US742173A - Elevator mechanism. - Google Patents

Elevator mechanism. Download PDF

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US742173A
US742173A US14054403A US1903140544A US742173A US 742173 A US742173 A US 742173A US 14054403 A US14054403 A US 14054403A US 1903140544 A US1903140544 A US 1903140544A US 742173 A US742173 A US 742173A
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cam
rocker
lever
brake
elevator
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John Dillon
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16HGEARING
    • F16H25/00Gearings comprising primarily only cams, cam-followers and screw-and-nut mechanisms
    • F16H25/18Gearings comprising primarily only cams, cam-followers and screw-and-nut mechanisms for conveying or interconverting oscillating or reciprocating motions
    • F16H25/20Screw mechanisms
    • F16H25/2015Means specially adapted for stopping actuators in the end position; Position sensing means

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  • JOHN DILLON on MILWAUKEE, WISCONSIN;
  • My invention has especial reference to electric elevators, its object being to prevent over-' running of the car of an elevator at terminal landings and toprovide for automatic cut-out of the motor and a like setting of the brake pertaining to said car should the operator fail to do the work for a stop at either of said landings.
  • said invention consists in certain peculiarities of construction and combination of parts hereinafter particularly set forth with reference to the accompanying drawings and subsequently claimed.
  • Figure 1 of the drawings represents a partlysectional side elevation of electric elevator mechanism in which my improvements are" embodied;
  • F1g. 2 a partly-transverse section dicated by lines 4 4 in the third, fifth, and
  • Fig. 5 a view indicated by lines 5 5 in the third figure
  • Fig. 6 a view indicated by line 6 6 in the fifth figure
  • Fig. 7 a View indicated byline7 7'in the fourth figure.
  • the mechanism herein shown is similar to that ordinarily employed in the application of electric energy and friction with respect to the operation of an elevator in so far as it involves an electric motor and rheostat, a cable-drum, a friction-brake, a start-and-stop rocker, and means in connection with the rocker for controlling the motor and brake, said mechanism being arranged and connected on a supporting-frame of suitable construction.
  • start and-stop rocker is, shown made to comprise a sheave Aand wrist-plate A, connected by a web 5, the whole being, preferably, a single casting having a pair of radially-projecting tappets e at an acute angle to each other, one being extended from said sheave to normal position.
  • rocker-tappets are such that one or the other is in the path of one or the other of a pair of wipers d, that are in one piece or otherwise rigid with a preferably double cam B loose on the drum-shaft 0,
  • this cam being operative against yielding re sistance by which itis automaticallyretnrned
  • the resistance herein shown is a weight'D, connected by a sheavesupported flexible device 6 with a pulley-wheel B, that is also loose on the drum-shaft and connected by a longitudinally-grooved web f with the cam B, this cam, the pulley-wheel, and connecting-web being, preferably, a single casting.
  • a weight it is practical to employ a suitably arranged and connected spring for the yielding resistance, or
  • the cam may be counterbalanced.
  • a segmental recess in the camhub is engaged by a lug j, that extends inward from the wrist plate portion of said rocker, movement on the part of this rocker in either direction serving to actuate said cam when-said lug reaches either extremity of said recess, in which it is centered if the motor be I a full throw in either direction of the hand device by which an operator in the elevatorcar actuates the rocker, motion of the hand device being communicated to said rocker by means of a belt J, that passes around the sheave portion A of same.
  • the rocker-sheave A is provided with stop-lugs 122, between which is arranged an arm n of a bracket K, attached to a frame-standard, the arbor G for the rocker and cam 11 being set in the bracket.
  • a shouldered pin L is loose at one end on a wrist 1), with which the plate A of the rocker is provided, and a guide (1 for the pin has swivel connection with the aforesaid crank end of lever l, the other end of this lever being coupled to a rod M, guided in the head of a standard N and surrounded by a spiral spring r under tension between a washer s and nuts 1 on said rod below the standardhead.
  • the spring 0' constitutes a yielding resistance to a tilt of lever I by the cam H, pin L, or both; but some other yielding resistance may be employed in practice for the same purpose.
  • cam H The major portion of the working face of cam H is a segment of a circle between prejections u, and it is preferable in practice to have clearance between roller 7.: and the opposing portion of said cam intermediate of said projections when the pin L is centered in stop position, at which time the pin-shoulder q in contact with the guide q serves to take the strain that would otherwise come upon the aforesaid can].
