CA1121795A - Hydraulic jack - Google Patents
Hydraulic jackInfo
- Publication number
- CA1121795A CA1121795A CA000336991A CA336991A CA1121795A CA 1121795 A CA1121795 A CA 1121795A CA 000336991 A CA000336991 A CA 000336991A CA 336991 A CA336991 A CA 336991A CA 1121795 A CA1121795 A CA 1121795A
- Authority
- CA
- Canada
- Prior art keywords
- elevator
- frame
- arm
- hydraulic
- rearward
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Abstract
HYDRAULIC JACK
ABSTRACT OF THE DISCLOSURE
A hydraulic jack of the type typically employed for automotive repair work is equipped with a frame supported on wheels, a hydraulic unit for powering the jack, and an elevator mechanism for raising a lift plate in response to a ram actuated by the hydraulic unit. The hydraulic unit is supported in the frame without bolts or other fastening devices and thus is easily removable for repair or replacement. The elevator mechanism includes pivotable elevator arms for raising a roller which travels along an S-shaped lever. The lever supports the lift plate at one end and is pivoted in the frame at its other end.
ABSTRACT OF THE DISCLOSURE
A hydraulic jack of the type typically employed for automotive repair work is equipped with a frame supported on wheels, a hydraulic unit for powering the jack, and an elevator mechanism for raising a lift plate in response to a ram actuated by the hydraulic unit. The hydraulic unit is supported in the frame without bolts or other fastening devices and thus is easily removable for repair or replacement. The elevator mechanism includes pivotable elevator arms for raising a roller which travels along an S-shaped lever. The lever supports the lift plate at one end and is pivoted in the frame at its other end.
Description
7~
The present invention pertains generally to lifting devices and part;cularly to hydraulic floor jacks of the type employed for liEting automobiles and the like.
A common problem with hydraulic jacks is the tendency for the hydraulic unit to have a relatively short life in service, thus requiring frequent maintenance.
Heretofore, hydraulic floor jacks of the prior art have necessitated a rather time consuming procedure for replacing a worn hydraulic unit with a new or refurbished unit. Thus, it would be desirable to provide a hydraulic fioor jack capable of being repaired quickly in the event of a hydraulic unit breakdown.
Accordingly, it is a principal ob~ect of the present invention to provide a hydraulic floor jack having a frame equipped to retain a hydraulic unit in place during operation without mounting bolts or similar fasteners. In a presently preferred embodiment of the invention, a lower horizontal surface of the hydraulic unit merely rests on a transverse frame member so that the hydraulic unit can be lifted out of the frame without complicated disassembly when repair or replacement of the hydrawlic unit becomes necessary. The entire replacement procedure can be completed in a matter of seconds. During operation, the loadliftinq force of the hydraulic unit is counteracted by another transverse frame member that abuts a rearward vertical surface of the hydraulic unit.
It is another object of the present invention to provide an improved mechanism Eor li~tin~ or elevating a load upon activation of the hydraulic unit. The mechanism includes a plurality of intercoupled arms that provide superior loadlifting capacity while employing a mcre compact frame construction.
7~
In accordance with an aspect of the invention there is provided a hydraulic jack comprising: a frame having first and second longitudinal support members interconnected in spaced-apart side-by-side relationship;
a saddle for engaging a load to be lifted by the jack; a hydraulic unit carried rearwardly in the frame, the hydraulic unit having a block for housing a reservoir of hydraulic fluid, a main hydraulic cylinder forwardly connected to the block, and a ram horizontally extendable ~-in the forward direction from the main hydraulic cylinder;
méans for selectively actuating the hydraulic unit to forcibly extend the ram when the hydraulic unit is disposed in a predetermined operating position in the frame; an elevator mechanism carried by the frame and engageable with the ram for converting the horizontal movement of the ram into vertical movement of the saddle in response to the operation of the actuating means; and means secured in the frame for supporting the hydraulic unit in its predetermined operating position solely by abutting contact with surface portions of the hydraulic unit without attachment to said surface portions, whereby the hydraulic unit can be lifted out of the frame whenever the ram is disengaged from the elevator mechanism to facilitate repair or replacement of the hydraulic unit.
Additional objects, advantages and novel features of the present invention may be best understood by reference to the following detailed description of an illustrative embodiment when read in conjunction with the accompanying drawings, wherein:
- 2a ~
~ ' .
,,. ~ -L'~
- ~ .
13-3516 ~ L7~S
FIC; U I~E 1 is a perspective view of a hydraulic floor jack in accordance with the present inventioll wherein a li~ting mechanism of the jack is in a fully lowered position;
FIGU~E 2 is a perspective view of the jack wherein the lifting ~ mechanism is in a fully raised position;
FIGURE 3 is a fragmentary perspective view illustrating a hydraulic unit exploded out above its mounting position in a rearward portion of the jack;
FIG llRE 4 is a longitudinal sectional vlew of the jack wherein the lifting mechanism is in the fully lowered position;
FIGURE 5 is a side elevational view of tlle jack wherein the lifting mecllanism is in the fully raised position; and FIGUl~l~ 6 is a fragmentary side view of a modified lifting rnechanism in accordance witll the present invention.
; I~eferring now to the drawings a presently preferred embodiment of the invention will be described in detail like reference numerals designating like parts in the various figures.
With particular reference to FlG URE 1 a hydraulic jack of the present invention is designated generally by reference numeral 10. The jack 10 is constructed in an elongated frame 12 which Is carried forwardly by two principal load bearing wheels 14 and rearwardly by two castored wbeels 16. The frame 12 includes longitudinal side plates or support members 18 within which are mounted a ;1 lifting or elevator mechanism 20 and a hydraulic unit 22. A handle assembly 24 is pivotally connected rearwardly in the frame 12 above the hydraulic unit 22. *he handIe asserllbly 24 includes a yoke 2G whicil houses elements for actuatitlg the hydrau]ic unit 22 in a manner to be more fully described below. An elon~ated tubuInr shaft 28 extends fl orn the yoke 26 to a l-slluped handle 30 which is employed by the operator to position the jack 10 under the vehicle or other load to be lifted and then to pump the hydraulic unit 22 which in turn raises tlle elevator I I , I' ~
., .
