[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

US1959528A - Safety control mechanism for elevators - Google Patents

Safety control mechanism for elevators Download PDF

Info

Publication number
US1959528A
US1959528A US408940A US40894029A US1959528A US 1959528 A US1959528 A US 1959528A US 408940 A US408940 A US 408940A US 40894029 A US40894029 A US 40894029A US 1959528 A US1959528 A US 1959528A
Authority
US
United States
Prior art keywords
car
actuating
speed
governor
stop
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US408940A
Inventor
Federici Vincent
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
HONESDALE NAT BANK
HONESDALE NATIONAL BANK
Original Assignee
HONESDALE NAT BANK
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by HONESDALE NAT BANK filed Critical HONESDALE NAT BANK
Priority to US408940A priority Critical patent/US1959528A/en
Application granted granted Critical
Publication of US1959528A publication Critical patent/US1959528A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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
    • B66B5/04Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions for detecting excessive speed
    • B66B5/044Mechanical overspeed governors

Definitions

  • This invention relates to safety mechanism' or safety devices for elevators.
  • This invention has for its salient object to provide car safety control mechanism so constructed and arranged that the cars will be automatically stopped when they are operating at excessive speeds in the terminal zones.v
  • Another object of the invention is to provide car safety controlmechanism so constructed and arranged that the car Will be automatically stopped under thefollowing conditions, namely,.
  • Another object of. the invention is to provide car safety control mechanism so constructed and arranged that the control mechanism will be automatically operated under predetermined conditions or can bemanually operated, at the will of the car operator. 7
  • FIG. 1 is a vertical, sectional elevation of mechanism constructed: in accordance with; the invention
  • Fig. 2' is an elevational view taken at right angles to Fig. 1;
  • Fig. 3 is a top plan view of the mechanism.
  • Fig. i is a sectional elevation showing one form of car stopping mechanism adapted for use in connection with the control mechanism
  • Fig. 5 is a diagrammatic view illustrating the operative connections for the control mechanism.
  • Fig. 6 is a sectional elevation showing oneform of connection that may beusedbetweenthe elevator car andgovernor operating cable.
  • the invention briefly described consists of control mechanism. preferably. mounted on the car frame and so-constructed and arranged that governor, mechanism will coact with the safety control mechanism, and cause the car to be 5 stopped under. a, plurality of: predetermined conditions.
  • One set ofgovernor devices or weights isarranged to cause the operation of the control mechanism whenthe car'speed between the terminal zones:exceeds a predetermined maximum.
  • Anotherset of governor devices or weights is adapted, through the intervention of mechanism operated by cams in the terminal zones, to cause the operation of the control mechanism. when the car is traveling in theterminal zones at ex- 5 cessive speeds.
  • the control mechanism is also automatically operated in case the suspensioncables for the: car break orbecome inoperative.
  • the mechanism can be operated manually from within; the-car.
  • anelevator car C on the roof of which is a. supporting frame 10 on which the control mechanism is mounted.
  • a casing 11 is mounted on the frame 10 and in turn supports brackets 12 and 13' in which is mounted a governor shaft 14.
  • the shaft 14 has agrooved pulley 15 at one end thereofwhich is rotated whenever the car is moving in the following; manner:
  • A. cable 20 runs over a sheave 21, preferably located at the top of the elevator shaft in the pent house.
  • the cable passes under an idler sheave 22 located below and supported from the bottom of the car and from the sheave 22 passes upwardly around the sheave 15 and downwardly to a sheave 23 near the lower end of the hatchway. This is usually weighted tokeep the governor rope in tension. From the sheave 23 the cable 20'passes upwardly to the sheave 21. It will be seen, therefore, that the cable 20- forms a closed loop or is endless.
  • the cable 20 is normally connected to the car by a bracket 30. whichmay have resiliently actuat d, clamping jawsv 31 and 32 which normally engage a ball 33 carried by the cable. This particular construction is illustrated in Fig. 6.
