RU1808146C - Automatic switch - Google Patents

Abstract

The invention can be used to protect electrical circuits from overcurrent and short circuit currents. The essence of the invention lies in the fact that the frame and core of electromagnetic current releases, thermal current releases, screws for calibrating thermal releases. arcing chambers are installed in the lower part of the insulating casing, and a trip rail, screws and springs for calibrating electromagnetic current releases are installed in the upper part of the insulating casing from the side of the lid mounting. Such installation of elements allows to increase manufacturability. 3 ill.

Description

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The invention relates to electrical engineering, in particular to low voltage circuit breakers designed to protect electrical circuits from overload currents and short circuits.

The purpose of the invention is to improve manufacturability.

Fig. 1 shows a circuit breaker in a closed state in a section along the pole; Fig. 2 is a sectional view of the assembly with the upper part of the housing (cover removed, mechanism disengaged); in Fig.Z is a section of a node assembly with the lower part of the housing.

The circuit breaker contains an insulating casing consisting of two mechanically connected upper 1 and lower 2 parts mounted one on top of the other, coupled along line 3 in parallel

switch mounting planes 4. Each of the parts 1 and 2 has a bottom 5 and 6, respectively, also with a parallel arrangement relative to the plane 4 of the mounting of the switch. On the upper part 1 of the casing, an insulating cover 7 is fixed, under the cover on the bottom 5 of the upper part 1, a free-release mechanism 8 is fixed, comprising a disengaging lever 9 which engages with a latch 10. Which, in turn, engages with the release -. with the mounting rail 11. The free trip mechanism 8 is provided with operational springs 12. The screw 13 and the torsion spring 14 interacting with it are used to calibrate the setpoint for the operating current of the electromagnetic maximum current release. The insulating shaft 15 is connected to the mech.

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MOM 8 free trip. By means of a hinge 16, the insulating shaft is connected to the contact holder 17, inside which a spring 18 is placed, which creates a pressure on the movable contact 19. made, for example, in the form of a contact bridge, also placed in the contact holder 17. The contact holder passes through the hole 20 in the bottom 5 , exit to the back of this bottom. Arcing chambers 21 are placed on the back of the bottom 5 inside the lower part 2 of the casing 21. On the lower part 2, fixed contacts 22 and 23 are mounted, the maximum thermal current release, made in the form of a thermobimetallic plate 24, one end of which is rigidly connected to the fixed contact 23. The thermobimetallic plate 24 is connected by a flexible conductor 25 to a terminal 26 having a groove 27. A terminal 28 is mounted on the terminal 26 for connecting external conductors. A terminal 30 is installed on terminal 29 of the fixed contact 22. The maximum electromagnetic current release consists of a core 31, the end of which is spring-loaded with a spring 14, and a frame 32. A screw 33 is installed in the frame 32. It interacts with the thermo-bimetallic plate 24. In the bottom 5 of the upper part 1 a hole 34 is made at each pole in the housing, into which the spring-loaded end of the core 31 is inserted so that it can interact with the trip rail 11, and a thermo-bimetal plate 24 is inserted so that its free end 35 is positioned with a gap A against one hundred possible of its interaction with the trip rail 11.

The thermal overcurrent release is calibrated to a predetermined trip setting by moving Screw 33, thereby moving the free end 35 of the thermobimetal plate 24 by changing the gap A. The groove 27 in terminal 26 provides access to the screw 33 during calibration. For manual operation, the switch is provided with a handle 36.

The switch operates as follows.

When the state is on, the movable contacts 19 close the electric circuit between the fixed contacts 22 and 23. The contact pressing is created by the springs 18. The handle 36 is in the extreme left position (see Fig. 1).

When an overload current occurs in the electric circuit, the thermobimetal plates 24 bend toward the trip rail 11 under the action of the heat generated in them when the overload current flows, expose the free rail 35 to the trip rail 11 and turn it counterclockwise so that the rail 11 trips with the latch 10, and therefore, the release of the latch 10 with the release lever 9.. Under the action of the operating springs 12, the release lever 9 is rotated counterclockwise, the insulating 15, pivotally associated with the mechanism 8

free disengagement, also rotates counterclockwise, entraining contact holders 17 together with movable contacts 19. Formed between movable 19 and fixed

5 22,23 contacts the electric arc floats into the arcing chambers 21 and There is an opening of the electric circuit and pi. The handle 36 changes its position, indicating that

0 auto shut off.

When occurring in the electric c. short-circuit feed under the action of electrodynamic forces, the moving contacts 19 are ugly from the stationary

5 contacts 22 and 23. The electric arc formed between the interrupted contacts quickly enters the arcing chambers 21 and goes out. At the same time, the electromagnetic maximum current release trips. Its core 31 is quickly attracted to the frame 32. a blow with its end entering the hole 34 against the trip rail 11 and turning it counterclockwise. Further, the process of operation 5 of the free trip mechanism 8 occurs as described above. Carried by the mechanism of the contact holders 17 prevent the rotational closure of the discarded moving contacts

0 19 with fixed contacts 22 and 23. To turn on the circuit breaker after automatic shutdown, it is necessary to cock the free trip mechanism, i.e. engage latch 10 with releasable

5 by the rail 11 and the uncoupling lever 9. For this, the handle 36 must be moved to the extreme right position, after which the handle 36 is moved to the extreme left position

0 on.

For operational, i.e. manual (manual) shutdown, it is necessary to move the handle 36 to the extreme right position. In this case, to perform step 5 of the next switching operation, the platoon of the free trip mechanism is not required.

Thus, in comparison with the prototype, the inventive device provides an increase in manufacturability due to

rational arrangement of parts and assemblies on separate parts of the case, good access with the assembled circuit breaker with the cover removed to the adjustment (calibration) devices of the maximum current releases, as there is good access for measurement and control by any means (including visual) the gaps between the free ends of the thermobimetal plates and the trip rail.

The form of the invention: A circuit breaker comprising an insulating casing, consisting of two mechanically connected parts mounted on top of each other, mating parallel to the plane of attachment of the circuit breaker, each of the parts of the insulating casing having a bottom also parallel the mounting plane of the circuit breaker, on the upper part of the insulating casing an insulating cover is fixed, under the cover on the bottom of this part there is a free-release mechanism and kinematically connected with it common to all of the switch contacts, an insulating shaft, on which are pivotally mounted. pole contact holders that go through the openings on the back side of the bottom, springs and a movable contact are installed in each contact holder, a trip rail common to all poles, which can be engaged with the mechanism latch free trip, in addition, the circuit breaker contains at each pole fixed contacts, electromagnetic maximum current releases, each of which contains PMO, core, spring and screw for gauge settings, thermal maximum current releases, each of which contains a thermo-bimetal plate rigidly connected at one end to the current-carrying part of the fixed contact, screws for calibrating thermal maximum current releases, terminal leads for connecting external conductors, terminals, arcing chambers characterized in that, in order to improve manufacturability, the fixed contacts, the frame and the core of the electromagnetic maximum current releases, heat new maximum releases, screws for calibrating thermal maximum current releases, terminals for clamps to connect external conductors, clamps, arcing chambers are installed in the lower part of the insulating casing, and a trip rail, screws and springs for calibrating electromagnetic maximum current releases are installed in the upper part of the insulating of the housing on the side of the lid attachment, additional holes are made in the bottom of the upper part of the insulation housing, into which the ends of the core can be inserted Stu reacting with said springs, and the free ends termobimetallicheskih plates, wherein the ends of anchors and plates termobimetallicheskih administered to cooperate with the tripping rack.

Figure 2

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