7~5 mechanism 20, thus lifting the load. r)isposed outwardly from the handle 30 is acontrol kllob 32 which eon~munieates througl) the shaft 28 to deactuate the hydraulie unit 22 ancl thus lower the load.
`' The manner in which the handle assembly 24 eooperates witll the I hydraulic unit 22 is depicted more clearly in the enlarged view of FIGU~IE 2. The hydraulic unit 22 includes a conventional hydraulie cylinder 34 horizontally disposed in the frame 12 and supportecl rearwardly therein by a rectangular block 36. Theblock 36 houses a hydraulic reservoir, hydraulic fluid passageways and cooperuting valves, none of which are speeifically illustrated in as much as they are essentially ' eonventional in construction and operation. Examples of typieal hydraulie mechanisms are deseribed in the following referenees: Mueller, U.S. Patent ~o.
The present invention pertains generally to lifting devices and part;cularly to hydraulic floor jacks of the type employed for liEting automobiles and the like.
A common problem with hydraulic jacks is the tendency for the hydraulic unit to have a relatively short life in service, thus requiring frequent maintenance.
Heretofore, hydraulic floor jacks of the prior art have necessitated a rather time consuming procedure for replacing a worn hydraulic unit with a new or refurbished unit. Thus, it would be desirable to provide a hydraulic fioor jack capable of being repaired quickly in the event of a hydraulic unit breakdown.
Accordingly, it is a principal ob~ect of the present invention to provide a hydraulic floor jack having a frame equipped to retain a hydraulic unit in place during operation without mounting bolts or similar fasteners. In a presently preferred embodiment of the invention, a lower horizontal surface of the hydraulic unit merely rests on a transverse frame member so that the hydraulic unit can be lifted out of the frame without complicated disassembly when repair or replacement of the hydrawlic unit becomes necessary. The entire replacement procedure can be completed in a matter of seconds. During operation, the loadliftinq force of the hydraulic unit is counteracted by another transverse frame member that abuts a rearward vertical surface of the hydraulic unit.
It is another object of the present invention to provide an improved mechanism Eor li~tin~ or elevating a load upon activation of the hydraulic unit. The mechanism includes a plurality of intercoupled arms that provide superior loadlifting capacity while employing a mcre compact frame construction.
7~
In accordance with an aspect of the invention there is provided a hydraulic jack comprising: a frame having first and second longitudinal support members interconnected in spaced-apart side-by-side relationship;
a saddle for engaging a load to be lifted by the jack; a hydraulic unit carried rearwardly in the frame, the hydraulic unit having a block for housing a reservoir of hydraulic fluid, a main hydraulic cylinder forwardly connected to the block, and a ram horizontally extendable ~-in the forward direction from the main hydraulic cylinder;
méans for selectively actuating the hydraulic unit to forcibly extend the ram when the hydraulic unit is disposed in a predetermined operating position in the frame; an elevator mechanism carried by the frame and engageable with the ram for converting the horizontal movement of the ram into vertical movement of the saddle in response to the operation of the actuating means; and means secured in the frame for supporting the hydraulic unit in its predetermined operating position solely by abutting contact with surface portions of the hydraulic unit without attachment to said surface portions, whereby the hydraulic unit can be lifted out of the frame whenever the ram is disengaged from the elevator mechanism to facilitate repair or replacement of the hydraulic unit.
Additional objects, advantages and novel features of the present invention may be best understood by reference to the following detailed description of an illustrative embodiment when read in conjunction with the accompanying drawings, wherein:
- 2a ~
~ ' .
,,. ~ -L'~
- ~ .
13-3516 ~ L7~S
FIC; U I~E 1 is a perspective view of a hydraulic floor jack in accordance with the present inventioll wherein a li~ting mechanism of the jack is in a fully lowered position;
FIGU~E 2 is a perspective view of the jack wherein the lifting ~ mechanism is in a fully raised position;
FIGURE 3 is a fragmentary perspective view illustrating a hydraulic unit exploded out above its mounting position in a rearward portion of the jack;
FIG llRE 4 is a longitudinal sectional vlew of the jack wherein the lifting mechanism is in the fully lowered position;
FIGURE 5 is a side elevational view of tlle jack wherein the lifting mecllanism is in the fully raised position; and FIGUl~l~ 6 is a fragmentary side view of a modified lifting rnechanism in accordance witll the present invention.
; I~eferring now to the drawings a presently preferred embodiment of the invention will be described in detail like reference numerals designating like parts in the various figures.
With particular reference to FlG URE 1 a hydraulic jack of the present invention is designated generally by reference numeral 10. The jack 10 is constructed in an elongated frame 12 which Is carried forwardly by two principal load bearing wheels 14 and rearwardly by two castored wbeels 16. The frame 12 includes longitudinal side plates or support members 18 within which are mounted a ;1 lifting or elevator mechanism 20 and a hydraulic unit 22. A handle assembly 24 is pivotally connected rearwardly in the frame 12 above the hydraulic unit 22. *he handIe asserllbly 24 includes a yoke 2G whicil houses elements for actuatitlg the hydrau]ic unit 22 in a manner to be more fully described below. An elon~ated tubuInr shaft 28 extends fl orn the yoke 26 to a l-slluped handle 30 which is employed by the operator to position the jack 10 under the vehicle or other load to be lifted and then to pump the hydraulic unit 22 which in turn raises tlle elevator I I , I' ~
., .