  • a cable 35 is also connected to the cable 20.
  • - Cable 35 passes between a pair of sheaves 36 on the car and is connected to a drum 3'? constructed and arranged to operate oar stop devices, such as those shown in Fig. 4.
  • the wedges engage arms- 45 and 46 which are pivoted at 47 and form a part of clamping jaws l8, so positioned as to clamp the elevator guide rails 49.
  • the members 10 and 11- are threaded in opposite directions so that as the drum is rotated the wedges will be forced outwardly, causing the clamping jaws to grip the guide rails and stop the car.
  • the governor mechanism comprises a central disk 50 and two sets of governor weights 51 and 52 disposed on and pivoted on opposite sides of the disk 50.
  • the set 51 disposed in front of the disk 50 is provided for the purpose of setting iii- 7 operation a car stop mechanism when the car is traveling at speeds in excess of a predetermined maximum between the terminal zones.
  • the set 52 is constructed to set in operation the car stop mechanism when the car is traveling at lower rates of speed in one of the terminal zones but at speeds in excess of a predetermined maximum.
  • the casing 11 has a vertical opening 55 therethrough, through which passes the portion of the cable 20 disposed between the sheaves 21 and 22.
  • a plunger 56 is slidably mounted in the casing and has secured thereto an actuating rod 57 having mounted thereon a collar 58 which is engaged by a spring 59 positioned between the collar and the other end 60 of the casing.
  • the plunger 56 is normally held in retracted position in the following manner: A pair of toggle links 61 and 62 are pivo-tally connected to each other at 63 and the link 61 is; pivoted at 64 to the casing 11 and link 62 is pivoted at 65 to lugs 66 1 carried by the collar 58. 50
  • the lug '72 is adapted to engage the pivot 63 of the toggle links 61 and 62 and hold the links in the position shown in Fig. 1. When the links are so held, the collar 58 will be held against the action of the spring 59 and the plunger 56 will be positioned out of engagement with the cable 20; Several different means are provided for rocking the sleeve 71 on the shaft 70 to cause the lug '72 to release the pivot of the toggle links and permit the spring 59 to actuate the rod 57 and plunger 56 to operative position.
  • an upwardly extending lug '74 is formed on the sleeve 71 and is positioned at the plane of the path of movement of the gov ernor weights 51. an excessive rate of speed between the terminal zones, the weights 51 will be swung outwardly by centrifugal force to a sufficient extent to engage the lug 74, thereby rocking the sleeve 71 and the When the car is traveling at lug 72 carriedthereby' and releasing the plunger 56.
  • the governor weights 52 are provided for the purpose of setting in operation the car stopping mechanism when the car is traveling at greater rates of speed than desired in the terminal. zones.
  • the sleeve 71 has formed thereon and projecting upwardly therefrom, a lug '75 to which is secured a spindle '76 having mounted thereon a roller 77.
  • the roller '77 is positioned in a fork '78 formed on a lever '79 which is pivotaily mounted on one end of a bell crank lever 80 pivoted at 81 to a lug 82 carried by the casing 11.
  • the lever 79 is extended upwardly to form an arm 83 which is normally positioned in the plane of but below the path of movement of the set of governor weights 52.
  • Means is provided, however, for raising the lever 79 to a position in which the governor weights will engage the arm 83, provided the car is traveling above desired rates of speed.
  • the lever '79 will be rocked on its pivot on the bell crank lever 80, thus causing the arm and sleeve 71 to be rocked, since this arm carries the roller 77 which is positioned in the fork 78 of the lever '79.
  • the raising of the arm 83 is accomplished whenever the car enters one of the terminal zones, in the following manner:
  • the bell crank lever is connected by a link 85 to the upper end of a bell crank lever 86 mounted on a fixed pivot 8'7.
  • the other end of the bell crank lever 86 carries a roller 88 which engages a cam 89 mounted on a spindle 90.
  • the spindle 90 is mounted in suitable bearings and has secured to ];r:
  • roller 92 is adapted to engage cams 93 and 94 which are positioned respectively in the upper and lower ends of the elevator hatchway at the entrances of the terminal zones.
