JPH0621160Y2 - Release type electromagnetic trip device for circuit breaker - Google Patents

Description

[Detailed Description of the Invention] [Industrial field of application] The present invention is used in a release type electromagnetic trip device for a circuit breaker, particularly an earth leakage circuit breaker, and is a release type electromagnetic trip device that responds to an electric signal of a small force with high sensitivity. It relates to the removal device.

[Conventional technology]

A conventional release type electromagnetic trip device for a circuit breaker of this type will be described with reference to FIGS. The overall configuration of this device is the fourth
FIGS. 7 to 7 are used, and the release type electromagnetic device therein is shown in FIG.
Each will be described with reference to FIGS.

8 to 13, (1) is a yoke formed by forming a magnetic plate in a U shape, (2) is an electromagnetic coil installed in the yoke (1), and (3) is a yoke (1). A permanent magnet fixed to the U-shaped bottom surface, (4) is a movable iron core reciprocally inserted inside the electromagnetic coil (2), and is always attracted to the fixed iron core (5) by the permanent magnet (3). There is. (5
a) is an attracting surface of a fixed iron core (5) located inside the electromagnetic coil (2), (6) is a yoke piece crimped to the yoke (1), and the electromagnetic coil (2), the permanent magnet (3), and the fixed Fix the iron core (5) to the yoke (1). (7) is a support member made of a non-magnetic material, and the electromagnet parts (1) to (6) described above.
Are crimped by the yoke (1). Reference numeral (8) is a slider that is movably supported on the side opposite to the side where the yoke (1) of the support member (7) is crimped, and has a rivet escape hole (8a) and both sides of this hole (8a). The long hole (8b) and the long groove (8c) connected to each other, and the slide side portion (8d)
A protrusion (8e) for engaging the spring, and a guide hole (8f)
And an end face (8 g) are formed. (9) is a shaft part fixed to the support member (7), (10) is a U-shaped plate rotatably mounted on the shaft part (9), one of which is a cut groove (4a) of the movable core (4). ) By means of a stop pin (4b) and the other engages with the end face (8g) of the slider (8). Reference numeral (11) is a torsion spring in which one is supported by the support member (7) and the other by the plate (10), and has a very weak spring force that assists the movement of the movable core (4) at the time of reset. Reference numeral (12) is a release spring composed of a torsion spring, one of which is supported by the support member (7) and the other by a protrusion (8e). The movable spring (4) and the slider (8) are constantly released in the direction (arrow (A)). Direction). (13), (14) and (15) are support members (7)
The rivet (13) is engaged with the slide side portion (8d) of the slider (8), and the rivets (14) and (15) are elongated holes (8b) of the slider (8). The long grooves (8c) are engaged with each other. (1
6) is a button holder that is movably supported by the support member (7) inside the slider (8), and includes a cut groove (16a),
It has (16b). (17) is a button holder (1
6) A release indication button attached so that it can move up and down,
(18) is a button holder (16) and a release indication button (1
Even if the release indicator button (17) is pressed from above in the reset state, the button holder (16) contracts so that the button holder (16) can operate normally with the push-fit spring mounted between the button holder and (7). Reference numeral (19) is a connecting member provided on the button holder (16) and is a guide inclined hole (8f) of the slider (8).
Engage with. Reference numerals (20) and (21) denote rivets provided on the support member (7), which are cut grooves (16) of the button holder (16).
a) and (16b) are respectively engaged. Reference numeral (22) is a holder spring for constantly urging the button holder (16) in the releasing direction (upward).

4 to 7, (23) is a mounting base on which the release type electromagnetic devices (1) to (22) are installed, and the supporting member (7) is fixed. (24) is the mounting base (2
The link mounting frame fixed to 3), (25) is a link rotatably mounted to the link mounting frame (24) by the link pin (26), and one end (25a) is the arm portion (8A) of the slider (8). It is engaged and driven counterclockwise by the slider (8). (27) is a pin hole provided at the other end of the link (25), (28) is a pin fixed to the pin hole (27), (29) is a roller rotatably held by the pin (28), Reference numeral 30) is a fan-shaped long hole provided in the middle part of the link (25), and the rotation angle of the link (25) is set by engagement of the frame pin (24a) of the link mounting frame (24).
(31) is a trip bar of the circuit breaker, which is designed to trip when the circuit bar is rotated.

Next, the operation will be described. Now, when a predetermined current is applied to the electromagnetic coil (2), it acts so as to cancel the magnetic force of the permanent magnet (3) to reduce the attraction force to the movable iron core (4). When the attraction force decreases, the movable iron core (4) loses the force of the release spring (12) and is released from the attracted state, and moves together with the slider (8) in the arrow (A) direction in the figure. At this time, the arm portion (8A) of the slider (8) engages with one end (25a) of the link (25) to rotate the link (25) counterclockwise, so that the roller (29) of the link (25). Engages the trip bar (31) to rotate the trip bar (31). Guide holes (8
Since the connecting member (19) at the lower part of f) slides on the inclined guide surface of the guide hole (8f) by the movement of the slider (8) and moves to the upper part, the release indication button (17) is moved by the holder spring (22). It rises with the button holder (16) and projects to the release position as shown in FIG.

Next, at the time of resetting, the trip bar (31) and the slider (8) are operated in the direction of the arrow (B) in the figure, so that the movable iron core (4) is moved by the movement of the slider (8).
The force of the release spring (12) is not applied, and the initial movement is assisted by the twisting spring (11), and the movable iron core (4) is attracted by the permanent magnet (3) to be in an attracted state. Further, the slider (8) moves in the direction (B) opposite to the arrow (A), so that the connecting member (19) also slides down the inclined guide surface of the guide hole (8f) against the holder spring (22). The release display button (17) is also reset to the original position as shown in FIG.