7~5 mechanism 20, thus lifting the load. r)isposed outwardly from the handle 30 is acontrol kllob 32 which eon~munieates througl) the shaft 28 to deactuate the hydraulie unit 22 ancl thus lower the load.
`' The manner in which the handle assembly 24 eooperates witll the I hydraulic unit 22 is depicted more clearly in the enlarged view of FIGU~IE 2. The hydraulic unit 22 includes a conventional hydraulie cylinder 34 horizontally disposed in the frame 12 and supportecl rearwardly therein by a rectangular block 36. Theblock 36 houses a hydraulic reservoir, hydraulic fluid passageways and cooperuting valves, none of which are speeifically illustrated in as much as they are essentially ' eonventional in construction and operation. Examples of typieal hydraulie mechanisms are deseribed in the following referenees: Mueller, U.S. Patent ~o.
2,629,583; Butorac, U.S. Patent No. 3,807,694; and 'rallman, U.S. Patent No.
'~ 4,018,421. Mounted atop the block 36 is a pump eylinder 38 having a plunger 40 whieh is actuated by a roller 42 carried by tne handle assembly 24 within the yoke '1 26.
Referring briefly to FIG U RES 4 and 5, the plunger 40 is aetuated by repetitively pumping the handle assembly 24 through a relat;vely short stroke. In partieular, FIG U RE 4 depiets the roller 42 in position to engage the plunger 40 as the shaft 28 is lowered as indicated by the adjaeent arrow. When the shsft 28 is I I
'I brought into the horizontal position depieted in FIG Ul~E 5, the roller 42 depresses tlle plunger 40 to pump hydraulic fluid from the reservoir in the bloclc 36 into the main hydraulie cylinder 34. One pump stroke is completed when the sha~t 28 is raised to an angle sufficient for the rollel 42 to beeome disengaged from the plunger 40. Sueh angle is preferably about 20 degrees above the horizontal, so that, if neeessary, the sllaft 28 ean extend partially under the load to be lifted.
Repetitive pump strokes gradually eause a rflm 44 to be extended horizontally from thc main eylinder 34 whieh in turn eauses the elevator mecl-anism 2() to raise a lift plate or saddle 46 froll-l a lowered position as seen in FIGUl~L' 4 to a raised position as scen in FIGU1~ 5.
i ~3-3516 l.~.Z~7~i Referring again to FIGURES 1 and 2, lowering the e1evator 20 and saddle 46 is accornplished using the aforementioned control knob 32 which rotatably communicates with a gear 48 by means of a rod 50 disposed within the tubulflr;shaft 28. The gear 48 cooperatively engages a second gear 52 rotatably disposed¦ on a ,casing 54 mounted on the block 36. The second gear 52 drives a conventional valve stem within the casing 54 to open a release valve (not shown) which permits hydraulic fluid to return from the main cylinder 34 to the reservoir within the block .36, thereby allowing the elevator 20 and the saddle 46 to collapse ~rom the raised position seen in FIGURE 2 to the lowered position seen in FIGURE 1. , -1In accordance with an important feature of the jack 10, the hydraulic :
unit 22 is supported in the frame 12 without being secured or fastcned therein, thereby facilitating quick removal of the hydraulic urlit 22 in the manner depicted by FlGURE 3. In particular, the hydraulic unit 22 rests on a transverse frame Il member or flange 56 interconnecting the side plates 18 at the rear of the frame 12.
1I The leading edge of the ram 44 includes a generally U-shaped groove 58 which is adapted to slidably engage a pin 59. The force of the ram 44 engaging the pin 59 to ,1 lift the load is counteracted by another transverse frame member 60 that abuts a 'I rearward vertical surface 61 of the l-ydraulic block 36 as seen in FlGURE 4.
,I Removing the hydraulic unit 22 from the frame 12 is easily accomplished by first removing the handle assembly 24 frorn the frame 12, then moving the pin 59 forwardly out of engagement with the ram 44 and finally lifting the hydraulic unit 22 upwArds out of the frarne 12 as depicted in FIGURE 3. Most preferably, the hllndle assernbly 24 is pivotally secured to the frarne 12 by means of spring-loaded 1l pins G2, seen most clearly in FIGUI~13 2, which permit the handle assembly 24 to be 25 I quick1y rernoved and reinstallcd.
The details of the presently preferred elevator mechanism 20 will now be descrlbed with particular reference to FlGURES 4 and 5. The elevator ¦I mechanism 20 includes forward and rearward elevator arms 64 and 66 and a lever ~, " l, 1.
.
_ 5--79s , .
arm 68 which are intercoupled through a roller 70 to convert the horizontal movement of the ram 44 into vertical movement of the saddle 46. In the presently preferred embodirnent, the roller 70 is journaled on a pin 71 that also serves as the ~ pivotal connection for tlle arms 64 and 66. The forward elevator arm 64 is
'~ 4,018,421. Mounted atop the block 36 is a pump eylinder 38 having a plunger 40 whieh is actuated by a roller 42 carried by tne handle assembly 24 within the yoke '1 26.
Referring briefly to FIG U RES 4 and 5, the plunger 40 is aetuated by repetitively pumping the handle assembly 24 through a relat;vely short stroke. In partieular, FIG U RE 4 depiets the roller 42 in position to engage the plunger 40 as the shaft 28 is lowered as indicated by the adjaeent arrow. When the shsft 28 is I I
'I brought into the horizontal position depieted in FIG Ul~E 5, the roller 42 depresses tlle plunger 40 to pump hydraulic fluid from the reservoir in the bloclc 36 into the main hydraulie cylinder 34. One pump stroke is completed when the sha~t 28 is raised to an angle sufficient for the rollel 42 to beeome disengaged from the plunger 40. Sueh angle is preferably about 20 degrees above the horizontal, so that, if neeessary, the sllaft 28 ean extend partially under the load to be lifted.
