US2329613A - Engine workstand - Google Patents

Engine workstand Download PDF

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Publication number
US2329613A
US2329613A US429203A US42920342A US2329613A US 2329613 A US2329613 A US 2329613A US 429203 A US429203 A US 429203A US 42920342 A US42920342 A US 42920342A US 2329613 A US2329613 A US 2329613A
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Prior art keywords
engine
ring
workstand
base frame
drive shaft
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US429203A
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Evert C Hokanson
George E Bock
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Whiting Corp
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Whiting Corp
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25HWORKSHOP EQUIPMENT, e.g. FOR MARKING-OUT WORK; STORAGE MEANS FOR WORKSHOPS
    • B25H1/00Work benches; Portable stands or supports for positioning portable tools or work to be operated on thereby
    • B25H1/0007Work benches; Portable stands or supports for positioning portable tools or work to be operated on thereby for engines, motor-vehicles or bicycles

Definitions

  • the present invention relates generally to workstands. More particularly the invention relates to that type of portable workstand which is designed for use in production assembly lines and serves as a medium for supporting an internal combustion engine during installation or mounting thereon of the various auxiliary equipment such as the mounting structure or supports and the gas and oil lines and other engine accessories, preparatory to mounting of the engine on the vehicle or other mechanism for which it is designed.
  • One object of the invention is to provide a workstand of this type which is generally of new and improved construction and is characterized by the fact that it not only effectively and efficiently fulfills its intended purpose but also permits the person or worker using the stand to carry out his work on the engine while assuming a standing or upright position.
  • Another object of the invention is to provide a stand of the type and character under consideration comprising an upstanding ring which is adapted to encircle the engine and is supported by a base frame so that it, together with the engine, may be turned or rotated into different angular positions about a horizontal axis.
  • Another object of the invention is to provide a workstand of the last mentioned character in which the upstanding rotatably supported ring comprises a lpair of adjoining arcuate sections which have releasable clamping means between their adjacent ends and hinges at their other ends and are adapted, upon release of the clamping means, to be swung outwards into an open or inoperative position in order to permit of insertion and removal of the engine with respect to the ring.
  • Another object of the invention is the provision in connection with an engine workstand of the type under consideration, of a strut which is connected to, and extends upwards from, the base frame and has at its upper end a bearing for receiving and supporting the drive shaft of the engine.
  • a further object of the invention is to provide.
  • the up ⁇ standing strut consists of a pair of separable telescopically connected parts for supporting the drive shaft of the engine which is held or retained by the particular ring on the base frame of the workstand.
  • a still further object of the invention is to pro- Hollywood, Calif., and George lll., assignors to Whit in: a corporation of Ilvide an engine workstand which is both rugged and durable, has casters on the base frame thereof to render it portable, and, due to its design and construction, may be manufactured or produced at a comparatively low cost.
  • Figure 1 is a rear view of an engine embodying the invention
  • Figure 2 is a side view, parts of the extensible bearing equipped strut for receiving andsupporting the drive shaft of the engine being shown in section for purposes of illustration;
  • Figure 3 is a horizontal section taken on the line 3-3 of Figure 1 and illustrating in detail the construction and design of the base frame and the engine encircling ring;
  • Figure 4 is a section showing the design of one of the rollers for rotatably supporting the ring and illustrating the arrangement and construction of the brake means for releasably locking the ring against rotation;
  • Figure 5 is a section on the line 5 5 ure 4;
  • Figure 6 is a section of one of the casters for the base frame.
  • Figure 7 is a section on the line 1 1 of Figure 6.
  • the workstand which is shown in the drawings constitutes the preferred form or embodiment of the invention. It is preferably of the portable type or variety and serves, as described hereafter more in detail, as a medium or means for supporting a radial engine E during installation or mounting thereon of the various auxiliary equipment.
  • the engine E is of the airplane type and comprises in addition to a crank case and an annular series of radially extending cylinders, rocker boxes at the sides of the cylinders and a drive shaft which projects forwards from the front portion of the crank case.
  • the improved workstand retains or supports the engine in a position wherein the drive shaft extends horizontally, and enablesthe person or worker operating on the engine to install the auxiliary equipment while he is in a standing position.
  • the workstand comprises a base frame I 0, an engine encircling ring II and an upstanding strut I2.
  • the base frame I is in the form of a horizontally extending U-shaped pipe and is sustained or supported in spaced relation with the floor over which the workstand is employed by way of a pair of front casters I3 and a pair of rear casters I4.
  • the pipe is formed of steel or any other suitable material and consists of a pair of laterally spaced parallel side pieces I5 and a front cross piece I6.
  • the front piece extends between the front ends of the two side pieces and is connected at its ends to the front ends of the side pieces by right angle bends I1.
  • Such bends have the lower portions thereof cut Tay and provided with fiat horizontally extending plates I8. These plates are welded or otherwise fixedly secured to the cut away lower portions of the bends and overlie the front casters I3.
  • Such casters consist of wheels I9 and inverted U-shaped brackets which straddle the wheels I9 and are connected to the plates I8 by swivel type connections.
  • the under portions of the rear ends of the side pieces I5 of the U-shaped pipe constituting the frame IU are cut away and have flat horizontally extending plates 2I. The latter are welded or otherwise xedly secured in place and over lie the rear casters I4.
  • Such casters as shown in Figure 6, consist of small wheels 22 and inverted U-shaped brackets 23.
  • the brackets 23 straddle the wheels 22 and have swivel connections between them and the plates 2l.
  • the front and rear casters I3 and I4 permit the workstand to be shifted bodily in any direction over the floor or other supporting surface.
  • the ring I I is preferably of channel shaped cross section and consists of an arcuate lower section 24 and a pair of upper opposed complemental arcuate sections 25 and 25. It is positioned in an upstanding manner over the central portion of the base frame III and is adapted to encircle and be clamped around the engine 'E (see Figure 2).