  • cams 93 and 94 is proportioned to the normal rate of deceleration of the elevator car in the terminal 3 zones, so that the automatic actuation of the car safety or stopping device will occur whenever the decreasing rate of speed of the car is greater than it should be at any given point.
  • the outer end of the lever 100 has an opening 105 through which extends a chain 106 having a ball 10'? secured thereto and disposed below the lever 100.
  • the upper end of the chain 106 is connected to an arm 108 which in turn is secured to the sleeve 71.
  • the chain 106 is preferably extended downwardly through the roof of the car and is provided with a handle 109 at the lower end thereof, by means of which the car operator can pull the chain and set in operation the car stopping mechanism.
  • the terminal zones are those parts of the ends of path of travel of the car during which the car speed is decreased until it comes to rest.
  • an elevator car a stop device therefor, mechanism normally operative in response to car movement for actuating the stop device, control means for maintaining said actuating mechanism unresponsive to car movement, plural devices for selectively actuating said control means in response to car speed and car position, either of said devices which when actuated moves the control to efiect normal operation of the stop actuating mechanism in response to car movement, and constantly driven speed responsve means for actuating said control actuating means, one of said control actuating means being actuated in response to predetermined car speed between terminal zones, and another of said control actuating means being actuated in response to predetermined car speed within the terminal zones.
  • an elevator car a stop de-- vice, operating means therefor including a spring actuated element for setting said means in operation, means for holding said element against operation, and a plurality of actuating means for releasing said holding means to release the operating means for effective operation, means responsive to car speed for operating said actuating means, one of said actuating means being controlled by the speed of operation of the car between the terminal zones and another of said actuating means being controlled by the speed of operation of the car in the terminal zones.
  • an elevator car a stop device therefor, means controlling the effective operation of said stop device, means coacting with a part of said controlling means to pre- Vent effective operation of said device, a governor, and two separate actuating means for said last named means operable by said governor at relatively different speeds of travel of the car to permit effective operation of said stop device.
  • an elevator car a stop device, actuating means therefor, a governor, an element disposed normally out of operative relation to the governor for setting said actuating means in operation, and means for moving said element into operative relation with the governor when the car is in a terminal zone, the position into which said element is moved varying in proportion to the deceleration of the car as the car approaches the end of said zone.
  • an elevator car a car safety stop, mechanism for actuating said stop, a device for preventing the operation of the actuating mechanism, releasing means for said device, a governor arranged to engage the releasing means when the car speed between terminal zones exceeds a predetermined maximum, and means operated when the car is in a terminal zone for permitting the governor to engage the releasing device at lower car speeds.
  • an elevator car a hoisting cable therefor, a car safety stop, mechanism for actuating said stop, a device for reventing the operation of the actuating mechanism, releasing means for said device, a governor arranged to engage the releasing means when the car speed between terminal zones exceeds a predetermined maximum, means operated when the car is in a terminal zone for permitting the governor to engage the releasing device at lower car speeds, and means controllable by the hoisting cable for actuating the releasing means.
  • an elevator car a hoisting cable therefor, a car safety stop, mechanism for actuating said stop, a device for preventing the operation of the actuating mechanism, releasing means for said device, a governor arranged to engage the releasing means when the car speed between terminal zones exceeds a predetermined maximum, means operated when the car is in a terminal zone for permitting the VINCENT FEDERICI.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Maintenance And Inspection Apparatuses For Elevators (AREA)

