US3343576A

US3343576A - Dead-blow hammer head

Info

Publication number: US3343576A
Application number: US524668A
Authority: US
Inventors: John C Norcross
Original assignee: Vaughan and Bushnell Manufacturing Co
Current assignee: Vaughan and Bushnell Manufacturing Co
Priority date: 1965-12-20
Filing date: 1965-12-20
Publication date: 1967-09-26
Anticipated expiration: 1984-09-26

Description

Sept. 26, 1967 J. c. NORCROSS DEAD-BLOW HAMMER HEAD Filed m. 20, 1965 INVENTOR:

' JOHN c. moemoss United States Patent Ollice 3,343,576 Patented Sept. 26, 1967 3,343,576 DEAD-BLOW HAMMER HEAD John C. Norcross, Bushnell, Ill., assignor to Vaughan &

Bushnell Mfg. Co., Chicago, 111., a corporation of Illinois Filed Dec. 20, 1965, Ser. No. 524,668 Claims. (Cl. 145-36) The present invention relates generally to impact tools and has particular reference to a novel dead-blow ham- Iner head. Dead-blow hammer heads of the type to which the present invention pertains are primarily intended for industrial use and they are usually of the mallet type in that they are provided with dual striking end tips which are replaceable after they have become worn. A deadblow hammer head of this type is characterized by the provision therein of an internal chamber within which there is disposed a mass of flowable inertia material (usually lead or steel shot) which is capable of shifting within the chamber so that when a blow is struck by either striking end tip, the inertia material will shift in the direction of the blow so as to assume a position adjacent to the particular end tip which, at that time, is efiective, and thus prevent recoil of the hammer head.

A standard or conventional dead-blow hammer head of the type briefly outlined above is possessed of certain limitations, principal among which is the high cost of manufacturing the head, the design of the head being such that assembly operations are of an involved nature and, therefore, costly. Moreover, prior to such assembly operations, careful machining of hammer head parts is required in order to secure a proper fit, and after the assembly of parts has been eifected further machining and polishing are required if the head is to present a smooth and finished exterior such as is necessary for effective saleability' of the completed hammer head.

The present invention contemplates as its principal object the provision of a novel dead-blow hammer head the particular construction of which lends itself to facility of manufacture and the consequent elimination of the aforementioned limitations. Other objects and advantages of the invention, not at this time numerated, will readily suggest themselves as the nature of the invention is better understood from a consideration of the following detailed description.

In the accompanying single sheet of drawings forming a part of this specification, one illustrative embodiment of the invention is shown.

In these drawings:

FIG. 1 is a perspective View of a dead-blow hammer head embodying the principles of the present invention;

FIG. 2 is an enlarged sectional view taken centrally and longitudinally through the hammer head of FIG. 1; and

FIG. 3' is a vertical sectional view taken on the line 33 of FIG. 1.

Referring now to the drawings in detail, the dead-blow hammer head of the present invention is designated in its entirety by the reference numeral and it involves in its general organization a body portion 12 which is formed of a suitable light-weight metal such, for example, as aluminum or zinc and is susceptible to a die-casting operation. The body portion 12 is generally of tubular cylindrical configuration and, on the central part of one side thereof, it is provided with a radially and outwardly projecting cylindrical boss 14. The latter aflords a relatively deep socket 16 which is designed for reception therein of one end of a conventional Wooden, fiberglass, plastic or other handle 18.

Internal annular flanges 20 at small distances inwards of the end surfaces of the tubular body portion 12 partially close the otherwise opens ends of said body portion. Said end surfaces of the body portion constitute shoulderforming annular rims 22 which surround shallow recesses 24 having outwardly flared or frusto-conical side walls 26. The flanges 20 establish between them and within the central part of the body portion 12 an internal chamber 28.

Positioned within the chamber 28 and in intimate contact with the cylindrical side wall of the latter is a thin- Walled steel tube 30 which may be cut from tube stock and the open ends of which are spaced slight distances inwards from the flanges 20. One end of this tube 30 is closed by a blind or solid end cap 32 having at its outer end portion a threaded socket 33, and the other end is closed by an end cap 34 having formed therein a centrally disposed full-length, threaded bore 36. The latter is provided at its inner end with a shoulder 38. Each end cap is formed with an outwardly projecting stem portion 39 which extends through and beyond the central opening in the adjacent or associated annular flange 20. The threaded socket 33 of the end cap 32 is formed in the outwardly projecting stem portion of said end cap 32; and the bore 36 in the end cap 34 extends longitudinally and axially through the outwardly projecting stem 39 of said end cap 34. The inner end of the bore 36 in the end cap 34 is closed by a removable, externally-threaded plug 40. The latter has in its outer end portion a socket 41 for reception of an Allen wrench and seats against the shoulder 38 as shown in FIG. 2. The end caps fit telescopically within the open ends of the tube with a tight press fit and are provided with rim flanges 42 which seat upon the open rims of said tube. A quantity of a flowable inertia material such as lead or steel shot 44 is loosely disposed within the interior of the tube 30 in order to give the head 10 the desired dead-blow characteristics.