  • the lower section 24 of the ring II extends throughout an arc of somewhat less than 180 and embodies a web and a pair of laterally spaced outwardly extending side flanges.
  • the upper sections 25 and 25 normally extend upwards and inwards from the ends of the lower section 24 and likethe lower section, comprise intermediate webs and outwardly extending laterally spaced side flanges.
  • the upper section 25 extends through an arc of slightly more than 90 and is connected at its lower end to the adjacent end of the .lower section by way of a hinge.
  • the latter is in the form of a pair of plates 21 which are welded to the lower ends of the side anges of the section 25 and have rivet type pivots 25 between them and the adjacent ends of the side flanges oi.' the lower section 24.
  • the hinge consisting of the plates 21 and the pivots 28 permit the upper section 25 to be swung outwards intoan inoperative position, as shown by dotted lines in Figure 1.
  • the upper section 25 of the ring II like A the section 25, extends through an am o!
  • the lower end of the upper ring section 25 is connected to the adjacent end of the lower section 24 by way of -a hinge so that it also may be swung outwards into an inoperative position.
  • the last mentioned hinge consists of a pair of plates 25 which are welded to the lower ends of the side flanges of the upper section 25 and have rivet type pivots 35 between them andthe adjacent ends of the side ilanges of the lower section 24.
  • 'I'he ring II is adapted to be contracted into encircling and clamped relation with the engine E by way of a hinge bolt 3l.
  • 'I'his bolt is provided with a nut 32 and is hinged to the upper end of the ring section 25 so that it may be swung into lapped relation with the upper end of the section 25, as shown in Figure 1.
  • the upper end of the section 25 is provided with a lug 33 which has a notch for receiving the shank of the hinge bolt 3I.
  • the hinge bolt When the hinge bolt is in place within the notch the nut 32 is positioned adjacent the outer face of the lug 33 and is adapted when tightened to contract the ring II around the engine E. To release the engine it is only necessary to loosen the nut 32 and swing the hinge bolt 3
  • the upper sections 25 and 25 of the nng are free so that they may be swung outwards or apart into their open position.
  • the engine may be inserted into, or removed from. the ring.
  • the engine E shall be manipulated into, and removed from, the ring by way of an overhead sling.
  • the webs of the ring sections are provided on their inner faces with equidistantly spaced cushion type pads 34 and these are adapted to engage the outer ends of the rocker boxes of the engine.
  • the ring is supported by a pair of rollers 35 so that it, together with the engine E, may be shifted into dii'erent angular positions about a horizontal axis which coincides with the center of theV ring and the axis of the drive shaft of the engine.
  • rollers 35 are disposed between the side flanges of the ring sections and engage during rotation of the ring the outer faces of the webs of the ring sections. They are located inwards of the side pieces I 5 of the U-shaped pipe constituting the base frame III and are rotatably supported by way o1' a pair of U-shaped brackets 35 on a horizontally extending beam 31.
  • 'I'he latter is preferably of the channel variety.
  • the upstanding strut I2 is adapted to receive. and serves as a supporting means for, the cuter end of the drive shaft of the engine E, It is 1ocated over the central portion of the cross piece I6 of the base frame l0 and consists of a vertically extending tubular lower part 39, a vertically extending tubular vpart 40, and a cylindrical bearing 4l.
  • the lower end of the lower part 39 is welded or otherwise fxedly secured to the cen: tral portion of the front cross piece IG and the upper end of said lower part is open.
  • the upper part 40 is smaller in diameter than the lower part 39 and the lower end thereof fits snugly and slidably within the upper end of the upper part, as shown in Figure 2.
  • the strut I2 may be adjusted as to length.
  • the two parts are releasably secured in their various adjusted positions by way of a cross bolt 52.
  • 'I'he latter is adapted to extend through any one of a vertical series of holes 43 in the upper end of the lower part 39 and a hole lill in the lower end of the upper part 4U.
  • the bearing il is at the upper end of the upper part Mi of the strut and is rotatably mounted in a cylindrical shell t5. It is adapted to receive the outer end of the drive shaft of the engine and is suitably secured against axial displacement with respect to the shell.
  • the shell is provided with a fixed depending stem 46 which fits within and is welded or otherwise suitably1 attached to the upper end of the upper part 4B of the strut.
  • the bearing di is provided on the inner periphery thereof with a longitudinally extending key lil.
  • This key is adapted to fit within one of the grooves in the outer end of the drive shaft of the engine E and serves, when the engine is mounted on the workstand, to lock the bearing 4l to the drive shaft.
  • the outer end of the bearing is provided with one or more holes i8 whereby a wrench i9 of the spanner variety may be applied to it should it be desired to turn the engine shaft while the engine is in place in the ring l l.
  • the bearing lll and the two ring-supporting rollers 32 constitute a three point support for the engine and prevent the ring and engine from tipping or tilting with respect to the base frame I0.
  • the upper part d of the strut is removed from the lower part 39 and is applied to the engine by shifting the bearing di around the outer end of the drive shaft. Thereafter the engine is lowered so as to bring it within the ring.
  • the lower end of the upper part lli) of the strut is manipulated into the upper end of the lower part 39.
  • a brake 50 is provided in order to lock the ring and engine in the various positions into which they are turned or rotated.
  • This brake co-mprises a brake shoe 5l which underlies one of the ring-supporting rollers 35.
  • the inner end of the shoe is pivotally supported by a pin 52 so that the shoe is free to swing vertically into and out of engagement with the superjacent roller,
  • the outer end of the shoe is provided with a horizontal extension 53 which serves as a foot pedal whereby the brake shoe may be urged or forced downwards when it is desired to release the brake and thus free the ring I0 for rotative adjustment.
  • the brake shoe is urged upwards into engagement or braking relation with thesuperjacent roller by way of a vertically slidable l plunger 54.