Description

May 22, 1934. v FEDER|| 1,959,528
SAFETY CONTROL MECHANISM FOR ELEVATORS Filed NOV. 22, 1929 v 2 Sheets-Sheet l INVENTOR' l maeflf Peder/a wimm ATTORN YS May 22, 1934. v. FEDERICI 1,959,528
SAFETY CONTROL MECHANISM FOR ELEVATORS Filed NOV. 22, 1929 2 SheetsSheet 2 JQMMQ ATTORNEY Patented May 22, 1934 UNITED. STATES.-
SAFETY CONTROL MECHANISM FOR ELEVATORS Vincent Fcderici, New York, N. Y., assignor, by mesne assignments, to. Honesdale National.v
Bank, Honesclale, Pa.
Application November 22, 1929, Serial No. 408,940
13 Claims.
This invention relates to safety mechanism' or safety devices for elevators.
It is common practice toprovide elevators with governing mechanism so arranged that when the car is traveling at a speed in excessof a predetermined maximum, safety mechanism will be operated to stop the car.
In. recent years elevator practice has changed andthe speed of operation of elevators has been very materially increased. Furthermore, in buildings being constructed atthe present time, the depth of the elevatorzpit has been greatly'decreased. and there is a growing tendency to restrict the depth to the least possible amount so as to effect asaving in the. excavation and foundation costs.
The increased speeds of operation and the decreased depths of the pits give rise to a serious problem in. elevator operation and particularly in the operation of. the cars in theterminal zones.
This invention has for its salient object to provide car safety control mechanism so constructed and arranged that the cars will be automatically stopped when they are operating at excessive speeds in the terminal zones.v
Another object of the invention is to provide car safety controlmechanism so constructed and arranged that the car Will be automatically stopped under thefollowing conditions, namely,.
when operating between the terminal zones at excessive speeds, when the car is operating at speeds above a predetermined maximum in the terminal zones, and when the car suspension cables break or give way.
Another object of. the invention is to provide car safety control mechanism so constructed and arranged that the control mechanism will be automatically operated under predetermined conditions or can bemanually operated, at the will of the car operator. 7
Further objects of the invention will appear from the following specification taken in connection with. the drawings which form a part of this application, and in which Fig. 1 is a vertical, sectional elevation of mechanism constructed: in accordance with; the invention;
Fig. 2' is an elevational view taken at right angles to Fig. 1;
Fig. 3 is a top plan view of the mechanism.
shown in Fig. 1;
Fig. i is a sectional elevation showing one form of car stopping mechanism adapted for use in connection with the control mechanism;
Fig. 5 is a diagrammatic view illustrating the operative connections for the control mechanism; and
Fig. 6 is a sectional elevation showing oneform of connection that may beusedbetweenthe elevator car andgovernor operating cable.
The invention, briefly described consists of control mechanism. preferably. mounted on the car frame and so-constructed and arranged that governor, mechanism will coact with the safety control mechanism, and cause the car to be 5 stopped under. a, plurality of: predetermined conditions. One set ofgovernor devices or weights isarranged to cause the operation of the control mechanism whenthe car'speed between the terminal zones:exceeds a predetermined maximum. 0 Anotherset of governor devices or weights is adapted, through the intervention of mechanism operated by cams in the terminal zones, to cause the operation of the control mechanism. when the car is traveling in theterminal zones at ex- 5 cessive speeds. The control mechanism is also automatically operated in case the suspensioncables for the: car break orbecome inoperative. In addition to these three-sets ofconditions under which the control mechanism is automati- 8Q cally operated, the mechanism can be operated manually from within; the-car.
Further details of the invention will appear from the following description.
In the particular embodiment of the invention illustrated in the drawingsthere is shown a portion of anelevator car C on the roof of which is a. supporting frame 10 on which the control mechanism is mounted.
A casing 11 is mounted on the frame 10 and in turn supports brackets 12 and 13' in which is mounted a governor shaft 14. The shaft 14 has agrooved pulley 15 at one end thereofwhich is rotated whenever the car is moving in the following; manner: A. cable 20 runs over a sheave 21, preferably located at the top of the elevator shaft in the pent house. The cable passes under an idler sheave 22 located below and supported from the bottom of the car and from the sheave 22 passes upwardly around the sheave 15 and downwardly to a sheave 23 near the lower end of the hatchway. This is usually weighted tokeep the governor rope in tension. From the sheave 23 the cable 20'passes upwardly to the sheave 21. It will be seen, therefore, that the cable 20- forms a closed loop or is endless.
The cable 20 is normally connected to the car by a bracket 30. whichmay have resiliently actuat d, clamping jawsv 31 and 32 which normally engage a ball 33 carried by the cable. This particular construction is illustrated in Fig. 6.
