SU1501190A1 - Temperature-compensated thermal relay with remote correction of activation current - Google Patents

Abstract

The invention relates to electrical engineering. The aim of the invention is to reduce energy consumption from a source of a corrective electrical signal in the zone of the highest sensitivity of the relay to the current of the protected circuit, to increase the reliability of protection and to simplify the design. The relay contains the main thermoelements (HTE) 1 with heaters 2, movable insulating strips 3, lever 4, double-arm lever 5, rod 6 of executive contacts 7, additional temperature-sensitive element (DTE) 8 with additional heater 9, adjusting screw 10, springs 11 and 12. DTE 1 and DTE 8 are set so that their active layers are facing the same direction. DTE 8 also performs the function of a temperature compensator. 1 il.

Description

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The invention relates to electrical engineering, namely to thermal current relays of low-voltage electrical equipment and can be used for thermal protection of low-voltage asynchronous electric motors.

The purpose of the invention is to reduce energy consumption from a source of corrective electrical signal in the zone of the highest sensitivity of the relay to the current of the protected circuit, to increase the reliability of protection and to simplify the design.

The drawing shows the kinematic scheme of the proposed relay.

The relay contains cantilever main thermoelements 1 with heaters 2, streamlined by the current of the protected circuit. With the free ends of thermoelements 1, movable insulating strips 3 are coupled, their tail protrusions resting on the free end of a lever 4 fixed on a fixed hinge, and the opposite side of the tail protrusions of strips 3 pressing the end of a double-arm lever 5, pivotally fixed approximately in the middle of lever 4 .

A rod 6 of actuating contacts 7 is placed near the second end of the lever 5. Parallel to the main thermoelements 1, an additional thermo-bimetallic element 8 is mounted with an additional heater 9. An adjustable screw 10 of the thermoelement plate 8 is installed, the end of which is located near the lever 5, The movement of the end of the lever adjacent to the arms 3 is limited. The levers 4 and 5 are pulled against the tail projections of the planks 3 by the springs 11 and 12, respectively. Thermoel 1ent and 8 are installed so that the active layers of thermo-bimetallic plates (i.e. layers with high temperature coefficients of linear expansion) are turned in the same direction, and when heated, therefore, their movements are directed in one direction.

The relay works as follows. In the initial state of the relay, its actuating contacts 7 are also in the initial position, for example, closed. The current setting is determined by the gap between the lever 5 and the regulator 10. When the ambient temperature changes,

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the bending of thermoelements 1 and the movement of the strips 3, however, the gap between the lever 5 and the regulator 10 remains almost unchanged due to the corresponding bending of the additional thermoelement 8, the regulator 10 is installed at the free end of which the temperature compensation of the relay is achieved. When current flowing through the heaters 2 of the protected circuit, thermo-bimetallic plates of thermoelements 1 are bent to the right, moving the strips 3 and the levers 4 and 5 stuck to the strips. In the absence of overload (the current is less than the set current) in the steady thermal state, the amount of movement of the relay mechanism elements is insufficient to operate executive contacts.

In the event that the current flowing through the heaters 2 exceeds the established operating current, the free ends of the thermoelements 1 move a greater distance, and as they move, the lever 5 abuts against the regulator 10, after which the continued movement of the lever 4 causes the lever 5 to rotate relative to its point touch with the controller. Further movement leads to a selection of the gap between the upper arms of the lever 5 and the rod 6, pressing the rod and triggering the executive contacts. In the event of a phase failure, one of the thermoelements 1 remains in the initial position, and the movement of the other two causes the lever 5 to rotate relative to the lagging back bar, thus achieving an accelerated response when the phase is low.

In the case of applying a correction signal to the heater 9, the thermobimetallic plate of the thermoelement 8 with the regulator fixed on it .10 bends to the right, thus increasing the gap between the plate 8 and the regulator 10, and accordingly, the relay operation current increases. By changing the magnitude of the correction signal, you can set a different sensitivity of the relay to the current of the protected circuit and make the desired correction in its time - current characteristic. The maximum sensitivity of the relay to the current of the protected circuit corresponds to the zero value of the correction signal and

with an increase in the last, the relay actuation current also increases. The advantage of the proposed relay is that in the zone of its maximum sensitivity, the relay is more economical, since it consumes less power from the source of the correction signal. When the corrective signal is broken, the sensitivity of the relay remains unchanged or decreases, i.e. the relay does not lose its protective properties, preventing possible overloads of the protected circuit and signaling with its operation a malfunction, which increases the reliability of motor protection. In addition, the proposed relay is easier to manufacture and configure, since it has less temperature-sensitive links in the kinematic chain that transmits the movement from the main thermoelements to the executive contacts, while more accurate temperature compensation is achieved and the variance of the product characteristics is reduced.

Formula of invention

Temperature-compensated thermal relay with remote core

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The response of the pickup setpoint, containing thermoelements with heating elements, thermo-bimetallic thermocompensator, actuating contacts, moving elementsJ transmitting movement from thermoelements to actuating contacts, remote setpoint regulator in the form of an additional correcting thermoelement with an additional heater, kinematically connected to actuating contacts , the additional heater of which is connected to the source of the corrective electrical signal, characterized in that To reduce energy consumption from the source of the corrective electrical signal in the zone of the highest sensitivity of the relay to the TOKS of the protected circuit, increase the reliability of protection and simplify the design, the additional correction thermoelement is made in one piece with the thermo-bimetallic thermocompensator in the form of one thermoelement, and the thermoelements are installed so that additional thermoelements when they are heated are directed in one direction.

Claims (1)

Claim Temperature-compensated thermal relay with remote correction of the setting of the operating current ', ^x containing thermocouples with heaters, thermo-bimetal thermocompensator, actuator contacts 5 you, movable elements transmitting movement from thermocouples to executive contacts, a remote setpoint regulator in the form of an additional corrective thermocouple with an additional heater ,. kinematically connected with the executive contacts, the additional heater of which is connected to the source of the correcting electric signal, characterized in that, in order to reduce the energy consumption from the source of the correcting electric signal 2Q in the zone of the maximum sensitivity of the relay to the τοκγ of the protected circuit, to increase the reliability of protection and simplify the design , an additional corrective thermocouple is made in 25 in one piece with a thermo-bimetal thermocompensator in the form of one thermocouple, and a thermocouple The cops are set so that the movements of the main and additional 3Q thermocouples when they are heated are directed in one direction.