JPH0210622A - Auxiliary tripper - Google Patents

Abstract

PURPOSE: To trip a circuit breaker and shorten trip time by striking a reset bar with a moving piece of a trip relay, unlocking the trip lever to trip a latch of a plate, and moving a mechanism link. CONSTITUTION: A relay 18 corresponding to each kind of pressure difference/low voltage/short circuit trip devices is mounted on a device 10. When the relay 18 is excited, a trip cover 50 is driven and strikes a reset lever 44, and the reset lever 44 is rotated on a spindle 46. By the rotation of the lever 44, a trip lever 30 is driven, a latch 32 is tripped. At the same time, link between a handle 16 and a plate 24 is released. By the releasing action of a spring 60, the plate 24 rotates around a shaft 26, a mechanism link 19 for operating a trip bar of a circuit breaker is moved. The circuit breaker is tripped in a short time.

Description

DETAILED DESCRIPTION OF THE INVENTION Object of the Invention (Industrial Field of Application) The present invention relates to a multipole circuit breaker having at least one pair of separable contacts and a switch mechanism coupled to a thermal electromagnetic main trip device. The present invention relates to an auxiliary trip device having laterally adjacent and connected molded insulating casings.

(Prior Art) The case of this auxiliary trip device houses an actuation mechanism that includes a trip lever controlled by a trip relay having an actuation coil and a trip lid, and a trip command circuit by the relay lid. transmitted to the switch mechanism of the circuit breaker,
a mechanical transmission link thereby cooperating with the coil of the relay to trip the circuit breaker; and a latch disposed between the handle and the plate;
This plate is attached to a first fixed shaft so as to rotate between a loaded position and an unloaded position, and when the latch is released by a trip lever,
an energy storage spring for biasing the plate to the no-load position; and a reset lever connected to the second fixed shaft of the case for automatically resetting the relay upon movement of the plate to the no-load position. We are prepared.

A device of this kind is known from German Patent No. 3,114.717. This device is used for low voltage release of modular circuit breakers. Resetting of the relay is effected by a plate acting on a reset lever rotatably mounted on the same shaft as the trip lever. Connection of the mechanical trip link to the circuit breaker is accomplished by a bearing mounted on the lower arm of the trip lever. The auxiliary equipment plate also causes the circuit breaker switch mechanism to trip. However, this trip occurs with a predetermined delay after the latch is released.

An object of the invention is to reduce the mechanical trip time of circuit breakers connected to auxiliary equipment relays.

[Structure of the invention]

(Means for Solving the Problems) An auxiliary device according to the invention includes a plate supporting a pin of a mechanical trip link and a third connecting shaft of a trip lever, the trip lever having a first arm cooperating with a latch. It has a second arm that is separated from the trip lid of the relay at a predetermined distance by a reset lever that is freely rotatably attached to the second shaft.

The function of the relay is to remove the latch and release the plate. The mechanical energy used to expand the energy storage spring serves two purposes: transmitting the circuit breaker tripping force and resetting the relay.

After the relay is reset, when the handle is actuated to the connected position, mechanical energy is again stored in the storage spring of the plate and the latch holds the spring in the loaded position.

The reset lever has a damping spring on which the protrusion of the plate initially acts when the plate moves to the unloaded position. This spring adjusts the reset force on the relay lid.

Preferably, the buffer spring is in the form of a pin that is pre-attached to the reset lever before the reset lever is attached to the second shaft of the case.

An eccentric spring is connected to the reset lever. This eccentric spring forces the reset lever against the trip lever when the plate is in the loaded position. When the relay is set, the trip lid is separated from the reset lever at a predetermined interval.

Other advantages and features of the invention become apparent from the following non-limiting examples, which are explained in conjunction with the drawings.

Embodiment Referring to FIGS. 1-3, an auxiliary trip device 10 having a molded insulating casing 12 is laterally adjacent and coupled to a mating multipole circuit breaker (not shown). be done.

The convex pole of the circuit breaker device is described, for example, in French Patent No. 2°616.
It has a switch mechanism of the type described in No. 583.

The switch mechanism is connected to a rotating manually actuated handle and to a thermal electromagnetic main trip device for sensing the strength of the current flowing through the salient pole. A pair of separable contacts operate in conjunction with a switch mechanism to interrupt or close an electric circuit disposed between the two contact terminals of the convex pole.

Auxiliary trip device 10 houses an actuation mechanism 14 controlled by a reset handle 16 and a trip coil relay 18. The actuation mechanism 14 transmits the trip command from the relay 18 to the circuit breaker via a mechanical trip link 19. This link 19 is formed by a pin 20 passing through an aperture 22 in the case 12 and is adapted to operate in conjunction with a trip bar (not shown) of a circuit breaker which serves as a mechanism.

The auxiliary device 10 can be used as a differential pressure trip device or as a low voltage trip device MN or as a short circuit trip device MX.
It can be provided as Actuation mechanism 14 is standard, but relay 18 is adapted to each type of trip device.

