US374396A - Elevator-stop - Google Patents

Elevator-stop Download PDF

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US374396A
US374396A US374396DA US374396A US 374396 A US374396 A US 374396A US 374396D A US374396D A US 374396DA US 374396 A US374396 A US 374396A
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Prior art keywords
check
rod
platform
stop
stops
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B5/00Applications of checking, fault-correcting, or safety devices in elevators
    • B66B5/02Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions
    • B66B5/16Braking or catch devices operating between cars, cages, or skips and fixed guide elements or surfaces in hoistway or well
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B1/00Control systems of elevators in general
    • B66B1/34Details, e.g. call counting devices, data transmission from car to control system, devices giving information to the control system
    • B66B1/46Adaptations of switches or switchgear
    • B66B1/48Adaptations of mechanically-operated limit switches

Definitions

  • Figure l a perspective view of so much of an elevator as necessary to illustrate the invention
  • Fig. 2 a transverse section through the lifting-rod, showing the collar combined therewith
  • Fig. 3 a sectional top view of the check mechanism 5 Fig. 4, a transverse section. through the lifting-rod, looking down upon one of the stops
  • This invention relates to an improvement. in that class of elevators which are adapted to work through hatchways in ioors, the hatchways usually being provided with swinging doors, which open and close under the movement of the elevator-platform.
  • the shifting cable is necessarilyv arranged outside the hatchway, and therefore cannot extend through the platform or carriagc, as in passenger-elevators.
  • the object of myinvention is to provide any automatic stopping device-one which may be used without the necessary presence of a person on the platform to stop the platform at certain points, or one which will vnot require the attention of the person to bring the platform to a stop.
  • A represents a floor through which is a hatchway closed by doors B B.
  • the usual vertical guide, C At each side of the hatchway is the usual vertical guide, C, and between these guides the platform D is arranged to be moved up or down, as the case may be.
  • the lifting mechanism, or the mechanism for opening or closing the hatchway, is not necessary to be described, as it is not material to this invention.
  • a vertical rod, E-as iron or steel-in place of the usual flexible cable This rod E, I make of other than cylindrical shape-say, hexagonal in transverse section, as seen in Fig. 2and in the door I introduce a collar, F, having an opening l through it corresponding in shape to the shape of the rod, so that the rod may work freely up and down, and, because of the corresponding shape of the collar, be prevented from rotation.
  • This check is a common construction of elevator-check, and consists of a vertical socket having within it transversely-sliding plates I-I H, which draw apart, leaving the socket open vertically, but when brought together subst-antially close the opening through the socket, as indicated in broken lines, Fig. 3. On the side of the socket next the rod is an opening, I, through the socket.
  • stops a b are secured on the rod E. These stops are on the end of arms clamped to the rod E, as seen in Fig. 4, so as to become substantially a part of the rod, or may be made as an integral part of it.
  • the stops stand in the path ofthe check G, as seen in Fig. 1, and so that if the check be open it will pass up or down over the stops without engagement there with, the opening I through the side of the check permitting this movement of the check; but if the check be closed then, when the check comes in Contact with either stop, it will impart a vertical movement to the rod corresponding to that of the platform, and this movement oft-he rod will cause the shift- IOC) ing mechanismV to stop.
  • the non-cylindrical shape of the rod E insures the stops being held directlyin the path of the'check, which would not be the case were the stops xed to au ordinary cable.
  • the twisting or unavoidable vibration of the cable would'prevent proper action of the stops with the check.
  • Fig. l I represent two stops on the rod near the floor.
  • the lower stop, @ will first engage with the'check, and bring the platform to a stop at the floor.
  • Descending, the other stop, Z1, acting upon the check, will produce the same result.
  • the check is opened to permit it to escape the stops.
  • this non cylindrical shape may extend only through the iloors sufficiently far to serve as the guide for the up-aud-down movement.
  • the rod may be made in sections, as represented in Fig. G, the sections through the respective fioors and collars being non-cylindrical and extending sufficiently far up to support the stops, and the several sections connected by a' cable; but there is no economy in making' the rod other than of a continuous non-cylindrieal shape throughout.
  • two cylindrical rods may be employed, as indicated in Figs. 7 and 8, the stop embracing the two rods, as shown, and the two rods working through guides, so as to maintain themin their same parallel relation to each other.
  • This arrangement is practically a non-cylindrical rod-that is, a tlat rod in width equal to the two rods and the space between them.
  • the rod may be cylindrical, as seen in Fig. 9, and the arm extending from the guide adapted to work between vertical guides g g, which arrangement will insure the maintenance of the stop in thev path of the check.
  • the shifting-rod may be iu the form of a cable, the guide for the stop serving as a guide to maintain the shifting-rod in its proper position with relation to the stop, and the stop to the check.
  • shifting-rod,77 therefore, Iwish to be understood as including any equivalent therefor as a means for moving the stops, it only being essential to the invention that there shall be a guide combined with the rod and stop which shall support the stop always in the path of the ascending or descending cheek. I, however, prefer the non-cylindrical shape of the rod as being simplest and cheapest.
  • check mechanism which I have illustrated is one common and well known; but for it may be substituted any known device adapted to engage thestops on the shiftingrod and impart vertical movement thereto.
  • the platform is of so much less dimensions than the hatehway -opening as to permit the check to overhang the platform so far as to engage the stops; but it will be understood that if the stops project within the path of the platform there must be an opening cut th rough the side of the platform to permit the platform to escape the stops.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Types And Forms Of Lifts (AREA)

