US187711A - Improvement in hydraulic elevators - Google Patents

Improvement in hydraulic elevators Download PDF

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US187711A
US187711A US187711DA US187711A US 187711 A US187711 A US 187711A US 187711D A US187711D A US 187711DA US 187711 A US187711 A US 187711A
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piston
cylinder
gates
water
lever
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B9/00Kinds or types of lifts in, or associated with, buildings or other structures
    • B66B9/04Kinds or types of lifts in, or associated with, buildings or other structures actuated pneumatically or hydraulically

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  • Fig. 6 a side sectional elevation of the gates'and inclosing-case'; Fig. 7, a top view of the perforated head-plate of the piston; Fig. 8, the valve-plate of the same; Fig. 9, a top view of the semi-cylindrical guiding-camway above the cylinder, and of the valve-controlling arm of the piston-rod 5 Fig. l0, a partial side elevation of platform ot elevator, showing the pump and its controlling and operating connections5 Fig. 1l, anA enlarged view of the spring governor-lever at the side of the platform, for operating the pumps.
  • My invention relates to hydraulic elevators
  • A is a cylinder of iron or other metal, of any desired diameter,running up from a tank,
  • Aftixed to the upper end ofthe cylinderA is a case, B, which incloses sliding gates G G, te admit into, and excludefrom, the cylinder a column of water fromatank, T, above.
  • the gates are opened and closed bymeans of two pinions, D D, Within the case engagingwith racks formed upon the gates.
  • the shafts E E of the pinions extend through the case, and carry toothed wheels F F upon their outer ends.
  • piston-rod J is surrounded by a casing or pipe, K, the lower end of which casing is attached to the valve-plate a of the piston I, and the upper end of which has attached to it the 4lever-armli, which arln moves up and down, through the .'camway M, at every, stroke of vthe piston-and .its connections.
  • the camway M is slotted to receive the arm L.
  • the slot is, at its upper and lower extremities, curved or inclined in such a manner that the arm,
  • the piston-rod continues a short distance above the. casing lK and arm L, where it is connected, by means of the connecting-rod N, to a driving cogand adjusted at times to prop a detent, z, on
  • the cord H is doubled at its lower part, and isy ,then attached to the arms b b of the segmental cog-wheels G G, while at its upper extremity it is single, and firmly fastened to lever P, as before stated.
  • X is a shaft, upon which is mounted a small gear-Wheel, W, engaging with the driving-Wheel O, and also the driving-drum, upon which is coiled the hoist-rope Z'.
  • R R are the supply-pipes to conduct the Water from the upper tank T to the cylinders.
  • U U are valves, placed in any convenient position in the supply-pipes, and governed by means of bar .V or other suitable method.
  • Z shown in Fig.
  • l is a'clutch on the drum-shaft, operated by any suitable mechanism to throw the drum in and out of gear with the driving ytoothed wheels W W, preventing the unnecessary operation of the cylinders and attachments in the descent of the elevator.
  • the lower set of Wheels C' are attached in the usual manner by means of crank-rods to a seriesv -of pumps, D', as shown in Fig.
  • the arm L which reciprocates within the slotted portion of the semicircular plate M, and is, as before set forth, connected to the casing Kinclosing the pistonrod, on reaching the camway at the lower end of the 'slot is deviated by following'its inclination about a quadrant are, and in turning turns the casing K and valve-plate a of the piston, thereby opening the same, and allowing the water t0 pass through the discharge-pipe A into the tank S below.
  • the crank-pin f will have come into contact with the lower end of the triplever Q. deecting its upper end from under the detent z, and thereby releasing the cord H, which, by the action ofthe weight g, is drawn down, and the gates, in consequence, closed, as before set forth.
  • the lower pulleys G' operate by means of cranks, as hereinbefore described, the pumps D', which force the water from the lower tank to the upper, through the pipes G'.
  • the surplus power is thus utilized -to return a portion of the water to the tank above, thereby saving excessive waste.
  • the clutch Z is uncoupled,
  • valve-plate a In combination with the piston-rod J and piston head-plate a', the valve-plate a, casing K, and arm L, the whole forming a device for retaining water in the cylinder, while the piston is descending and letting water out of the cylinder when the piston 4has descended, substantially as decribed.

