The following includes information that may be useful in understanding the present disclosure. It is not an admission that the information provided is prior art nor material to the described or claimed inventions, nor that any publication or document expressly or implicitly referenced is prior art.
The present invention generally relates to hand tools of existing art and specifically relates to a mechanical drive tool.
Since 1929, a variant of grease fittings known as ‘Zerk’ or “Alemite’ fittings have been widespread use as an effective and nearly universal means of servicing greased bearings while preventing loss or contamination of the grease contained by the fitting. These grease fittings are serviceable by a pressurized greasing gun that attaches to a nipple on the fitting top. The grease fitting is usually threaded into a mechanical component containing grease by a tapered thread. These fittings commonly include a hexagonal collar that may be engaged by a hand tool to be removed by rotating the fitting within the mechanical component.
Unfortunately, by nature of the complexity of many machines utilizing grease fittings, it may be challenging to obtain ample access and room to install or remove the fitting. Due to the small size of the fittings, they may often be dropped and lost or damaged once removed from the machine or while attempting to install. The inevitable presence of oil or grease may exacerbate this problem. A suitable solution is desired.
U.S. Pat. No. 1,867,372 to John J. McGuckin relates to a grease fitting tool. The described grease fitting tool allows manipulating grease fittings such as everyday use under the name of the Zerk or the Alemite fittings for automobiles and similar machines. The wrench element is provided with suitable means for turning it by hand, such as a crossbar passed through and firmly held in the tool's body. It is convenient to finish one end of such crossbar to form an extractor, which may be driven into the bore of a broken fitting to back it out of its seat, and to finish the other end with a tap which may clear the thread in the seat for the fitting.
Given the preceding disadvantages inherent in the known hand tool art, the present disclosure provides a novel grease fitting installation tool and method. The general purpose of the present disclosure, which will be described subsequently in greater detail, provides an efficient and effective grease fitting installation tool and method.
A grease fitting installation tool is disclosed herein. The grease fitting installation tool may include a hand tool useful for installing and uninstalling a grease fitting with a hexagonal collar, a threaded shank, and a nipple, i.e., a Zerk fitting. The hand tool may have a first tool head and a second tool head, each able to receive and manipulate a grease fitting. The first and second tool heads may be attached end to end, joined in the center of a hand tool by a couple. The couple may have a wrench interface allowing the hand tool to be engaged by a wrench or other tool. Each tool head may include a hollow socket having a socket aperture and six internal contact surfaces, which are hexagonally arranged. The six internal contact surfaces may releasably engage the hexagonal collar of the grease fitting such that the grease fitting may not rotate within the hollow socket while in engagement with the six internal contact surfaces. The tool head may also include a deformable, cylindrical gripping member disposed within the hollow socket. The gripping member may have an interior diameter smaller than the exterior diameter of the nipple of the grease fitting. This may enable the gripping member to deform around the nipple of the grease fitting when the grease fitting is inserted into the gripping member.
According to another exemplar, a method of installing a grease fitting is also disclosed. The method of installing a grease fitting may include first, providing the described grease fitting installation tool; second, inserting the grease fitting into the hollow socket, such that the hexagonal collar of the grease fitting engages with the six internal contact surfaces (or more or less) of the hollow socket; third, placing the threaded shank of the grease fitting against a grease fitting receptacle; fourthly, rotating the hand tool clockwise to advance the threaded shank of the grease fitting within the grease receptacle; fifthly, removing the hand tool from the grease fitting; and sixthly and optionally, rotating the hand tool counter-clockwise to withdraw the threaded shank of the grease fitting from within the grease fitting receptacle.
The figures that accompany the written portion of this specification illustrate exemplars and methods of use for the present disclosure, a grease fitting installation tool and method, constructed and operative according to the present disclosure's teachings.
The exemplars of the present invention will be described with the appended drawings, wherein like designations denote like elements.
Exemplars of the present disclosure relate to a hand tool and, more particularly, to a grease fitting installation tool and method to improve the installation of a grease fitting.
