US974140A

US974140A - Safety device for elevators.

Info

Publication number: US974140A
Application number: US46172008A
Authority: US
Inventors: Augustus W Hengerer; Robert J Kiendl
Original assignee: Individual
Current assignee: Individual
Priority date: 1908-11-09
Filing date: 1908-11-09
Publication date: 1910-11-01
Anticipated expiration: 1927-11-01

Description

A. W. HENGBRER 8v R. J. KIENDL. SAFETY DEVICE FOR ELEVATORS. uruoumu FILED NOV. 9, 1908.

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Patented Nov.1, 1910.

A. W. HENGERER & R. J. KIBNDL.

SAFETY DEVICE FOR ELEVATORS. APPLIGATION FILED Nov. 9, 190a.

Patented Nov. 1,1910.

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A. HENGERER 6: R. J. KIENDLQ SAFETY. DEVICE FOR ELEVATORS.

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Patented Nov. 1,1910.

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AUGUSTUS W. HENGERER AND ROBERT J'. KIENDL, 0F BUFFALO, NEW YORK.

SAFETY DEVICE FOR ELEVATORS.

Specification of Letters Patent.

' Patented Nov. 1, 1910.

To all whom it may concern:

Be it known that we, AUGUsTUs WV. HEN- GERER and ROBERT J. KIENDL, both citizens of the United States, and residents of Buffalo, in the county of Erie and State of New York, have invented certain new and useful Improvements in Safety Devices for Elevators, of which the following is a specification.

This invention relates to safety-devices for elevators, and more particularly to a device to prevent the operation of the elevatorcar when a door in the inclosure of the elevator-shaft is open; also to a device of this character in which the locking-element is normally held in locked position and in which said locking-element is moved into unlockingposition as the door within the inclosure of the elevator-shaft approaches the end of its closing movement, or as the door reaches the end of its closing movement, as may be desired.

The primary object of our invention is the production of a simple and inexpensive device of the character referred to, in which the various elements act in a positive manner to effectively lock the controlling-mechanism of the elevator-car against movement until the door of the elevator-shaft inclosure is closed.

It also has for its object the employment of a single trip-device on the door of the elevator which is adapted to engage cooperating trip-mechanism during both the forward and rearward movement of the door.

Other objects are to provide positive lock actuating-mechanism in operative connection with the trip-mechanism; and to otherwise improve on devices of this character now in use.

WVith these and other objects in view to appear hereinafter, the invention consists in the arrangement and combination of devices, and in the construction, arrangement and combination of parts to be hereinafter described and particularly pointed out in the appended claims.

In the drawings,Figure 1 is a broken front elevation of an elevator-car within an elevator-shaft showing the doors of the shaft inclosure partly open. Fig. 2 is a plan view of a portion of the elevator-car and of the sliding-doors of the elevator-shaft. Fig. 3 is a vertical section taken on line 33, Fig.

parts being in positions which they assume when the controHing-mechanism of the elevator-car is locked. Fig. 7 is a similar view showing the parts in the positions they assume when the locking-element is disengaged from the controlling-mechanism. Fig. 8 is an enlarged plan view of the lock actuating-mechanism. Fig. 9 is an enlarged broken plan view of the trip-mechanism. Fig. 10 is a broken front elevation of the same. Fig. 11 is a horizontal section taken on line l111, Fig. 10. Fig. 12 is a transverse section taken on line 1212, Fig. 6. Fig. 18 is a transverse section taken on line 1313, Fig. 9. Fig. 14: is a transverse section taken on line 14.l4l, Fig. 9.

Referring now to the drawings in detail, like letters of reference refer to like parts in the several figures.

