1. Field of the Invention
This application generally relates to a multiplicity of tools contained in a single body. This invention is generally in the field of hand tools, and is specifically concerned with hand tools used in the outdoors, such as while camping.
2. Related Art
Multipurpose tools configured by or into a single body tool utilizing a plurality of tool elements are generally known in the art as described by:
U.S. Pat. No. 4,023,221 to Russell O. Cadman for a MULTIPURPOSE TOOL KIT AND FOLDING HANDLE THEREFORE which describes a tool kit 20 including a plurality of pockets holding various tool components including a pick head, a shovel, a saw and an ax/hammer head;
U.S. Pat. No. 4,700,420 to John Belanger for a MULTI-PURPOSE CAMPING TOOL which describes a tool to be combinable, in various configurations, to form a pole ladder, an ax, a spade, a hoe, a grapple hook, a saw, a hammer, etc;
U.S. Pat. No. 5,103,520 to William L. Mazzo for a MULTI-PURPOSE HAND TOOL which describes a single body tool having various foldable elements useful as a hammer, pick, probe, ruler, knife, saw, spade, trowel and bottle opener; and
U.S. Pat. No. 6,357,067 to Nathanael Whalen Jones for a MULTIPURPOSE SNOW/ICE TOOL FOR BACKCOUNTRY TRAVEL which describes a single body tool including a saw, shovel, ax, adze and pick.
A more complete appreciation of the present invention, and many of the attendant advantages thereof, will become readily apparent as the same becomes better understood by reference to the following detailed description when considered in conjunction with the accompanying drawings in which like reference symbols indicate the same or similar components, wherein:
The disclosed device provides an method of carrying a number of tools or devices required for a particular purpose in a single body. The device illustrated hereinafter addresses many of the needs of someone hiking or camping. Other examples of alternate tools are noted hereinafter and it will be evident to those skilled in the art on which tools and accessories would be applicable for a specified end use.
A body 12 of the multi-tool device 10 is illustrated in the non-use, closed, position in
In
Also extending beyond the periphery of the body 12 is a hammerhead 72 which is part of a hatchet (70 in
At the flat end 14 of the body 12, opposing the digging tool 30, is a flashlight 50 having a rotatable head 54. A power source 52 is recessed into the body 12 of the device 10 with the rotatable head 54 extending beyond the periphery of the body 12. The flashlight 50 can be recessed into any portion of the body 12 convenient for manufacture, an example of which is illustrated in
The flashlight 50 should be recessed from the edge of the tool to prevent the lens from accidentally breaking from impact to the end of the device. Additionally, it is preferred that the lens be a hardened plastic and the bulb one or more LEDs. Duel LEDs, such as one red and one white, can provide some advantages in some end uses as known in the art. In embodiments used for camping or hiking, it is preferable that at least one LED will flash. In some embodiments, the flashlight and LED can have blinking or flashing capabilities to enable the flashlight to act as a location strobe or signal a SOS, or rotating lenses to change the color of the light. A bulb/lens combination provides the strength and long life that would be most beneficial to the user. The lens of the flashlight is preferably removable, including the bulb, for easy replacement. A whistle (not shown) can be incorporated into the back of the flashlight or recessed into another area of the device.
The preferred placement of the flashlight is at the opposing end of the body 12 to the digging tool 30. In this way, the digging tool 30 avoids conflict with any of the other tools and can be fully extended and stuck into the ground, thereby permitting the flashlight head 54 to be rotated to focus upon a desired area. The digging tool 30 can also be used for defense against animals, cooking food, spearing fish, or other similar uses.
In this embodiment, a compass 218 is provided along one of the sides, although the preferred placement for structural integrity, especially when also providing a recessed area, is along the back or front. Ideally, the compass 218, when relying on outside illumination, is placed slightly spaced from the light, thereby enabling the light from the flashlight 50 to be reflected down to view the compass. The compass 218, either glow in the dark, standard, or with its own battery powered light, can be surrounded by an etchable plate for personalizing the device if desired. Also, the compass 218 can be hinged to permit the inclusion of another device, such as a mirror, atmosphere gauge, etc., to be recessed under the compass 218. Further, compass 218 can be a removable lid covering a storage compartment, thereby permitting the compass to used separate from the tool.
