BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a lightweight, hand-operated, multi-function tool that is of compact size so as to be easily carried in a toolbox, automotive glove compartment or a pocket of a workman for use by carpenters, painters, do-it-yourselfers, and the like.
2. Background Art
Tools have long been used to simplify jobs at work sites out in the field or around the house. Even simple jobs may require a variety of different tools. In the event that different jobs are to be completed one after another, the workman may require access to a corresponding number of different tools. In some cases, the workman may forget to carry a particular tool that is needed for the job. In other cases, the workman may have to carry a relatively heavy and cumbersome toolbox in which an assortment of tools are transported from place to place. Accordingly, what would be desirable is a single, lightweight, compact tool that is convenient to carry and capable of completing a series of jobs so as to avoid the necessity of having to carry around many different tools to perform the same number of jobs.
SUMMARY OF THE INVENTION
Briefly, and in general terms, a lightweight, hand-operated, multi-function tool is disclosed to be used by a workman to complete a variety of jobs at home and in the field in substitution of a number of tools that is otherwise commonly required to complete the same number of jobs. The multi-function tool of the present invention is compact in size so as to easily fit within a toolbox, an automotive glove compartment, or a pocket of the workman. By virtue of its versatility, the multi-function tool herein disclosed can be used by carpenters, painters, do-it-yourselfers, and the like.
A gripping handle is located at one end of the multi-function tool. The primary working end of the tool lies opposite the handle. Projecting downwardly from the bottom of the handle is a nail set to be positioned against the head of a nail that has been hammered into a work surface. A driving force applied by the nail set against the nail head causes the nail to be countersunk in the work surface in response to a striking force applied to the working end of the tool. A mouth is formed in the working end of the multi-function tool in which to receive the cap of a bottle. The mouth cooperates with a tapered lip that is positioned inwardly of the mouth to engage and pull the cap off the bottle in response to a rotational force applied to the tool at the handle.
A nail extractor having a pocket formed therein projects forwardly from the working end of the multi-function tool to remove a small nail that protrudes from a work surface. The extractor receives and captures the head of the nail via an inlet notch formed in the pocket. A pulling force applied to the handle of the tool is transferred to the pocket at which a corresponding pulling force is exerted on the head for causing the nail to be removed from the work surface. Located above the nail extractor at the working end of the multi-function tool is a laterally-extending groove or channel having a magnet recessed therein. A nail is magnetically retained within the channel so that a striking force can be applied to the nail head to drive the nail into the work surface without subjecting the workman's fingers to possible injury.
A pair of spaced teeth having tapered tips project rearwardly from the working end of the multi-function tool. The tips of the teeth can be positioned under the lid of a can, such that a rotational force applied to the handle of the tool is transferred to the teeth to cause the lid to be pried off the can. The tips of the teeth can also be used as spikes to bite into a work surface so that a chalk line tied to the tool can be used to make a chalk mark along the work surface. In the alternative, the teeth can also be located over the top and against an edge of the work surface to establish a hook for a chalk line that is tied to the tool and once again used to make a chalk mark along the work surface. In this same regard, the teeth of the tool are spaced from one another to receive therebetween the shaft of a hinge pin, such that the head of the pin is seated upon the teeth. An upward striking force applied to the bottom of the handle is transferred to the teeth at which a pushing force is exerted on the head for lifting the hinge pin out of an associated hinge.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective view of a hand operated multi-function tool according to a preferred embodiment of this invention;
FIG. 2 is a front view of the multi-function tool of FIG. 1;
FIG. 3 is a top view of the multi-function tool of FIG. 1;
FIG. 4 shows a nail set of the multi-function tool being used to countersink a nail in a work surface;
FIG. 5 shows an open mouth and a tapered lip of the multi-function tool cooperating to remove a cap from a bottle;
FIG. 6 shows a nail extractor of the multi-function tool being used to remove a nail from a work surface;
FIG. 7 shows a channel with a recessed magnet of the multi-function tool being used to hold and position an upstanding nail to be driven into a work surface;
FIG. 8 shows a pair of teeth of the multi-function tool being used to pry a lid off a can;
FIG. 9A shows the pair of teeth of FIG. 8 being used to bite into a work surface to establish a stake to which a chalk line from a chalk line reel can be tied for making a chalk mark along the work surface;
FIG. 9B shows the pair of teeth of FIG. 9A being located over and against the edge of the work surface to establish a hook to which the chalk line from the chalk line reel can be tied; and
FIG. 10 shows the pair of teeth of FIG. 8 being used to engage and push a hinge pin upwardly and out of an associated hinge.
DESCRIPTION OF THE PREFERRED EMBODIMENT
An overview of the hand-operated, multi-function tool 1 according to a preferred embodiment of the present invention is initially described while referring concurrently to FIGS. 1 to 3 of the drawings. As will soon become apparent, the multi-function tool 1 is ideal for use by carpenters, painters, do-it-yourselfers, and the like to complete jobs in the field and at home. To this end, the multi-function tool 1 is compact (about six inches long) and lightweight so as to conveniently fit in a small storage drawer and be easily and conveniently transported in a toolbox, automotive glove compartment, or a pocket of a workman.