The reference letter A designates the elevator-shaft within which the elevator-car B is adapted to travel; 5 representing controlling-mechanism within the car whereby the operation of the elevator-car is controlled, said controlling-mechanism being shown as including an operating-lever 6 having a toothed segment 6 The particular form of controlling-mechanism herein shown is not essential to the proper working of our improved safety-device, it being merely shown as a representative construction, which may have substituted therefor any other form of controlling-mechanism. In the particular form shown, the operating-lever 6 assumes a vertical position when the car is at rest, and when in this position, the locking-element of our safety-device is adapted to lock into the toothed-segment b C designates sliding-doors which serve to open or close the various entrances located on the different floors of the elevator-shaft and also to govern the locking of the controlling-mechanism within the elevator-car. Although a double sliding-door is shown, a single door may be used if desired. For this purpose a trip-bar D is secured to the inner side of the door and extends a considerable distance above the upper edge of the door and preferably a distance below said edge; said trip-bar being secured to a bracket (Z aflixed to the door, as at al and the ends of said bar are preferably curved outward or toward the door so that projecting portions of the elevator-car will not strike the ends of the bar during the travels of said car within the elevator-shaft.

At the top of the elevator-car, trip-mechanism E is arranged which comprises a securing-plate e to which are secured guides 0 serving to retain and guide a shifting-member 6 preferably formed of two bars at connected by spacing-blocks 6* which provide an intervening-space e Vithin said intervening space, oppositely-disposed trip-dogs F are pivotally held; each dog having at its outer end a vertically-disposed crescentshaped portion which is adapted to be en- ,gaged by the trip-bar on the door, either during its closing or opening movement. Said dogs are independently movable on their pivots and normally held in projected position by a spring G which bears against the inner edges of said dogs and is secured to a block G fastened between the bars 6 Said shiftinginember is so positioned that the trip-dogs lie between two ofthe guides 6 and when shifted rearward by the trip-bar on the door coming in contact with the rearmost trip-dog, the outer edge of said dog is moved into contact with the forward edge of the adjacent guide, which causes said vdog to be forced-inward against the action of the spring G.- Duringthis action, the forward trip-dogmoves out of engagement with its cooperating guide and swings into projected position by reason of the spring, Gr exerting its pressure against the rear edge thereof. Therefore, when the door is moved into closed position it engages the projected front dog and causes the shifting-bar to be moved forward and said dog to be moved into. engagement with the rear edge of its cooperating-guide, whereupon it is caused to swing inward against the action of the spring Gr while the rear dog moves free of its cooperating guide and is forced into projected position to be engaged by the trip t bar on the door when opening said door. By arranging the trip-dogs in opposition to each other and so that one is in projected position in the path of the trip-bar on the door while the other is moved inward out of the path of said bar, the shifting-member is compelled to move with the door, and by reason of such cooperating action, it is utilized to control the actuation of the locking-device. The trip-bar is of considerable length so that it will actuate the shiftingniember irrespective of the exact position of the floor of the car with respect to the floor of the building it is intended to stop at. The floor of the elevator car can therefore be some distance below or above a floor of a building, yet the trip-bar will be in position to engage the trip-dogs and cause actuation of the shiftinganember.

H designates lock actuating-1nechanism which is connected with the shifting-member by means of a link I. Said lock actuating-mechanism is mounted on a plate It secured to the top of the elevator-car. Rising from said plate are two standards 71 between which a weighted lever J is pivoted. Connected to one end of said lever is a lockrod K which passes through an opening in the top of the elevator-car and extends down to the toothed segment on the controllinglever of the controlling-mechanisni within theelevator-car, said lock-rod bein slidable in guides secured to the wall of the elevator-car, as clearly shown in Fig. 3. The weight of the lever is at the opposite end and serves to aid in overcoming the weight of the lock-rod; said lever being normally drawn into the position shown in Fig. 6 by the weight of said rod.