Other items can also be incorporated either on the surface, or recessed within the body, such as a thermometer, flint and striking bar, pressure gauge, fluorescent light, digital clock with alarm, etc. It should be noted that when the device incorporates magnetic materials, the compass will be affected and must therefore be removable from the body for accurate reading.
For example, instead of a compass 218, a clock can be used here. Additionally, such a clock can be incorporated in the same manner as the above described compass 218, either on the same side as compass 218 or on any other side of the tool.
Because the disclosed device will be used to create an action, such as to dig, saw, or chop, the exterior of the body must be comfortable to grip. One easy-to-hold embodiment is illustrated in
As can be seen in
The blade 32 of the digging tool 30, as seen in
The digging tool 30 is prevented from over rotation by either the hammerhead 72 or the body of hatchet 70, depending the curve placed in the blade 32. When the digging tool 30 is to rest on the hammerhead 72, the blade 32 is cut similar to that illustrated in
The digging tool 30 is maintained in either the open or the closed position with bearings 36 and 38, which are illustrated in greater detail in
The bearings 36 and 38 are recessed within a channel 46 in the hatchet 70 in a manner to permit the bearings 36 and 38 to extend beyond the periphery of the body of the hatchet 70. The open ends of the channel 46 have a diameter less than the diameter of the bearings 36 and 38 in order to prevent the bearings 36 and 38 from falling out of the channel 46. The bearings 36 and 38 are separated by a spring 40 which forces the bearings 36 and 38 apart, maintaining a portion of the bearings 36 and 38 extend beyond the body of the hatchet 70. Receiving recesses 43 are placed within the digging tool body 42 to receive the bearings 36 and 38, thereby enabling the digging tool 30 to be locked in either a 90-degree angle from the body 12 or the closed position, parallel with the body 12. The strength required to move the digging tool 30 will be dependent upon the force applied by spring 40 and therefore the amount of pressure required to press the bearings 36 and 38 into the recesses 43.
As shown in
The locking button 76 maintains the hatchet 70 in the closed position and any movement of the hatchet 70 is reliant upon release of the locking button 76. Upon rotation of the digging tool 30, the locking button 78 must be released to permit continued rotation of the digging tool 30 and opening of the hatchet 70 to 90 degrees. Once the hatchet 70 reaches the point of 90 degrees from the body 12, the locking button 78 is activated, locking the hatchet 70 in the 90 degree rotated position. The greater the distance between the locking buttons 76 and 78, the more impact that can be received by the device 12 without wear.
To prevent the hatchet 70, as well as any other tools disclosed herein, from having side-to-side movement, the dimensioning between parts is critical. To provide some allowances, rubber, or other semi-rigid material, can be used between the moving parts. The easiest method of accomplishing this is through the use of washers, however other methods can be used, such as rubber coatings on the tool.
Alternatively, as illustrated in
Also, as shown in
The locking buttons 76 and 78, as illustrated herein in detail in
The plunger 84 has a groove 86 cut into the surface that is dimensioned to permit a retaining pin 88 to slide freely within the groove 86. The retaining pin 88 is placed through a drilled hole from the top of the hatchet 70 to a depth that interacts with the groove 86. The retaining pin 88 is rigidly retained within the hatchet 70 and extending into channel 80, thereby permitting the plunger 84 to move only a regulated distance within the channel 80 and preventing inadvertent removal. An exposed end 85 of the plunger 84 has a rounded tip, as does an opposing end 91 of a locking pin body 94.
The plunger head 90 fits through a predrilled receiving hole 93 in the body 12 dimensioned to permit the button head 96 to be pressed inward to make the end 91 contact with the end 85 of the plunger 84. The plunger head 90 is prevented from falling through the receiving hole 93 by a retaining pin 92 which bisects the locking pin body 94 and is placed on the opposing side of the body 12. The end 91 of the locking pin body 94 is rounded, corresponding to the rounded end 85 of the plunger 84.