The multi-function tool 1 includes a gripping handle 3 at one end thereof. The handle 3 is sized and shaped to fit within the hand of the user. Projecting downwardly from the bottom 4 of handle 3 is a generally conical nail set 5. As will be described later while referring to FIG. 4, the outward end of nail set 5 includes a cavity 7 that can be positioned against the head of a nail that has been hammered into a work surface. A striking force applied to a striking surface 19 at the top of the working end 9 of the tool 1 opposite the handle 3 is transferred through the nail set 5 to the head of the nail for causing the nail to be countersunk in the work surface.
A generally arcuate recess or open mouth 10 extends inwardly at the front of the working end 9 of the multi-function tool 1. A tapered lip 12 projects upwardly into the mouth 10 from the working end 9 at the bottom of the mouth 10. As will be later described when referring to FIG. 5, the mouth 10 formed in the working end 9 of tool 1 is sized to receive therewithin the cap of a bottle. A rotational force applied by the workman to the tool 1 at the handle 3 is imparted to the lip 12 to move lip 12 into contact with and generate a corresponding force by which to remove the cap from the bottle so that the contents of the bottle might then be consumed.
A generally cylindrical nail extractor 14 projects forwardly from the front of the working end 9 of the multi-function tool 1. A pocket 16 (best shown in FIG. 2) lies within the nail extractor 14. The pocket 16 is sized to receive therewithin and capture an accessible head of a small nail, such as a finish nail, that protrudes from a work surface. The nail enters the nail extractor 14 via a relatively narrow inlet notch 18 that communicates with the pocket 16. As will be described while referring to FIG. 6, an outward pulling force applied by the workman to the handle 3 of the tool 1 is transferred from the nail extractor 14 to the head of the nail captured within the pocket 16 so that the nail can be removed from the work surface.
Located above the nail extractor 14 near the top 19 of the working end 9 of the multi-function tool 1 is a laterally-extending groove or channel 20. A small flush-mounted magnet 22 (best shown in FIG. 2) is recessed within the channel 20. Channel 20 is shaped to receive therewithin the elongated body of a nail such that the nail body and the channel 20 are aligned parallel with one another. By virtue of the magnet 22, the nail body will be magnetically retained within the channel 20. As will be described while referring to FIG. 7, the tool 1 can hold an upstanding nail that is carried within the channel 20 against a work surface to enable a striking force to be applied by the workman against the nail head to drive the nail into the work surface. In this manner, the workman's fingers need not hold the nail against the work surface so as to advantageously avoid the possibility of injury from the striking force applied to the nail head.
Projecting rearwardly from the striking surface 19 at the top of the working end 9 of the multi-function tool 1 in perpendicular alignment with the handle 3 are a pair of outstretched teeth 26. The teeth 26 are disposed in spaced, parallel alignment with one another. Although a pair of teeth 26 are shown and described, a single tooth (not shown) projecting rearwardly from the striking surface 19 may be substituted for the pair of teeth shown. Each tooth 26 is preferably tapered towards a relatively narrow tip 28. The teeth 26 are advantageously capable of different applications.
First, and as will be described when referring to FIG. 8, the multi-function tool 1 can be manipulated to locate the narrow tips 28 of the teeth 26 below the lid of a can to be opened. A rotational force applied to the handle 3 by the workman is translated into a corresponding rotational force generated by the teeth 26, whereby to pry the lid off the can.
As will be described when referring to FIG. 9A, the tips 28 of the teeth 26 of tool 1 can also be used as spikes to bite into a work surface. In this case, the tool 1 establishes a stake to which a chalk line that is pulled from a chalk line reel can be tied. The chalk line is held above the work surface so that a chalk mark may be applied thereto. In the alternative, and as will be described while referring to FIG. 9B, rather than using the teeth 26 as spikes to stake the tool 1, the outstretched teeth 26 can also be positioned to lie over and against an edge of the work surface to establish a hook to hold the chalk line above the work surface so that a chalk mark can be applied thereto.
What is even more, the pair of teeth 26 are spaced from one another so as to accommodate the shaft of a hinge pin therebetween. In this case, the relatively wide head of the hinge pin will be seated upon the teeth 26. Thus, the space between teeth 26 must be larger than the diameter of the pin shaft but smaller than the diameter of the pin head. As will be described while referring to FIG. 10, an upward striking force applied by the workman to the bottom 4 of the handle 3 is transferred through the working end 9 to the teeth 26 to apply a corresponding upward pushing force against the head of the hinge pin, whereby to lift the hinge pin out of an associated (e.g., door) hinge.
A (e.g., cylindrical) utility hole 32 runs laterally through the working end 9 of the multi-function tool 1. The hole 32 is sized to receive therethrough any one of a string, a chain or a ring. Thus, the aforementioned chalk line (best shown in FIGS. 9A and 9B) that is pulled from a chalk line reel can be tied to the tool 1 through hole 32. In this same regard, a key chain, ring, or the like can be coupled to the tool 1 at the auxiliary hole 32 so that small, easy-to-lose items (e.g., a key) can be carried with the tool.