Slidable on the plate it is an actuatingmember L which is guided between the standards 7L and clips 7L Said actuatingmember has an inclined portion Z connecting an elevated portion Z with a depressed portion Z said inclined portion serving to elevate the forward end of lever J when said actuating-member is drawn forward; the front end of said member having the link I pivotally attached thereto.

hen the lock-rod K is in engagement with the toothed-segment of the controllingmechanism, the parts of the lock actuatingmechanism are in the positions shown in Fig, 6; the actuating-member L having been moved into the position shown by the shifting-member c which is forced rearward upon opening the door. hen the door is moved into closed position, the trip -bar thereon will come into engagement with the trip-mechanism E and move the shiftingmember thereof forward, which in turn will draw the actuating-member L of the lock actuating-medianism forward with it. causing the inclined portion Z of said member to engage the front end of the lever J and elevate said end, and by reason of the lock-rod K being attached to said front end, its lower extremity is drawn out of engagement with the toothed segment of the controlling-mechanism so that the latter may be actuated to operate the car. The forward end of lever J is held in elevated position by the elevated portion Z of the actuating-inember TJ.

Having thus described our invention, what we claim is,

1. In an elevator, the combination with an elevator-shaft having a door-opening, and a door for closing said door-opening, of an elevator car equipped with controlling-mechanism to control the operation thereof, co operating-means on the door and the elevator-car including two independently-pivoted spring-controlled trip-dogs on one part of said cooperating means, and lockingmechanism actuated by said cooperating means and adapted to lock said controllingmechanism when the door of the elevatorshaft is open.

, 2. In an elevator, the combination with an elevator-shaft having a door-opening and a door for closing said opening, of an elevator-car equipped with controlling-mechanism to control the operation thereof, means cooperating with said controlling-mechanism embodying opposed independently movable trip-dogs, and a trip-device adapted to engage said trip-dogs for causing actuation of said means.

- 3. In an elevator, the combination with an elevatorshaft having a door-opening, and a door for closing said door-opening, of an elevator: car equipped with controllingmechanism to control the operation thereof, locking-mechanism adapted to lock said controlling-mechanism against actuation, a tripdevice on the door of the elevatorshaft, and mechanism for actuating said locking-mechanism including two opposed independently pivoted spring-controlled trip-clogs adapted to be engaged by said trip-device.

4. In an elevator, the combination with an elevator-shaft having a door-opening, and a door for closing said door-opening, of an elevator-car equipped. with controllingmechanism to control the operation thereof, locking-means to prevent the operation of said controlling-mechanism, a trip-device on said door, and. a shifting-device including two opposed independently-movable tripdogs adapted to be engaged by said tripdevice, said shifting-device being interposed between said locking-mechanism and said trip-device.

5. In an elevator, the combination with an elevatmr-shaft having a door-opening, and a door for closing said door-opening, of an elevator-car equipped with controlling-mechanism to control the operation thereof, locking-mechanism adapted to cooperate with said controlling-mechanism, a shifting-baron said car, actuating-mechanism operatively connected with said shifting-bar and having connection with said locking-mechanism, a trip-device secured on the door, and two oppositely disposed springcontrolled tripdogs independently-movable on said shifting-bar and adapted to act as a means of cooperation between said shifting-bar and said trip-device.

6. In an elevator, the combination with an elevator-shaft having a door-opening, and a door for closing said door-opening, of an elevator car equipped with controllingmechanism to control the operation thereof, locking-mechanism to prevent the operation of said controlling-mechanism, a trip-device on said door, a shifting-bar slidable on the car, two oppositely disposed spring-controlled tripdogs on said shifting-bar adapted to be engaged by said trip-device, an actuating-device operatively connected with said locking-mechanism and adapted to cause the latter to be engaged with and disengaged from said controlling-mechanism, and a link connecting said actuating-device with said shifting-bar.

7. In an elevator, the combination with an elevator-shaft having a door-opening, and a door for closing said door-opening, of an elevator-car equipped with controllingmechanism to control the operation thereof, a lock-rod for locking said controlling-mechanism, actuating-mechanism operatively connected with said lock-rod, tripping-mechanism carried partly on the door and partly on the car and including two oppositely disposed independently-pivoted trip-dogs, and means of connection between said trippingmechanism and said actuating-mechanism.

