Bat with elastomeric interface

Information

  • Patent Grant
  • 6398675
  • Patent Number
    6,398,675
  • Date Filed
    Monday, July 3, 2000
    24 years ago
  • Date Issued
    Tuesday, June 4, 2002
    22 years ago
Abstract
A bat having an elongated impact portion includes a first tubular metal member and a second tubular member substantially concentric with the first tubular member. The first and second tubular members have adjacent facing cylindrical surfaces throughout a majority of the length of the impact portion which are slightly spaced apart from each other, and an elastomeric material is interposed between the facing cylindrical surfaces.
Description




FIELD OF INVENTION




This invention relates to a ball bat, and more particularly to a bat with inner and outer tubular members with an elastomeric interface therebetween, and a method for manufacturing such.




BACKGROUND AND SUMMARY OF THE INVENTION




Tubular metallic softball and baseball bats are well known in the art. A familiar example is a tubular aluminum bat. Such bats have the advantage of a generally good impact response, meaning that the bat effectively transfers power to a batted ball. This effective power transfer results in ball players achieving good distances with batted balls. An additional advantage is improved durability over crack-prone wooden bats.




Even though present aluminum bats perform well, there is a continuing quest for bats with better hitting capability. Accordingly, one important need is to optimize the impact response of a bat. Further, it is important to provide a bat with proper weighting so that its swing weight is apportioned to provide an appropriate center of gravity and swing speed and impact components during use.




Further, constraining the design of aluminum bats is the requirement that the elastic deflection not be accompanied by any plastic deformation. Plastic deflection lessens the power transferred to a ball and leaves the bat permanently dented. Thus, it is desirable to be able to provide a reinforcement for the impact region of the bat, which otherwise may be so thin as to be plastically deformed during hitting. But on the other hand, the tubular wall must not be so thick that it is too stiff to elastically deflect appreciably.




In light of the shortcomings of the prior art, it is an object of the present invention to provide an improved bat.




It is another object of the invention to provide a simple construction for a tubular bat with inner and outer tubular members.




In accordance with an embodiment of the present invention, a bat having an elongate impact portion is formed with a first tubular member and a second tubular member substantially concentric with the first tubular member. The first and second tubular members have facing cylindrical surfaces throughout a majority of the length of the impact portion and elastomeric material is interposed between the facing cylindrical surfaces.




Further, in accordance with an embodiment of the present invention, an elongate tubular metal member has a circular-striking portion, with the striking portion having an interior surface defining an interior cavity. An elongate tubular metal insert is located within the interior cavity and has an exterior surface complementary to and throughout a majority of its length slightly smaller than the interior of the striking portion. An elastomeric material is interposed between the interior surface and the exterior surface to permit some relative movement between the insert and the surrounding tubular member when a ball is batted.




Another object of the present invention is to provide a method for producing an improved bat.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a sectional view through the longitudinal center of a bat in accordance with one embodiment of the invention.





FIG. 2

is a magnified sectional view of the bat of

FIG. 1

with portions broken away.





FIG. 3

is a cross-sectional view taken generally along the line


3





3


of FIG.


2


.





FIG. 4

is an enlarged view taken generally along the line


4





4


.





FIG. 5

is a cross-sectional view through the longitudinal center of bat in accordance with a second embodiment of the invention.





FIG. 6

is a magnified sectional view of the bat of

FIG. 5

with portions broken away.





FIG. 7

is cross-sectioned view taken generally along the line


7





7


in FIG.


6


.





FIG. 8

is an enlarged view taken generally along the line


8





8


in FIG.


7


.





FIG. 9

is a partial sectional view similar to

FIG. 6

, of a third embodiment.











DETAILED DESCRIPTION




Referring to

FIG. 1

, tubular ball bat


10


comprises an elongate tubular metal member


11


having a ball striking, or impact portion,


12


, handle portion


14


, and a tapered transition portion


16


that extends between the handle portion


14


and striking portion


12


. As shown here, the impact, or ball striking, portion


12


has an elongate cylindrical shape. The impact portion


12


has a larger diameter that the handle portion


14


. The transition portion


16


joins the impact portion


12


and handle portion


14


and accordingly tapers in diameter from one end to the other. A knob


18


is provided at one end of the handle portion.




The distal end


20


of the impact portion


12


is initially open to facilitate manufacture of the bat. However, at the end of the forming process, the distal end portion is formed over as illustrated in

FIGS. 1-3

to partially enclose the distal end of the bat. A circular opening


20




a


is provided which will be closed by a plug (not shown).