Description

Patented Dec. 6
UNITED STATES PATENT OFFICE.
FRED C. CANNON, OF NEW HAVEN, CONNECTICUT.
ELEVATOR- STO P.
SPECIFICATION forming part of Letters Patent No. 374,396, dated December 6, 1887. Application filed May 4, 1887. Serial No. 237,089. (No model.)
.To all whom t may concern:
Be it know'n that I, FRED C. CANNON, of
, New Haven, in the county of New Haven and State of Connecticut, have invented a new Improvementin Elevator-Stops; and I do hereby declare the following, when taken in connection with accompanying drawings and theletters of reference marked thereon, to be a full, clear, and exact description of the same, and which said drawings constitute part of this specification, and represent, in-
Figure l, a perspective view of so much of an elevator as necessary to illustrate the invention; Fig. 2, a transverse section through the lifting-rod, showing the collar combined therewith; Fig. 3, a sectional top view of the check mechanism 5 Fig. 4, a transverse section. through the lifting-rod, looking down upon one of the stops; Figs. 5, G, 7,8, and 9, modifications in the lifting-rod.
This invention relates to an improvement. in that class of elevators which are adapted to work through hatchways in ioors, the hatchways usually being provided with swinging doors, which open and close under the movement of the elevator-platform. In this class of elevators the shifting cable is necessarilyv arranged outside the hatchway, and therefore cannot extend through the platform or carriagc, as in passenger-elevators.
It is a common device to provide a platform withla check and a cable with stops to engage the check, so that under the movement of the platform u p or down,when the said check comes into contact with the stop on the cable,a movement will be imparted to the cable corresponding to that of the platform, and thus produce a stop, the cable acting on the shifting mechanism, and so that the mechanism will cease at such stopping-point; but under the usual arrangement of the check and stops with the cable outside the check has been inside the area of the platform, while the cable was outside.
It has therefore been necessary that there should be an operator on the platform to draw the cable so far inward as to bring the stop into engagement with the check.
The object of myinvention is to provide any automatic stopping device-one which may be used without the necessary presence of a person on the platform to stop the platform at certain points, or one which will vnot require the attention of the person to bring the platform to a stop.
In Fig. l I represent so much of an elevator as necessary to, the full understanding of the invention. e
A represents a floor through which is a hatchway closed by doors B B. At each side of the hatchway is the usual vertical guide, C, and between these guides the platform D is arranged to be moved up or down, as the case may be. The lifting mechanism, or the mechanism for opening or closing the hatchway, is not necessary to be described, as it is not material to this invention.
Outside the hatchway, and consequently.
outside the platform, I arrange a vertical rod, E-as iron or steel-in place of the usual flexible cable. This rod E, I make of other than cylindrical shape-say, hexagonal in transverse section, as seen in Fig. 2and in the door I introduce a collar, F, having an opening l through it corresponding in shape to the shape of the rod, so that the rod may work freely up and down, and, because of the corresponding shape of the collar, be prevented from rotation.
On the platform D, I arrange a check, Gr.V
This check is a common construction of elevator-check, and consists of a vertical socket having within it transversely-sliding plates I-I H, which draw apart, leaving the socket open vertically, but when brought together subst-antially close the opening through the socket, as indicated in broken lines, Fig. 3. On the side of the socket next the rod is an opening, I, through the socket.
On the rod E stops a b are secured. These stops are on the end of arms clamped to the rod E, as seen in Fig. 4, so as to become substantially a part of the rod, or may be made as an integral part of it. The stops stand in the path ofthe check G, as seen in Fig. 1, and so that if the check be open it will pass up or down over the stops without engagement there with, the opening I through the side of the check permitting this movement of the check; but if the check be closed then, when the check comes in Contact with either stop, it will impart a vertical movement to the rod corresponding to that of the platform, and this movement oft-he rod will cause the shift- IOC) ing mechanismV to stop. The sliding plates,v
for closing the socket are adapted to be heldin the open positiou-say, as by a bolt-,'K, (see Fig. Y,
form to astand iiush with the respective floors,
ascending or descending.
The non-cylindrical shape of the rod E insures the stops being held directlyin the path of the'check, which would not be the case were the stops xed to au ordinary cable. The twisting or unavoidable vibration of the cable would'prevent proper action of the stops with the check.
In Fig. l I represent two stops on the rod near the floor. As the platform ascends, the lower stop, @,will first engage with the'check, and bring the platform to a stop at the floor. Descending, the other stop, Z1, acting upon the check, will produce the same result. After the platform has been thus stopped by the check, when a continued movement is desired, the check is opened to permit it to escape the stops.