To complete the hammer head :10, removable percussion end tips are provided, these end tips being of identical construction and preferably formed of a suitable plastic material the hardness of which may be varied according to the particular use to which the hammer head is to be put. Each end tip is generally of cylindrical design. It is conformable in diameter to the diameter of the tubular body portion 12 and embodies on its outer end portion a generally circular striking or impact surface 52. The inner end portion of each end tip is of reduced diameter. In addition, it is inwardly tapered in order that it is conformable in shape to that of the adjacent or associated recesses 24. Each end tip 50 is formed with an annular recess 54 to accommodate the projecting end or rim of the adjacent stem portion 39. Externally-threaded studs 56 are formed integrally with the inner end portions of the end caps and project centrally and inwards from the annular recesses 54. The inner ends of such studs are surrounded by said annular recesses as shown in FIG. 2. One stud is threadedly received in the socket 33 in the end cap 32 and the other stud is threadedly received in the outer end portion of the bore 36 in the end cap 34. As a result of this, the inner reduced end portions of the end tips 50 may by proper turning be drawn tightly into the shallow recesses 24.

In actual manipulative use for striking purposes, the dead-blow hammer 10 of the present invention does not differ from the use of a standard or conventional deadblow hammer. However, for consumer use and purposes of hammer care, conditioning and end tip replacement, the removable plug 40 is provided for the purpose of affording access to the interior of the chamber 28 for the addition of small quantities of the aforementioned inertia material into the chamber or removal of such quantities therefrom for weight adjustment purposes as required by the consumer or user, it being understood that the adjacent end tip 50 will first be removed in order to afford access to the externally-threaded plug 40.

The above-described hammer head lends itself to manufacturing and assembly operations according to the method of the present invention and by means of which manufacturing costs are greatly reduced and hammer appearance is enhanced without final polishing operations. Accordingly, in constructing and assembling the hammer head 10, the steel tube 30 is cut to length from tube stock while the two

end caps

32 and 34 are machined from bar stock on an automatic screw machine or the like. The blind end cap 32 is first inserted in one open end of the tube 30 by a press fitting operation. Thereafter, the tube is upended so as to provide an upwardly facing cup structure having a large upper open rim through which a measured quantity of the lead or steel shot 44 or other loose inertia material may conveniently be poured or otherwise introduced. The other end cap 34 is then press-fitted within the upper open rim of the tube 30 and the threaded plug 40 is installed within the inner end of the bore 36 so that it bottoms or seats against the annular shoulder 38, thus enclosing and capturing the shot 44 within the interior of the tube 30. The thus formed or constructed sub-assembly of parts, minus the two end tips 50, is then placed in the cavity of a die casting machine and the body portion 12 is then cast in position around the sub-assembly. After removal from the die cavity, the end tips 50 are installed on the end faces of the die cast structure by screwing the shanks 56 thereof into the socket 33 and the bore 36 respectively, thus completing the assembly of the hammer head 10. The step which involves assembly of the handle 18 on the head 10 constitutes no part of the present method and this operation may be performed by either the manufacturer or the consumer. Preferably, the handle is applied to the hammer head 10 by bonding of the adjacent end thereof within the socket 16 with a suitable epoxy resin one practical method of installation being shown and described in my co-pending patent application Serial No. 509,811, filed on November 26, 1965, and entitled Percussion Head and Handle Joint and Method of Making and Assembling the Same.

By reason of the fact that the body portion 12 of the hammer head 10 is die cast about the aforementioned sub-assembly which includes the tube 30, the

end caps

32 and 34, the plug 40, and the inertia material 44, and by reason of the fact that close tolerances are maintained as 7 regards the diameters of the body portion 12 and the end tips 50, no final machining or polishing operations are required in order to afford or produce the required smooth continuous outer surface of the hammer head as a whole. The wide open rim of the tube 30 as it exists before installation of the end cap 34 affords a large filling area for the interior of the tube 30 and eliminates the necessity of employing a funnel or other guide structure for introduction of the shot 44, as is the case where the central chamber must be filled through a small hole in one of the end caps. The plug 40 seals the interior of the tube 30 against escape of the shot 44 when the adjacent end tip 50 is removed for replacement or other purposes. This plug may, however, and as previously described, be removed 'by the ultimate user of the hammer head for the purpose of introducing additional quantities of shot 44 to the interior of the tube 30 or of removal of shot therefrom, depending, of course, on the contemplated use of the hammer head 10.