The tubular metal member


11


forms the exterior of the ball bat and has a hollow interior, or interior cavity,


22


that extends the entire length of the bat. The striking, or impact, portion


12


has an interior surface


24


defining a portion of the interior cavity extending through the impact portion.




To provide improved hitting with the bat, an elongate tubular insert


26


is disposed within cavity


22


in impact portion


12


.




The impact portion


12


has a defined length indicated generally at L. The interior surface


24


has a substantially cylindrical cross-section having a diameter indicated generally at D


1


. Normally diameter D


1


would be in a range of from 2 to 2.75 inches.




The insert


26


has an outer wall, or exterior, surface


30


complementary to the shape of interior surface


24


, but of a slightly smaller diameter D


2


. Insert


26


has a length, which is a majority of the length L of the impact portion, and is shown in the illustrations as substantially equal to length L. Normally length L would be in a range of from 12 to 16 inches.




Referring to

FIG. 4

, the thickness of the metal material forming the impact portion


12


of the tubular metal bat member is indicated generally at T


1


, while the thickness of the material forming insert


26


is noted at T


2


.




Referring still to

FIG. 4

, a layer of elastomeric material


36


is interposed and fills the space between adjacent facing portions of the interior surface


24


of impact portion


12


and the exterior surface


30


of insert


26


.




A first end


26




a


of the tubular insert, or sleeve,


26


is inserted within the impact portion to be forcefully lodged in abutment with the diametrically narrowing interior wall of the tapering portion


16


, which inhibits movement of the insert in the direction toward the handle of the bat. A second, or distal, end


26




b


of the tubular insert, or sleeve,


26


is adjacent distal end


20


of the bat. The outermost, or topmost, portion of the impact portion of the bat indicated at


20


is curled inwardly over end


26




b


to produce a reduced-diameter head, or stop, portion for the bat which inhibits movement of insert


26


in the direction of the curled over end of the bat.




The interior surface


24


of the impact portion


12


is substantially continuously cylindrical, and the exterior surface


30


of the insert is substantially continuously cylindrical having a shape which is generally complementary to, and of a slightly small diameter than the interior surface of the tubular outer member throughout the majority of the length of the insert. It has been found to be desirable to provide a gap, or space,


34


between member


11


and insert


26


. Space


34


in a preferred embodiment of the invention may have a width, or thickness, T


3


in a range of 0.002 to 0.012 inch. This width, or thickness, is important. If it is too small there will be insufficient space for an effective layer of elastomeric material as discussed below. On the other hand, of the space is too large insufficient energy transfer may occur between member


11


and insert


26


.




The elastomeric material


36


between interior surface


24


and exterior surface


30


is interposed in the entire space between substantially all adjacent facing portions of these two surfaces of the tubular metal bat member and the insert. The elastomeric material may be any suitable material which is capable of transmitting at least a portion of the ball striking and rebound energy between the tubular bat member and the insert with a degree of deformation occurring in the elastomeric material generally radially of the bat. Further, the elastomeric material must be capable of withstanding shear forces imposed thereon due to shifting of surface portions of the tubular bat member and insert relative to each other longitudinally and/or circumferentially of the bat on hitting. The elastomeric material should be capable of fully recovering its size and shape after such deformation.




Examples of materials that may be used are a polymer or urethane material. It is preferable that the elastomeric materials have selected physical and operational characteristics.




The hardness and resilience of the elastomeric material will be chosen in relation to the width T


3


of the gap


34


between surfaces


24


and


30


. It has been found that where the gap is about 0.01 inch the elastomeric material works well by having a durometer hardness rating of 80 Shore A hardness rating and resiliency of 45% per ASTM standard D2632-96. For narrower gaps a softer material may be used, and conversely, for a wider gap a harder material will be required to produce appropriate batting characteristics. For example, the durometer hardness rating may range from 20 to 120 Shore A and the resiliency from 30% to 70% per ASTM standard D2632-96. The elastomeric material also preferably has an adhesive characteristic so that it will adhere to and remain in place between the tubular members.




The narrow gap, or space,


34


between the tubular outer member and the insert provides sufficient space for a desired amount of elastomeric material, yet does not provide sufficient space for plastic deformation to occur in the tubular outer member upon impact, or striking, forces occurring. The elastomeric material between the two members is adequate to permit a slight amount of elastic deformation of the outer tubular member, yet transmits striking force inwardly toward the insert, such that the insert provides added support and rebound energy during the striking operation.