Repetitive pump strokes gradually eause a rflm 44 to be extended horizontally from thc main eylinder 34 whieh in turn eauses the elevator mecl-anism 2() to raise a lift plate or saddle 46 froll-l a lowered position as seen in FIGUl~L' 4 to a raised position as scen in FIGU1~ 5.
i ~3-3516 l.~.Z~7~i Referring again to FIGURES 1 and 2, lowering the e1evator 20 and saddle 46 is accornplished using the aforementioned control knob 32 which rotatably communicates with a gear 48 by means of a rod 50 disposed within the tubulflr;shaft 28. The gear 48 cooperatively engages a second gear 52 rotatably disposed¦ on a ,casing 54 mounted on the block 36. The second gear 52 drives a conventional valve stem within the casing 54 to open a release valve (not shown) which permits hydraulic fluid to return from the main cylinder 34 to the reservoir within the block .36, thereby allowing the elevator 20 and the saddle 46 to collapse ~rom the raised position seen in FIGURE 2 to the lowered position seen in FIGURE 1. , -1In accordance with an important feature of the jack 10, the hydraulic :
unit 22 is supported in the frame 12 without being secured or fastcned therein, thereby facilitating quick removal of the hydraulic urlit 22 in the manner depicted by FlGURE 3. In particular, the hydraulic unit 22 rests on a transverse frame Il member or flange 56 interconnecting the side plates 18 at the rear of the frame 12.
1I The leading edge of the ram 44 includes a generally U-shaped groove 58 which is adapted to slidably engage a pin 59. The force of the ram 44 engaging the pin 59 to ,1 lift the load is counteracted by another transverse frame member 60 that abuts a 'I rearward vertical surface 61 of the l-ydraulic block 36 as seen in FlGURE 4.
,I Removing the hydraulic unit 22 from the frame 12 is easily accomplished by first removing the handle assembly 24 frorn the frame 12, then moving the pin 59 forwardly out of engagement with the ram 44 and finally lifting the hydraulic unit 22 upwArds out of the frarne 12 as depicted in FIGURE 3. Most preferably, the hllndle assernbly 24 is pivotally secured to the frarne 12 by means of spring-loaded 1l pins G2, seen most clearly in FIGUI~13 2, which permit the handle assembly 24 to be 25 I quick1y rernoved and reinstallcd.
The details of the presently preferred elevator mechanism 20 will now be descrlbed with particular reference to FlGURES 4 and 5. The elevator ¦I mechanism 20 includes forward and rearward elevator arms 64 and 66 and a lever ~, " l, 1.
.
_ 5--79s , .
arm 68 which are intercoupled through a roller 70 to convert the horizontal movement of the ram 44 into vertical movement of the saddle 46. In the presently preferred embodirnent, the roller 70 is journaled on a pin 71 that also serves as the ~ pivotal connection for tlle arms 64 and 66. The forward elevator arm 64 is
3 ournaled on a pin 72 whicll also functions as the axle for the wlleels 14. Preferably, the forward elevator arm 64 is welded or otllerwise secured to a bushing 73 that also serves as a transverse brace at the forward end of the frame 12.
I As depicted in FIG UR~S 2 and 3, the rearward elevator arm 66 is '" welded or otherwise secured to bushings 74 which pivot on the pin 59, and rollers 76 ~; are journaled on the ends of the pin 59 and rolled in longitudinal slots 78 in the side plates 18. The rearward end of the lever arm 68 is journaled on a pin 80 secured in the frame 12 in a suitable manner. Tlle lever arm 68 includes an S-shaped flange 82 and vertical sidewalls 84 and 86. The roller 70 engages the undersurfaces of the flange 82 during a lifting operation as depicted in FIGURES 4 and 5. As the ram 44 . moves forwardly, the elevator arms 64 and 66 scissors together forcing the roller li ; :
1. 70 upwardly thereby pivoting the lever arm ~8 about the pin 80 in the direction of :, the arrow shown above the saddle 46 in FIGURE 4. The curved or S-shaped arrangement of the flange 82 allows the saddle 46 to remain as low as possible in the fully lowered position seen in FIGURES 1 and 4. The length of the slots 78 20 ' controls the relative position of the arms 64 and 66 so that they will readily move without becoming jammed at the fully lowered and fully raised positions. For example, in the fully lowered position, the arms 64 and 66 form an angle of less ! thaIl 180 degrees and preferably about 165 degrees so that the forwardly directed force of tile ram 44 will cause thc arms 64 and 6G to begin to scissors togetller 25 1. causlng the roller 70 to move upwnrd. In aàdition, the forward most ends of the '1I s.lots 78 act as a stop to prevent the rearward elevator arrn 66 from reaching a il vertical orientation. The maximum elevation of the arm 66 is preferably about 80 : !
degrecs above hor~zontal. It will be appreciatea th~lt the elevator Inechnnism ~0 11 .
. , , ~3-3 ~il 6 7g5 ! would collapse if the arm 66 were permitted to move through a vertical orientation. The saddle 46 is supported by a bracket 88 which is pivotally connected to the forward end of the lever arm 68. The saddle 4fi is maintained in a ' generally horizontal orientation by control arms 90 pivotally connected at their i opposite ends to the bracket 88 and the side plates 18, the ends of each control arm 90 and the ends of the lever arm 68 forming a parallelogram as will be appreciated by those skilled in the art.
Portions of a modified jack 10A are illustrated in FIGURE 6, the non-illustrated portions being essentially the same as those previously described in the ~ principal jack ernbodiment 10. I he modified jack 10A comprises a rearward elevator arm 66A pivotally connected to a forward elevator arm 64A at a point along the forward elevator arm 64A rather than at the roller pin 71. It will be appreciated that in such an arrangement the lorward elevator arm 64A acts as a lever to provide greater vertical lift for the same horizontal travel of the ram 44 (previously described) in comparison to that achieved by the principal jack embodiment 10.
