RU189662U1 - Thermal release - Google Patents

Abstract

The utility model relates to electrical engineering, in particular to electrical equipment, and can be used for thermal current splitters of low-voltage switching devices. The required technical result, which consists in expanding the arsenal of technical means used for thermal current release of three-phase low-voltage switching devices and providing more accurate and more reliable operation while improving adjustment accuracy and reducing setup time, is achieved in a device containing a thermal release case at the bottom which are fixed contacts of the respective phases of the three-phase circuit, the emergency shutdown rail, the housing installed in the slots and the thermal release in its upper part, as well as three actuators placed successively along the axis of the thermal release case equipped with end stops and equipped with adjusting bolts designed to adjust the distance from the contact ends of the adjusting bolts to the corresponding inclined area on the emergency shutdown rail devices of a three-phase circuit and mechanical action on inclined areas on the emergency shutdown rail bimetallic plates connected to the fixed power contacts of the respective phases of the electric circuit, as well as two adjusting units fixedly mounted in the upper part of the thermal release casing and configured to adjust the position of the emergency-off rail using positioning bolts installed in the slots of adjusting units 3 il.

Description

The utility model relates to electrical engineering, in particular, to electrical equipment, and can be used for thermal current release of low-voltage switching devices.

Known thermal maximum current splitter [RU 2464666, C2, H01H 71/16, 10/20/2012], containing a thermo-bimetallic element, on the free end of which an adjusting unit is installed, acting on the rail of the automatic tripping mechanism of the automatic switch and made in the form of a lever, one end of which rigidly fixed at the free end of the thermo-bimetallic element, and the second end, which provides an effect on the rail of the free tripping mechanism, is bent along the radius.

A disadvantage of this device is the relatively low reliability and accuracy of operation, due to the complexity of its fine tuning.

Also known thermal circuit breaker current circuit breaker [RU 83360, U1, H01H 71/16, 05/27/2009] containing a thermo-bimetallic element U-shaped, at the free end of which is set the adjusting screw and the stop, through which the impact on the breaking rail of the mechanism and which is used to adjust the thermal current release, at the same time, the lock nut located on the screw is attracted to the thermo-bimetallic element.

A disadvantage of this device is also a relatively low reliability and accuracy of operation, due to the complexity of its stable fine tuning.

In addition, a thermal release [RU 158251, U1, H01H 71/16, 12/27/2015] is known, which contains a bimetallic plate adapted to contact with the tripping mechanism and which is rigidly fixed at one end to a contact strip made with L-shaped bends the upper and lower parts and mounted on the U-shaped metal bracket, to which is attached the fixed power contact of the circuit breaker.

This device is also characterized by relatively low reliability and accuracy of operation, due to the complexity of its stable fine tuning.

The closest in technical essence to the proposed is a thermal release [EN 159896, U1, H01H 71/16, 20.02.2016], which contains a thermal element with an adjusting unit installed on its free end, which is equipped with an adjusting element and a locknut and is designed to interact with the emergency shutdown rail of the mechanism of free tripping of the switching device and changing the time of the thermal release testing, while the adjusting element is designed with the possibility of its smooth axial movement fine thread pitch, counteraction to self-unscrewing and fine adjustment of the thermal release; moreover, in the upper part of the adjusting element there is a slot for a screwdriver, and the lock nut is made with the possibility of fixing the element after the adjustment work, while the thermal element is made of a material with elastic deformation properties in a certain direction when it is heated and return to its original position after it cools.

The disadvantage of this device is relatively low reliability and accuracy of work, due to the complexity of its stable fine tuning for three-phase circuits, which, moreover, takes a relatively long time. This is due, in particular, to the fact that the rail of the mechanism of free tripping of a three-phase circuit breaker in its dimensions significantly exceeds similar rails for single-phase circuits, which makes it difficult to ensure the accuracy and reliability of tripping.

The task, which is solved in the utility model, is to expand the arsenal of technical tools used for thermal current release of three-phase low-voltage switching devices and providing more accurate and more reliable operation while improving adjustment accuracy and reducing setup time.

The required technical result is to increase the accuracy and reliability of the switching device.