  • the lever I is shown fulcrumed about midway of its length on a pivot-bolt '0, that engages an aperture provided in another lever P, one end of which is provided with oppositely-arranged studs 10, engaging grooves of the double cam B, above specified, the other end of the lever P being connected to the weighted arm Q in toggle connection with the friction-shoes R, that oppose the brake-wheel S, fast on the shaft T of the electric motor.
  • the switch-arbor :0 of the rheostat U, in conjunction with the electric motor V, is provided with a toothed segment t] engaged by a rack E atone end of a rod W, the otherend of this red being loose on a wrist p of the plate A of the rocker above specified, the wrists 1) p of said plate being diametrically opposite one another.
  • a reverse operation will serve to out out the motor and set the brake when it is desirable to stop the elevator-car at any landing, and at a terminal landing there is an automatic operation of the cam B, due to clutch of traveling nut E with a tight nut F on the drum-shaft C, where by the lever P is operated to increase the tension of said brake, and thus prevent overrunning of the elevator-car.
  • the yielding resistance in connection with pulley-wheel B restores cam 13 to normal position when the traveling nut E moves out of clutch with a tight nut F on the drum-shaft.
  • rocker being swung to release the brake and out in the motor, a tappet c of said rocker is in the path of one of the wipers d of the cam B, and should the operator fail to cut out said motor and set said brake when the elevator-caris approaching a terminal landing there will be action of said wiper on said tappet to thereby automatically shift said rocker for the purpose of cutting out the aforesaid motor, this operation being timed to takeplace ahead of an automatic setting of the aforesaid brake by action of said cam on the lever P, above specified.
  • An elevator mechanism comprising means in conjunction with a drum-shaft and brake thereof for automatic setting of the brake at greater than ordinary hand-controlled tension whenever the elevator-car arrives at either of its terminal landings.
  • An elevator mechanism comprising means in conjunction with a drum-shaft and brake thereof for automatic setting of the brake at greater than ordinary hand-controlled tension whenever the elevator-car arrives at either of its terminal landings, a start-and'stop rocker provided with a pair of tappets, and a pair of wipers with the means aforesaid arranged to be one or the other in position to operate upon a tappet of said rocker when the latter is adjusted to permit running of said car.
  • An elevator mechanism comprising a partly screw threaded drum shaft, tight clutch-nuts on the threaded portion of said shaft, a traveling clutch-nut on the same shaft between the tight clutch-nuts, a cam loose on the aforesaid shaft and provided with a pair of-wipers, a guide in connection with the cam engaged by a shank with which the traveling clutch-nut is provided, a lever controlled by said cam, a brake-arm in connection with the lever, and a start-and-stop rocker provided with a pair of tappets arranged to be one or the other thereof in the path of a cam-wiper when said rocker is at full throw in either direction from stop position.
  • An elevator mechanism comprising a start-and-stop rocker, a cam arranged and connected to be actuated by the rocker when the same is onthrow to and from stop position, a lever arranged to be operated by the cam, another lever with which the one aforesaid has fulcrum connection, a brake-arm in connection with the second lever, and means for automatically actuating said second lever independent of the first to increase tension of the brake whenever the elevator-car arrives at a terminal landing.
  • An elevator mechanism comprising a start-and-stop rocker, a cam arranged and connected to be actuated by the rocker when the same is on throw to and from stop'position, a lever arranged to be operated by the cam, another lever with which the one aforesaid has fulcrum connection, yielding resistance opposing cam action on the first lever, a brake-arm in connection with the second lever, and means for automatically actuating said second lever independent of the first to increase tension of the brake whenever the elevator-car arrives at a terminal landing.
  • An elevator mechanism comprising a start-and-stop rocker, a cam arranged and connected to be actuated by the rocker when the same is on throw to and from stop position, a lever arranged to be operated by the cam, a shouldered pin in wrist connection with said rocker, a pin-guide in swivel connection with said lever and in contact with the pin-shoulder when said rocker is centered in stop position, another lever with which the one aforesaid has fulcrum connection, a brake-arm in connection with the second lever, and means for automatically actuating said second lever independent of the first to increase tension of the brake whenever the elevator-car arrives at a terminal landing.
  • An elevator mechanism comprising a start-and-stop rocker, a lever and means in conjunction with the rocker for actuating the lever, another lever in fulcrum connection with the one aforesaid, a brake-arm in connection with the second lever, and means for automatically actuating said second lever 7 shaft, a cam loose thereon in connection with said second lever and provided withwipers arranged to be one or the other thereof operative against one or the other of said tappets when the aforesaid rocker, is at full throw in either direction from stop position, and" means whereby the cam is'automatically actuated when the 'elevator-car'arrives at a terminal landing.