  • the latter as shown in' Figures 4 and 5, extend through aligned holes in the web of the channel beam 31 and the bracket for rotatably supporting the roller to which the brake is applied, and is carried by a U-shaped bracket 55.
  • lA compression spring 56 extends around the lower end of the plunger and is interposed between the bracket and a collar 5l on the central portion of the plunger.
  • This spring urges Vthe plunger 54 upwards and exerts the desired upward pressure on the brake shoe.
  • the foot pedal which is formed by or constitutes the extension 53, is depressed. This operation resuits in lowering of the brake shoe and the plunger against the force of the spring 56.
  • the ring is adjusted to the desired extent the foot pedal is released and this results in the spring 56 shifting upwards the plunger 54 and bringing the brake shoe into engagement with the superjacent roller 35.
  • the brake shoe, together with the plunger and compression spring constitutes simple means for releasably locking the engine encircling ring l0 in the various positions into which it is rotated.
  • brace 58 For the purpose of preventing the ring li from tilting with respect to the base frame i5 when there is no engine in the ring a brace 58 is provided.
  • the central part of this brace is pivotally connected to the lower part 39'of the strut I2, as shown in Figure 2.
  • the end parts of the brace project rearwards from the strut and have down-turned hooks 59 which are adapted to fit within eyes 60 on the front side flange of the lower section 24 of the ring lll.
  • the brace 53 is only used when there is no engine within the ring since its'primary or sole purpose is to prevent dislodgement of the ring from its normal o r operative position when the ring is empty.
  • To release the brace it is only necessary toshift the hooks 58 out of interfitting relation with the eyes 59. As soon as the hooks are disconnected from the eyes the brace may be swung forwards with respect to the ring into an inoperative position.
  • the nut 32 on the bolt 3l is rst loosened and then the bolt is swung out of engagement with 'the notched lug 33 in order to release the upper arcuate sections 25 and 26 of the ring Il. As soon as the sections are released they are swung outwards. Thereafter the upper part 4u of the strut i2 is removed from the lower part 39 and is applied to the outer end of the drive shaft of the engine. After this operation the engine is lowered into the lower section 24 of the ring. During lowering of the engine the lower end of the upper part 40 of the strut I2 is inserted' into the upper end of the lower part 39.
  • the upper sections 25 and 26 of the ring are swung inwards into encircling relation with the upper cylinders of the engine. Thereafter the ring is contracted into clamped relation around the engine by use of the hinge bolt 33. AfterY contraction of the ring around the engine the bolt 42 is manipulated so as 4to lock the upper and lower parts of the strut I2 in place.
  • the various auxiliary parts or equipment may be readily applied to it. If it is desired to work on the lower portion of the engine the brake consisting of the brake shoe 5
  • the ring Il together with the engine, is rotated so as to raise the lower portion of the engine to the most convenient height for work thereon.
  • the ring and engine may rotate in one direction or the other. Because the ring is capable of being rotated at least 90 in either direction it is possible rotatably to adjust the engine so that work may be conveniently done on it while the operator or Worker assumes a standing position.
  • the pads 34 grip yieldingly the rocker boxes and hence no damage or injury to the engine occurs.
  • the herein described engine workstand is essentially simple in design and construction and hence may be manufactured at a low and reasonable cost. It; is rugged and durable and may be readily shifted from place to place due to the fact that the base frame I0 is caster-equipped.
  • the workstand may be used on engines that vary in size by substituting a larger or smaller ring for the ring4 IU, depending upon whether the stand is used with a larger or smaller engine. Due to the fact that the strut I2 includes the vertically adjustable upper bearing equipped part 40 it is immaterial whether rings of diierent sizes are employed.
  • a workstand designed to support an engine with radial cylinders and comprising a horizontal basev frame with aligned supporting members thereon, and an upstanding contractable ring over the base frame adapted to encircle the cylinders of the engine and mounted on the supporting members so-that it, together with the engine, may be turned about its axis, said ring including an arcuate lower section and a pair of adjoining arcuate upper sections with hinges between their far or remote ends and opposite ends of the lower section whereby they may be swung apart into lan open position in order to permit the engine to be inserted into, and removed from, the ring, and additionally including releasable clamping means at the adjacent ends of the upper sections whereby when said upper sections are in their normal position the ring may be contracted into clamped relation with the engine.
  • a workstand designed to support an engine with radial cylinders and comprising a horizontal base having a pluralityof longitudinally aligned rollers thereon, and an upstanding contractable ring above the frame and with outwardly extending side flanges, adapted to encircle the cylinders of the engine, and arranged so that the rollers engage the bottom portion thereof between said side ilanges and support it so that it, together with the engine, may be turned about its axis, said ring including an arcuate lower section and a pair of adjoining arcuate upper sections with hinges between their far or remote ends and opposite ends of the lower section whereby they may be swung apart into an open position in order to permit the engine to be inserted into, and removed from, the ring, and additionally including releasable clamping means at the adjacent ends of the upper sections whereby when said upper sections are in their normal position the ring may be contracted into clamped relation with the engine cylinders.
  • a portable workstand designed to support an engine with radial cylinders and a drive shaft with an exposed end, and comprising a horizontal base frame, an upstanding transversely split contractable ring over the base frame, adapted to encircle the cylinders of, and carry, the engine, provided with means for contracting it into clamped relation with the engine cylinders, and mounted rotatably on the base frame so that it, together with the engine, may be turned about its axis, and an upstanding strut mounted on the base frame in opposed relation with the ring and provided at its upper end with a bearing for receiving and rotatably supporting the exposed end of the drive shaft when the engine is carried by the ring.
  • a workstand designed to support an engine with radial cylinders and a drive shaft with an exposed end, and comprising a portable horizontal base frame having a plurality of longitudinally aligned rollers thereon, an upstanding contractable split ring adapted to encircle the cylinders of, and carry, the engine, provided with means for contracting it into clamped relation with said engine, and resting freely on the rollers so that it, together with the engine, is permitted to turn about its axis, and an upstanding vertically extensible strut mounted on the base frame in opposed relation with the ring and provided at its upper end with a bearing for receiving and rotatably supporting the exposed end of the drive shaft when the engine is in the ring.