From the foregoing description it will be seen that whenever the car is moving the governor will be rotated at a rate proportional to that of the movement of the car. 7
From the showing in Fig. 5 it will be seen that a cable 35 is also connected to the cable 20.- Cable 35 passes between a pair of sheaves 36 on the car and is connected to a drum 3'? constructed and arranged to operate oar stop devices, such as those shown in Fig. 4. The drum 37 has exten= sions 38 and 39 in which are threaded members" 40 and 41 provided on the outer ends thereof with wedges 42 and 43. The wedges engage arms- 45 and 46 which are pivoted at 47 and form a part of clamping jaws l8, so positioned as to clamp the elevator guide rails 49. It will be noted that the members 10 and 11- are threaded in opposite directions so that as the drum is rotated the wedges will be forced outwardly, causing the clamping jaws to grip the guide rails and stop the car.
The governor mechanism comprises a central disk 50 and two sets of governor weights 51 and 52 disposed on and pivoted on opposite sides of the disk 50. The set 51 disposed in front of the disk 50 is provided for the purpose of setting iii- 7 operation a car stop mechanism when the car is traveling at speeds in excess of a predetermined maximum between the terminal zones. The set 52 is constructed to set in operation the car stop mechanism when the car is traveling at lower rates of speed in one of the terminal zones but at speeds in excess of a predetermined maximum.
The casing 11 has a vertical opening 55 therethrough, through which passes the portion of the cable 20 disposed between the sheaves 21 and 22. A plunger 56 is slidably mounted in the casing and has secured thereto an actuating rod 57 having mounted thereon a collar 58 which is engaged by a spring 59 positioned between the collar and the other end 60 of the casing.
The plunger 56 is normally held in retracted position in the following manner: A pair of toggle links 61 and 62 are pivo-tally connected to each other at 63 and the link 61 is; pivoted at 64 to the casing 11 and link 62 is pivoted at 65 to lugs 66 1 carried by the collar 58. 50
, ing lug 72. The lug '72 is adapted to engage the pivot 63 of the toggle links 61 and 62 and hold the links in the position shown in Fig. 1. When the links are so held, the collar 58 will be held against the action of the spring 59 and the plunger 56 will be positioned out of engagement with the cable 20; Several different means are provided for rocking the sleeve 71 on the shaft 70 to cause the lug '72 to release the pivot of the toggle links and permit the spring 59 to actuate the rod 57 and plunger 56 to operative position.
In order to cause the sleeve '71 to be rocked and to release the gripping mechanism when the car is traveling at an excessive rate of speed between the terminal zones, an upwardly extending lug '74 is formed on the sleeve 71 and is positioned at the plane of the path of movement of the gov ernor weights 51. an excessive rate of speed between the terminal zones, the weights 51 will be swung outwardly by centrifugal force to a sufficient extent to engage the lug 74, thereby rocking the sleeve 71 and the When the car is traveling at lug 72 carriedthereby' and releasing the plunger 56.
The governor weights 52 are provided for the purpose of setting in operation the car stopping mechanism when the car is traveling at greater rates of speed than desired in the terminal. zones.
This is accomplished inthe following manner: The sleeve 71 has formed thereon and projecting upwardly therefrom, a lug '75 to which is secured a spindle '76 having mounted thereon a roller 77. The roller '77 is positioned in a fork '78 formed on a lever '79 which is pivotaily mounted on one end of a bell crank lever 80 pivoted at 81 to a lug 82 carried by the casing 11. The lever 79 is extended upwardly to form an arm 83 which is normally positioned in the plane of but below the path of movement of the set of governor weights 52. Means is provided, however, for raising the lever 79 to a position in which the governor weights will engage the arm 83, provided the car is traveling above desired rates of speed. When this takes place the lever '79 will be rocked on its pivot on the bell crank lever 80, thus causing the arm and sleeve 71 to be rocked, since this arm carries the roller 77 which is positioned in the fork 78 of the lever '79.
The raising of the arm 83 is accomplished whenever the car enters one of the terminal zones, in the following manner: The bell crank lever is connected by a link 85 to the upper end of a bell crank lever 86 mounted on a fixed pivot 8'7. The other end of the bell crank lever 86 carries a roller 88 which engages a cam 89 mounted on a spindle 90. The spindle 90 is mounted in suitable bearings and has secured to ];r:
one end thereof an arm 91 having a roller 92 on the outer end thereof. The roller 92 is adapted to engage cams 93 and 94 which are positioned respectively in the upper and lower ends of the elevator hatchway at the entrances of the terminal zones.