Description

No. 742,173. PATENTED 001 27, 1903.
' -J. DILLON.
ELEVATOR MECHANISM.
APPLICATION FILED JAN. 26,1903.
4 SHEETS-SHEET 1.
N0 MODEL.
i, gjwvi @kweww Q AZ.
ma NuRRns PEIERS cp.. rum-ammo, msnmumu, n. c.
PATENTBD 09127, 1903. I J. DILLON., ELEVATOR MEGHANISM.
APPLICATION FILED JAN. 26,1903.
4 snnms-sxiim a.
N0 MODEL.
"munmvs. PHATENTED 0cm 27, 1903.
J. DILLON. I
ELEVATOR MECHANISM.
APPLICATION FILED JAN. 26,1903. N0 IODEL.
4 SHEETS-SHEET 3.
PATENT-ED OCT. 27, 1903; J. DILLON. ELEVATOR MECHANISM.
APPILIQATIoN rnnp JAN. 26,1903.
4 SHEETS-SHEET 4.
N0 MODEL.
No. Maire.
Patented October 27, 1963.
'FFICE.
JOHN DILLON, on MILWAUKEE, WISCONSIN;
ELEVATO R M E CHANlS M.
sracIFrcArIoN forming part of Letters sass No. 742,173, dated October 27, 1903.
' Application filed January 26, 1903.; Serial No. 140,544. (No model.)
To all whom it may concern:
Be it known that I, J OHN DILLON, a citizen of theU nited States, and a resident of Milwaukee in the county of Milwaukee and State of Wisconsin, have invented certain new and useful Improvements in Elevator Mechanism; and I do hereby declare that the following is a full, clear, and exact description thereof.
My invention has especial reference to electric elevators, its object being to prevent over-' running of the car of an elevator at terminal landings and toprovide for automatic cut-out of the motor and a like setting of the brake pertaining to said car should the operator fail to do the work for a stop at either of said landings. Hence said invention consists in certain peculiarities of construction and combination of parts hereinafter particularly set forth with reference to the accompanying drawings and subsequently claimed.
Figure 1 of the drawings represents a partlysectional side elevation of electric elevator mechanism in which my improvements are" embodied; F1g. 2, a partly-transverse section dicated by lines 4 4 in the third, fifth, and
seventh figures; Fig. 5, a view indicated by lines 5 5 in the third figure; Fig. 6, a view indicated by line 6 6 in the fifth figure, and Fig. 7 a View indicated byline7 7'in the fourth figure. l r
The mechanism herein shown is similar to that ordinarily employed in the application of electric energy and friction with respect to the operation of an elevator in so far as it involves an electric motor and rheostat, a cable-drum, a friction-brake, a start-and-stop rocker, and means in connection with the rocker for controlling the motor and brake, said mechanism being arranged and connected on a supporting-frame of suitable construction.-
Referring by letters to the drawings, the start and-stop rocker is, shown made to comprise a sheave Aand wrist-plate A, connected by a web 5, the whole being, preferably, a single casting having a pair of radially-projecting tappets e at an acute angle to each other, one being extended from said sheave to normal position.
F, adjustable on said shaft.
from said tight nuts.
and the other from said wrist-plate. The arrangement of the rocker-tappets is such that one or the other is in the path of one or the other of a pair of wipers d, that are in one piece or otherwise rigid with a preferably double cam B loose on the drum-shaft 0,
this cam being operative against yielding re sistance by which itis automaticallyretnrned The resistance herein shown is a weight'D, connected by a sheavesupported flexible device 6 with a pulley-wheel B, that is also loose on the drum-shaft and connected by a longitudinally-grooved web f with the cam B, this cam, the pulley-wheel, and connecting-web being, preferably, a single casting. Instead of a weight it is practical to employ a suitably arranged and connected spring for the yielding resistance, or
the cam may be counterbalanced.
Outward from cam B the dru m-shaftis screwthreaded and engaged by a traveling nut E, that has its play between a pair of tight nuts The traveling nut is provided with a shank 9, that plays in thegroove of the web f, connecting the cam B with the pulley-wheel B, and clutch-lugs h on opposite sides of said nut are for engagement'with similar lugs 6, extending inward The distance apart of the tight nuts is proportionate to the distance between terminal landings for the elevatorcar, and at about the time this car arrives at either of said landings a clutch engagement of the traveling nut with one of'said tight nuts will result in a movement of the cam B and pulley-wheel B therewith on the drumshaft against the yielding resistance aforesaid.