Description

4 Sheets-Sheet '2.'
E. H. HUNT. l HYDRAULIC ELEVATOR No.187,711, Patented. Feb. 27, 1877.
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PETERS PHDYD-L THOGRAFHER WASHINGTON D C 4 Slleebs---Shee?l 3.A
Patented'FehZ?, 1877.
Fly.;
E. H. HUNT. HYDRAULIC ELEVATOR.
".PETERS. PHOTO-LITHOGRAPNER, WASHINGTON. UC-
.4 Sheets-Sheet 4.
E. H. HUNT.
7. 7 oo l 7, 2 b. e F d. e la -n Re 0i Ta AP V E T.. E C I T.. U A R D Y H fu/AL; llwentur N. PETER GRAFNER, WASHINGTN, D. C.
HAMILTfoNV IIiINY'Ifo-F` CHICAGO, ILLINOIS.
Y iMPRo'vEMi-:NT INHVDRAULIC ELiEvATce-as.v
Specification forming part of Letters Patent o. 187,711, dated February 27, 1877 5 application filed' ...nine16,1876..A4 ,h
Be it known that I, E. HAMILTON HUNT, of the city of Chicago, in the county of Cook and State of Illinois, have invented-certain new and useful Improvement in Hydraulic Elevators, of which-I hereby declare the following to a full, clear, and precise description, which will enable others skilled in the art to which my invention appertains to understand and employ it, reference being had to the accompanying drawings, `making part of this specification, in which-- p i- Figure 1 is a perspective view of my entire apparatus, showing the upper and lower floors ofthe building in which it is placed 5 Fig. 2,a side elevation of one of the cylinders and its connections 5 Fig. 3, afront elevation o faset of fojur of the same 5 Fig. 4, a vertical sectional elevation of the cylinder and case inclosingl the gates 5 Fig. 5, a top-sectional plan of the gates, their attach- To all 'whom mayconcera: n i
ments and connections, with the upper part of their cases removed; Fig. 6, a side sectional elevation of the gates'and inclosing-case'; Fig. 7, a top view of the perforated head-plate of the piston; Fig. 8, the valve-plate of the same; Fig. 9, a top view of the semi-cylindrical guiding-camway above the cylinder, and of the valve-controlling arm of the piston-rod 5 Fig. l0, a partial side elevation of platform ot elevator, showing the pump and its controlling and operating connections5 Fig. 1l, anA enlarged view of the spring governor-lever at the side of the platform, for operating the pumps.
Similar letters of reference indicate correspondingparts in all the drawings.
My invention relates to hydraulic elevators,
having more especial reference to that class of the same which utilize the weight of a falling column of water as the motive power 5 and consists in the mechanism hereinafter set forth and claimed. y v Y With reference to the drawings, the followingl is a detailed description of the mechanical construction of mydevice.- p
A is a cylinder of iron or other metal, of any desired diameter,running up from a tank,
' S, placed in the basement of the building, or
in any other convenient positiom'as far as del sired, either to the ground-door, or to any other door of 'the buildin g. Aftixed to the upper end ofthe cylinderA is a case, B, which incloses sliding gates G G, te admit into, and excludefrom, the cylinder a column of water fromatank, T, above. The gates are opened and closed bymeans of two pinions, D D, Within the case engagingwith racks formed upon the gates. The shafts E E of the pinions extend through the case, and carry toothed wheels F F upon their outer ends. 'Ihe toothed Wheels F F engage with two larger toothed Wheels, G Gr, pinned to the outside of the case below F F, which latter are connected, by lever-arms bfbr,ltoa wire-rod or cord, H, whereof hereafter. Fitted within the cylinder A is a piston, I, formed in two parts., as shown in Figs. 7 and 8-a.{ the head-plate, a the valve-plate. The head-plate a is fitted closely to the cylinder, and firmly attached to the piston-rod J. A Both the head and valve plates of the piston are perforated in such a' manner that, by
the piston will either hold the water, or allow it kto pass through it, as occasion requires. rEhe piston-rod J is surrounded by a casing or pipe, K, the lower end of which casing is attached to the valve-plate a of the piston I, and the upper end of which has attached to it the 4lever-armli, which arln moves up and down, through the .'camway M, at every, stroke of vthe piston-and .its connections. The camway M is slotted to receive the arm L. The slot is, at its upper and lower extremities, curved or inclined in such a manner that the arm,
reaches the other side of the slot, thereby turning the casing K and valve-plate a of piston I through any given arc. The piston-rod continues a short distance above the. casing lK and arm L, where it is connected, by means of the connecting-rod N, to a driving cogand adjusted at times to prop a detent, z, on
