This application claims priority to Chinese Patent Application No. 201811172420.2, filed Oct. 9, 2018, and all the benefits accruing therefrom under 35 U.S.C. § 119, the contents of which in its entirety are herein incorporated by reference.
The present disclosure relates to the field of elevator safety, and in particular to an overspeed governor assembly for an elevator and an elevator having the overspeed governor assembly.
With the development of the technology of overspeed governor assembly for elevators, the new Car Mounted Governor (CMG) assembly has been more widely used. The CMG governor assembly is more compact in structure than conventional overspeed governor assemblies with or without a machine room. An overspeed governor assembly was disclosed in U.S. Patent No. US 2013/0098711A1 by Aguado, et al., on Apr. 25, 2013, wherein the overspeed governor assembly includes a centrifugal mechanism that is gradually unfolded as the speed of a sheave increases. When the sheave reaches a first speed, an outer side of the centrifugal mechanism toggles an overspeed protection switch, thereby braking the elevator through an electrical mechanism. If the speed of the sheave continues to increase to a second speed, the centrifugal mechanism will drive a core ring on an inner side thereof, thereby triggering a mechanical brake device. After the car is braked and the maintenance on the elevator is completed, the overspeed protection switch needs to be returned to an untriggered position so that the elevator can be re-operated and protection can be provided when the overspeed occurs next time.
Such a car-mounted overspeed governor assembly further includes a remote triggering device, such as the type described in the Chinese utility model No. ZL201621141734.2, entitled “Remote Triggering Device, Overspeed Governor Assembly and Elevator”, filed by Otis Elevator Company. The remote triggering device can be actively controlled to act on the centrifugal mechanism so that the overspeed governor assembly can be actively triggered without overspeed of the car for purposes such as testing.
In prior designs, the overspeed protection switch and the remote triggering device are each configured with an actuator such as an electromagnet to implement the above functions.
An object of the present disclosure is to solve or at least alleviate the problems in the prior art.
According to some aspects, a remote triggering device for an overspeed governor assembly is provided, which includes: an actuator seat mounted on a fixed bracket and rotatable between a first position and a second position; an actuator disposed on the actuator seat and having an action end movable between a retracted position and an extended position; and a reset lever extending from the actuator seat; wherein in a case that the centrifugal mechanism of the overspeed governor assembly rotates in a first direction corresponding to ascending of an elevator car, when the action end of the actuator moves to the extended position, the centrifugal mechanism of the overspeed governor assembly contacts the action end of the actuator and drives the actuator seat to rotate from the first position toward the second position, and the reset lever rotates with the actuator seat.
Optionally, in the remote triggering device, in a case that the centrifugal mechanism of the overspeed governor assembly rotates in a second direction corresponding to descending of the elevator car, when the action end of the actuator is in the extended position, the actuator seat is in the first position, and the action end of the actuator acts on the centrifugal mechanism, thereby triggering the overspeed governor assembly.
Optionally, in the remote triggering device, the actuator seat is provided with a return spring so that the actuator seat tends to return to the first position.
Optionally, in the remote triggering device, the actuator seat has a front end and a rear end, and the rear end of the actuator seat has an opening to mount to a support pin on the fixed bracket.
Optionally, in the remote triggering device, the reset lever is fixedly connected to the front end of the actuator seat.
Optionally, in the remote triggering device, the actuator is fixed to a middle portion of the actuator seat, and the middle portion of the actuator seat is provided with an opening to allow the action end of the actuator to pass through.
Optionally, in the remote triggering device, a sidewall of the opening at the rear end of the actuator seat is provided with a notch, the support pin is provided with a stopper to fit into the notch, and the notch is configured to allow the actuator seat to rotate between the first position and the second position.
Optionally, in the remote triggering device, the actuator is an electromagnet, and the electromagnet includes a core rod and a buffer sleeve disposed at an end of the core rod.
In another aspect, an overspeed governor assembly is provided, which includes: a fixed bracket; a sheave mounted on the fixed bracket; a centrifugal mechanism mounted on the sheave and rotating with the sheave; an overspeed protection switch on a radially outer side of the centrifugal mechanism; and a remote triggering device on the radially outer side of the centrifugal mechanism and adjacent to the overspeed protection switch, the remote triggering device including: an actuator seat mounted on the fixed bracket and rotatable between a first position and a second position; an actuator disposed on the actuator seat and having an action end movable between a retracted position and an extended position; and a reset lever extending from the actuator seat; wherein in a case that the centrifugal mechanism of the overspeed governor assembly rotates in a first direction corresponding to ascending of an elevator car, when the action end of the actuator moves to the extended position, the centrifugal mechanism of the overspeed governor assembly contacts the action end of the actuator and drives the actuator seat to rotate from the first position to the second position, and the reset lever rotates with the actuator seat, and wherein the reset lever is capable of acting on the overspeed protection switch during rotation so that the overspeed protection switch is returned to an untriggered position.
Optionally, in the overspeed governor assembly, in a case that the centrifugal mechanism of the overspeed governor assembly rotates in a second direction corresponding to descending of the elevator car, when the action end of the actuator is in the extended position, the actuator seat is in the first position, and the action end of the actuator acts on the centrifugal mechanism, thereby triggering the overspeed governor assembly.
Optionally, in the overspeed governor assembly, the actuator seat is provided with a return spring so that the actuator seat tends to return to the first position.