In the case of a differential pressure trip device, the relay 18 is electrically connected to the differential pressure detector along with a measuring transformer for the current flowing in the actuation input conductor of the circuit breaker device.

When an insulation leakage occurs, the differential pressure detector energizes the coil of relay 18 which causes tripping of actuation mechanism 14 and cascade tripping of the circuit breaker by actuation mechanism 19.

In the case of low voltage release MN, the relay 18 is activated when the voltage of the controlled power supply system disappears or falls below a predetermined pickup level. For this reason,
Automatic tripping of the circuit breaker at low voltages takes place.

In the case of short-circuit release MX, the relay 18 is energized externally by a pushbutton or by a remote control circuit controlled by a control device. This results in a forced remote trip of the circuit breaker.

The actuating mechanism 14 of the auxiliary device 10 has a plate 24 rotatably attached to a first fixed shaft 26, and this plate 24 can be moved to a loaded position (FIG. 1) and an unloaded position (FIG. 3). It is designed to rotate between. plate 24
supports the pin 20 of the trip link 19 and also supports the third shaft 28. A trip lever 30 is attached to this third shaft 28, and this trip lever 30
The first upper arm of is adapted to cooperate with a latch lever 31 forming a latch 32 in the locked position. Latch lever 3
1 is mounted for limited rotation on the axis 34 of the plate 24 and is connected to the handle 16 by a transmission rod 36. The reset handle 16 is pivotally mounted on a fixed shaft 36 and its toggle connection point 40 is eccentric with respect to the shaft 36 of the handle 16.

The trip lever 30 is biased to the locked position by a resilient member 42 that acts as a return spring.

An intermediate reset lever 44 of the relay 18 is disposed between the relay 18 and the plate 24, and one end of the lever 44 is connected to the second
It is mounted so as to be freely rotatable around a shaft 46. The other end 48 is adapted to cooperate with actuation M50 of the relay 18 on the left side and with the second lower arm of the trip lever 30 on the right side. A boss 52 to which a pin-shaped spring 54 is attached is provided between both ends of the reset lever 44 . One end 53 of the pin 54 is adapted to be displaced by a projection 56 of the plate 24 in the event of a trip of the mechanism 14, while the other end 58 permanently presses against the projection of the end 48. are doing.

The energy storage spring 60 of the actuation mechanism 14 is formed by a torsion spring mounted coaxially to the shaft 26 of the plate 24. The spring 60 presses the protrusion 62 of the insulating case 12 and closes the cover 5 of the trip relay 18.
0 causes the release of the latch, which forces the plate 24 counterclockwise to the no-load position (FIG. 3). Stop 64 stops movement of plate 24 when handle 16 reaches the circuit breaker open position (see FIG. 3).

The upper end of the plate 24 has an indicator flag 66.

This indicator flag 66 can face an indicator port 68 provided on the front side of the case 12, thereby indicating that the circuit breaker has been tripped by the action of the mechanism 14 of the auxiliary device 10. There is. Preferably, the indicator flag 66 is colored so that it can be clearly seen through the display port 68.

The operation of the auxiliary trip device 10 is as follows.

Circuit Breaker in Connected Position As shown in FIG. 1, in the loaded position of auxiliary device 10, handle 16 is in a stable right-hand position, separating lid 50 from end 48 of reset lever 44 by a small distance. The energy storage spring 60 is tensioned and the locking of the latch 32 by the trip lever 30 maintains the kinematic link between the plate 24 and the handle 16.

When the circuit breaker relay 18 in the tripping process is energized, the trip lid 50 is driven in the direction of arrow F (see FIG. 2), and the IJ-tr put bar 44 is struck to cause the reset lever 44 to move on the spindle 46. Rotate it clockwise. Movement of the reset lever 44 drives the trip lever 30 from the locked position to the released position and the latch 32 is released. At the same time, the kinematic link between handle 16 and plate 24 is released. Upon release of energy storage spring 60, plate 24 pivots counterclockwise about axis 26 to the position shown in FIG. In this case, there are two functions: a first function that trips the parallel circuit breaker;
A second function of resetting the relay 18 is performed.

The first tripping function is performed by a pin in plate 24 moving mechanical link 19 along curved opening 22 in case 12 from a lower position (FIG. 2) to an upper position (FIG. 3). This causes the tripping of the circuit breaker which operates the mechanism and automatically energizes the contacts of the different electrodes.

The reset function of the second relay is performed by the protrusion 56 engaging the portion 53 of the spring 54 and driving the intermediate reset lever 44 clockwise. in this case,
The trip lid 50 is pushed inward (see FIG. 3). The relay 18 is reset when the plate 24 abuts the stop 64 and the handle 16 assumes a stable left position corresponding to the open position of the circuit breaker. In this position of FIG. 3, latch 32 is automatically relocked and the kinematic link between handle 16 and plate 24 is again formed.