The above-described embodiments of the invention provide additional mechanical advantages and operational improvements over the various prior art devices. For example, positioning the pump cylinder 38 and release valve casing 54 1 atop the block 36 permits the handle assembly 24 to be cooperatively disposed immediately over the block 36. Such an arrangement allows the frame 12 to be made comparatively shorter and tilUS more compact and lighter in weight. By ¦j contrast, the jack described in tlle aforementioned Butorac patent includes a pump ~ cylillder extending rearwardly from a hydruulic unit, thus necessitating a 25 ~ substantially longer frame to accommodate mounting of the handle and interconnecting linkage for actuating the purnp cylinder. On the other hand, the longer frarne of the Butorac-type jack provides additional extension for reaching a more distant point of engagemerlt beneath the load to be lifted. The jack 10 of the present invention, however, compensates for its shorter frame 12 by employing the jl -7~
i, ,., ~ .; .
L7~5 shnft 28 of the handle assembly 2~ to give the necessary extensiol1 for reaching under the load. It wiLl be appreciated that the aforementioned purnp stroke angle employed by the inventive jack lO keeps the shaft 28 low to the ground so that it 1 can extend under the load during pumping. Note that Butorac-type jacks employ a 5 1 pump stroke that begins with the hundle in a generally vertical orientation so that the handle will ordinarily not be available for extending the reach of the jack under the load.
Another advantage of the inventive jack 10 over vnrious prior art jacks is the comparative stress reduction at critical structural points. The aforementioned Butorac and Tallrnan patents describe a lifting mechanism employing a lever arm wherein tl1e driving force or hydraulic power of a longitudinally extendable ram is applied at a point on the lever arm farther removed from the load than tlle distance from the load to the fulcrum (i.e., the ', point of pivotal attachment of the lever arm to the frame). Those skilled in the art 15 ~ will appreciate that the stress at the fulcrum of a lever can be reduced by applying a driving force of equal magnitude at a point on the lever between the load and the ¦ fulcrum. The jack 10 of the present invention achieves such reduced stress at the pin 80 which acts as the fulcrum for the lever arm 68, since the driving force is applied by the roller 70 on the flange 82 between the saddle 46 and the pin 80. It 20 1 will also be appreciated that the unique action of the roller 70 in moving forwardly along the flange 82 as the load is being lifted further reduces the stress at the pin 80 from what would be the case if the driving force were always applied at a point of closer proximity to the pin 80, such as the point where the roller contacts the Il flnnge 82 in the fully lowered position seen in EIGUI~E 4.
~ further advantage of the inventive jack 10 over prior art hydraulic floor jacks is its superior load-lifting capacity due in part to the above-mentioned stress reducing features and in part to the load-sharing effect of the elevator arms 64 and 66.
~1though a preferred embodiment of the invention and a modification 30 1~ thereof have been described in detail, it is to be understood that additional ., .
ll -8 l l 1~ 79S
modifications, substitutions and alternatives can be produced in accordance withthe invention without departing from the spirit ancl scope thereo~ as defined by the appended claims.
What is claimed is:
' , , ' ' ~ _g_ .:
I As depicted in FIG UR~S 2 and 3, the rearward elevator arm 66 is '" welded or otherwise secured to bushings 74 which pivot on the pin 59, and rollers 76 ~; are journaled on the ends of the pin 59 and rolled in longitudinal slots 78 in the side plates 18. The rearward end of the lever arm 68 is journaled on a pin 80 secured in the frame 12 in a suitable manner. Tlle lever arm 68 includes an S-shaped flange 82 and vertical sidewalls 84 and 86. The roller 70 engages the undersurfaces of the flange 82 during a lifting operation as depicted in FIGURES 4 and 5. As the ram 44 . moves forwardly, the elevator arms 64 and 66 scissors together forcing the roller li ; :
1. 70 upwardly thereby pivoting the lever arm ~8 about the pin 80 in the direction of :, the arrow shown above the saddle 46 in FIGURE 4. The curved or S-shaped arrangement of the flange 82 allows the saddle 46 to remain as low as possible in the fully lowered position seen in FIGURES 1 and 4. The length of the slots 78 20 ' controls the relative position of the arms 64 and 66 so that they will readily move without becoming jammed at the fully lowered and fully raised positions. For example, in the fully lowered position, the arms 64 and 66 form an angle of less ! thaIl 180 degrees and preferably about 165 degrees so that the forwardly directed force of tile ram 44 will cause thc arms 64 and 6G to begin to scissors togetller 25 1. causlng the roller 70 to move upwnrd. In aàdition, the forward most ends of the '1I s.lots 78 act as a stop to prevent the rearward elevator arrn 66 from reaching a il vertical orientation. The maximum elevation of the arm 66 is preferably about 80 : !
degrecs above hor~zontal. It will be appreciatea th~lt the elevator Inechnnism ~0 11 .
. , , ~3-3 ~il 6 7g5 ! would collapse if the arm 66 were permitted to move through a vertical orientation. The saddle 46 is supported by a bracket 88 which is pivotally connected to the forward end of the lever arm 68. The saddle 4fi is maintained in a ' generally horizontal orientation by control arms 90 pivotally connected at their i opposite ends to the bracket 88 and the side plates 18, the ends of each control arm 90 and the ends of the lever arm 68 forming a parallelogram as will be appreciated by those skilled in the art.
Portions of a modified jack 10A are illustrated in FIGURE 6, the non-illustrated portions being essentially the same as those previously described in the ~ principal jack ernbodiment 10. I he modified jack 10A comprises a rearward elevator arm 66A pivotally connected to a forward elevator arm 64A at a point along the forward elevator arm 64A rather than at the roller pin 71. It will be appreciated that in such an arrangement the lorward elevator arm 64A acts as a lever to provide greater vertical lift for the same horizontal travel of the ram 44 (previously described) in comparison to that achieved by the principal jack embodiment 10.