The task is solved, and the required technical result is achieved by the fact that the thermal release includes a thermal release case, in the lower part of which there are stationary contacts of the corresponding phases of the three-phase circuit, an emergency-off rail, configured to control the free tripping mechanism of the switching device of the three-phase circuit and installed in the slots the thermal release case in its upper part, as well as three actuators placed successively along the equipment Nozzles with an axis of the thermal release casing and equipped with adjusting bolts for adjusting the distance from the contact ends of the adjusting bolts to the corresponding inclined area on the emergency shutdown rail of the three-phase circuit switching mechanism and mechanical impact on inclined areas on the emergency shutdown rail under the action of bimetallic plates connected to the fixed power contacts of the respective phases of the electrical second circuit at currents in the respective phases exceeding the maximum set value, as well as two adjusting unit fixedly installed in the upper portion of the housing of the thermal trip unit and configured to adjust the position of the rack emergency shutdown via positioning screws mounted in grooves adjusting blocks.

The drawing shows a thermal release:

in fig. 1 - thermal release assembly, front view;

in fig. 2 - thermal release case;

in fig. 3 - thermal release assembly, rear view.

In the drawing indicated:

1 - thermal release case;

2 - emergency shutdown rail, made with the ability to control the mechanism of free tripping of the switching device of a three-phase circuit;

3 - fixed contacts of the respective phases of the three-phase circuit, located in the lower part of the thermal release case;

4 - axis of the thermal release case;

5 - end stops;

6 - executive elements;

7 - adjusting bolts;

8 - inclined areas on the emergency shutdown rail;

9 - bimetallic plates;

10 - adjusting blocks.

The thermal release includes a housing 1, in the lower part of which there are stationary contacts 3 of the respective phases of the three-phase circuit.

In addition, the thermal release contains emergency shutdown rail 2, configured to control the free tripping mechanism of the three-phase switching device and installed in the slots of the thermal release case 1 in its upper part, as well as three actuating elements 4 arranged in series along the end of the axis 5 6 bodies of the thermal release and equipped with adjusting bolts 7, designed to adjust the distance from the contact ends of the adjusting bolts 7 to the corresponding inclined area 8 on the rail 2 of the emergency disconnection of the free-tripping mechanism of the three-phase circuit switching device and mechanical impact on the inclined areas 8 on the emergency-rail 2 by the action of bimetallic plates 9 connected to the fixed power contacts 3 of the respective phases of the electric circuit at currents in the corresponding phases exceeding the maximum specified values.

The thermal release also contains two adjusting units 10 fixedly mounted in the upper part of the thermal release case 1 and configured to adjust the position of the emergency-off rail 2 using positioning bolts 11 installed in the slots 12 of the adjusting units 10.

Thermal release works as follows.

In the presence of current corresponding phases exceeding the maximum set values, the bimetallic plates 9 lead to the deviation of the actuating elements 4, which, through the adjusting bolts 7, shift the emergency-disconnecting rail 2 of the tripping mechanism of the three-phase switching device.

To adjust the thermal release, the adjusting bolts 7 themselves, as well as the positioning bolts 11, installed in the slots of the 12 adjustment blocks 10, are used.

Thus, the proposed device achieves the required technical result, which consists in expanding the arsenal of technical tools used for thermal current release of three-phase low-voltage switching devices and providing more accurate and more reliable operation with simultaneous increase in adjustment accuracy and reduction in setup time. Ensuring a more precise setting is realized through the use of two adjustment blocks, with which help produce a more precise adjustment without activating the adjustment bolts. This reduces set-up time and provides higher accuracy.

Claims (1)

A thermal release, comprising a thermal release case, in the lower part of which there are stationary contacts of the respective phases of the three-phase circuit, an emergency-off rail, configured to control the free tripping mechanism of the three-phase switching device and installed in the slots of the thermal release case in its upper part, as well as three actuators placed in series along the axis of the thermal release body equipped with end stops and equipped with adjustable alignment bolts designed to adjust the distance from the contact ends of the adjusting bolts to the corresponding inclined area on the emergency shutdown rail of the three-phase switching device’s tripping mechanism and mechanical impact on the inclined regions on the emergency shutdown rail under the action of bimetallic plates connected to the fixed power contacts of the corresponding electrical phases circuits with currents in the corresponding phases exceeding the limit values cheniya and two adjusting unit fixedly installed in the upper portion of the housing of the thermal trip unit and configured to adjust the position of the rack emergency shutdown via positioning screws mounted in grooves adjusting blocks.

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