[Problems to be solved by the device]

In the conventional release type electromagnetic trip device for circuit breaker as described above, since there is a space (L) between the arm portion (8A) of the slider (8) and the link pin (26), the operation of the slider (8) Sometimes slider (8) releases spring (12)
When the arm portion (8A) is lowered by receiving the rotational moment in the direction of the arrow (C) due to the spring force of the arm and the like, as shown in FIG. 6, the engagement point (a) between the arm portion (8A) and the link end (25a). And the distance from the center of the link pin (26) (l ₁ )
Becomes smaller, and therefore the force (P) for rotating the link (25) becomes smaller. The rotational force (P) at this time is obtained by the product of the load (P ₀ ) by the release spring (12) and the distance (l ₁ ). Therefore, in order to obtain the rotation moment from the slider (8) for rotating the trip bar (31) by the link (25), the distance (l ₁ ) becomes smaller and the force (P) becomes smaller. The device had to be designed and manufactured, and there was a problem that the device became large.

This invention was made in order to solve such a problem.By preventing the arm part of the slider from lowering during slider operation, effective rotation force is generated from the slider to the link, and the device becomes larger. The purpose is to obtain a release type electromagnetic trip device for a circuit breaker that can be blocked.

[Means for Solving the Problems]

In order to achieve the above object, a release type electromagnetic trip device for a circuit breaker according to the present invention forms an outer diameter portion on a link pin that abuts an arm portion of a slider, and the outer diameter portion prevents the arm portion from lowering. It is intended to guide you.

[Action]

In this invention, since the arm portion of the slider is guided by the outer diameter portion of the link pin, the rotating force of the arm portion due to the spring force of the release spring is received by the outer diameter portion of the link pin and the arm portion does not lower.

〔Example〕

An embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a front view, FIG. 2 is a front view showing a trip state, and FIG. 3 is an exploded perspective view of essential parts. . In the figure, (26A) is a link pin, and has an outer diameter portion (26a) that comes into contact with the lower surface of the arm portion (8A) of the slider (8). The outer diameter portion (26a) has a large outer diameter dimension that abuts the lower surface of the arm portion (8A) in the assembled state. The link pin (26A) has a fixed shaft portion (26b) which is caulked in the hole (24b) of the link attachment frame (24) and a support shaft portion (26c) which penetrates the hole (25b) of the link (25). Have

When the outer diameter portion (26a) is formed on the link pin (26A) in this way, the outer diameter portion (26a) can receive and guide the lower surface of the arm portion (8A) of the slider (8), so that the slider The arm portion (8A) does not lower due to the spring force of the release spring (12) during operation. Therefore, as shown in FIG. 2, the distance (l ₂ ) between the engagement point (b) between the arm portion (8A) and the link end (25a) and the center point of the link pin (26A) is the same as the conventional distance (l ₁ ). Force (P) to rotate the link (25)
Grows.

The link (25) is provided with the fan-shaped long hole (30) as in the above embodiment.
By engaging with the frame pin (24a) by the above, the link (25) can be positioned and held before being incorporated into the circuit breaker, which facilitates the incorporation into the circuit breaker, and the trip bar (31) overruns. At this time, the link (25) can be locked and positioned.

[Effect of device]

As described above, according to the present invention, since the arm portion of the slider does not lower when the slider operates, an effective rotational force is generated from the slider to the link, and it is possible to prevent the device from becoming large.

[Brief description of drawings]

FIG. 1 is a front view showing an embodiment of the present invention, FIG. 2 is a front view showing a trip state, FIG. 3 is an exploded perspective view of essential parts, and FIG. FIG. 5 is a front view, FIG. 5 is a front view, FIG. 6 is a front view showing a trip state, FIG. 7 is an exploded perspective view of essential parts, and FIG. FIG. 9 is a rear perspective view seen obliquely from above and front, FIG. 10 is a front view, and FIG.
1 is a top view, FIG. 12 is a sectional view taken along line XII-XII in FIG. 11, and FIG. 13 is a front view showing a released state. In the figure, (2) is an electromagnetic coil, (4) is a movable iron core,
(8) is a slider, (8A) is an arm part of the slider (8), (12) is a release spring, (1) to (22) are release type electromagnetic devices, (23) is a mounting base, and (25) is a link. , (25a) is one end of the link (25), (26A) is a link pin, (26a) is an outer diameter portion of the link pin (26A), and (31) is a trip bar. The same reference numerals in the drawings indicate the same or corresponding parts.

Claims (1)

[Scope of utility model registration request] 1. A release-type electromagnetic device in which a movable iron core is released when a predetermined current flows through an electromagnetic coil and a slider operates together with the movable iron core by a release spring, a mounting base on which this electromagnetic device is installed, and this mounting base. A link rotatably supported by a link pin and having one end engaged with the arm portion of the slider to be driven; and a trip bar of a circuit breaker engaged with the other end of the link to be driven,
In a release type electromagnetic trip device for a circuit breaker in which the trip bar is operated by the slider of the electromagnetic device via the link to trip the circuit breaker, the link pin has an outer diameter portion that abuts an arm portion of the slider. The outer diameter portion guides the arm portion of the slider to prevent the arm portion from rotating due to the spring force of the release spring or the like. The release type electromagnetic trip device for circuit breaker. .