It is to be noted that because the body portion 12 of the hammer head 10 is die cast about the sub-assembly including the tube 30 and the

end caps

32 and 34, the inwardly directed internal flanges 20 serve to prevent longitudinal shifting of the tube 30 within the chamber 28. In the absence of the fianges 20, in the event that either end tip 50 is not firmly screwed in position against the adjacent end face of the body portion, a blow struck by such end tip would otherwise cause longitudinal shifting of the tube within the chamber 28.

The invention is not to be limited to the exact arrangement of parts shown in the accompanying drawings or described in this specification as various changes in the details of construction may be resorted to without departing from the spirit or scope of the invention. Therefore, only insofar as the invention is particularly pointed out in the accompanying claims is the same to be limited.

Having thus described the invention what I claim as new and desire to secure by Letters Patent is:

1. A dead-blow hammer head comprising a generally cylindrical body portion of tubular configuration presenting a cylindrical inner wall surface terminating in oppositely facing open circular rims, a sub-assembly of parts disposed within said tubular body portion and including a cylindrical open-ended tube having an outside diameter equal to the internal diameter of said wall surface, a first end cap closing one end of the tube, a second end cap closing the other end of the tube, and a quantity of flowable inertia material disposed within the tube between the end caps, said sub-assembly of parts being so disposed within the tubular body portion that the tube is coaxial with the cylindrical wall and in coextensive contiguity therewith and centered between said open rims, each of said end caps being formed with an axial stem portion projecting outwardly of the sub-assembly of parts, the stem portion of each end cap being formed with a threaded axial recess therein, abutment means formed integrally with said body portion and joining said inner wall surface and said circular rims for retaining said sub-assembly within said body portion, and a pair of identical impact end tips for the opposite ends of said body portion, each end tip comprising a generally cylindrical body of a diameter conformable to the diameter of said tubular body portion and, in addition, a threaded stud on the central portion of said cylindrical body, the stud of each end tip being threadedly received within one of said threaded recesses.

2. A dead-blow hammer head as set forth in claim 1 and wherein said abutment means is defined by an internal continuous annular flange adjacent to each of said oppositely facing rims, the two flanges bearing end wise against the adjacent end caps and serving thus to confine said sub-assembly of parts against longitudinal shifting within said body portion.

3. A' dead-blow hammer head .as set forth in claim 2 and wherein the recess in the stem portion of the first end cap is in the form of a blind socket and the recess in'the stem portion of the second end cap is in the form of an axial bore which extends completely through the second end cap.

4. A dead-blow hammer head as set "forth in claim 3 and wherein the inner end of said axial bore in the second end cap is formed with an internal annular shoulder, the hammer head further including a removable threaded plug disposed within said axial bore and normally bottomed against said annular shoulder.

5. A dead-blow hammer head as set forth in claim 3 and wherein the stem portion of each end cap projects completely through the central opening defined by its .associated internal flange, and each end tip is formed with an annular recess which fits telescopically over the proecting end of the stern portion of the adjacent end cap.

References Cited UNITED STATES PATENTS 2,592,013 4/ 1952 Curley. 3,088,506 5/1963 Bianchini 36 3,130,762 4/ 1964 Kerr.

WILLIAM FELDMAN, Primary Examiner.

R. V. PARKER, JR., Assistant Examiner.

Claims

1. A DEAD-BLOW HAMMER HEAD COMPRISING A GENERALLY CYLINDRICAL BODY PORTION OF TUBULAR CONFIGURATION PRESENTING A CYLINDRICAL INNER WALL SURFACE TERMIANTING IN OPPOSITELY FACING OPEN CIRCULAR RIMS, A SUB-ASSEMBLY OF PARTS DISPOSED WITHIN SAID TUBULAR BODY PORTION AND INCLUDING A CYLINDRICAL OPEN-ENDED TUBE HAVING AN OUTSIDE DIAMETER EQUAL TO THE INTERNAL DIAMETER OF SAID WALL SURFACE, A FIRST END CAP CLOSING ONE END OF THE TUBE, A SECOND END CAP CLOSING THE OTHER END OF THE TUBE, AND A QUANTITY OF FLOWABLE INERTIA MATERIAL DISPOSED WITHIN THE TUBE BETWEEN THE END CAPS, SAID SUB-ASSEMBLY OF PARTS BEING SO DISPOSED WITHIN THE TUBULAR BODY PORTION THAT THE TUBE IS COAXIAL WITH THE CYLINDRICAL WALL AND IN COEXTENSIVE CONTIGUITY THEREWITH AND CENTERED BETWEEN SAID OPEN RIMS, EACH OF SAID END CAPS BEING FORMED WITH AN AXIAL STEM PORTION PROJECTING OUTWARDLY OF THE SUB-ASSEMBLY OF PARTS, THE STEM PORTION OF EACH END CAP BEING FORMED WITH A THREAD-