The present disclosure relates generally to hand tools, and, more particularly, to a striking tool, such as a hammer, or the like.
For many different purposes, striking tools, such as hammers, or the like, have been employed for delivering or imparting an impact force to a selected target. Forces generated by even light-duty striking tools can be considerable due to the mechanical advantage involved with such tools. Accordingly, striking tools have been developed having durable, sometimes hardened materials, at least in a striking head or striking surface thereof, and are typically of robust design. Such durable materials, commonly metal, and such robust design, have produced massive tools.
While such tools exhibit acceptable durability characteristics, they are frequently disadvantageously heavy. As a result, a user may become strained or fatigued from use, resulting in poor control of strikes, damage to materials, or even injury. Consequently, efforts have been made to reduce the weight of striking tools to avoid strain or fatigue during use. Reduction of weight, however, affects a striking force delivered to the selected target when struck at a given velocity. Since certain tasks require substantial striking forces, reducing the weight of a striking tool is not always possible or beneficial. Instead, selective distribution of the mass of a striking tool may provide beneficial properties with respect to durability, ease and/or comfort of use, and strike force capacity.
Additionally, and particularly when used to deliver large force strikes, striking tools may disadvantageously transmit impact vibrations to a user through the handle. Such vibrations can accelerate the onset of strain or fatigue, and cause the user to experience discomfort. Furthermore, such vibrations can contribute to material strain and fatigue, causing damage to the tool itself, reducing tool life and posing a threat of injury. In order to avoid transmissions of such vibrations, striking tools have been provided with cushioned handles or the like. Such cushioned handles, however, fail to prevent vibrations within the tool, and merely serve to isolate a user's hand for comfort.
Finally, as is well known in the art, proper balance of a striking tool, i.e. distribution and location of mass between and within the head and the handle of the tool, contributes to reducing strain and/or fatigue and to improving accuracy.
Thus, it is clear that there is an unmet need for a striking tool that advantageously provides beneficial distribution of sufficient mass to safely and reliably allow accurate delivery of forceful strikes without causing excessive strain or fatigue.
Briefly described, in an exemplary embodiment, the striking tool of the present disclosure overcomes the above-mentioned disadvantages and meets the recognized need for such a tool by providing a monolithic steel hammer having a head, a striking surface, a nail-pulling tool, and including one or more cavity and/or void, and a handle having a strong yet lightweight I-beam construction.
More specifically, the exemplary striking tool includes a generally extended handle portion, such as in the form of an I-beam, and a striking head integrally carried at a first end of the handle portion. The handle portion preferably includes a generally broad, flat forward surface adapted to reduce damage caused by overstrikes, i.e. poorly aimed strikes where an impact force is borne by the handle portion. A medial section of the handle portion, however, is generally thin compared to the broad forward surface. A broad rearward surface is preferably also included for stability and strength of the handle portion. The handle portion preferably additionally includes a comfortable grip operable therewith to provide a comfortable and secure gripping surface by which a user may grasp the striking tool.
The striking head preferably includes a transverse cavity extending therethrough, and a plurality of voids formed therein. The cavity preferably defines an upper beam portion and a lower beam portion. The beam portions preferably reduce vibrations caused by strikes, and substantially prevent transmission of vibrations to the handle portion, while allowing beneficial force transference from mass located on an opposite side of the cavity from the striking surface. More specifically, the striking face is preferably provided on a forward surface of the head, and the beam portions, particularly the upper beam portion, are arranged to substantially prevent compression along an axis of the head extending from the striking face to a rear portion of the head. The nail-pulling tool is preferably disposed proximate the rear portion of the head, as is conventional. The beam portions, particularly the lower beam portion, are arranged to substantially prevent bending between the nail-pulling tool and the handle portion.
Accordingly, one feature and advantage of the tool of the present disclosure is its ability to provide a strong, yet lightweight handle portion having a broad flat forward surface adapted to reduce damage caused by overstrikes.
Another feature and advantage of the tool of the present disclosure is its ability to provide a durable striking tool capable of delivering great impact forces while providing a beneficial weight distribution and balance for ease of use.
These and other features and advantages of the tool of the present disclosure will become more apparent to those ordinarily skilled in the art after reading the following Detailed Description of the Invention and Claims in light of the accompanying drawing Figures.
Accordingly, the present disclosure will be understood best through consideration of, and with reference to, the following drawings, viewed in conjunction with the Detailed Description of the Invention referring thereto, in which like reference numbers throughout the various drawings designate like structure, and in which:
It is to be noted that the drawings presented are intended solely for the purpose of illustration and that they are, therefore, neither desired nor intended to limit the scope of the disclosure to any or all of the exact details of construction shown, except insofar as they may be deemed essential to the claimed invention.
In describing exemplary embodiments of the hammer of the present disclosure illustrated in the drawings, specific terminology is employed for the sake of clarity. The claimed invention, however, is not intended to be limited to the specific terminology so selected, and it is to be understood that each specific element includes all technical equivalents that operate in a similar manner to accomplish a similar purpose.