The rounded end 85 of plunger 84 extends into structural frame 18 to prevent the hatchet 70 from rotating. To prevent the locking pin body 94 from entering the channel 80, thereby preventing rotation, the channel 80 is dimensioned to permit only the plunger 84 to be recessed.
To open the hatchet 70, locking button 76 is activated by pressing plunger head 90 inward forcing plunger 84 to compress the spring 82, causing the rounded end 85 of plunger 84 to back out of locking hole 95. At this point, the hatchet 70 is free to rotate until the compressed plunger 84 is brought into proximity with another locking hole 95 in support frame 18 corresponding to and aligned with locking button 78.
When hatchet 70 is rotated 90 degrees, compressed plunger 84 is brought into proximity with another locking hole 95 in support frame 18 corresponding to and aligned with locking button 78. At this time, spring 82 forces compressed plunger 84 into the locking hole 95 in support frame 18 aligned with locking button 78, locking the hatchet 70 in the 90 degree rotated position as shown in
Correspondingly, as illustrated in
In
Alternatively, the opening 21 and nail remover 22 can be removed from the structural frame 18, leaving the structural frame rectangular, or other uses can be substituted, such as a receiving head for sockets. When the rectangular frame is used, it replaces the hammerhead described heretofore.
As shown in
Referring to
To prevent the hatchet 70 from over rotating, stops 178 are provided on either side of the hammerhead 72 which interact with the structural support frame 18. As seen in
The hatchet 70 has an arced blade 71 extending from one side of the hatchet body 74 to a hammerhead 72 at the opposing side. The blade 71, as seen in
The device 10 also includes a pocketknife 190, illustrated in
The locking mechanism for the knife blade in any of the embodiments can be a standard spring arm mechanism as known in the art. Other locking mechanisms used for knives, such as release buttons on the bottom, spring releases., etc. can be used as will be evident to those skilled in the art. The use of a removable knife, whether it is a custom designed exterior specifically for use with the disclosed invention, or a standard pocket knife, provides the advantage of providing the user with the ability to change the type of knives being carried. In embodiments where a customized knife body is incorporated, various collections of related knives can be sold together as a unit design for a particular purpose, such as hunting, fishing, diving, etc.
The body 12 further contains a hand saw 110, illustrated in
The body 12 contains a pivot recess 118 that provides an open channel for the saw 110 end to rotate. The saw 110 rotates around a pivot pin 114 and locks in position through use of locking button 112 and locking holes 116 and 120.
When in the closed or recessed position, as seen in
The locking holes 120 and 116 have an entrance port 218 which is only a portion of the circumference of the locking interior 216. The locking button 112 preferably locks the saw 110 in place through the use of spring loaded release buttons, although friction fit, a flat steel spring or other alternative designs can be incorporated.
As shown in
The locking button 112 further has an angled edge 206 which leads to the spring contact 209. The spring 208 and the spring contact 209 are retained within a recess within either the body or the structural unit of the device 10. At rest, the pressure from the spring 208 forces the angled edge 206 to contact and apply pressure to the locking interior 216, thereby preventing movement. When the body 202 is pressed, the locking button 112 moves to place the neck 204 in proximity to the entrance port 218, enabling the locking hole 120 or 116 to rotate off the neck 204.
The locking pin 112 is one method of maintaining the saw blade 110 in place and other methods, such as friction fit or the plunger as disclosed heretofore, can also be incorporated and will be evident to those skilled in the art.
The saw blade 110, illustrated in
As the saw and the knife are proximate to one another, a single, either stationary or removable, unit can be designed to hold both the saw and the knife. This is illustrated in
In the embodiment of
A rope 314 has been passed through the hole 310 to enable the hatched 370 to be used as a hanger, grappling hook, etc. It should be noted that although a rope 314 is illustrated herein, a wire, rod, etc., can also be placed through the hole. In the preferred embodiment, the hole 310 has caps 320 (only one shown) which can hold additional items, such as light lenses, or other small items. The head of the cap can be a watch face, compass, barometer, mirror, etc.