Use of the multi-function tool 1 of this invention to perform any one or more of a variety of different jobs is now described while referring to FIGS. 4-10 of the drawings. Turning first to FIG. 4, the multi-function tool 1 is turned upside down while the workman grasps the handle 3. The nail set 5 projecting from the bottom 4 of handle 3 is positioned against the head 40 of a nail that has been hammered into a work surface. A striking force applied by a hammer, or the like, to the striking surface 19 at the top of the working end 9 of tool 1 is transferred through handle 3 and nail set 5 to the head 40 of the nail, whereby to cause the nail to be countersunk in the work surface.
Referring now to FIG. 5, the multi-function tool 1 is used to remove a cap 42 from a bottle to permit access to the contents thereof. While holding the bottle in one hand, the workman grasps the handle 3 of tool 1 in the other hand and positions the open mouth 10 at the working end 9 of tool 1 in surrounding engagement with the bottle cap 42. With the tapered lip 12 which projects into the mouth 10 lying below the cap 42, a rotational force applied by the workman to the handle 3 is imparted to lip 12 by which to force the cap 42 off the bottle.
In FIG. 6, the multi-function tool 1 is used to remove a small partially-driven nail 44, the head of which is accessible above a work surface. While grasping the handle 3 of tool 1 in his hand, the working end 9 is positioned such that the head of the nail 44 is located in and captured by the pocket 16 of nail extractor 14 via the inlet notch 18 (best shown in FIG. 1). An outward pulling force applied by the workman to the handle 3 of tool 1 is transferred to the extractor 14 and to the head of the nail 44 within the pocket 16 of extractor 14, whereby to cause the nail 44 to be removed from the work surface.
FIG. 7 shows the multi-function tool 1 being used to hold a nail 46 in upstanding alignment against a work surface so that the nail can be driven into the surface without subjecting the workman's fingers to possible injury. While grasping the handle 3 of tool 1 in his hand, the body of a nail 46 is positioned in the laterally-extending channel 20 at the working end 9 of tool 1. Because of the magnet (designated 22 and best shown in FIG. 1) that is recessed in channel 20, the nail 46 will be retained therein. The tool 1 is turned on its side, and the nail 46 carried in channel 20 is moved in upstanding alignment against the working surface. A striking force applied by a hammer, or the like, to the head of the upstanding nail 46 will cause the nail to be partially driven into the work surface with the workman's fingers out of the way of the hammer. The tool 1 is now removed so that the nail 46 can be driven completely into the work surface.
Turning to FIG. 8, the multi-function tool 1 is shown being used to remove a lid 48 from a can. While grasping the handle 3 of tool 1 in his hand, the pair of spaced teeth 26 projecting from the striking surface 19 at the working end 9 of the tool are moved into contact with the can such that the tips (designated 28 and best shown in FIG. 1) of teeth 26 are located between the can and the lid 48. A rotational force applied by the workman to the handle 3 of tool 1 is imparted through the working end 9 to the teeth 26 and the tips 28 thereof to cause the lid to be pried off and separated from the can.
FIGS. 9A and 9B show the pair of spaced teeth 26 of the multi-function tool 1 being used to perform jobs which differ from that described while referring to FIG. 8. In the case of FIG. 9A, the tool 1 is forced by the workman downwardly against a work surface 50, such that the tips 28 of teeth 26 form spikes that bite into the work surface to anchor the tool 1 on the work surface. A chalk line 52 that is pulled from a chalk line reel 54 to run above the work surface 50 can be attached to tool 1 to enable a chalk mark to be made along the work surface. The chalk line 52 may be wrapped around tool 1 or tied to the tool through the auxiliary hole (designated 32 in FIG. 1). Instead of using the teeth 26 to anchor the tool 1 on the work surface 50, the tool may be turned on its end and the previously-described nail set 5 used as a spike that is driven into the work surface to create an anchor to which the chalk line 52 is tied.
Rather than using the teeth 26 or nail set 5 as spikes to anchor the tool against a work surface, FIG. 9B shows the teeth 26 of the multi-function tool 1 lying over the top of and against an edge of the work surface 50 to create a hook for holding the tool on the work surface. The chalk line 52 from the chalk line reel 54 can be attached to the tool in the manner described above so that a chalk mark can be made along the work surface 50.
Yet another application for the pair of spaced teeth 26 which project from the striking surface 19 at the top of the working end 9 of the multi-function tool 1 is shown in FIG. 10. In this case, the teeth 26 are moved into surrounding engagement with the shaft of a hinge pin 56 that is coupled to a hinge 58 of the kind commonly located between a door and a door frame. Thus, the shaft of the hinge pin 56 is received in the space between the teeth 26, and the head of pin 56 is seated on top of the teeth 26. A striking force applied by a hammer, or the like, to the bottom 4 of handle 3 is transferred through the working end 9 to teeth 26, whereby to cause the hinge pin 56 to be pushed upwardly and out of the hinge 58 to which the hinge pin is coupled.