The above-described embodiments of the invention provide additional mechanical advantages and operational improvements over the various prior art devices. For example, positioning the pump cylinder 38 and release valve casing 54 1 atop the block 36 permits the handle assembly 24 to be cooperatively disposed immediately over the block 36. Such an arrangement allows the frame 12 to be made comparatively shorter and tilUS more compact and lighter in weight. By ¦j contrast, the jack described in tlle aforementioned Butorac patent includes a pump ~ cylillder extending rearwardly from a hydruulic unit, thus necessitating a 25 ~ substantially longer frame to accommodate mounting of the handle and interconnecting linkage for actuating the purnp cylinder. On the other hand, the longer frarne of the Butorac-type jack provides additional extension for reaching a more distant point of engagemerlt beneath the load to be lifted. The jack 10 of the present invention, however, compensates for its shorter frame 12 by employing the jl -7~
i, ,., ~ .; .
L7~5 shnft 28 of the handle assembly 2~ to give the necessary extensiol1 for reaching under the load. It wiLl be appreciated that the aforementioned purnp stroke angle employed by the inventive jack lO keeps the shaft 28 low to the ground so that it 1 can extend under the load during pumping. Note that Butorac-type jacks employ a 5 1 pump stroke that begins with the hundle in a generally vertical orientation so that the handle will ordinarily not be available for extending the reach of the jack under the load.
Another advantage of the inventive jack 10 over vnrious prior art jacks is the comparative stress reduction at critical structural points. The aforementioned Butorac and Tallrnan patents describe a lifting mechanism employing a lever arm wherein tl1e driving force or hydraulic power of a longitudinally extendable ram is applied at a point on the lever arm farther removed from the load than tlle distance from the load to the fulcrum (i.e., the ', point of pivotal attachment of the lever arm to the frame). Those skilled in the art 15 ~ will appreciate that the stress at the fulcrum of a lever can be reduced by applying a driving force of equal magnitude at a point on the lever between the load and the ¦ fulcrum. The jack 10 of the present invention achieves such reduced stress at the pin 80 which acts as the fulcrum for the lever arm 68, since the driving force is applied by the roller 70 on the flange 82 between the saddle 46 and the pin 80. It 20 1 will also be appreciated that the unique action of the roller 70 in moving forwardly along the flange 82 as the load is being lifted further reduces the stress at the pin 80 from what would be the case if the driving force were always applied at a point of closer proximity to the pin 80, such as the point where the roller contacts the Il flnnge 82 in the fully lowered position seen in EIGUI~E 4.
~ further advantage of the inventive jack 10 over prior art hydraulic floor jacks is its superior load-lifting capacity due in part to the above-mentioned stress reducing features and in part to the load-sharing effect of the elevator arms 64 and 66.
~1though a preferred embodiment of the invention and a modification 30 1~ thereof have been described in detail, it is to be understood that additional ., .
ll -8 l l 1~ 79S
modifications, substitutions and alternatives can be produced in accordance withthe invention without departing from the spirit ancl scope thereo~ as defined by the appended claims.
What is claimed is:
' , , ' ' ~ _g_ .:
Claims
The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:
1. A hydraulic jack comprising:
a frame having first and second longitudinal support members interconnected in spaced-apart side-by-side relationship;
a saddle for engaging a load to be lifted by the jack;
a hydraulic unit carried rearwardly in the frame, the hydraulic unit having a block for housing a reservoir of hydraulic fluid, a main hydraulic cylinder forwardly connected to the block, and a ram horizontally extendable in the forward direction from the main hydraulic cylinder;
means for selectively actuating the hydraulic unit to forcibly extend the ram when the hydraulic unit is disposed in a predetermined operating position in the frame;
an elevator mechanism carried by the frame and engage-able with the ram for converting the horizontal movement of the ram into vertical movement of the saddle in response to the operation of the actuating means; and means secured in the frame for supporting the hydraulic unit in its predetermined operating position solely by abutting contact with surface portions of the hydraulic unit without attachment to said surface portions, whereby the hydraulic unit can be lifted out of the frame whenever the ram is disengaged from the elevator mechanism to facilitate repair or replacement of the hydraulic unit.
2. The hydraulic jack of Claim 1 wherein said support-ing means includes a first member for abutting a surface of the hydraulic unit to support the weight of the hydraulic unit and a second member for abutting a surface of the hydraulic unit to prevent rearward movement of the hydraulic unit while the ram forcibly engages the elevator mechanism during operation of the jack to lift a load.
3. The hydraulic jack of Claim 1 wherein said second member allows forward movement of the hydraulic unit when the ram is disengaged from the elevator mechanism.
4. The hydraulic jack of Claim 1 wherein said support means comprises a flange extending transversely between the longitudinal support members in a rearward lower portion of the frame, the flange having an upper horizontal surface for contact-ing a cooperating surface of the reservoir housing block to support the hydraulic unit in said predetermined operating position.
5. The hydraulic jack of Claim 1 wherein said locating means comprises a transverse frame member disposed at the rearward ends of the longitudinal support members, the transverse frame member having a vertical surface for contacting a cooperating rearward vertical surface of the reservoir housing block to prevent the rearward movement of the block with respect to the frame when the ram forcibly engages the elevator mechanism.
6. The hydraulic jack of Claim 1 wherein said actuat-ing means comprises a pump cylinder mounted atop the reservoir housing block and a handle assembly pivotally secured to the frame above the block, the pump cylinder having a vertically reciprocating plunger extending out from the top of the pump cylinder for actuating the hydraulic unit, the handle assembly including means for engaging the plunger to repetitively depress the plunger and actuate the hydraulic unit when the handle assembly is repetitively lowered and raised about its pivot through a pump stroke of a predetermined angle.