Optionally, in the overspeed governor assembly, the actuator seat has a front end and a rear end, and the rear end of the actuator seat has an opening to mount to a support pin on the fixed bracket.
Optionally, in the overspeed governor assembly, the reset lever is fixedly connected to the front end of the actuator seat.
Optionally, in the overspeed governor assembly, the actuator is fixed to a middle portion of the actuator seat, and the middle portion of the actuator seat is provided with an opening to allow the action end of the actuator to pass through.
Optionally, in the overspeed governor assembly, a sidewall of the opening at the rear end of the actuator seat is provided with a notch, the support pin is provided with a stopper to fit into the notch, and the notch is configured to allow the actuator seat to rotate between the first position and the second position.
Optionally, in the overspeed governor assembly, the actuator is an electromagnet, and the electromagnet includes a core rod and a buffer sleeve disposed at an end of the core rod.
Optionally, in the overspeed governor assembly, the overspeed protection switch includes: a triggering member, wherein the triggering member is in an untriggered position when the governor assembly is in normal operation, and the triggering member is capable of rotating to a triggering position from the untriggered position when toggled by the centrifugal mechanism of the overspeed governor assembly in case of overspeed of the overspeed governor assembly; and at least one protrusion connected to the triggering member and rotating with the triggering member; wherein the reset lever acts on one of the at least one protrusion during the rotation, so as to drive the triggering member to return from the triggering position to the untriggered position.
Optionally, in the overspeed governor assembly, in the untriggered position, the triggering member is rotatable to a first triggering position in a first direction or to a second triggering position in a second direction, depending on a rotational direction of the centrifugal mechanism, wherein the at least one protrusion includes a first protrusion and a second protrusion; the reset lever contacts the first protrusion in the first triggering position and drives the triggering member to return from the first triggering position to the untriggered position, and the reset lever contacts the second protrusion in the second triggering position and drives the triggering member to return from the second triggering position to the untriggered position.
Optionally, the overspeed governor assembly is a car mounted overspeed governor assembly.
An elevator system is also provided, which includes the overspeed governor assembly according to an embodiment of the present disclosure.
The remote triggering device according to an embodiment of the present disclosure may share an actuator with the overspeed protection switch, thereby saving the cost of the overspeed governor assembly.
The contents of the present disclosure will become more easily understood with reference to the accompanying drawings. Those skilled in the art can readily appreciate that the drawings are for illustrative purposes only, instead of being intended to limit the scope of protection of the present disclosure. In addition, similar numbers in the drawings are used to indicate similar parts, wherein:
It will be readily understood that, based on the technical solutions of the present disclosure, those skilled in the art can propose various alternative embodiments and implementations without departing from the true spirit of the present disclosure. Therefore, the following detailed description and the accompanying drawings are merely exemplary description of the technical solutions of the present disclosure, which shall not be deemed as the whole of the present disclosure or as limiting or restricting the technical solutions of the present disclosure.
Such orientation terms as upper, lower, left, right, front, rear, front side, back side, top, bottom or the like that are mentioned or may be mentioned in this description are defined with respect to the configurations shown in the individual drawings. They are relative concepts and thus possibly vary according to their different locations and different usage states. Therefore, these or other orientation terms shall not be interpreted as limiting terms.
Referring first to
On the other hand, the overspeed governor assembly generally also includes a remote triggering device 5, such as the type described in the Chinese utility model No. ZL201621141734.2, entitled “Remote Triggering Device, Speed Governor Assembly and Elevator”, filed by Otis Elevator Company, which is incorporated herein by reference in its entirety. The remote triggering device 5 has an action end 511, and the operator may actively control the action end 511 to move between a retracted position and an extended position. In the extended position, the action end 511 of the remote triggering device 5 acts on the centrifugal mechanism 8, and an external force causes the centrifugal mechanism 8 to unfold and trigger the electrical brake device and the mechanical brake device, thus making it possible to actively trigger the overspeed governor assembly for purposes of testing for example without overspeed of the car.
A remote triggering device 5 and an overspeed protection switch 6 according to an embodiment of the present disclosure will now be described in detail with reference to
Referring to
With continued reference to
How the remote triggering device 5 functions to remotely trigger the overspeed governor will now be described with reference to
How the remote triggering device 5 function to reset the overspeed protection switch will be described with continued reference to
In some embodiments, the overspeed protection switch 6 includes a triggering member 61 that is in an untriggered position (
In the first triggering position shown in
In another aspect, the present disclosure also provides an overspeed governor assembly that can be a car mounted overspeed governor assembly or other types of overspeed governor assemblies, including the remote triggering device according to various embodiments of the present disclosure.
In another aspect, an elevator system is provided, which includes the overspeed governor assembly according to various embodiments of the present disclosure.
The remote triggering device 5 and the overspeed protection switch 6 according to the embodiments of the present disclosure may share one actuator 51, thereby eliminating the need for a separate actuator for resetting the overspeed protection switch 6, and reducing the cost of the entire overspeed governor assembly.
The specific embodiments described above are merely for describing the principle of the present disclosure more clearly, and various components are clearly illustrated or depicted to make it easier to understand the principle of the present disclosure. Those skilled in the art can readily make various modifications or changes to the present disclosure without departing from the scope of the present disclosure. It should be understood that these modifications or changes should be included within the scope of protection of the present disclosure.
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