Generally, the grease fitting installation tool may include a hand tool allowing a user to easily manipulate a grease fitting, especially a Zerk type (or other) fitting threaded into a mechanical component U-Joint or ball joint. The hand tool utilizes at least one socket with mechanisms for engaging and retaining such a grease fitting. Preferably, the hand tool includes two tool heads joined end to end with a wrench-engaging member between the two tool heads. The wrench-engaging member may have six hexagonally arranged faces or two opposing sides for a wrench or other tool to engage for rotating the hand tool. In use, the hand tool may engage the grease fitting, while a wrench is also used to turn the wrench-engaging member, imparting more torque to the hand tool than a user's hand can alone. The two tool heads are preferably of different sizes so two tools may be obtained in one item. For example, the first tool head may include a seven-sixteenth-inch socket, and the second tool head may include a five-sixteenth-inch socket. In another exemplar, the hand tool may have a handle, a single tool head, and a shaft connecting the handle to the tool head on the same axis that the grease fitting is threaded on. In either exemplar, the tool head contains a six-faced socket sized for one of several standard Zerk fitting sizes.
The socket includes a deformable, tubular insert concentric to the socket and only occupies a portion of its length. The interior of the tubular insert may be sized to accommodate the nipple of the grease fitting. It may be slightly smaller in diameter than the outside of the nipple. When the tubular insert engages the nipple, it deforms and retains the nipple both by friction and mechanical retention. The tubular insert preferably engages only the nipple, allowing the six-faced (or another number of sides) portion of the grease fitting to contact the socket and leaving the threaded portion of the grease fitting exposed outside the tool. In some exemplars, the tubular insert may be complemented or replaced by a magnetic insert capable of retaining a ferrous grease fitting in direct contact with the magnet. Two standard sizes of sockets used may be five-sixteenths and seven-sixteenths of an inch. Other Imperial or metric sizes may be used, especially if they correspond to a commercially available grease fitting size.
In use during an installation process, the hand tool may retain a grease fitting within the tool head by the mechanisms described. A user may grasp the tool to place and orient the grease fitting relative to a mechanical component. The grease fitting is to be installed, especially a threaded aperture able to receive the threaded portion of the grease fitting. Once oriented correctly, the user may rotate the hand tool to thread the grease fitting into the mechanical component. A wrench may turn the hand tool. The hand tool may have enough mechanical strength to convey sufficient torque from the user or the wrench to the grease fitting for permanent installation and sealing. The hand tool retains the grease fitting within the hand tool throughout orientation and installation, allowing easy installation of an often too small component to be easily manipulated by a user's hand, especially in difficult-to-reach and low-visibility conditions.
During a removal process, the hand tool may engage a grease fitting already installed in a mechanical component and may be turned to disengage the threaded portion of the grease fitting from the mechanical component. The hand tool is useful because the grease fitting is retained within the hand tool and is not dropped or lost when removed from the mechanical component.
According to an exemplar of the present disclosure,
Hollow socket 132 may have socket aperture 133 and six (or the like) internal contact surfaces 134. Six internal contact surfaces 134 may be hexagonally (or other) arranged and may engage hexagonal collar 12 of grease fitting 10 grease fitting 10 releasably may not rotate relative to hollow socket 132 while in engagement with six internal contact surfaces 134. Gripping member 136 may be deformable, tubular-shaped, and disposed concentrically within hollow socket 132. It may be internally smaller than nipple 16 of grease fitting 10, such that gripping member 136 deforms around nipple 16 of grease fitting 10 when grease fitting 10 is inserted into gripping member 136.
Some versions of this hand tool do not comprise an internal drive fitting. There are versions in which one or both of the tool heads serve as handles or additional handles. In some versions, the first tool head is 3-4 inches long. In some versions, the second tool head is 3-4 inches long. In some versions, the shaft or handle or middle handle is 3-4 inches long. This can facilitate rotating the tool by hand, placing 2-4 fingers on the middle handle or shaft.
Step 506 is optional and may not be always implemented. Optional steps of the method of use 500 are illustrated using dotted lines in
This application claims the benefit of U.S. non-provisional patent number application Ser. No. 15/923,589, filed on 16 Mar. 2018, pending, the entire disclosure of which is incorporated in this disclosure by this reference.
Number | Date | Country | |
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Parent | 15923589 | Mar 2018 | US |
Child | 17155378 | US |