In that form of the hammer of the present disclosure chosen for purposes of illustration,
Head 120 preferably includes claw 121 disposed on a rearward portion thereof and is adapted to pry articles, such as nails, boards, or the like, via application of force to handle 110. Striking surface 123 is preferably disposed on a forward portion of head 120 and is adapted to deliver a striking force to a selected target. Striking surface 123 may optionally include a plurality of teeth or other texture, such as a waffle pattern, a diamond pattern, or the like. Head 120 preferably further includes cavity 125 formed therethrough and a plurality of beams 127. Cavity 125 preferably serves to reduce a total mass of head 120 and to reduce transmission and/or creation of vibrations as may occur from striking impacts. Additionally, beams 127 preferably function to transmit force applied to handle 110 and momentum force from the mass of head 120 proximate claw 121 in order to deliver the striking force. Accordingly, beams 127 are substantially incompressible in a direction of such force transmission, i.e. along a respective longitudinal axis of each such beam 127. Beams 127 are operable, however, to absorb and/or dissipate off-axis forces, such as those that may cause vibration. Thus, vibrations are preferably not substantially transmitted to handle 110. Head 120 preferably additionally includes voids 129 formed therein at selected locations to both reduce the mass of head 120 and to produce a desired balance of head 120 while not substantially reducing a strength and/or durability thereof.
Handle 110 is preferably likewise configured to provide durability and/or strength while reducing a total mass thereof and while providing a beneficial balance or distribution of mass. Specifically, handle 110 preferably includes an I-shape cross-sectional profile, at least along a portion thereof. Such I-shape cross-sectional profile includes front and rear flanges 111 and 112, respectively, and web 113. Front flange 111 preferably provides a broad surface adapted to reduce damage to handle 110 and/or a target caused by striking contact therebetween, such as due to an overstrike. Web 113 preferably resists bending and provides strength for handle 110 to allow generation and delivery of substantial striking forces by striking surface 123.
Now referring particularly to
As a further option, and with particular reference to
In use, hammer 100 may be used to drive a nail or the like by engaging a shaft of the nail with channel 131 of nail-starter 130 such that a head of the nail abuts anvil surface 133 and such that the nail is retained within channel 131 via magnet 135. A user may then drive the nail into a target by swinging head 120 via handle 110 such that anvil surface 133 applies a driving force. Preferably, the nail may be removed from channel 131, overcoming a retention force, via frictional engagement with the target and a removal force applied to handle 110 by the user. The user may then swing hammer 100 to deliver a striking force by impacting the head of the nail with striking surface 123. If desired or necessary, a nail may be removed from an object via engagement of claw 121 with the shaft of the nail under the head and applying a levered extraction force via handle 110. Additionally or alternatively, slot 141 may be engaged with the nail head to apply an extraction force. Likewise, notch 143 may be engaged with the nail shaft beneath the head of the nail to apply an extraction force.
An alternate embodiment of the hammer is depicted in
The embodiment shown in
The hammer head 220 defines a cavity 225. The cavity 225 features an oblong shape with the length of the cavity 225 being substantially perpendicular to the axis a of the hammer head and handle. The cavity 225 acts to minimize the weight of the hammer head 220, limit the amount of material needed to forge the hammer head 220 and the dissipate any vibrations caused by the striking of the hammer head 220 on a work piece. The hammer head 220 further defines one or more vibration reduction beams 227 and voids 229. The voids 229 act to further decrease the mass of the hammer head and prevent the transmission of vibrations. A further indentation 231 is located opposite of the striking surface 223. In one embodiment, the indentation 231 is a nail starter akin to nail starter 130 depicted in
In use the hammer 200 is used to direct a force to a rivet (not shown). A rivet comprises a pliable metal such as iron, steel, copper or brass. For most rivets, a small hammer is used, such as the hammer 200 shown in
Inasmuch as a riveting hammer, such as the hammer depicted in
A further alternative embodiment of the invention is depicted in
A striking surface 323 is defined at the first end 320a of the hammer head 320. A plurality of cutting edges 324, 324a are defined on the second end 320b of the hammer head 320. The first cutting edge 324 extends beyond the second cutting edge 324a. In one embodiment, the second cutting edge 324a is used for breaking and chipping purposes, such as when the rock or brick hammer 300 is used to break apart a stone surface, such as slate or stone tile. Stone substrate may require chipping or breaking before the substrate may be removed from the work area, for instance should the substrate be too heavy to lift out or if it is attached in place using adhesive or mortar. The second cutting edge 324a can therefore be used to pry the substrates loose.
The hammer head 320 further defines a substantially oblong cavity 325. The cavity 325 lessens the total weight of the hammer head as well as allow for dissipation of vibrations experienced on the contacting of the striking surface 323 with a rock, brick, or the like. Further vibration mitigation features include beams 327, and at least one void 329. A nail starter indentation 331 is defined on the hammer head 330 opposite of the striking surface 323.