changing the position of the valve-plate a',
passing up one side of the slot, on reaching the upper curve follows its inclination until it the cord. The cord H is doubled at its lower part, and isy ,then attached to the arms b b of the segmental cog-wheels G G, while at its upper extremity it is single, and firmly fastened to lever P, as before stated.
It will be readily comprehended that when the cord H is raised by means of lever P, as hereafter explained, it will cause the gates C C to open. X is a shaft, upon which is mounted a small gear-Wheel, W, engaging with the driving-Wheel O, and also the driving-drum, upon which is coiled the hoist-rope Z'. To se-` cure uniform and regular motion to the shaft X, l employ a series of two or more cylinders and connections each driving-gear wheel O operating a smaller gear, W, all set on the shaft X, the cylinders being each so arranged that the point of connection of each of the connecting-rods -N to their large gear-wheels O that only one pair of gateswill be open at one time, and, consequently, only one cylinder in operation. R R are the supply-pipes to conduct the Water from the upper tank T to the cylinders. U U are valves, placed in any convenient position in the supply-pipes, and governed by means of bar .V or other suitable method. Z (shown in Fig. l) is a'clutch on the drum-shaft, operated by any suitable mechanism to throw the drum in and out of gear with the driving ytoothed wheels W W, preventing the unnecessary operation of the cylinders and attachments in the descent of the elevator. Running from the lower to the upper floors in the building, or as far as the elevator is intended to travel, are a series of endless chains, ropes, or other suitable connections, A', passing over pulleys, sprocket or grooved wheels B' and U' secured to the guidepost on which the elevator runs. The lower set of Wheels C' are attached in the usual manner by means of crank-rods to a seriesv -of pumps, D', as shown in Fig. 10, the number of pumps corresponding to the number of pulleys. rlhe chains A' run through slots 0in one end of a corresponding series of hand-levers, E', pivoted to the side of the elevator at a fulcrum, d, and provided with a spring, F', to hold them ordinarily in the position shown in Fig. 11, so that the chain passes freely through the slot c. When, however, it is desired to grapple the chain A' the leve:l is deflected, and the chain thereby drawn into a grooved recess, h, in the lever-frame, the handle being held in place by any convenient lock or notch.
Such being its mechanical construction the operation of my elevator is as follows: When the operator on the platform desires to rise,
he will, by means of the bar V or other suitable connection, open the cocks U in the-supply-pipes R, whereupon the entire weight of the Water in the pipes R will descend upon the gates, one set of which, by reason of the trip-lever arrangements P and Q will be always open, in which pipe the water will `fall upon the only piston, which by reason ofthe open gates, is ready to receive it. The weight of water forces such piston down, thereby, by means of the piston-rod J and connecting-rods N, revolving the large gear O, which in turn drives pinion W, shaft X, drum Y, and thence the platform.
The arm L, which reciprocates within the slotted portion of the semicircular plate M, and is, as before set forth, connected to the casing Kinclosing the pistonrod, on reaching the camway at the lower end of the 'slot is deviated by following'its inclination about a quadrant are, and in turning turns the casing K and valve-plate a of the piston, thereby opening the same, and allowing the water t0 pass through the discharge-pipe A into the tank S below. At the same moment that the opening of the valve of the piston permits the water to pass through it, the crank-pin f will have come into contact with the lower end of the triplever Q. deecting its upper end from under the detent z, and thereby releasing the cord H, which, by the action ofthe weight g, is drawn down, and the gates, in consequence, closed, as before set forth.
As the gates of the first cylinder close the crank-pin' of the next driving-gear will have arrived at the point shown in Fig. 2, and strikes the trip-lever P, thereby raising the cord H until the detent z has caught upon the upper end of the lever Q, in which position the gates of such cylinder will be open. This continuous operation of successively opening and shutting continues through the whole 'series of cylinders, the crank-pin and levers being so adjusted that only one cylinder is in operation at a given time.