  • a workstand designed to support an engine with radial cylinders and a drive shaft with an exposed end, and comprising a portable base frame, an upstanding contractable split ring over the base frame adapted to encircle the cylinders of, and carry, the engine, provided with means for contracting it into clamped relation with said engine, and mounted rotatably on the base frame so that it, togethei ⁇ with the engine, may be turned about its axis, and an upstanding strut on the base frame and in opposed relation with the ring, provided at its upper end with a rotatable bearing for receiving and rotatably supporting the exposed end of the drive shaft when the engine is in the ring and embodying a pair of elongated aligned longitudinally adjustable and separable parts together With releasable means for securing the parts in their various adjusted positions.
  • a workstand designed to support an engine with radial cylinders and a drive shaft with an exposed end, and comprising a base frame with a plurality of longitudinally aligned rollers thereon.
  • an upstanding ring adapted to encircle the cylinders of, and carry, the engine, and mounted on the rollers so that it, together with the engine, is permitted to turn about its axis, means associated with the base frame for receiving and rotatably supporting the exposed end of the drive shaft, and means independent of the rollers for preventing tilting of the ring relatively to the base frame when no engine is supported by the workstand.
  • a workstand designed to support an engine with radial cylinders and a drive shaft with an exposed end, and comprising a base frame with a plurality of longitudinally aligned rollers thereon, an upstanding ring adapted to encircle the l5 cylinders of, and carry, the engine, and mounted on the rollers so that it, together with the engine, is permitted to turn about its axis, an upstanding strut mounted on the base frame lin opposed relation with the ring and provided at its upper end with a bearing for receiving and rotatably supporting the exposed end of the drive shaft when the engine is in the ring, and a releasable brace between the strut and the ring for preventing tilting of the ring relatively to the base frame when no engine is supported by the workstand.

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Description

Sept. 14, 1943. E, C, HQKANSON ET AL 2,329,613
ENGINE WORKSTAND Filed Feb. 2, 1942 2 Sheets-Sheet 1 No N aeg M E. c. HoKANsoN ET Al. 2,329,613
ENGINE woRKsTAND Filed Feb. 2, 1942 2 Sheets-Shes?l 2 Sept. 14, 1943.
Patented Sept. 14, 1943 ENGINE WORKSTAND Evert C. Hokanson,
E. Bock, Chicago,
Corporation, Harvey, Ill.,
linois Application February 2, 1942, Serial No.
7 Claims.
The present invention relates generally to workstands. More particularly the invention relates to that type of portable workstand which is designed for use in production assembly lines and serves as a medium for supporting an internal combustion engine during installation or mounting thereon of the various auxiliary equipment such as the mounting structure or supports and the gas and oil lines and other engine accessories, preparatory to mounting of the engine on the vehicle or other mechanism for which it is designed.
One object of the invention is to provide a workstand of this type which is generally of new and improved construction and is characterized by the fact that it not only effectively and efficiently fulfills its intended purpose but also permits the person or worker using the stand to carry out his work on the engine while assuming a standing or upright position.
Another object of the invention is to provide a stand of the type and character under consideration comprising an upstanding ring which is adapted to encircle the engine and is supported by a base frame so that it, together with the engine, may be turned or rotated into different angular positions about a horizontal axis.
Another object of the invention is to provide a workstand of the last mentioned character in which the upstanding rotatably supported ring comprises a lpair of adjoining arcuate sections which have releasable clamping means between their adjacent ends and hinges at their other ends and are adapted, upon release of the clamping means, to be swung outwards into an open or inoperative position in order to permit of insertion and removal of the engine with respect to the ring.
Another object of the invention is the provision in connection with an engine workstand of the type under consideration, of a strut which is connected to, and extends upwards from, the base frame and has at its upper end a bearing for receiving and supporting the drive shaft of the engine.
A further object of the invention is to provide.
a stand of the aforementioned type in which the ring is freely supported so that it may be interchanged with different sized rings, and the up` standing strut consists of a pair of separable telescopically connected parts for supporting the drive shaft of the engine which is held or retained by the particular ring on the base frame of the workstand.
A still further object of the invention is to pro- Hollywood, Calif., and George lll., assignors to Whit in: a corporation of Ilvide an engine workstand which is both rugged and durable, has casters on the base frame thereof to render it portable, and, due to its design and construction, may be manufactured or produced at a comparatively low cost.
Other objects of the ous advantages and characteristics ofthe present workstand will be apparent from a consideration of the following detailed description.
The invention consists in the several novel features which are hereinafter set forth and are more particularly defined by claims at the conclusion hereof.
In the drawings which accompany and form a part of thisspecification or disclosure and in which lik letters and numerals of reference denote corresponding parts throughout the several views:
Figure 1 is a rear view of an engine embodying the invention;
Figure 2 is a side view, parts of the extensible bearing equipped strut for receiving andsupporting the drive shaft of the engine being shown in section for purposes of illustration;
Figure 3 is a horizontal section taken on the line 3-3 of Figure 1 and illustrating in detail the construction and design of the base frame and the engine encircling ring;
Figure 4 is a section showing the design of one of the rollers for rotatably supporting the ring and illustrating the arrangement and construction of the brake means for releasably locking the ring against rotation;
Figure 5 is a section on the line 5 5 ure 4;
Figure 6 is a section of one of the casters for the base frame; and
Figure 7 is a section on the line 1 1 of Figure 6.