In one embodiment, both the tubular outer member, or frame, and the insert are made of aluminum. The outer bat portion is formed by swaging from an aluminum tube to yield an integral weld free frame having the impact portion, handle, and transition portion as previously described. While swaging has been noted as a means of producing the outer member, it should be understood that other methods of manufacturing might work equally as well. As noted, the outer member is formed with a circular cross-section having a striking portion which has a cylindrical interior surface defining an interior cavity of selected first cross-sectional dimension D


1


when at a normal ambient temperature.




The insert


26


may be formed of a tubular metal material, which may be aluminum, steel, titanium, or other suitable metal material. The insert also may be formed of other materials, such as carbon fiber. The insert is formed into a shape having a cylindrical exterior surface complementary in shape to the interior surface. The insert has a second outer cross-sectional dimension D


2


at normal ambient temperature, which is slightly less than the first interior dimension D


1


of the striking portion. The thickness of the material of the impact portion


12


denoted generally at T


1


is in a range of 0.04 to 0.08 inches, while the thickness of insert


26


denoted generally at T


2


is in a range of 0.04 to 0.08 inches.




The outer diameter of the insert is such that at normal ambient temperature it is slightly less than the interior diameter of the outer member at ambient temperature. The diameter of the interior surface of impact portion


12


at normal ambient temperature is denoted generally at D


1


and the exterior surface diameter D


2


of the insert when initially formed at normal ambient temperatures could be in a range of (D


1


−0.004) inch to (D


1


−0.024) inch to provide a space T


3


between the two when assembled in a range of 0.002 to 0.012 inch.




In initial forming, the distal end


20


of the outer tubular member


12


would not have been curled in as shown. Instead it would be formed to produce a full open cavity mouth into which insert


26


may be inserted.




Prior to assembly either the external surface of the insert


26


or the interior surface


24


of the impact area


12


are coated with an appropriate elastomeric material as discussed above to a thickness at least as great as dimension T


3


. This material may be applied to the insert by spraying, rolling, or hand application, or to the interior surface of the impact portion.




The impact portion


12


of the outer member may be heated to a temperature sufficiently above ambient normal temperature to cause the interior cavity to expand. Conversely, the insert could be cooled below ambient temperature to cause it to shrink. In other words, a temperature differential may be produced between the outer member and the insert so that the insert may be slid easily into the outer member, with the layer of elastomeric material therebetween. While the temperature differential exists between the parts the insert is moved into the internal cavity to the position shown in

FIGS. 1

,


2


and


3


. The bat parts then are allowed to return to ambient temperature to produce a close fit with the elastomeric material therebetween.




Referring to

FIGS. 5-8

, a second embodiment of the bat of the invention is illustrated. A ball bat


40


comprises an elongate tubular metal member


41


having a ball striking, or impact, portion


42


, handle portion


43


and transition-tapered portion


46


. The striking, or impact, portion


42


has an exterior surface


44


.




To provide improved hitting with the bat, an elongate tubular member, in the form of sleeve


48


is disposed about portion


42


of the tubular member


41


. The bat thus has an elongate impact portion with a defined length indicated generally at L formed by a combination of portion


42


of tubular member


41


and tubular member, or sleeve,


48


. These bat parts are substantially concentric and have facing cylindrical surfaces throughout a major portion of the length of the impact portion L. Generally the thicknesses of the tubular members would be similar to that previously discussed in relation to the embodiment illustrated in

FIGS. 1-4

and a similar fit would be provided therebetween.




As is best seen in

FIGS. 5 and 6

the distal end of portion


42


is curled inwardly to form a rounded outer end


42




a


, and the distal end


48




a


of the sleeve also is curled inwardly over the outer end of section


42




a


. Sleeve


48


is slightly longer than impact portion L the tubular member


41


and the portion adjacent end


48




b


is formed inwardly to follow the general taper of tapered section


46


of tubular member


41


. This generally secures the sleeve


48


against shifting inwardly or outwardly longitudinally of member


41


.




Referring to

FIGS. 7 and 8

, a layer of elastomeric material


56


is interposed between the exterior surface


44


of the impact portion


12


and the interior surface


50


of sleeve


48


.




The interior surface


50


of sleeve


48


is substantially continuously cylindrical. The exterior surface


44


of portion


42


is substantially continuously cylindrical also, having a shape which is complementary to the interior surface of the sleeve throughout a majority of the length of the impact portion L. Here again, it has been found desirable to provide a space, or gap,


54


between the members, in a range of 0.002 to 0.012 inch.




Elastomeric material


56


is interposed between substantially all adjacent parts of these two surfaces and may be of materials similar to and applied similarly as described above. The materials used for the tubular portions also may be similar to those described above with similar thicknesses and other sizes.