A damping spring 54 allows overtravel of the actuating mechanism 14, allowing it to move elastically. Spring 54 also limits the resetting force of relay 18 on lid 50. The energy storage spring remains unloaded as long as the plate 24 presses against the stop 64.

Final reset of the auxiliary device To final reset the auxiliary device 10, rotate the handle 16 clockwise from the left position (Fig. 3) to the right position (Fig. 1).
This is done by coming up to the point. This movement of the handle 16 moves the plate 24 from the no-load position to the loaded position.

During this movement, the energy storage spring 60 is automatically tensioned, pushing the pin 20 of the trip link 19 to its lower, inactive position and connecting the circuit breaker.

Rotating the handle 16 to final reset the auxiliary device 10 can be done manually or automatically. In the former case, the handle 16 is independent of the important features of the adjacent circuit breaker. Also, in the latter case, the handle 16 is connected to the switch mechanism by a mechanical reset link.

The reset lever 44 has an eccentric spring 70. This spring 70 presses the lever 44 against the lower second arm of the trip lever 30 when the plate 24 is in the loaded position. When relay 18 is loaded, lid 50 is separated from end 48 of reset lever 44 by a defined minimum distance.

According to this embodiment, when a trip command is sent to an important mechanism, the reaction time of the circuit breaker can be reduced.

FIG. 6 is a diagram showing the tripped and tripped positions of the circuit breaker, respectively;

10... Auxiliary trip device, 12... Insulating case,
14... Operating mechanism, 16... Handle, 18...
Relay 9... Mechanical link, 20... Pin, 22...
...Opening, 24...Plate, 26...First axis, 2
8...Third axis, 30...Trip lever, 44...
・Reset lever 50...lid, 60...energy storage spring.

Claims (1)

[Scope of Claims] 1. A molded insulating case (12
), the case (12) of the auxiliary trip device (10) houses an actuation mechanism (14), and the actuation mechanism (14) has an actuation coil and a trip lid (50). A trip lever (3) controlled by a trip relay (18)
0), and a mechanical transmission link (19) for transmitting the trip command by the lid (50) of the relay (18) to the switch mechanism of the circuit breaker, thereby cooperating with the coil of the relay to trip the circuit breaker. , handle (16) and plate (
24), the latch (32) being mounted on the first fixed shaft (26) such that the plate can pivot between a loaded position and an unloaded position; an energy storage spring (60) biasing the plate (24) to the no-load position and movement of the plate (24) to the no-load position when the trip lever (30) releases the latch (32); a reset lever (44) for automatically resetting the relay (18), the reset lever being connected to a second fixed shaft of the case, the plate (24) being connected to the pin of the mechanical trip link (19); (20) and the third connecting shaft (
The trip lever (30) supports the relay (18) by means of a reset lever (44) freely rotatably mounted on the first arm and second shaft (46) cooperating with the latch (32). and a second arm separated from the trip lid (50) of the auxiliary trip device. 2. The reset lever (44) engages the protrusion (56) of the plate (24) when the plate (24) moves to the no-load position.
2. Auxiliary trip according to claim 1, characterized in that the first acting buffer spring (54) adjusts the resetting force of the relay (18) on the lid (50). Device. 3. The buffer spring (54) is connected to the reset lever (44).
3. The auxiliary trip device according to claim 2, wherein the auxiliary trip device is in the form of a pin that is pre-attached to the reset lever (44) before being attached to the second shaft 46 of the case (12). 4. The plate (24) has an indicator flag (66) facing the display port (68) arranged on the front of the case (12), and when the plate (24) is in a stable no-load position, the auxiliary 2. Auxiliary trip device according to claim 1, characterized in that the trip of the device (10) is indicated. 5. The reset lever (44) is equipped with an eccentric spring (44) that presses the lever (44) against the second arm of the trip lever (30) when the plate (24) reaches the no-load position.
70), and the trip lid (50) is connected to the relay (18).
) at predetermined intervals at the load position of the reset lever (4).
4. The auxiliary trip device according to claim 1, wherein the auxiliary trip device is separated from the trip device 4). 6. The latch (32) is attached to the plate (2
The latch lever (31) is attached to the fourth shaft (34) of the latch lever (31) for limited rotation.
2. Auxiliary trip device according to claim 1, characterized in that 1) is connected to the handle (16) by a transmission rod (36). 7. Auxiliary trip device according to claim 1, characterized in that the actuating coil of the magnetic pole relay (18) is connected to a differential pressure current detector. 8. Auxiliary trip device according to claim 1, characterized in that the actuating coil of the trip relay (18) is controlled by an external remote control circuit and forms a short-circuit trip device MX. 9. The trip relay (18) acts on the actuating mechanism (14) in response to the measured voltage value, and the low voltage trip device M
2. Auxiliary trip device according to claim 1, characterized in that it forms an N.