The workstand which is shown in the drawings constitutes the preferred form or embodiment of the invention. It is preferably of the portable type or variety and serves, as described hereafter more in detail, as a medium or means for supporting a radial engine E during installation or mounting thereon of the various auxiliary equipment. The engine E is of the airplane type and comprises in addition to a crank case and an annular series of radially extending cylinders, rocker boxes at the sides of the cylinders and a drive shaft which projects forwards from the front portion of the crank case. Preparatory to installing the engine E on the airplane for which it is designed it is necessary to mount on the engine the auxiliary equipment,
of Figinvention and the variworkstand including the mounting structure or supports for attaching the engine in place and the engine accessories, such as the gas and oil lines and parts of the Cowling structure. The improved workstand retains or supports the engine in a position wherein the drive shaft extends horizontally, and enablesthe person or worker operating on the engine to install the auxiliary equipment while he is in a standing position. As its principal parts the workstand comprises a base frame I 0, an engine encircling ring II and an upstanding strut I2.
The base frame I is in the form of a horizontally extending U-shaped pipe and is sustained or supported in spaced relation with the floor over which the workstand is employed by way of a pair of front casters I3 and a pair of rear casters I4. The pipe is formed of steel or any other suitable material and consists of a pair of laterally spaced parallel side pieces I5 and a front cross piece I6. The front piece extends between the front ends of the two side pieces and is connected at its ends to the front ends of the side pieces by right angle bends I1. Such bends have the lower portions thereof cut Tay and provided with fiat horizontally extending plates I8. These plates are welded or otherwise fixedly secured to the cut away lower portions of the bends and overlie the front casters I3. Such casters consist of wheels I9 and inverted U-shaped brackets which straddle the wheels I9 and are connected to the plates I8 by swivel type connections. The under portions of the rear ends of the side pieces I5 of the U-shaped pipe constituting the frame IU are cut away and have flat horizontally extending plates 2I. The latter are welded or otherwise xedly secured in place and over lie the rear casters I4. Such casters, as shown in Figure 6, consist of small wheels 22 and inverted U-shaped brackets 23. The brackets 23 straddle the wheels 22 and have swivel connections between them and the plates 2l. The front and rear casters I3 and I4 permit the workstand to be shifted bodily in any direction over the floor or other supporting surface.
The ring I I is preferably of channel shaped cross section and consists of an arcuate lower section 24 and a pair of upper opposed complemental arcuate sections 25 and 25. It is positioned in an upstanding manner over the central portion of the base frame III and is adapted to encircle and be clamped around the engine 'E (see Figure 2). The lower section 24 of the ring II extends throughout an arc of somewhat less than 180 and embodies a web and a pair of laterally spaced outwardly extending side flanges. The upper sections 25 and 25 normally extend upwards and inwards from the ends of the lower section 24 and likethe lower section, comprise intermediate webs and outwardly extending laterally spaced side flanges. The upper section 25 extends through an arc of slightly more than 90 and is connected at its lower end to the adjacent end of the .lower section by way of a hinge. The latter is in the form of a pair of plates 21 which are welded to the lower ends of the side anges of the section 25 and have rivet type pivots 25 between them and the adjacent ends of the side flanges oi.' the lower section 24. The hinge consisting of the plates 21 and the pivots 28 permit the upper section 25 to be swung outwards intoan inoperative position, as shown by dotted lines in Figure 1. The upper section 25 of the ring II, like A the section 25, extends through an am o! slightly moreV than The lower end of the upper ring section 25 is connected to the adjacent end of the lower section 24 by way of -a hinge so that it also may be swung outwards into an inoperative position. The last mentioned hinge consists of a pair of plates 25 which are welded to the lower ends of the side flanges of the upper section 25 and have rivet type pivots 35 between them andthe adjacent ends of the side ilanges of the lower section 24. 'I'he ring II is adapted to be contracted into encircling and clamped relation with the engine E by way of a hinge bolt 3l. 'I'his bolt is provided with a nut 32 and is hinged to the upper end of the ring section 25 so that it may be swung into lapped relation with the upper end of the section 25, as shown in Figure 1. The upper end of the section 25 is provided with a lug 33 which has a notch for receiving the shank of the hinge bolt 3I. When the hinge bolt is in place within the notch the nut 32 is positioned adjacent the outer face of the lug 33 and is adapted when tightened to contract the ring II around the engine E. To release the engine it is only necessary to loosen the nut 32 and swing the hinge bolt 3| out oi' engagement with the lug 33. Upon release of the hinge bolt the upper sections 25 and 25 of the nng are free so that they may be swung outwards or apart into their open position. When the upper sections are in such position the engine may be inserted into, or removed from. the ring. It is contemplated that the engine E shall be manipulated into, and removed from, the ring by way of an overhead sling. The webs of the ring sections are provided on their inner faces with equidistantly spaced cushion type pads 34 and these are adapted to engage the outer ends of the rocker boxes of the engine. The ring is supported by a pair of rollers 35 so that it, together with the engine E, may be shifted into dii'erent angular positions about a horizontal axis which coincides with the center of theV ring and the axis of the drive shaft of the engine. 'Ihe rollers 35 are disposed between the side flanges of the ring sections and engage during rotation of the ring the outer faces of the webs of the ring sections. They are located inwards of the side pieces I 5 of the U-shaped pipe constituting the base frame III and are rotatably supported by way o1' a pair of U-shaped brackets 35 on a horizontally extending beam 31. 'I'he latter is preferably of the channel variety. It is disposed in parallel relation with the front cross piece I5 of the frame III. 'Ihe ends of the beam 31 are shaped to rest upon the side pieces I5 and are xedly secured in place by way of vertically extending bolts 38. The latter extend through aligned holes in the ends of the cross web of the beam and the subjacent portions of the side pieces I5. The U-shaped brackets 35 for rotatably supporting the rollers 35 are bolted or riveted to the upper face of the cross web of the beam 31. 'I 'he rollers 35, being free to rotate, permit the ring to be rotated in either direction into different angular positions. By supporting the ring rotatably the engine E, when in place within the ring, may be swung or rotated in one direction or the other so as to bring the various parts thereof into proper position for ready mounting of the auxiliary equipment for the engine.