When the arm L arrives at the upper cam- Way of the semicircular plate M, it is again deviated in the oppositedirection, whereby the piston is closed, and in condition to receive the column of water upon the reopening of the gates.V
When the operator desires to stop, he shuts the cocks in the supply-pipes, and by the use of any suitable brake can lock the platform at the desired point. To lower, the brake is released, whereupon the weight of the platform causes it to descend. By means of levers E' at side of platform, its weight, in descending, can be utilized to operate any desired number of pumps, D', in the following manner: By deflecting the lever E' the chain A' is jammed in the slot or groove h, (shown in dotted lines in Fig. 11,) and so becomes for the time fixed rigidly to the platform. As a result the chain is operated by the platform, so as to actuate the sprocket-pulleys B' and C'. The lower pulleys G' operate by means of cranks, as hereinbefore described, the pumps D', which force the water from the lower tank to the upper, through the pipes G'. In ascending with a light load, as well as in descending, the surplus power is thus utilized -to return a portion of the water to the tank above, thereby saving excessive waste. In descending, to avoid the unnecessary friction of the driving mechanism, the clutch Z is uncoupled,
so as to, permit the free unwinding of the drum Y.
Having thus described my invention, I claim and desire to secure by Letters Patent of the United States- 1. In combination with a cylinder, A, a piston, I, piston-rod J, connecting-rod N, and driving-gear O, the whole adapted to rotate the driving-gear by the weight of'a column of Water admitted within the cylinder upon the piston, substantially as described.
2. In combination with the inclosing-case B located above the cylinder, one or more sliding gates, C G, within the casing, adapted to be opened or shut by toothed segmental pinions D engaging with racks upon the gates, the Whole arranged to admit or exclude water' from the cylinder, essentially as described.
3. In combination With a cord or rod, H, providedwith a weight, g, one or more seg; mental cog-wheels, Gr, connected to the rope by means of one or more arms, b, and one or more segmental toothed wheels, F, gearing With G, and set upon the shaft E of the internal Wheels D, the Whole arranged to openA or shut one or more sliding gates, G, when the cord is lifted or allowed to fall, substantially as described.
4. In combination with the trip-lever Q,
the detent z upon the cord H, to retain the cord when raised, substantially as described.
5. In combination with the trip-lever Q and detent z, the pivot-pin f upon the drivinggear 0, to release thedetent and allow the cord to drop, essentially as described.
6. In combination with the piston I, the piston-rod J, crank N, and driving-gear O, to drive the pinion W, substantiallyas described.
7. In combination with the piston-rod J and piston head-plate a', the valve-plate a, casing K, and arm L, the whole forming a device for retaining water in the cylinder, while the piston is descending and letting water out of the cylinder when the piston 4has descended, substantially as decribed.
8. In combination with the valve-plate a, casting K, and arm L, the slotted camway M to rotate the valve-plate through the arc of a circle, substantially as described.
9. In combination with mechanism for driving the pinion W, to wit, driving-gear O, c011- necting-rod N, piston-rod J, piston I, and cylinder A, the shaft X, clutch Z, and drivingdrum Y, for transmitting power from the cylinder to the platform of the elevator, to raise the same, substantially as described.
l0. In combination with the platform of the elevator, the spring hand-lever E', constructed as described, to clutch an endless chain, A', for the purpose specified. p
11. In combination with the hand-lever E' upon the platform, the endless chain A, passing over the sprocket-pulley B', and sprocketdriving pulley C', to operate the force-pump D', and thereby return water through the pipe G from the tank S, into the tank T, when the entire device is operated by the descending weight of the elevator, substantially as described.
In testimony whereof I have hereunto set my hand and seal.
E. HAMILTON HUNT. fL. S.]
In the presence of- GHAs. TALLMAN, JNO. B. WILLARD.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20110022814A1 (en) * 2004-11-05 2011-01-27 Commvault Systems, Inc. Methods and system of pooling storage devices

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20110022814A1 (en) * 2004-11-05 2011-01-27 Commvault Systems, Inc. Methods and system of pooling storage devices

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