In use, the hammer 300 is used to shape, form, and break up brick, stone, concrete, and similar natural and man-made materials. Force is applied to the subject of the force by striking the hammer head 320 against the object with the striking surface 323. Vibrations within the hammer head 320 are minimized by dissipation using the cavity 325, the voids 329, and beams 327. Cutting surfaces 324, 324a are used to scope, chip, or otherwise change the shape of the brick worked upon by the hammer. The vibration mitigation features of the hammer head are important inasmuch as the striking of the hammer head 320 on solid material such as concrete and brick results in vibrations that are transmitted from the hammer head to the handle 310. Vibrations fatigue the user holding the handle 310 of the hammer 300.
a depicts another embodiment of the invention directed to a sledge hammer 400. The sledge hammer 400 comprises a hammer head 420 attached or integrally molded with a hammer handle 410. Details of the hammer handle 410 are depicted in
The hammer head 420 further defines several vibration mitigation features, including a central cavity 425, at least two void 429, and one or more beams 427. A further nail starter indentation 431 is found within the hammer head 420 opposite of the striking surface 423 and the second striking surface 424.
The hammer 400 head 420 is substantially symmetrical in that either striking surface 423, 424 may be used to impart force on a structure to be demolished.
In use, the user holding the hammer by the handle 410 applies a force to the hammer 400 so as to contact a striking surface 423 or 424 with the object to be demolished, such as framing. The top surface of the hammer head 432, which is substantially flat, may also be used as a striking surface. The cavity 425, the beams 427, and the voids 429 act to limit the vibrations experienced by the user of the hammer upon striking the object to be demolished.
While
b depicts a complete view of the hammer 400, showing the two parts of the handle 410. The handle shown in
The handle comprises a I-beam portion 414 and a covered portion 415. The covered portion 415 is defined as the part of the handle 410 wherein protective webbing 413 extends over the handle I-beam. The I-beam defines a front flange 411 and a rear flange 412. In one embodiment, the I-beam extends from the handle and into the head 420 with both components being integrally molded from the same metal using a forging process. The I-beam shape of the handle provides a gripping surface for the user inasmuch as the user may apply pressure against opposing sides of the flanges 411, 412 while holding either the exposed portion 414 or the covered portion 415. The covered portion 415 does not completely cover the flanges 411, 412 as to result in a handle that has a substantially flat profile. Instead, the flanges 411, 412 continue to be defined even in the covered portion 415.
For each of the alternate embodiments, the respective hammer body is preferably formed as a monolithic or unitary member from a suitable metal, composite, or synthetic material, or the like. The body defines a handle and the respective head, and includes grip formed or installed thereon. Body is preferably formed from steel. Grip may be formed from natural or synthetic rubber, plastic, composite, or the like, and may be resilient and/or sculptured or contoured to provide a comfortable and secure grasping surface. Grip is preferably disposed proximate first end of body proximate a distal end of handle. Head is preferably disposed proximate a distal end of handle at second end of body.
For each of the alternate embodiments, a handle having an I-beam shape may preferably be used. Such a handle includes an I-shape cross-sectional profile, at least along a portion thereof. Such I-shape cross-sectional profile includes front and rear flanges 111 and 112, respectively, and web 113, as shown in
Having thus described exemplary embodiments of the present invention, it should be noted by those skilled in the art that the within disclosures are exemplary only and that various other alternatives, adaptations, and modifications may be made within the scope and spirit of the present invention. For example, while cavity 125 has been described and illustrated as defining a closed-loop aperture through head 120, cavity 125 may be formed as an open-loop aperture, such as when cavity 125 extends to an exterior perimeter of head 120. Accordingly, the present invention is not limited to the specific embodiments as illustrated herein, but is only limited by the following claims.
This application claims the benefit as a continuation-in-part of U.S. application Ser. No. 13/296,135, filed on Nov. 14, 2011, presently pending, which in turn claimed priority as a continuation of U.S. application Ser. No. 12/967,936, filed on Dec. 14, 2010, currently issued as U.S. Pat. No. 8,056,443, which in turn is a continuation of U.S. Utility application Ser. No. 12/589,846 filed on Oct. 28, 2009, currently issued as U.S. Pat. No. 7,874,231, which in turn claims priority to U.S. Utility application Ser. No. 12/387,761 filed on May 6, 2009 currently abandoned, which in turn claimed priority to U.S. Provisional Application Ser. No. 61/050,963 filed on May 6, 2008, presently abandoned, the contents of which is hereby incorporated by reference.
Number | Date | Country | |
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61050963 | May 2008 | US |
Number | Date | Country | |
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Parent | 12967936 | Dec 2010 | US |
Child | 13296135 | US | |
Parent | 12589846 | Oct 2009 | US |
Child | 12967936 | US | |
Parent | 12387761 | May 2009 | US |
Child | 12589846 | US |
Number | Date | Country | |
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Parent | 13296135 | Nov 2011 | US |
Child | 13334639 | US |