If in running it be desired that the check shall escape several stops, it will be left open until it approaches the stopping-point, and then closed, and will act upon the next stop to bring the platform to rest at that point.
Instead of makingthe rod ofpolygonal form, .Y
as shown, it may be made grooved vertically, as seen in Fig. 5, with a projection on the col' lar entering the groove, which will prevent the rotation ofthe rod and insure the holding of the stops in the path of the check. This non cylindrical shape may extend only through the iloors sufficiently far to serve as the guide for the up-aud-down movement.
Then between such non-cylindrical.portions it may be of any desirable shape.
The rod may be made in sections, as represented in Fig. G, the sections through the respective fioors and collars being non-cylindrical and extending sufficiently far up to support the stops, and the several sections connected by a' cable; but there is no economy in making' the rod other than of a continuous non-cylindrieal shape throughout.
As a substitute for a non-cylindrical rod, two cylindrical rods may be employed, as indicated in Figs. 7 and 8, the stop embracing the two rods, as shown, and the two rods working through guides, so as to maintain themin their same parallel relation to each other. This arrangement is practically a non-cylindrical rod-that is, a tlat rod in width equal to the two rods and the space between them.
Instead of making the rod non-cylindrical, the rod may be cylindrical, as seen in Fig. 9, and the arm extending from the guide adapted to work between vertical guides g g, which arrangement will insure the maintenance of the stop in thev path of the check. In case the stop be vertically guided, as in Fig. 9, the shifting-rod may be iu the form of a cable, the guide for the stop serving as a guide to maintain the shifting-rod in its proper position with relation to the stop, and the stop to the check. By the term shifting-rod,77 therefore, Iwish to be understood as including any equivalent therefor as a means for moving the stops, it only being essential to the invention that there shall be a guide combined with the rod and stop which shall support the stop always in the path of the ascending or descending cheek. I, however, prefer the non-cylindrical shape of the rod as being simplest and cheapest.
The check mechanism which I have illustrated is one common and well known; but for it may be substituted any known device adapted to engage thestops on the shiftingrod and impart vertical movement thereto.
Usually the platform is of so much less dimensions than the hatehway -opening as to permit the check to overhang the platform so far as to engage the stops; but it will be understood that if the stops project within the path of the platform there must be an opening cut th rough the side of the platform to permit the platform to escape the stops.
While I have described the guide as arranged in the floor, it will be understood that it may be arranged at any desirable point.
It will be understood from the foregoing that I make no claim upon the check mechanism, as such is notrmy invention, but, on theY contrary, is fully disclosed in United States Patent No. 331,672. In that patent the shifting device is a rope, which necessarily runs through the check mechanism, and is not arranged outside the check mechanism,whereby it becomes necessary to make that check mechanism of peculiar construction, fully described in the specification of this application, and to which the claims are limited.
It will be understood from the foregoing that I do not claim as of my invention the arrangement. of the shifting-rope outside the platform, with a check on the platform with which said rope may be brought into engagement, the essential feature of my invention being the shifting-bar which rcarries the stop arranged outside the elevator, combined with guides'to so support the shifting-rod as to prevent its rotation.
1. In combination with the platform of an elevator,.a vertical shifting-rod outside said platform, a check fixed to said platform and movable therewith, one or more stops fixed to and projecting from said shiftingrod, and guides for the said shifting-rod to prevent its rotation, substantially as described, and whereby said stops are held always in the path of the check.
2. In combination with the platform of au IOO IIO
into the path of the said cheek, substantially as described.
FRED C. CANNON.
Witnesses:
J ER. A. PECK, FRED C. EARLE.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4492301A (en) * 1981-06-30 1985-01-08 Fujitsu Fanuc Limited Workpiece feeder
US20060105930A1 (en) * 2003-05-30 2006-05-18 Steris Inc. Cleaning and decontamination formula for surfaces contaminated with prion-infected material
CN1906441B (en) * 2004-07-09 2010-06-16 西门子公司 Method for operating of an once-through steam generator

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4492301A (en) * 1981-06-30 1985-01-08 Fujitsu Fanuc Limited Workpiece feeder
US20060105930A1 (en) * 2003-05-30 2006-05-18 Steris Inc. Cleaning and decontamination formula for surfaces contaminated with prion-infected material
US20070037723A1 (en) * 2003-05-30 2007-02-15 Steris Inc. Cleaning and decontamination formula for surfaces contaminated with prion-infected material
US20070289614A1 (en) * 2003-05-30 2007-12-20 Steris Inc., Cleaning and decontamination formula for surfaces contaminated with prion-infected material
CN1906441B (en) * 2004-07-09 2010-06-16 西门子公司 Method for operating of an once-through steam generator

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