7. The hydraulic jack of Claim 6 wherein the handle assembly further includes an elongated handle having a fully lowered position extending horizontally rearward from the frame, and wherein the plunger is adapted to be fully depressed from its fully extended position by a pump stroke of the handle from about 20 degrees above the horizontal down through said fully lowered position.
8. The hydraulic jack of Claim 6 further comprising spring-loaded pins serving to pivotally secure the handle assembly to the longitudinal support members, whereby the handle assembly can be quickly removed from the framed by depressing the pins to free the handle assembly from the longitudinal support members.
9. A hydraulic jack according to Claim 1 wherein said elevator mechanism includes members intercoupling the saddle and the ram for converting horizontal movement of the ram into vertical movement of the saddle, the intercoupling members including forward and rearward elevator arms and a lever arm, the forward elevator arm having a first end pivotally secured in the frame and a second end rotatable about its first end, the rearward elevator arm having a first end longitudinally moveable in the frame and a second end pivotally secured to the forward elevator arm at a point removed from the first end of the forward elevator arm, the first end of the rearward elevator arm being cooperatively intercoupled with the ram, the lever arm having a first end pivotally secured in the frame and a second end rotatable about its first end, the second end of the lever arm being cooperatively intercoupled with the saddle, the elevator mechanism further including means for coupling the forward elevator arm and the lever arm to translate vertical movement of the second end of the forward elevator arm into corresponding vertical movement of the saddle.
10. The hydraulic jack of Claim 9 wherein the said means coupling the forward elevator arm and the lever arm is a roller, the roller being journaled at the second end of the forward elevator arm for engaging a surface of the lever arm, whereby the lifting force of the jack is transferred from the ram to the saddle via the elevator arms, the roller and the lever arm.
11. The hydraulic jack of Claim 9 including a first pair of wheels rotatably mounted at the forward end of the frame and a second pair of wheels rotatably mounted at the rearward end of the frame, the first pair of wheels having a common axle extending between the sidewalls of the frame, the axle serving as the pivotal support for the first end of the forward elevator arm.
: 12. The hydraulic jack of Claim 9 wherein the first end of the lever arm is pivotally secured in the frame at a point rearward from the location of the roller, the lever arm including a flange extending forwardly in overlying engagement with the roller, the flange being shaped to allow the saddle to be support-ed at a point below the point of engagement of the roller with the flange when the elevator mechanism is in the fully lowered position.
13. The hydraulic jack of Claim 9 wherein the rearward elevator arm is pivotally secured to the forward elevator arm by a pin that also serves as an axle for the roller.
14. The hydraulic jack of Claim 9 wherein the second end of the rearward elevator arm is pivotally secured to the forward elevator arm at a point between the first and second ends of the forward elevator arm, whereby the forward elevator arm works as a lever.
15. The hydraulic jack of Claim 9 further comprising means for guiding the longitudinal movement of the first end of the rearward elevator arm, the guiding means including means for preventing the rearward elevator arm from reaching a vertical orientation as the ram is extended.
16. The hydraulic jack of Claim 9 wherein the second end of the rearward elevator arm is pivotally secured to the forward elevator arm at a point between the first and second ends of the forward elevator arm, whereby the forward elevator arm works as a lever.
17. The hydraulic jack of Claim 9 wherein the elevator arms are disposed at an angle relative to each other and are adapted to pivot in opposite directions to progressively reduce the magnitude of said angle as the ram is progressively extended during a load lifting operation, whereby the stress exerted on the frame by the elevator arms is progressively reduced as the load is progressively raised.
1. A hydraulic jack comprising:
a frame having first and second longitudinal support members interconnected in spaced-apart side-by-side relationship;
a saddle for engaging a load to be lifted by the jack;
a hydraulic unit carried rearwardly in the frame, the hydraulic unit having a block for housing a reservoir of hydraulic fluid, a main hydraulic cylinder forwardly connected to the block, and a ram horizontally extendable in the forward direction from the main hydraulic cylinder;
means for selectively actuating the hydraulic unit to forcibly extend the ram when the hydraulic unit is disposed in a predetermined operating position in the frame;
an elevator mechanism carried by the frame and engage-able with the ram for converting the horizontal movement of the ram into vertical movement of the saddle in response to the operation of the actuating means; and means secured in the frame for supporting the hydraulic unit in its predetermined operating position solely by abutting contact with surface portions of the hydraulic unit without attachment to said surface portions, whereby the hydraulic unit can be lifted out of the frame whenever the ram is disengaged from the elevator mechanism to facilitate repair or replacement of the hydraulic unit.
2. The hydraulic jack of Claim 1 wherein said support-ing means includes a first member for abutting a surface of the hydraulic unit to support the weight of the hydraulic unit and a second member for abutting a surface of the hydraulic unit to prevent rearward movement of the hydraulic unit while the ram forcibly engages the elevator mechanism during operation of the jack to lift a load.
3. The hydraulic jack of Claim 1 wherein said second member allows forward movement of the hydraulic unit when the ram is disengaged from the elevator mechanism.
4. The hydraulic jack of Claim 1 wherein said support means comprises a flange extending transversely between the longitudinal support members in a rearward lower portion of the frame, the flange having an upper horizontal surface for contact-ing a cooperating surface of the reservoir housing block to support the hydraulic unit in said predetermined operating position.
5. The hydraulic jack of Claim 1 wherein said locating means comprises a transverse frame member disposed at the rearward ends of the longitudinal support members, the transverse frame member having a vertical surface for contacting a cooperating rearward vertical surface of the reservoir housing block to prevent the rearward movement of the block with respect to the frame when the ram forcibly engages the elevator mechanism.
6. The hydraulic jack of Claim 1 wherein said actuat-ing means comprises a pump cylinder mounted atop the reservoir housing block and a handle assembly pivotally secured to the frame above the block, the pump cylinder having a vertically reciprocating plunger extending out from the top of the pump cylinder for actuating the hydraulic unit, the handle assembly including means for engaging the plunger to repetitively depress the plunger and actuate the hydraulic unit when the handle assembly is repetitively lowered and raised about its pivot through a pump stroke of a predetermined angle.