In the embodiment illustrated in

FIGS. 5-8

, the inner diameter of sleeve


48


is indicated generally at D


3


when initially formed at normal ambient temperature. The exterior surface diameter D


4


of tubular portion


42


when initially formed at normal ambient temperature could be in a range of (D


3


−0.004) inch to (D


3


−0.024) inch.




Prior to assembly either the external surface of tubular portion


42


or the interior surface of sleeve


48


is coated with an appropriate elastomeric material


56


. Such may be of materials and applied as set out for the previously described embodiment. Either the sleeve


48


is heated above ambient temperature or the tubular metal impact portion


42


is cooled sufficiently below ambient temperature, such that a temperature differential exists between the parts to allow the sleeve to be slid over the tubular bat frame


42


to the position illustrated in

FIGS. 5-8

. After the parts thus have been assembled they are allowed to return to ambient temperature which produces a close fit with elastomeric material interposed therebetween.





FIG. 9

is a partial sectional view similar to a portion of

FIG. 6

of a third embodiment. Here tapered portion


46


has an annular ridge


60


formed thereon of a height substantially equal to the thickness of sleeve


48


. The inner end


48




b


of sleeve


48


rests against the ridge, thus to provide a substantially continuous surface configuration for the tapered portion


46


and sleeve


48


, while maintaining the general structural and functional characteristics of the bat thus described.




In view of the many possible embodiments to which the principals of the present invention may be put, it should be recognized that the detailed embodiments set out herein are illustrative only and should not be taken as limiting the scope of the invention. I claim as my invention all embodiments as may come within the scope and spirit of the following claims and equivalents thereto.



