Toe jack with pedestal supported kit
A pedestal supported hydraulic toe jack arrangement, and a kit for adapting a commercially available hydraulic bottle toe jack to use at selectively adjustable relatively elevated locations includes a first elongated hollow tubular member having a floor engaging based fixed on one end thereof and at least one transverse aperture extending there through near the other end thereof. A second elongated tubular member having a first set of generally parallel generally equally spaced transverse apertures and a second set of generally parallel generally equally spaced transverse apertures generally orthogonal to the first set. The second elongated member has a transverse dimension sufficiently small that it may be telescopically slidingly positioned inside the first hollow tubular member. There is a toe jack adapter plate fixed to one end of the second elongated tubular member, and a plurality of bolts for fastening a hydraulic toe jack to the toe jack adapter plate. A pin adapted to extend simultaneously through one transverse aperture of each tubular member to fix the relative locations of the first and second elongated tubular members. There is an optional saddle for adapting an object engaging end of a movable ram portion of a hydraulic toe jack to support a convexly curved heavy object. The saddle has an upwardly opening convex rest and a downwardly opening hollow cylindrical adapter for passing over and laterally securing the saddle to the object engaging end of the ram.
1. A kit for adapting a commercially available hydraulic bottle toe jack for use at selectively adjustable relatively elevated locations comprising:
a first elongated tubular member having a floor engaging base fixed on one end thereof, a first transverse aperture extending there through near the other end thereof, and a second transverse aperture longitudinally spaced from the first aperture and extending generally orthogonal thereto;
a second elongated tubular member having a first set of generally parallel generally equally spaced transverse apertures and a second set of generally parallel generally equally spaced transverse apertures with the second set of apertures extending generally orthogonal to the first set, one of the elongated members having a transverse dimension sufficiently small that it may be telescopically slidingly received within the other tubular member;
a toe jack adapter plate fixed to one end of the second elongated tubular member;
a plurality of bolts for fastening a hydraulic toe jack to the toe jack adapter plate; and
a pin adapted to extend simultaneously through said first elongated tubular member transverse aperture and a selected one of said first and second sets of apertures to fix the relative locations of the first and second elongated tubular members.
2. The kit of claim 1 further comprising a saddle for adapting an object engaging end of a movable ram portion of a hydraulic toe jack to support a convexly curved heavy object.
3. The kit of claim 2 wherein the saddle comprises an upwardly opening convex rest and a downwardly opening hollow cylindrical adapter for passing over and laterally securing the saddle to the object engaging end of the ram.
4. A kit for adapting a commercially available hydraulic bottle toe jack for use at selectively adjustable relatively elevated locations comprising:
a first elongated tubular member having a floor engaging base fixed on one end thereof, a first transverse aperture extending there through near the other end thereof, and a second transverse aperture longitudinally spaced a first distance from the first aperture and extending generally orthogonal thereto;
a second elongated tubular member having a first set of generally parallel generally equally spaced transverse apertures and a second set of generally parallel generally equally spaced transverse apertures with the second set of apertures extending generally orthogonal to the first set, each said aperture of said first set being longitudinally spaced a second distance from an adjacent one of said second set of apertures, said second distance being unequal to said first distance, the elongated members having a transverse dimension sufficiently small that it may be telescopically slidingly received within the other tubular member;
a toe jack adapter plate fixed to one end of the second elongated tubular member;
a plurality of bolts for fastening a hydraulic toe jack to the toe jack adapter plate; and
a pin adapted to extend simultaneously through said first elongated tubular member transverse aperture and a selected one of said first and second sets of apertures to fix the relative locations of the first and second elongated tubular members.
5. The kit of claim 4 wherein said first distance is less than said second distance.
6. The kit of claim 5 wherein said second distance is less than twice said first distance.
The present invention related generally to toe jacking devices for raising heavy objects and more particularly to such toe jacking devices for further raising already elevated heavy objects. In particular, the present invention provides a device for raising vehicle components on vehicles resting on a raised hydraulic lifts.
Several lifting devices for already elevated objects are known. For example, a pedestal transmission toe jack comprises a hydraulic ram toe jack supported at an elevated location on a four leg castered base. The lift range of this device is relatively limited, for example, between 50-70 inches, and the heavy weight and large base makes it nearly impossible to use in a pit beneath a lift.
Hydraulic under hoist utility toe jacks having a conventional floor supported toe jack with an adjustable pipe arrangement extending upwardly from the movable top of the toe jack are also known. These devices, which are essentially extensions to the upper end of a conventional toe jack improve the lift range as compared to the previously mentioned transmission toe jack, but are extremely difficult to use since the upper end of the toe jack must be accurately located while the toe jack is being raised by operating the toe jack handle, which is located about six feet beneath the toe jack upper end, to engage the heavy object.
The hydraulic toe jack stand of the present invention is a hydraulic toe jack mounted on the upper end of an adjustable stand. It is made of two pipes, one telescopically received inside the other, with holes drilled in both pipes to vary the height of the stand. A pin extending through one hole of each pipe holds the toe jack in position at the desired height.
This tool is well suited to use by mechanics when a vehicle is on a lift in a repair shop. It is used under the vehicle. Examples of uses are: to lift or lower an engine or hold an engine in position while removing or installing an oil pan or motor mounts, or to lower or raise an engine to remove or install a transmission; also to hold a transmission in place to remove or install an engine. The hydraulic toe jack stand can be used to hold exhaust pipes in place, or a drive shaft in place while removing or installing the shaft.
The hydraulic toe jack stand of the present invention is light weight and can be moved about easily. It does not take up much room while under the vehicle, and is easy to work around while in use; air hoses and electrical cords can not get caught on the stand because of its design. This tool is safe, because the operator can control the toe jack while at the work being done, instead of raising or lowering a lift the vehicle is on onto a stationary stand, which is very dangerous.
Among the several objects of the present invention may be noted the provision of an easily deployed toe jack stand for use beneath hydraulic lifts; the provision of a kit for assembling a toe jack stand; the provision of a hydraulic toe jack arrangement where the hydraulic portion thereof is located relatively close to the objecting to be raised thereby facilitating operation by one person; the provision of a toe jack stand which located a hydraulic toe jack at an elevated location close to an object to be raised; and the provision of a hydraulic toe jack stand which may be positioned in a pit beneath a vehicle. These as well as other objects and advantageous features of the present invention will be in part apparent and in part pointed out hereinafter.
In general, a pedestal supported hydraulic toe jack arrangement has a floor engaging base with a hollow tubular member fixed thereto and extending upwardly there from. A second selectively movable tubular member is telescopically received in the hollow tubular member generally coaxial therewith. The movable tubular member may be selectively positioned at a any one of several different discrete locations along the axis relative to the hollow tubular member. The movable tubular member includes a first set of generally parallel generally equally spaced transverse apertures and a second set of generally parallel generally equally spaced transverse apertures which extend generally orthogonally to the first set. The hollow tubular member includes at least one, and preferably two, transverse apertures which are selectively alignable with any aperture of the first and second sets. A steel pin may then be simultaneously passed through one aperture in each tubular member to fix the elevation of the hydraulic toe jacking structure at a preferred level. A hydraulic toe jacking structure such as a commercially available hydraulic bottle toe jack has a base fixed to an upper end of the movable tubular member and an upwardly extending ram movable continuously throughout a limited longitudinal range along the common axis. The primary function of the hydraulic toe jack arrangement is to further raise already substantially elevated heavy object such as vehicle components already located on conventional hydraulic lifts.