From the foregoing description it will be seen that whenever an elevator car enters the terminal zones, the arm 91 will oscillate the shaft 90 and the cam 89 carried thereby. The oscillation of the cam in either direction will swing the bell crank lever 86 on its pivot 87 in a clockwise direction, thus pulling the link 85 to the right, viewing Fig. 1, rocking the bell crank lever 80 on its pivot 81 in a clockwise direction, and raising the arm 83 into a position to be engaged by the governor weights 52, provided the car is operating at such a speed to cause the weights to be swung outwardly a suificient extent to engage the arm 83. When this arm is engaged by the weights, the sleeve 71 will be rocked and the lug 72 will release the toggle links, thus causing the plunger 56 to grip the cable 20. The shape of cams 93 and 94 is proportioned to the normal rate of deceleration of the elevator car in the terminal 3 zones, so that the automatic actuation of the car safety or stopping device will occur whenever the decreasing rate of speed of the car is greater than it should be at any given point.
- Means is also provided for causing the plunger 4 supporting beam 98 carried by the frame of the ,7
gages the lever 100 and tends to swing the lever in an anti-clockwise direction about its pivot 101. This tendency, however, is counteracted by the engagement of the end 102 of the lever with the edge of the plate 96. The outer end of the lever 100 has an opening 105 through which extends a chain 106 having a ball 10'? secured thereto and disposed below the lever 100. The upper end of the chain 106 is connected to an arm 108 which in turn is secured to the sleeve 71.
When the suspension cables 95 break, the springs 9'7 will force the plate 96 downwardly, thus releasing the lever 100, which will be swung about its pivot by the spring 103 and will engage the ball 10? and depress the chain 106, thus causing the arm 108 to oscillate the sleeve 71 and in the manner hereinbefore described, to cause the plunger 56 to grip the cable 20. The chain 106 is preferably extended downwardly through the roof of the car and is provided with a handle 109 at the lower end thereof, by means of which the car operator can pull the chain and set in operation the car stopping mechanism.
When the cable 20 is gripped by the plunger 56, further movement of the car will cause the cable 35 to rotate the drum 37, thus setting in operation the clamping jaws 48 and causing these jaws to grip the guide rails and stop the car. Since the cable 20 is gripped on the opposite side of the sheave 21 from the lap of the cable to which is secured the cable 35, it will be obvious that the car will be stopped after movement one-half of the distance required to stop the car should the gripping device be applied to the other lap of the cable.
From the foregoing description it will be seen that simple, practical and effective means have been provided for automatically setting in operation the car stop mechanism when the car is traveling between the terminal zones at excessive speeds, when the car is traveling in the terminal zones at speeds in excess of predetermined rates,
and when the suspension cables break. Furthermore, means has been provided for manually causing the safety car stop mechanism to operate.
Two sets of governor weights have been shown and described, but if desired, the parts associated with the lug may be connected with the lug 74 and actuated by the governor weights 51.
Although one specific embodiment of the invention has been particularly shown and described, it will be understood that the invention is capable of modification and that changes in the construction and in the arrangement of the various cooperating parts may be made without departing from the spirit or scope of the invention, as expressed in the following claims.
The terminal zones are those parts of the ends of path of travel of the car during which the car speed is decreased until it comes to rest.
What I claim is:
1. In combination an elevator car, a stop device therefor, mechanism normally operative in response to car movement for actuating the stop device, a single control member for maintaining said actuating mechanism unresponsive to car movement, plural devices for selectively actuating said control member, either of wh'ch when actuated moves the control to effect normal operation of the stop actuating mechanism in response to car movement, and speed responsive means for actuating said control actuating means, one of said control actuating means being actuated in response to predetermined car speed between terminal zones, and another of said control actuat ng means being actuated in response to predetermined car speed within the terminal zones.
' 2. In combination an elevator car, a stop device therefor, mechanism normally operative in response to car movement for actuating the stop device, control means for maintaining said actuating mechanism unresponsive to car movement, plural devices for selectively actuating said control means in response to car speed and car position, either of said devices which when actuated moves the control to efiect normal operation of the stop actuating mechanism in response to car movement, and constantly driven speed responsve means for actuating said control actuating means, one of said control actuating means being actuated in response to predetermined car speed between terminal zones, and another of said control actuating means being actuated in response to predetermined car speed within the terminal zones.