Arranged on the arbor G, that supports the aforesaid rocker, is the hub of a loose pendent cam H, and a segmental recess in the camhub is engaged by a lug j, that extends inward from the wrist plate portion of said rocker, movement on the part of this rocker in either direction serving to actuate said cam when-said lug reaches either extremity of said recess, in which it is centered if the motor be I a full throw in either direction of the hand device by which an operator in the elevatorcar actuates the rocker, motion of the hand device being communicated to said rocker by means of a belt J, that passes around the sheave portion A of same. The rocker-sheave A is provided with stop-lugs 122, between which is arranged an arm n of a bracket K, attached to a frame-standard, the arbor G for the rocker and cam 11 being set in the bracket.
A shouldered pin L is loose at one end on a wrist 1), with which the plate A of the rocker is provided, and a guide (1 for the pin has swivel connection with the aforesaid crank end of lever l, the other end of this lever being coupled to a rod M, guided in the head of a standard N and surrounded by a spiral spring r under tension between a washer s and nuts 1 on said rod below the standardhead. The spring 0' constitutes a yielding resistance to a tilt of lever I by the cam H, pin L, or both; but some other yielding resistance may be employed in practice for the same purpose.
The major portion of the working face of cam H is a segment of a circle between prejections u, and it is preferable in practice to have clearance between roller 7.: and the opposing portion of said cam intermediate of said projections when the pin L is centered in stop position, at which time the pin-shoulder q in contact with the guide q serves to take the strain that would otherwise come upon the aforesaid can].
The lever I is shown fulcru med about midway of its length on a pivot-bolt '0, that engages an aperture provided in another lever P, one end of which is provided with oppositely-arranged studs 10, engaging grooves of the double cam B, above specified, the other end of the lever P being connected to the weighted arm Q in toggle connection with the friction-shoes R, that oppose the brake-wheel S, fast on the shaft T of the electric motor.
The switch-arbor :0 of the rheostat U, in conjunction with the electric motor V, is provided with a toothed segment t] engaged by a rack E atone end of a rod W, the otherend of this red being loose on a wrist p of the plate A of the rocker above specified, the wrists 1) p of said plate being diametrically opposite one another.
From the foregoing it will be readily understood that when the rocker, cams, and levers are in the positions herein shown and described the motor is cut out and the brake set. The rocker being swung in either direction from the position illustrated, the pin L moves up in its guide q; but the cam H holds the brake set until. the roller 70, carried by the lover I, is cleared by said cam, said brake being then automatically released by the power of the weight X, in connection with the brake-arm Q, and the motor is cut in. During this operation a projection to of cam I'l works on the roller it, carried by the lover I, and the increase of exertion necessary on the part of the operator to make said cam clearsaid roller insures a full throw of the rocker in the desired direction, whereby any chance of the brake being released before out in of the motor is avoided, the mechanism being so timed that the rheostat switch-bar will be nearly in on contacts when the cam projection is acting on said roller to tilt said lever on its fulcrum against the yielding resistance. A reverse operation will serve to out out the motor and set the brake when it is desirable to stop the elevator-car at any landing, and at a terminal landing there is an automatic operation of the cam B, due to clutch of traveling nut E with a tight nut F on the drum-shaft C, where by the lever P is operated to increase the tension of said brake, and thus prevent overrunning of the elevator-car. The yielding resistance in connection with pulley-wheel B restores cam 13 to normal position when the traveling nut E moves out of clutch with a tight nut F on the drum-shaft. The rocker being swung to release the brake and out in the motor, a tappet c of said rocker is in the path of one of the wipers d of the cam B, and should the operator fail to cut out said motor and set said brake when the elevator-caris approaching a terminal landing there will be action of said wiper on said tappet to thereby automatically shift said rocker for the purpose of cutting out the aforesaid motor, this operation being timed to takeplace ahead of an automatic setting of the aforesaid brake by action of said cam on the lever P, above specified.
While a preferred construction and arrangement of parts has been shown and described in conjunction with the rocker for actuating the lever I, the detail of mechanism for this purpose may be varied in practice without departure from the scope of my invention.
Having thus described my invention, what Iclai n1 as new, and desire to secure by Letters Patent, is
1. An elevator mechanism comprising means in conjunction with a drum-shaft and brake thereof for automatic setting of the brake at greater than ordinary hand-controlled tension whenever the elevator-car arrives at either of its terminal landings.
