JP2004503902A - Mechanical reset device for switch - Google Patents

Abstract

INDUSTRIAL APPLICABILITY The present invention is applicable to an automatic activation type switch which is activated by angular displacement of a contact bridge and its support (1) in any direction. A feature of the invention is that the outer part of the support (1) is provided with a pin (3) which, when switched off, is mounted on the remote handle (13) on the remote handle (13). The point is that it is arranged perpendicular to the displacement direction of 4). When the handle is operated after the pin (3) is rotated by the switch being turned on, the actuator (4) is displaced, and the arm (6) causes the pin (3) to move in the opposite direction. It is moved, returned to the initial position, and reset. Preferably, it is preferably used for resetting a switch of an elevator speed limiter.

Description

[0001]
【Technical field】
The present invention relates to a mechanical reset device for a switch, the reset device being capable of performing a reset from a position remote from the switch.
[0002]
Accordingly, the present invention has been specifically devised to allow resetting of a switch located in an inaccessible or difficult location.
[0003]
INDUSTRIAL APPLICABILITY The present invention is applicable to an automatic activation type switch activated by angular displacement of a contact bridge and its support member in any direction.
[0004]
An example of this type of switch is a switch utilized in an elevator speed limiter, where such a switch is located in an inaccessible location.
[0005]
[Background Art]
It is well known in the prior art that elevators are provided with a speed limiter, such a speed limiter being provided with a switch that is automatically activated when the elevator exceeds a predetermined speed. Such a switch is activated by angular displacement of the contact bridge in one of two directions. At this time, the direction of displacement of the contact bridge depends on whether the elevator is moving up or down. Furthermore, resetting such a switch requires access to the switch and manual rotation of the switch in a direction opposite to the contact bridge.
[0006]
Since the speed limiter for an elevator is installed at a position where access is difficult, resetting is difficult.
[0007]
It is well known to use electromechanical devices that allow resetting from a remote location to overcome these disadvantages. However, such devices have drawbacks. That is, when the current is cut off, the reset cannot be executed.
[0008]
DISCLOSURE OF THE INVENTION
In order to overcome the drawbacks mentioned above, the present invention provides a completely mechanical device that allows the switch to be reset from a remote position. Such a device is completely mechanical so that a reset can be performed even when power is interrupted.
[0009]
As described above, the present invention is applicable to an automatically activated switch that is activated by angular displacement of a contact bridge and its supporting member in any direction. [0010]
A feature of the invention is that the outer part of the support of the contact bridge comprises at least one protrusion, which is arranged perpendicular to the direction of displacement of the actuator with the contact bridge closed. At the same time as being separated from the actuator by a predetermined distance.
[0011]
The actuator is connected to a remote handle so that the actuator can be moved by operating the handle.
[0012]
Thus, when the contact bridge and its support are angularly displaced and the contact bridge is opened, the protrusions are also angularly displaced. As a result, when the handle is operated, the actuator is displaced, and the actuator returns to its initial position while contacting and pushing the protrusion. Thus, the contact bridge is reset.
[0013]
According to a preferred embodiment of the present invention, said at least one projection comprises two pin-shaped projections, between which the central branch of a T-shaped member configured as an actuator. The part moves. In such a configuration, when the contact bridge is opened, the pins are angularly displaced, so that depending on the direction of rotation, one of these pins approaches the arm of the T-shaped member and the other pin is Move away from. According to such a configuration, when the handle is operated, the T-shaped member is moved, and the contact bridge is moved to its initial position while one of the arms of the T-shaped member pushes the pin closer thereto. Is returned to. At this time, the other arm of the T-shaped member comes into contact with the corresponding pin, and the reset is performed.
[0014]
According to another embodiment of the invention, the at least one projection comprises a small partition, which is arranged in the idle position parallel to the small wall with the actuator. Is done. In such a configuration, when the contact bridge is opened, the partition wall is angularly displaced, whereby one of both end portions of the partition wall approaches the wall portion and the other end portion moves away from the wall portion. Go to At this time, when the handle is operated, the wall portion approaches the near end of the partition wall, and moves in the opposite direction while pushing the partition wall to return to the initial reset position. At this initial reset position, the partition wall and the wall portion are parallel and in contact with each other.
[0015]
In either of the embodiments described above, the actuator is spring assisted so that when the handle is no longer operated after a reset has occurred, the actuator is biased back to its initial idle position.
[0016]
The actuator is connected to the handle by a cable housed in the sleeve. Both ends of the sleeve are attached to the support of the handle and the support of the actuator.
[0017]
An end of the actuator is provided with an elastic stopper for restricting movement of the actuator at the time of resetting, and the elastic stopper stops at an end of the sleeve containing a cable.
[0018]
Furthermore, the actuator is provided with a stop which stops at the frame of the switch, which defines the initial idle position of the actuator.
[0019]
Finally, the handle further comprises a resilient stopper that limits the movement of the handle after the handle is released after reset. In order to better understand the above description and understand its important points, several figures are attached. In these figures, the configuration of the present invention is illustrated by way of example (not limitation).
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described with reference to the accompanying drawings.
[0021]
The device according to the invention is applied to a switch with a support 1 supporting a contact bridge, the entire assembly of which is supported on a frame 2. Switches are not shown in detail because they are general and do not constitute the present invention. However, it should be recognized that the contact bridge opens automatically by the angular displacement of the support 1 and thus the contact bridge.
[0022]
A novel point of the present invention is that the support portion 1 has two pin-shaped protrusions 3 and the central branch portion 5 of the T-shaped actuator 4 is arranged between these pin-shaped protrusions. is there. With the contact bridge in the closed position, these pins 3 are parallel to the arm 6 of the actuator 4.
[0023]
The actuator 4 is displaceable and is guided into the frame 2 by tabs 8a, 8b.
[0024]
Further, the actuator 4 is supported by a spring 7, a front end of the spring 7 is supported by a washer 9, and a rear end of the spring 7 is stopped on a tab 8 b of the frame 2.
[0025]
Further, the actuator 4 is fixedly connected to the stopper 10, and a terminal 11 is covered on a rear end thereof. The terminal 11 is a connection portion with a cable 12, and the other end of the cable 12 is connected to a handle 13.
[0026]
The cable 12 extends through a sleeve 14 such that the cable can move when the handle 13 is operated.
[0027]
A terminal 14 attaches the sleeve 14 to the frame 2, which receives the end of the sleeve 14 and is supported by a nut 16.
[0028]
The other end of the sleeve 14 is attached to the support 17 of the handle 13 by means of a terminal 18 and two nuts 19, by means of which the tension of such a cover structure can be adjusted. It is possible.
[0029]
The terminal 11 is protected by an elastic stopper 20, and the handle 13 is protected by an elastic stopper 21.
[0030]
From the above description, the following can be easily understood. When the contact bridge is opened, the pins 3 are angularly displaced in one of the two directions of rotation, whereby one of these pins 3 approaches one of the arms 6 and the other pin 3 Move away from the arm. At this time, the rotation direction of the pin 3 is determined by whether the switch is activated when the elevator is raised or when the switch is activated when the elevator is lowered (in the case of an elevator). When the handle 13 is operated in such a state, the load of the spring 7 increases, the spring is pressed against the tab 8b, and the actuator 4 moves. At this time, the actuator 4 moves to a position where the following state is obtained. That is, one of the arms 6 contacts the pin 3 and moves the pin 3 in a direction opposite to the direction of movement caused by the switch being turned on. The actuator 4 moves to a position where a contact state can be obtained. At such a position, a switch reset occurs. In such an operation, the movement of the actuator is limited by the elastic stopper 20, the limit point corresponding to the position where both arms 6 contact the pin 3.
[0031]
When the handle 13 is released after the reset has been executed, the spring 7 returns the actuator 4 and the handle 13 to their initial positions, and the stopper 10 contacts the tab 8a. As a result, the device can be newly reset.
[Brief description of the drawings]
FIG.
FIG. 1 is a perspective view showing an embodiment of the apparatus of the present invention.
FIG. 2
FIG. 2 is a plan view showing a part of the device shown in FIG. 1 as a cross-sectional view.