3. In combination an elevator car, a stop device therefor, mechanism normally operative in response to car movement for actuating the stop device, control means for maintaining said actuating mechanism unresponsive to'car movement, plural devices for selectively actuating said control means in response to car speed and car position, either of whch said devices when actuated moves the control to effect normal operation of the stop actuating mechanism in response to car movement, and constantly driven speed responsive means for actuating said controlactuating means, one of said control actuating means being actuated in response to predetermined car speed between terminal zones, and another of said control actuating means being actuated in response to predetermined car speed within the terminal zones, and means responsive to car position for automatically rendering one of said actuating devices operative or inoperative with respect to the constantly driven speed responsive means according to whether the car is traveling between terminals or within a terminal zone.
4. In combination an elevator car, a stop device, operating mechanism normally operative in response to car movement for actuating the stop device, means for setting said mechanism in operation, control means for holding said mechanism against operation, shiftable means for actuating the control means for releasing the holding means, speed controlled means for actuating the releasing means, and means operable in response to car position to move the releasing means into operable position with reference to the speed controlled means when the car enters the terminal zone, whereby to effect operation of the stop device if the speed of the car exceeds a predetermined value in the terminal zone.
5. In combination an elevator car, a stop device, operating mechanism therefor, means for setting the mechanism in operation, means for holding said means against operation, means for releasing said holding means, means responsive to car speed for actuating the release means, and means operative only when the car reaches a terminal zone for moving said release means into operative relation with the speed control means for actuation thereby.
6. In combination, an elevator car, a stop de-- vice, operating means therefor including a spring actuated element for setting said means in operation, means for holding said element against operation, and a plurality of actuating means for releasing said holding means to release the operating means for effective operation, means responsive to car speed for operating said actuating means, one of said actuating means being controlled by the speed of operation of the car between the terminal zones and another of said actuating means being controlled by the speed of operation of the car in the terminal zones.
'7. In combination, an elevator car, a stop device therefor, means controlling the effective operation of said stop device, means coacting with a part of said controlling means to pre- Vent effective operation of said device, a governor, and two separate actuating means for said last named means operable by said governor at relatively different speeds of travel of the car to permit effective operation of said stop device.
8. In combination, an elevator car, a stop device, actuating means therefor, a governor, an element disposed normally out of operative relation to the governor for setting said actuating means in operation, and means for moving said element into operative relation with the governor when the car is in a terminal zone.
9. In combination, an elevator car, a stop device, actuating means therefor, a governor, an element disposed normally out of operative relation to the governor for setting said actuating means in operation, and means for moving said element into operative relation with the governor when the car is in a terminal zone, the position into which said element is moved varying in proportion to the deceleration of the car as the car approaches the end of said zone.
10. In combination, an elevator car, a car safety stop, mechanism for actuating said stop, a device for preventing the operation of the actuating mechanism, releasing means for said device, a governor arranged to engage the releasing means when the car speed between terminal zones exceeds a predetermined maximum, and means operated when the car is in a terminal zone for permitting the governor to engage the releasing device at lower car speeds.
11. In combination, an elevator car, a hoisting cable therefor, a car safety stop, mechanism for actuating said stop, a device for reventing the operation of the actuating mechanism, releasing means for said device, a governor arranged to engage the releasing means when the car speed between terminal zones exceeds a predetermined maximum, means operated when the car is in a terminal zone for permitting the governor to engage the releasing device at lower car speeds, and means controllable by the hoisting cable for actuating the releasing means.
12. In combination, an elevator car, a hoisting cable therefor, a car safety stop, mechanism for actuating said stop, a device for preventing the operation of the actuating mechanism, releasing means for said device, a governor arranged to engage the releasing means when the car speed between terminal zones exceeds a predetermined maximum, means operated when the car is in a terminal zone for permitting the VINCENT FEDERICI.
US408940A 1929-11-22 1929-11-22 Safety control mechanism for elevators Expired - Lifetime US1959528A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US408940A US1959528A (en) 1929-11-22 1929-11-22 Safety control mechanism for elevators