The upstanding strut I2 is adapted to receive. and serves as a supporting means for, the cuter end of the drive shaft of the engine E, It is 1ocated over the central portion of the cross piece I6 of the base frame l0 and consists of a vertically extending tubular lower part 39, a vertically extending tubular vpart 40, and a cylindrical bearing 4l. The lower end of the lower part 39 is welded or otherwise fxedly secured to the cen: tral portion of the front cross piece IG and the upper end of said lower part is open. The upper part 40 is smaller in diameter than the lower part 39 and the lower end thereof fits snugly and slidably within the upper end of the upper part, as shown in Figure 2. Because of the Ytelescopic: or sliding connection between the upper 'and lower parts 48 and 39 the strut I2 may be adjusted as to length. The two parts are releasably secured in their various adjusted positions by way of a cross bolt 52. 'I'he latter is adapted to extend through any one of a vertical series of holes 43 in the upper end of the lower part 39 and a hole lill in the lower end of the upper part 4U. When it is desired to adjust the upper part G of the strut with respect to the lower part 39 the bolt 42 is removed and the upper part is raised or lowered as desired. AS soon as the upper part is adjusted to the desired position the bolt is inserted into the hole i3 which registers with the hole M and then is shifted inwards into the lhole 44. The bearing il is at the upper end of the upper part Mi of the strut and is rotatably mounted in a cylindrical shell t5. It is adapted to receive the outer end of the drive shaft of the engine and is suitably secured against axial displacement with respect to the shell. The shell is provided with a fixed depending stem 46 which fits within and is welded or otherwise suitably1 attached to the upper end of the upper part 4B of the strut. As shown in Figure 2, the bearing di is provided on the inner periphery thereof with a longitudinally extending key lil. This key is adapted to fit within one of the grooves in the outer end of the drive shaft of the engine E and serves, when the engine is mounted on the workstand, to lock the bearing 4l to the drive shaft. The outer end of the bearing is provided with one or more holes i8 whereby a wrench i9 of the spanner variety may be applied to it should it be desired to turn the engine shaft while the engine is in place in the ring l l. When the engine is in place in the ring H the bearing lll and the two ring-supporting rollers 32 constitute a three point support for the engine and prevent the ring and engine from tipping or tilting with respect to the base frame I0. n assembling vthe engine with respect to the workstand the upper part d of the strut is removed from the lower part 39 and is applied to the engine by shifting the bearing di around the outer end of the drive shaft. Thereafter the engine is lowered so as to bring it within the ring. During lowering of the engine the lower end of the upper part lli) of the strut is manipulated into the upper end of the lower part 39. By reason of the fact that the bearing 4l is rotatably mounted within the cylindrical shell 45 the engine E is free to turn in connection with rotative angular adjustment of the frame of the ring i0.
In order to lock the ring and engine in the various positions into which they are turned or rotated a brake 50 is provided. This brake co-mprises a brake shoe 5l which underlies one of the ring-supporting rollers 35. The inner end of the shoe is pivotally supported by a pin 52 so that the shoe is free to swing vertically into and out of engagement with the superjacent roller,
The outer end of the shoe is provided with a horizontal extension 53 which serves as a foot pedal whereby the brake shoe may be urged or forced downwards when it is desired to release the brake and thus free the ring I0 for rotative adjustment. The brake shoe is urged upwards into engagement or braking relation with thesuperjacent roller by way of a vertically slidable l plunger 54. The latter, as shown in'Figures 4 and 5, extend through aligned holes in the web of the channel beam 31 and the bracket for rotatably supporting the roller to which the brake is applied, and is carried by a U-shaped bracket 55. lA compression spring 56 extends around the lower end of the plunger and is interposed between the bracket and a collar 5l on the central portion of the plunger. This spring urges Vthe plunger 54 upwards and exerts the desired upward pressure on the brake shoe. When it is desired to release the ring so that it, together with the engine E, may be turned or rotated the foot pedal which is formed by or constitutes the extension 53, is depressed. This operation resuits in lowering of the brake shoe and the plunger against the force of the spring 56. When the ring is adjusted to the desired extent the foot pedal is released and this results in the spring 56 shifting upwards the plunger 54 and bringing the brake shoe into engagement with the superjacent roller 35. `The brake shoe, together with the plunger and compression spring, constitutes simple means for releasably locking the engine encircling ring l0 in the various positions into which it is rotated.
For the purpose of preventing the ring li from tilting with respect to the base frame i5 when there is no engine in the ring a brace 58 is provided. The central part of this brace is pivotally connected to the lower part 39'of the strut I2, as shown in Figure 2. The end parts of the brace project rearwards from the strut and have down-turned hooks 59 which are adapted to fit within eyes 60 on the front side flange of the lower section 24 of the ring lll. The brace 53 is only used when there is no engine within the ring since its'primary or sole purpose is to prevent dislodgement of the ring from its normal o r operative position when the ring is empty. To release the brace it is only necessary toshift the hooks 58 out of interfitting relation with the eyes 59. As soon as the hooks are disconnected from the eyes the brace may be swung forwards with respect to the ring into an inoperative position.