Claims (8)

A mechanical switch reset device for a switch which is automatically activated by angular displacement of a contact bridge and its support (1) in either direction, said device being outside the support (1) of said contact bridge. A portion having at least one protrusion, wherein the protrusion is disposed perpendicular to a direction of displacement of the actuator and is separated from the actuator by a predetermined distance when the contact bridge is closed; Is connected to a remote handle (13), whereby the actuator is displaced when the handle (13) is operated after the projection is rotated by opening the contact bridge, This prevents the actuator from contacting and pushing the protrusion. A mechanical switch reset device characterized in that the projecting portion is displaced in a direction opposite to a direction of displacement when the contact bridge is opened and returned to its initial position, whereby the contact bridge is reset. . The at least one protrusion comprises two pin-like protrusions (3), and a central branch (5) of a T-shaped member constituting the actuator (4) is provided between these pin-like protrusions. ) Is extended and when the actuator is displaced, one of the arms (6) of the T-shaped member causes the pin-shaped protrusion () to approach this arm (6) when the contact bridge is opened. The mechanical switch reset device according to claim 1, wherein the reset is performed by pushing (3). The at least one protrusion comprises a small partition, the partition being in its idle position, parallel to the small wall of the actuator and, when the actuator is displaced, by the wall, 2. The reset according to claim 1, wherein the reset is performed by pushing the partition wall and displacing the partition wall so as to be parallel to and in contact with the wall surface of the actuator. 3. Mechanical switch reset device. The actuator is assisted by a spring (7) such that the actuator is maintained in an initial idle position spaced from the at least one protrusion by the spring (7); The actuator returns to the initial idle position when the handle (13) is released after the handle (13) has been moved and the load on the spring (7) has increased. 4. The mechanical switch reset device according to any one of 3. The actuator is connected to the handle by a cable (12) housed in a sleeve (14), and both ends of the sleeve (14) are connected to the support (17) of the handle (13) and the actuator (17). 5. The mechanical switch reset device according to claim 1, wherein the mechanical switch reset device is mounted on each of the frames. The mechanical switch reset device according to claim 1, wherein the actuator comprises an elastic stopper (20) for restricting movement of the actuator during a reset operation. The actuator includes a stop (10) that stops at the frame (2) of the switch, thereby limiting the extension of the spring (7) and maintaining the initial idle position of the actuator. The mechanical switch reset device according to claim 4, wherein: The mechanical switch reset device according to claim 1, wherein the handle comprises an elastic stopper (21).