8. In an elevator, the combination with an elevator-shaft having a door-opening, and a door for closing said door-opening, of an elevator-car equipped with controllingmechanism to control the operation thereof, a vertically disposed trip-bar secured to said door, a horizontally disposed shifting-bar on saidelevator-car, two oppositely disposed spring-controlled trip-dogs pivoted to said shifting-bar, one of said dogs being in projected position and adapted to be engaged by said trip-bar while the other is drawn inward, and mechanism interposed between said shifting-bar and said lock-rod and adapted to cause actuation of the latter.

9. In an elevator, the combination with an elevator-shaft, a door in said shaft, and an elevatorcar equipped with controllingmechanism to control the operation thereof, of a lock-rod vertically movable and adapted to lock said controlling-mechanism against movement, an actuating-device comprising a swinging-lever to one end of which said lock-rod is secured, a sliding actuatingmember having an inclined portion adapted to actuate said lever, a link secured to said actuating-member, a shifting-bar secured to said link, and a trip-device on the door adapted to actuate said shifting-bar.

10. In an elevator, the combination with an elevator-shaft, a door 'in said shaft, and an elevator-car equipped with controllingmeehanism to control the operation thereof, of a-lock-rod adapted to engage said con trollingmechanism and lock thesame against actuation, a swinging-lever to one end of which said lock-rod is secured, a sliding element having an inclined surface adapted to cooperate with said lever to j and locking-mechanism adapted to lock said cause said lock-rod to be unlocked from the controHing-mechanism, and a trip-device on the door adapted to cause actuation of said sliding 7 element.

11. In an elevator, the combination with an elevator-shaft, a door in said shaft, and an elevator-car equipped with controllingmechanism to control the operation thereof, of a lock-rod adapted to lock said controlling-mechanism against operation, a sliding element guided on the elevator-car and having an inclined portion, a lever pivoted between its ends and having said lock-rod at tached to one of its ends and its other end provided with a weight, said lever being adapted to be actuated by said sliding element, and a trip-device on the door adapted to cause actuation of said sliding element.

12. In an elevator, the combination with an elevator-shaft, a door in said shaft, and an elevator-car equipped with controllingmechanism to control the operation thereof, of a shifting-bar on said elevator-car, guides secured to said car in which said shifting-bar is guided, oppositely disposed spring-controlled dogs carried on said shifting-bar, and adapted to be successively moved into depressed position by said guides, means on the door of the elevator-shaft for vengaging one of said dogs when closing said door and for engaging the other of said'dogs whenopening said door, and mechanism interposed between said shifting-bar and the controHing-mechanism of the elevator-car for locking the latter against operation.

13. In an elevator, the combination with an elevator-shaft, a door in said shaft, and an elevator-car equipped with controllingmechanism to control the operation thereof, of a shifting-bar slidable on said elevatorcar, oppositely disposed spring-controlled trip-dogs pivotally secured to said shiftingbar, means for holding one of said trip-dogs in depressed position while the other is in projected position, locking-mechanism operatively connected with said shifting-bar and adapted to lock said controlling-mechanism against actuation, and a trip-device on said door to successively engage said trip-dogs.

14. In an elevator, the combination with an elevator-shaft, a door in said shaft, and an elevator-car equipped with controllingmechanism to control the operation thereof, of a shifting-bar slidable on said elevatorcar, opposed spring-controlled trip-dogs piv otally secured to said shifting-bar, a trip-device on the door adapted to successively engage said trip-dogs to reciprocate said shifting-bar. means for causing one of said dogs to be depressed when said shifting-bar is moved in one direction and for causing the other trip-dog to be depressed when moving said shifting-bar in the opposite direction,

controlling-niechanism against actuation and being operatively connected with said shifting-bar.

15. In an elevator, the combination with an elevator-shaft, a door in said shaft, and an elevator-car equipped with controllingmechanism to control the operation thereof, of a shifting-bar reciprocal on said elevatorcar, opposed spring-controlled trip-dogs pivotally secured to said shifting-bar and having vertically disposed crescent-shaped extensions at their outer ends and being successively moved into projected position upon actuation of said bar, a trip-device on said door adapted to successively engage said trip-dogs, and locking-mechanism to lock said controlling-mechanism against actuation and being operatively connected with said shifting-bar.