7. The hydraulic jack of Claim 6 wherein the handle assembly further includes an elongated handle having a fully lowered position extending horizontally rearward from the frame, and wherein the plunger is adapted to be fully depressed from its fully extended position by a pump stroke of the handle from about 20 degrees above the horizontal down through said fully lowered position.
8. The hydraulic jack of Claim 6 further comprising spring-loaded pins serving to pivotally secure the handle assembly to the longitudinal support members, whereby the handle assembly can be quickly removed from the framed by depressing the pins to free the handle assembly from the longitudinal support members.
9. A hydraulic jack according to Claim 1 wherein said elevator mechanism includes members intercoupling the saddle and the ram for converting horizontal movement of the ram into vertical movement of the saddle, the intercoupling members including forward and rearward elevator arms and a lever arm, the forward elevator arm having a first end pivotally secured in the frame and a second end rotatable about its first end, the rearward elevator arm having a first end longitudinally moveable in the frame and a second end pivotally secured to the forward elevator arm at a point removed from the first end of the forward elevator arm, the first end of the rearward elevator arm being cooperatively intercoupled with the ram, the lever arm having a first end pivotally secured in the frame and a second end rotatable about its first end, the second end of the lever arm being cooperatively intercoupled with the saddle, the elevator mechanism further including means for coupling the forward elevator arm and the lever arm to translate vertical movement of the second end of the forward elevator arm into corresponding vertical movement of the saddle.
10. The hydraulic jack of Claim 9 wherein the said means coupling the forward elevator arm and the lever arm is a roller, the roller being journaled at the second end of the forward elevator arm for engaging a surface of the lever arm, whereby the lifting force of the jack is transferred from the ram to the saddle via the elevator arms, the roller and the lever arm.
11. The hydraulic jack of Claim 9 including a first pair of wheels rotatably mounted at the forward end of the frame and a second pair of wheels rotatably mounted at the rearward end of the frame, the first pair of wheels having a common axle extending between the sidewalls of the frame, the axle serving as the pivotal support for the first end of the forward elevator arm.
: 12. The hydraulic jack of Claim 9 wherein the first end of the lever arm is pivotally secured in the frame at a point rearward from the location of the roller, the lever arm including a flange extending forwardly in overlying engagement with the roller, the flange being shaped to allow the saddle to be support-ed at a point below the point of engagement of the roller with the flange when the elevator mechanism is in the fully lowered position.
13. The hydraulic jack of Claim 9 wherein the rearward elevator arm is pivotally secured to the forward elevator arm by a pin that also serves as an axle for the roller.
14. The hydraulic jack of Claim 9 wherein the second end of the rearward elevator arm is pivotally secured to the forward elevator arm at a point between the first and second ends of the forward elevator arm, whereby the forward elevator arm works as a lever.
15. The hydraulic jack of Claim 9 further comprising means for guiding the longitudinal movement of the first end of the rearward elevator arm, the guiding means including means for preventing the rearward elevator arm from reaching a vertical orientation as the ram is extended.
16. The hydraulic jack of Claim 9 wherein the second end of the rearward elevator arm is pivotally secured to the forward elevator arm at a point between the first and second ends of the forward elevator arm, whereby the forward elevator arm works as a lever.
17. The hydraulic jack of Claim 9 wherein the elevator arms are disposed at an angle relative to each other and are adapted to pivot in opposite directions to progressively reduce the magnitude of said angle as the ram is progressively extended during a load lifting operation, whereby the stress exerted on the frame by the elevator arms is progressively reduced as the load is progressively raised.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000336991A CA1121795A (en) | 1979-10-04 | 1979-10-04 | Hydraulic jack |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000336991A CA1121795A (en) | 1979-10-04 | 1979-10-04 | Hydraulic jack |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1121795A true CA1121795A (en) | 1982-04-13 |
Family
ID=4115282
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000336991A Expired CA1121795A (en) | 1979-10-04 | 1979-10-04 | Hydraulic jack |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1121795A (en) |
-
1979
- 1979-10-04 CA CA000336991A patent/CA1121795A/en not_active Expired
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| US4210314A (en) | Hydraulic jack | |
| US3863890A (en) | Lift device for small equipment | |
| US4655466A (en) | Cart | |
| US6866466B2 (en) | Folding lift arm assembly for skid steer loader | |
| CA2631590A1 (en) | Compact excavator implement interface | |
| CA2437911A1 (en) | Jack for a working implement and method | |
| EP0134409A2 (en) | Maintaining constant pick-up broom pattern | |
| US5984270A (en) | Jack safety device | |
| CA1121795A (en) | Hydraulic jack | |
| US4217971A (en) | Rotating powered step | |
| JP3133793B2 (en) | Lift / loader boom device and work tool moving method using lift / loader boom device | |
| US5535795A (en) | Log splitting attachment for a hand jack | |
| US6435477B2 (en) | Jack apparatus | |
| JPH08506560A (en) | Horizontal lifting device | |
| US3648856A (en) | Transmission jack | |
| EP0936180B1 (en) | Base structure for a mobile access platform | |
| JP3589942B2 (en) | Remote control method of caster wheel adjustment | |
| EP0174709B1 (en) | Lift truck | |
| JPS6134773B2 (en) | ||
| CN220202408U (en) | Milling attachment | |
| CN219312513U (en) | Integrated support for tractor | |
| CN217131294U (en) | Mechanical synchronous operation device for material pusher of garbage incinerator | |
| JP3411970B2 (en) | Outrigger jack for work vehicle | |
| GB2213795A (en) | Air bellows vehicle jacking beam | |
| JPH0512338Y2 (en) |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKEX | Expiry |