In using the workstand the nut 32 on the bolt 3l is rst loosened and then the bolt is swung out of engagement with 'the notched lug 33 in order to release the upper arcuate sections 25 and 26 of the ring Il. As soon as the sections are released they are swung outwards. Thereafter the upper part 4u of the strut i2 is removed from the lower part 39 and is applied to the outer end of the drive shaft of the engine. After this operation the engine is lowered into the lower section 24 of the ring. During lowering of the engine the lower end of the upper part 40 of the strut I2 is inserted' into the upper end of the lower part 39. After the engine is lowered into place the upper sections 25 and 26 of the ring are swung inwards into encircling relation with the upper cylinders of the engine. Thereafter the ring is contracted into clamped relation around the engine by use of the hinge bolt 33. AfterY contraction of the ring around the engine the bolt 42 is manipulated so as 4to lock the upper and lower parts of the strut I2 in place. When the engine'iis in place on the workstand the various auxiliary parts or equipment may be readily applied to it. If it is desired to work on the lower portion of the engine the brake consisting of the brake shoe 5| is released by depressing the foot pedal type extension 53. Thereafter the ring Il, together with the engine, is rotated so as to raise the lower portion of the engine to the most convenient height for work thereon. As heretofore pointed out, the ring and engine may rotate in one direction or the other. Because the ring is capable of being rotated at least 90 in either direction it is possible rotatably to adjust the engine so that work may be conveniently done on it while the operator or Worker assumes a standing position. When the ring is in place around the engine the pads 34 grip yieldingly the rocker boxes and hence no damage or injury to the engine occurs. Should it be desired to turn the drive shaft of the engine while the latter is in the ring H and locked against rotation relatively to the base frame I0 by the brake 50 it is only necessary to apply the Wrench 49 to the outer end of the bearing 4| and then swing the wrench in the desired direction.
The herein described engine workstand is essentially simple in design and construction and hence may be manufactured at a low and reasonable cost. It; is rugged and durable and may be readily shifted from place to place due to the fact that the base frame I0 is caster-equipped. The workstand may be used on engines that vary in size by substituting a larger or smaller ring for the ring4 IU, depending upon whether the stand is used with a larger or smaller engine. Due to the fact that the strut I2 includes the vertically adjustable upper bearing equipped part 40 it is immaterial whether rings of diierent sizes are employed. Y
Whereas the workstand has been described as being particularly designed for use in connection with a radial engine of the airplane type it is to be understood that itmay be used in connection with engines other than radial engines or airplane engines. It is also to be understood that the invention is not to be restricted to the details set forth since these may be modified within the scope of the appended claims without departing from the spirit and scope of the invention.
Having thus described the invention what we claim as new and desire to secure by Letters Patent is:
l. A workstand designed to support an engine with radial cylinders and comprising a horizontal basev frame with aligned supporting members thereon, and an upstanding contractable ring over the base frame adapted to encircle the cylinders of the engine and mounted on the supporting members so-that it, together with the engine, may be turned about its axis, said ring including an arcuate lower section and a pair of adjoining arcuate upper sections with hinges between their far or remote ends and opposite ends of the lower section whereby they may be swung apart into lan open position in order to permit the engine to be inserted into, and removed from, the ring, and additionally including releasable clamping means at the adjacent ends of the upper sections whereby when said upper sections are in their normal position the ring may be contracted into clamped relation with the engine.
2. A workstand designed to support an engine with radial cylinders and comprising a horizontal base having a pluralityof longitudinally aligned rollers thereon, and an upstanding contractable ring above the frame and with outwardly extending side flanges, adapted to encircle the cylinders of the engine, and arranged so that the rollers engage the bottom portion thereof between said side ilanges and support it so that it, together with the engine, may be turned about its axis, said ring including an arcuate lower section and a pair of adjoining arcuate upper sections with hinges between their far or remote ends and opposite ends of the lower section whereby they may be swung apart into an open position in order to permit the engine to be inserted into, and removed from, the ring, and additionally including releasable clamping means at the adjacent ends of the upper sections whereby when said upper sections are in their normal position the ring may be contracted into clamped relation with the engine cylinders.
3. A portable workstand designed to support an engine with radial cylinders and a drive shaft with an exposed end, and comprising a horizontal base frame, an upstanding transversely split contractable ring over the base frame, adapted to encircle the cylinders of, and carry, the engine, provided with means for contracting it into clamped relation with the engine cylinders, and mounted rotatably on the base frame so that it, together with the engine, may be turned about its axis, and an upstanding strut mounted on the base frame in opposed relation with the ring and provided at its upper end with a bearing for receiving and rotatably supporting the exposed end of the drive shaft when the engine is carried by the ring.
4. A workstand designed to support an engine with radial cylinders and a drive shaft with an exposed end, and comprising a portable horizontal base frame having a plurality of longitudinally aligned rollers thereon, an upstanding contractable split ring adapted to encircle the cylinders of, and carry, the engine, provided with means for contracting it into clamped relation with said engine, and resting freely on the rollers so that it, together with the engine, is permitted to turn about its axis, and an upstanding vertically extensible strut mounted on the base frame in opposed relation with the ring and provided at its upper end with a bearing for receiving and rotatably supporting the exposed end of the drive shaft when the engine is in the ring.
5. A workstand designed to support an engine with radial cylinders and a drive shaft with an exposed end, and comprising a portable base frame, an upstanding contractable split ring over the base frame adapted to encircle the cylinders of, and carry, the engine, provided with means for contracting it into clamped relation with said engine, and mounted rotatably on the base frame so that it, togethei` with the engine, may be turned about its axis, and an upstanding strut on the base frame and in opposed relation with the ring, provided at its upper end with a rotatable bearing for receiving and rotatably supporting the exposed end of the drive shaft when the engine is in the ring and embodying a pair of elongated aligned longitudinally adjustable and separable parts together With releasable means for securing the parts in their various adjusted positions.
6. A workstand designed to support an engine with radial cylinders and a drive shaft with an exposed end, and comprising a base frame with a plurality of longitudinally aligned rollers thereon.
an upstanding ring adapted to encircle the cylinders of, and carry, the engine, and mounted on the rollers so that it, together with the engine, is permitted to turn about its axis, means associated with the base frame for receiving and rotatably supporting the exposed end of the drive shaft, and means independent of the rollers for preventing tilting of the ring relatively to the base frame when no engine is supported by the workstand.
