IV of switch B to potentiometer C via the connected contacts 4 and fi of the third part III of the switch B, directly from between the resistances G and H of the bridge K. the violet operation is the same as in the second position of the functional switch B.

The circuit according to the invention can be used for continuous control, where the control signal exceeds 16 millivolts.

OBJECT OF THE INVENTION

Claims (2)

OBJECT OF THE INVENTION A wiring for continuous temperature controller control, wherein one DC-bridge of the nheatstone bridge is fed to the amplifier input, characterized in that one of the resistors (F) forming one bridge branch (K) is connected to the setting potentiometer inlet setpoint (D), the output of this potentiometer (D) is connected to the first (1) and second (2) supply contacts of the first part (I) of the switch (B), whose output contact (5) is connected to the second resistor ( OH) forming part of the second bridge branch (K) and the slider (E) of the set point potentiometer (D) is connected to the first (1) and second (2) inlet contacts of the second part (II) of the switch (B); 5) is connected to the divider potentiometer (C) and one thermocouple terminal (6), the second thermocouple terminal (7) is connected to the second (2) input contact of the fourth part (IV) of the switch (B), and at the same time to the first (1) supply contact of the third part (III) of the switch (B), its terminal contact (5) is connected to the input of the amplifier (J) and the terminal contact (5) of the fourth part (IV) of the switch at the outlet of the divider potentiometer (C), whose beSec is connected to the second2) supply contact of the third part (III) of the switch »(B). 2. Connection of control of the continuous temperature controller pcdTa of point 1, characterized in that: With one of the resistors (F) forming one bridge branch (K) is connected to one terminal (9) of the potentiometer (EJ) and the other resistor (CH) of the other branch is connected to the other terminal '(10) of the potentiometer (E) and one terminal ( 6) the thermocouple (A) is connected to the third terminal (8) of the connector (L), the second (2) and fourth (4) supply contacts of the fourth (IV) switch member (B) and the first (1) and third (3) ) the supply contact of the third part (III) of the wash (B) is interconnected.