16. In an elevator, the combination with an elevator-shaft, a door in said shaft, and an elevator-car equipped with controllingmechanism to control the operation thereof, of a vertically disposed trip-bar secured to said door, a horizontally movable shiftingbar secured to said car, independently-pivoted trip-elements projecting from said shifting-bar and adapted for cooperation successively with said trip-bar, and lockingmechanism for locking said controlling-mechanism against actuation and being operatively connected with said shifting-bar.

17. In an elevator, the combination with an elevator-shaft, a door in said shaft, and an elevator-car equipped with controllingmechanism to control the operation thereof, of a shifting-device slidable on said elevator-car and comprising two bars separated by an intervening space and connected by spacing-blocks, oppositely disposed trip-dogs held pivotally between said bars and spring-controlled to normally hold the same in projected position, guides in which said shifting-device is normally held and which cooperate with said dogs to succes sively depress the same when said shiftingdevice is actuated, a trip-device on said door adapted to successively engage said dogs upon opening and closing said door and thereby causing actuation of said shifting device, and locking-mechanism adapted to lock said controlling-mechanisln against actuati on and being operatively connected with said shifting-device.

18. In an elevator, the combination with an elevator-shaft, a door in said shaft, and an elevator-car equipped with controllingmechanism to control the operation thereof, of a shifting-device on the car, oppositely disposed spring-controlled trip-dogs normally arranged so that one of said dogs is held in projected position while the other is depressed, a trip-device on said door adapted to successively engage said dogs, means for depressing the trip-dog engaged by said trip-device to release the latter when said shifting-device is moved a certain distance, and locking-mechanism operatively connected with said shifting-device and adapted to lock said controlling-mechanism against actuation.

19. In an elevator, the combination with an elevator-shaft, a door in said shaft, and an elevator-car equipped with controllingmechanism 'to control the operation thereof, of a horizontally disposed shifting-bar on said elevatorcar, opposed spring-controlled trip-dogs pivotally secured to said shiftingbar, a pair of guides between which said trip-dogs are located, said guides acting to successively depress said dogs when said shifting-bar is actuated, a vertically disposed trip-bar on said door adapted to successively engage said trip-dogs, and a locking-device operatively connected with said shifting-bar and adapted to look said c011- trolling-niechanism against actuation.

20. An elevator-car movable in an eleva tor-shaft, doors at various floors in said elevator-shaft, controlling-mechanism to control the operation of said elevator-car, a loclorod vertically-disposed engaging said controlling-inechanism, a swinging-lever pivotally secured to one end of said lock-rod, a sliding-member having an inclined portion thereon adapted to operate said lever for engaging or disengaging said lock-rod, and

means on said doors to actuate said slidingmember.

21. An elevator-car movable in anelevator-shaft, doors at various floors in said elevator-shaft, controlling-mechanism to con trol the operation of said elevator-car, a lockrod vertically disposed engaging said controlling-niechanism, a weighted swinging-lever pivotally secured to one end of said lock-rod, a sliding-member having an in clined portion thereon, a link secured to said sliding-member, and a shifting-device connected to said link and adapted to be actuated by said doors.

22. An elevator-car movable in an elevator-shaft, doors at various floors in said elevator-shaft, controlling-1nechanism to control the operation of said elevator-car, a lock-rod vertically disposed engaging said controlling-n1echanism, a swinging lever having a weight at its free end and being pivotally secured to one end of said lockrod, a sliding-member, a link secured to said sliding inember, a shiftingbar secured to said link, and a trip-device on each of said doors adapted to actuate said shifting-bar.

In testimony whereof, we have mixed our signatures in the presence of two subscribing witnesses.

AUGUSTUS W. HENGERER. ROBERT J. KIENDL. i/Vitnesses ELLA C. PLUEGKHAHN, EMIL NEUHAR'I.