7. A workstand designed to support an engine with radial cylinders and a drive shaft with an exposed end, and comprising a base frame with a plurality of longitudinally aligned rollers thereon, an upstanding ring adapted to encircle the l5 cylinders of, and carry, the engine, and mounted on the rollers so that it, together with the engine, is permitted to turn about its axis, an upstanding strut mounted on the base frame lin opposed relation with the ring and provided at its upper end with a bearing for receiving and rotatably supporting the exposed end of the drive shaft when the engine is in the ring, and a releasable brace between the strut and the ring for preventing tilting of the ring relatively to the base frame when no engine is supported by the workstand.'
EVERT C. HOKANSON. GEORGE E. BOCK.
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Cited By (20)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2427695A (en) * 1945-09-13 1947-09-23 Dale T Smith Portable engine-maintenance stand
US2432487A (en) * 1942-05-15 1947-12-09 Paxman Edward Philip Supporting internal-combustion engines to facilitate adjustment and repair
US2463383A (en) * 1944-01-14 1949-03-01 Whiting Corp Engine work stand
US2495438A (en) * 1946-05-29 1950-01-24 Bentley Weldery Inc Work manipulator
US2586263A (en) * 1944-10-12 1952-02-19 Webb Co Jervis B Conveyer
US2627109A (en) * 1948-08-31 1953-02-03 Whiting Corp Workstand
US2702689A (en) * 1952-10-03 1955-02-22 Smith Alexander Vehicle dolly
US2741830A (en) * 1953-03-02 1956-04-17 Exxon Research Engineering Co Universal engine support
DE1009424B (en) * 1955-12-20 1957-05-29 Maschf Augsburg Nuernberg Ag Internal combustion engine
US2836883A (en) * 1956-09-24 1958-06-03 Willis H Puck Device for removing parts from a tractor
DE1145110B (en) * 1957-07-22 1963-03-07 James Joseph Kelly Mobile mounting frame for a vehicle assembly, in particular for the engine of a motor vehicle
DE1288997B (en) * 1964-03-18 1969-02-06 Gen Electric Assembly stand, especially for jet engines
US3937343A (en) * 1973-11-09 1976-02-10 Reynold Spulak Adjustable tire cart
US4018343A (en) * 1974-07-11 1977-04-19 Ab Volvo Remote-controlled, motor-propelled transport car for the transport of motors during assembly and testing, and a test station for use together with the transport car
US4684310A (en) * 1985-08-06 1987-08-04 Stange Charles E Wheel manipulator
US4987808A (en) * 1988-06-20 1991-01-29 Bridgestone/Firestone, Inc. Tubular sleeve handling and cut-off system
US5165160A (en) * 1991-07-22 1992-11-24 Poncelet George V Apparatus and method for axially aligning straight or curved conduits
US7431314B2 (en) 2004-09-24 2008-10-07 International Tire Shuttle, Inc. Handling device for wheel assembly components
US20100329408A1 (en) * 2009-06-24 2010-12-30 Sergey Fiodorov Systems, Apparatuses and Methods of Gripping, Cutting and Removing Objects
US20140334903A1 (en) * 2013-05-10 2014-11-13 Transport Logistics, Int'l, Inc. Tilt-roll table for use in cleaning uf6 cylinders

Cited By (22)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2432487A (en) * 1942-05-15 1947-12-09 Paxman Edward Philip Supporting internal-combustion engines to facilitate adjustment and repair
US2463383A (en) * 1944-01-14 1949-03-01 Whiting Corp Engine work stand
US2586263A (en) * 1944-10-12 1952-02-19 Webb Co Jervis B Conveyer
US2427695A (en) * 1945-09-13 1947-09-23 Dale T Smith Portable engine-maintenance stand
US2495438A (en) * 1946-05-29 1950-01-24 Bentley Weldery Inc Work manipulator
US2627109A (en) * 1948-08-31 1953-02-03 Whiting Corp Workstand
US2702689A (en) * 1952-10-03 1955-02-22 Smith Alexander Vehicle dolly
US2741830A (en) * 1953-03-02 1956-04-17 Exxon Research Engineering Co Universal engine support
DE1009424B (en) * 1955-12-20 1957-05-29 Maschf Augsburg Nuernberg Ag Internal combustion engine
US2836883A (en) * 1956-09-24 1958-06-03 Willis H Puck Device for removing parts from a tractor
DE1145110B (en) * 1957-07-22 1963-03-07 James Joseph Kelly Mobile mounting frame for a vehicle assembly, in particular for the engine of a motor vehicle
DE1288997B (en) * 1964-03-18 1969-02-06 Gen Electric Assembly stand, especially for jet engines
US3937343A (en) * 1973-11-09 1976-02-10 Reynold Spulak Adjustable tire cart
US4018343A (en) * 1974-07-11 1977-04-19 Ab Volvo Remote-controlled, motor-propelled transport car for the transport of motors during assembly and testing, and a test station for use together with the transport car
US4684310A (en) * 1985-08-06 1987-08-04 Stange Charles E Wheel manipulator
US4987808A (en) * 1988-06-20 1991-01-29 Bridgestone/Firestone, Inc. Tubular sleeve handling and cut-off system
US5165160A (en) * 1991-07-22 1992-11-24 Poncelet George V Apparatus and method for axially aligning straight or curved conduits
US7431314B2 (en) 2004-09-24 2008-10-07 International Tire Shuttle, Inc. Handling device for wheel assembly components
US20100329408A1 (en) * 2009-06-24 2010-12-30 Sergey Fiodorov Systems, Apparatuses and Methods of Gripping, Cutting and Removing Objects
US20150047487A1 (en) * 2009-06-24 2015-02-19 Promation Engineering Ltd. Systems, apparatuses and methods of gripping, cutting and removing objects
US20140334903A1 (en) * 2013-05-10 2014-11-13 Transport Logistics, Int'l, Inc. Tilt-roll table for use in cleaning uf6 cylinders
US9222614B2 (en) * 2013-05-10 2015-12-29 Transport Logistics International, Inc. Tilt-roll table for use in cleaning UF6 cylinders

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