In
The device 4000 also has a brace bar 4020 as part of structural frame support 4120. The brace bar 4020 serves as an ideal hanger as well as providing additional structural support for the device. The brace bar 4020 further enables the user to slide his/her belt through opening 4140 to carry the device, thereby eliminating the need for a carrying case. It is critical that the interior of opening 4140 be dimensioned to receive the head of the hammer without binding.
In
When the removable units are incorporated, replacement units can be provided to replace the hatchet/digging tool unit or saw/knife unit. These can include a fish filet blade, a vise grip, scissors, a file, a lug nut wrench, an adjustable wrench, a sharpening stone, a socket set, a hack saw blade, a can/bottle opener, a magnifying glass, a signal mirror, a thermometer, utensils for cooking over a fire, a screw driver, a hex adapter, multiple knife or saw blades, etc.
Additionally, a shovel can be placed within a structural support and the device can be used to form the shovel handle. When the end use dictates the addition of matches, the striker can be located any convenient place on the body, since there is no substantial “depth” required by the striker, there is no concern about weakening the body. Although reference is made heretofore to a compass, it should be noted that other appropriately sized devices can be substituted, such as an alarm watch, radio or other battery powered electronic device, barometer, depth gauge, etc., and that these devices can be placed in locations other than indicated as long as they do not jeopardize the structural integrity or functioning of the device. For battery powered items, placement can be proximate the flashlight batteries to enable the two items to use the same battery source. To compensate for the drain of two devices pulling power, or to provide additional power to a single device, rechargeable batteries can be used and a solar panel incorporated on the exterior of the body.
Preferably, a case is provided for the device 10 which, in addition to the pocket for the disclosed device, has additional storage for items like a leatherman, etc.. As illustrated in
Although
In
In the preferred embodiment a switch 513 is provided that automatically turns the flashlight 50 on when open and off when closed. To accomplish this, the flashlight 50 must have a pressure sensor or other device that reacts to switch 513. Alternatively the flashlight 50, as described heretofore, can be turned on manually prior to placement into the case body 502.
To keep the case 500 from bouncing and to ensure that the flashlight is pointed in the correct direction, eyelets 512 are provided to enable the case 500 to be tied around the user's leg, or to a tree or other structure. When being carried by a user, a belt loop 514 is used, although this is only one method of maintaining the device on the users belt. Other methods, such as the snap locks, popular for cell phones, can also be used. The snap lock can be either on the case or alternatively directly mounted on the multi tool device. Preferably the case body 502 has a closure 516 that prevents the device 10 from sliding out of the case 500. This closure can be a flap, secured by any means known in the art, such as a snap, zipper, etc.
The invention has been described with particular embodiments thereof, however, indicated by the foregoing, various changes and modifications can be made therein without departure from the scope of the appended claims.
This application makes reference to, incorporates the same herein, and claims all benefits accruing under 35 U.S.C. Sec. 119 from my provisional application SINGLE BODY MULTI-TOOL DEVICE filed with the United States Patent Office on Mar. 3, 2003 and thereby duly assigned Ser. No. 60/451,544.
Number | Name | Date | Kind |
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1596602 | Eagan et al. | Aug 1926 | A |
1899868 | Herlbauer | Feb 1933 | A |
3837023 | Spencer-Foote | Sep 1974 | A |
4023221 | Cadman | May 1977 | A |
4700420 | Belanger | Oct 1987 | A |
4805303 | Gibbs | Feb 1989 | A |
5103520 | Mazzo | Apr 1992 | A |
5297306 | Shandel | Mar 1994 | A |
5771588 | Petrich | Jun 1998 | A |
6273582 | Taggart et al. | Aug 2001 | B1 |
6357067 | Jones | Mar 2002 | B1 |
6412130 | Kershaw et al. | Jul 2002 | B1 |
6454430 | Lin | Sep 2002 | B1 |
20040016058 | Gardiner et al. | Jan 2004 | A1 |
Number | Date | Country | |
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20040174700 A1 | Sep 2004 | US |
Number | Date | Country | |
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60451544 | Mar 2003 | US |