Claims
  • 1. A bat comprising:an elongate tubular metal member having a circular cross-section with a striking portion of a defined length, said striking portion of the member having an interior surface defining an interior cavity, an elongate tubular insert located within said interior cavity, said insert having a length which is a majority of said defined length, and an exterior surface complementary to and throughout a majority of its length spaced radially inwardly from said interior surface a distance in a range of 0.002 to 0.012 inch, elastomeric material interposed between and substantially filling the space between said interior surface and said exterior surface, said elastomeric material having a durometer hardness in a range of between 20 and 120 Shore A and a resiliency in a range between 30% and 70%, and the interior of said striking portion of the member has a reduced internal diameter at one end thereof against which one end portion of the insert bears to inhibit movement of said insert in the direction of said one end.
  • 2. The bat of claim 1, wherein the length of said insert is at least equal to said defined length.
  • 3. The bat of claim 1, wherein said interior surface is substantially continuously cylindrical and the exterior surface is substantially continuously cylindrical.
  • 4. The bat of claim 1, wherein said elastomeric material comprises polyurethane.
  • 5. The bat of claim 1, wherein said elastomeric material has a durometer hardness of about 80 Shore A.
  • 6. The bat of claim 1, wherein said elastomeric material has a resiliency of about 45%.
  • 7. The bat of claim 1, wherein said elastomeric material is adhesive.
  • 8. The bat of claim 1, wherein a stop is positioned adjacent a second end of said striking portion against which a second end of said insert opposite said one end bears to inhibit movement of said insert in the direction of said second end.
  • 9. The bat of claim 1, wherein the striking portion of said member has a wall thickness in a range of 0.04 to 0.08 inch.
  • 10. The bat of claim 1, wherein said insert has a wall thickness in a range of 0.04 to 0.08 inch.
  • 11. A bat comprising:an elongate tubular metal member having a striking portion of a first diameter, handle portion of a second lesser diameter, and tapered portion extending therebetween, the tubular member having an inner bore wall which defines an internal cavity; an elongate tubular sleeve located within the cavity and extending substantially the length of the striking portion, the sleeve having an outer wall complementary to and throughout a major portion of its length spaced radially inwardly from the inner bore wall of the striking portion a distance in a range of 0.002 to 0.012 inch, with one end engaging said tapered portion to inhibit movement of the sleeve in the direction of said tapered portion, and elastomeric material interposed between the member and sleeve and substantially filling the space between the inner bore wall and the outer wall, said elastomeric material is adhesive, has a durometer hardness in a range of between 20 and 120 Shore A, and a resiliency in a range between 30% and 70%.
  • 12. The bat of claim 11, wherein said elastomeric material fills the space between all adjacent facing portions of the inner bore wall and the outer wall.
  • 13. The bat of claim 11, wherein said elastomeric material has a durometer hardness of about 80 Shore A.
  • 14. The bat of claim 11, wherein said elastomeric material has a resiliency of about 45%.
  • 15. A bat having an elongate impact portion comprising:a first tubular member, a second tubular member substantially concentric with the first tubular member, said first and second tubular members having facing cylindrical surfaces throughout the majority of the length of the impact portion with a space therebetween in a range of 0.002 to 0.012 inch; and elastomeric material is interposed in and fills the space between all adjacent facing cylindrical surfaces of the first tubular member and second tubular member, said elastomeric material being polyurethane having a durometer hardness in a range of between 20 and 120 Shore A and a resiliency in a range between 30% and 70%.
  • 16. The bat of claim 15, wherein said elastomeric material has a durometer hardness of about 80 Shore A.
  • 17. The bat of claim 15, wherein said elastomeric material has a resiliency of about 45%.
  • 18. The bat of claim 15, wherein said first tubular member has a striking portion of a first diameter, and a handle portion of a second lesser diameter, the striking portion having an inner bore wall which defines an internal cavity;and said second tubular member comprises an elongate insert located within the cavity and extending substantially the length or the striking portion, the insert having an outer wall complementary to and throughout a major portion of its length spaced a selected distance radially inwardly from the inner bore wall of the striking portion.
  • 19. The bat of claim 15, wherein said first tubular member has a striking portion of a first outer diameter and a handle portion of a second lesser diameter, and said second tubular member comprises a sleeve located about the striking portion of the first tubular member and extending substantially the length of the striking portion, the sleeve having an internal wall complementary to and throughout the major portion of the length spaced a selected distance radially outwardly from the outer diameter of the striking portion.
  • 20. A method for constructing a bat comprising the steps offorming an elongate tubular metal member having a circular cross-section with a striking portion, said portion having a cylindrical interior surface defining an interior cavity of selected first cross-sectional dimension, forming an elongate tubular insert having a cylindrical exterior surface complementary in shape to said interior surface and having a second cross-sectional dimension which is in a range of 0.004 to 0.024 inch less than said first dimension, placing the insert in said striking portion with a space therebetween, filling the space between said interior and exterior surfaces with elastomeric material, said elastormeric material having a durometer hardness in a range of between 20 and 120 Shore A and a resiliency in a range between 30% and 70%, and providing a stop on said member adjacent one end thereof against which said insert will bear to inhibit longitudinal movement of said insert in the direction of the stop.
  • 21. The method of claim 20, wherein said insert is formed with a length which is a majority of the length of the striking portion of said tubular member.
  • 22. The method of claim 20, wherein said elastomeric material comprises polyurethane.
  • 23. The method of claim 20, wherein said elastomeric material has a durometer hardness of about 80 Shore A.
  • 24. The method of claim 20, wherein said elastomeric material has resiliency of about 45%.
  • 25. The method of claim 20, wherein said elastomeric material is applied to said interior surface before placing the insert in said striking portion.
  • 26. The method of claim 20, wherein said elastomeric material is applied to said exterior surface before placing the insert in said striking portion.
  • 27. A bat comprising:an elongate tubular metal member having a circular cross-section with a striking portion of a defined length, said striking portion of the member having a cylindrical interior surface defining an interior cavity of a first cross-sectional dimension, an elongate tubular insert located within said interior cavity, said insert having a cylindrical exterior surface complementary in shape to said interior surface and throughout a majority of its length having a second cross-sectional dimension which is in a range of 0.004 to 0.024 inch less than said first dimension, and elastomeric material interposed between and substantially filling the space between said interior surface and said exterior surface, said elastomeric material having a durometer hardness in a range of between 20 and 120 Shore A and a resiliency in a range between 30% and 70%.
US Referenced Citations (16)
Number Name Date Kind
3727295 Gildemeister Apr 1973 A
3801098 Gildemeister Apr 1974 A
3861682 Fujii Jan 1975 A
3876204 Moore et al. Apr 1975 A
3963239 Fujii Jun 1976 A
3972528 McCracken et al. Aug 1976 A
4056267 Krieger Nov 1977 A
4569521 Mueller Feb 1986 A
4600193 Merritt Jul 1986 A
4951948 Peng Aug 1990 A
5104123 Okitsu et al. Apr 1992 A
5364095 Easton et al. Nov 1994 A
5415398 Eggiman May 1995 A
5458330 Baum Oct 1995 A
5511777 McNeely Apr 1996 A
5722908 Feeney et al. Mar 1998 A
Foreign Referenced Citations (3)
Number Date Country
51-13165 Aug 1976 JP
4-303477 Oct 1992 JP
523407 Feb 1993 JP