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US408940A US1959528A (en) 1929-11-22 1929-11-22 Safety control mechanism for elevators

Publications (1)

Publication Number Publication Date
US1959528A true US1959528A (en) 1934-05-22

Family

ID=23618390

Family Applications (1)

Application Number Title Priority Date Filing Date
US408940A Expired - Lifetime US1959528A (en) 1929-11-22 1929-11-22 Safety control mechanism for elevators

Country Status (1)

Country Link
US (1) US1959528A (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2945561A (en) * 1959-06-01 1960-07-19 Universal Mfg Co Elevator overspeed brake
US3119464A (en) * 1962-02-26 1964-01-28 Rountree J L Hunter Speed controlled cable engaging safety mechanism for elevators
US5228540A (en) * 1992-07-24 1993-07-20 Hollister-Whitney Elevator Corp. Elevator car brake with shoes actuated by springs
US5310022A (en) * 1992-03-20 1994-05-10 Otis Elevator Company Mechanical overspeed safety device
US6216826B1 (en) * 1999-01-19 2001-04-17 Michael John Botzet Bank hoist braking apparatus
FR2845365A1 (en) * 2002-10-07 2004-04-09 Emile Kadoche Multifunction speed regulator for lifts, controls the unblocking distance by opening of the hydraulic security valve or the brake
EP1832542A1 (en) * 2004-12-27 2007-09-12 Mitsubishi Denki Kabushiki Kaisha Speed governor device of elevator

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2945561A (en) * 1959-06-01 1960-07-19 Universal Mfg Co Elevator overspeed brake
US3119464A (en) * 1962-02-26 1964-01-28 Rountree J L Hunter Speed controlled cable engaging safety mechanism for elevators
US5310022A (en) * 1992-03-20 1994-05-10 Otis Elevator Company Mechanical overspeed safety device
US5228540A (en) * 1992-07-24 1993-07-20 Hollister-Whitney Elevator Corp. Elevator car brake with shoes actuated by springs
WO1994002404A1 (en) * 1992-07-24 1994-02-03 Hollister-Whitney Elevator Corp. Elevator brake with shoes actuated by springs
AU674156B2 (en) * 1992-07-24 1996-12-12 Hollister-Whitney Elevator Corp. Elevator brake with shoes actuated by springs
US6216826B1 (en) * 1999-01-19 2001-04-17 Michael John Botzet Bank hoist braking apparatus
FR2845365A1 (en) * 2002-10-07 2004-04-09 Emile Kadoche Multifunction speed regulator for lifts, controls the unblocking distance by opening of the hydraulic security valve or the brake
EP1832542A1 (en) * 2004-12-27 2007-09-12 Mitsubishi Denki Kabushiki Kaisha Speed governor device of elevator
EP1832542A4 (en) * 2004-12-27 2012-05-30 Mitsubishi Electric Corp Speed governor device of elevator

Similar Documents

Publication Publication Date Title
JP5325904B2 (en) Emergency stop device and elevator device having the same
US1805227A (en) Multiple-car elevator
US5217091A (en) Mechanical overspeed safety device
US1959528A (en) Safety control mechanism for elevators
US1934508A (en) Elevator safety
JP2001354372A (en) Elevator device
US1864588A (en) Automatic reset safety device
US2298167A (en) Elevator safety device
US1937035A (en) Elevator safety device
US2326046A (en) Elevator safety apparatus
US1905274A (en) Elevator governor
US3346073A (en) Safety brake tripping system for elevators
US1738214A (en) A coepoeatioh
US973518A (en) Safety device for elevators.
US1182240A (en) Safety device for elevators.
US2263482A (en) Automatic control for grabs, buckets, and the like
US2402285A (en) Governor
JP2018167953A (en) Governor rope tension adjustment device and elevator
US1425569A (en) Control mechanism for hoisting apparatus
US1924310A (en) Elevator safety brake
US2145656A (en) Elevator safety apparatus
US1870217A (en) Safety device
US1389248A (en) Governor for elevators
US1955333A (en) Safety device for elevators
US1368157A (en) Crane and like hoisting apparatus