2. An elevator mechanism comprising means in conjunction with a drum-shaft and brake thereof for automatic setting of the brake at greater than ordinary hand-controlled tension whenever the elevator-car arrives at either of its terminal landings, a start-and'stop rocker provided with a pair of tappets, and a pair of wipers with the means aforesaid arranged to be one or the other in position to operate upon a tappet of said rocker when the latter is adjusted to permit running of said car.
3. An elevator mechanism comprising a partly screw threaded drum shaft, tight clutch-nuts on the threaded portion of said shaft, a traveling clutch-nut on the same shaft between the tight clutch-nuts, a cam loose on the aforesaid shaft and provided with a pair of-wipers, a guide in connection with the cam engaged by a shank with which the traveling clutch-nut is provided, a lever controlled by said cam, a brake-arm in connection with the lever, and a start-and-stop rocker provided with a pair of tappets arranged to be one or the other thereof in the path of a cam-wiper when said rocker is at full throw in either direction from stop position.
4. An elevator mechanism comprising a start-and-stop rocker, a cam arranged and connected to be actuated by the rocker when the same is onthrow to and from stop position, a lever arranged to be operated by the cam, another lever with which the one aforesaid has fulcrum connection, a brake-arm in connection with the second lever, and means for automatically actuating said second lever independent of the first to increase tension of the brake whenever the elevator-car arrives at a terminal landing.
5. An elevator mechanism comprising a start-and-stop rocker, a cam arranged and connected to be actuated by the rocker when the same is on throw to and from stop'position, a lever arranged to be operated by the cam, another lever with which the one aforesaid has fulcrum connection, yielding resistance opposing cam action on the first lever, a brake-arm in connection with the second lever, and means for automatically actuating said second lever independent of the first to increase tension of the brake whenever the elevator-car arrives at a terminal landing.
6. An elevator mechanism comprising a start-and-stop rocker, a cam arranged and connected to be actuated by the rocker when the same is on throw to and from stop position, a lever arranged to be operated by the cam, a shouldered pin in wrist connection with said rocker, a pin-guide in swivel connection with said lever and in contact with the pin-shoulder when said rocker is centered in stop position, another lever with which the one aforesaid has fulcrum connection, a brake-arm in connection with the second lever, and means for automatically actuating said second lever independent of the first to increase tension of the brake whenever the elevator-car arrives at a terminal landing.
7. An elevator mechanism-comprising a radially-projecting tappets, a cam arranged and connected to be actuated by the rocker when the same is on throw to and from stop position, a lever arranged to be operated by the cam,a drum-shaft having a screw-threaded portion, tight clutch-nuts on the threaded portion of said shaft, a traveling clutch-nut on the same shaft between the tight clutch-nuts, a cam loose on the aforesaid shaft and provided with a pair of wipers arranged to be one or the other thereof operative against one or the other of said tappets when the aforesaid rocker is at full throw in either direc-' tion from stop position, a guide in connection with the drum-shaft cam engaged by a shank with which the traveling clutch-nut is provided, another lever controlled at one end by said drum-shaft cam and with which the lever aforesaid has fulcrum connection,'and a brake-arm in connection with the other end of the second lever. Y
8. An elevator mechanism comprising a start-and-stop rocker, a lever and means in conjunction with the rocker for actuating the lever, another lever in fulcrum connection with the one aforesaid, a brake-arm in connection with the second lever, and means for automatically actuating said second lever 7 shaft, a cam loose thereon in connection with said second lever and provided withwipers arranged to be one or the other thereof operative against one or the other of said tappets when the aforesaid rocker, is at full throw in either direction from stop position, and" means whereby the cam is'automatically actuated when the 'elevator-car'arrives at a terminal landing.
In testimony that I claim the foregoing I, have hereunto set my hand, at Milwaukee, in the county of Milwaukee and State of Wisconsin, in the presence of two witnesses.
' J NO. DILLON.
Witnesses:
N. E. OLIPHANT, BERNARD C. BoLoFF.
US14054403A 1903-01-26 1903-01-26 Elevator mechanism. Expired - Lifetime US742173A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2944436A (en) * 1958-01-20 1960-07-12 Ferro Stamping Co Non-jamming actuated screw and nut comuination
US3029660A (en) * 1959-11-05 1962-04-17 Beaver Prec Products Inc Ball screw with stop means

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2944436A (en) * 1958-01-20 1960-07-12 Ferro Stamping Co Non-jamming actuated screw and nut comuination
US3029660A (en) * 1959-11-05 1962-04-17 Beaver Prec Products Inc Ball screw with stop means

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