Baseball/Softball Hitting Training Device

Abstract

The baseball/softball hitting training device includes a base, a frame body, and a ball suspension system. The ball suspension system is supported by the frame body. The frame body includes a vertical stem portion and an offset portion. An upwardly-projecting arm of the vertical stem and a downwardly-projecting arm of the offset portion define a vertical axis between them. The ball suspension system is supported between the upwardly-projecting arm and downwardly-projecting arm, with the ball held vertically intermedially via a tether in alignment with the vertical axis and positioned to allow the player to practice hitting. Height-adjustment mechanisms are also disclosed. The tethered-ball training device can optionally be converted to a tee-ball training device.

Claims

1. A ball hitting training device comprising: a base comprising an upwardly-extending frame receiving portion; a frame comprising a vertical stem and an offset portion; said vertical stem comprising an upwardly-projecting arm and a support section attachable to said frame receiving portion; said offset portion having an offset lower portion attached to an upper portion of said vertical stem, an offset midsection attached to said offset lower portion, an offset upper section attached to said offset midsection, and a downwardly-projecting arm attached to said offset upper section and vertically aligned with said upwardly-projecting arm; and a ball suspension portion comprising a resilient tether supported at least by said downwardly-projecting arm and comprising a ball suspended intermedially on said tether.

2. The ball hitting training device as recited in claim 1, wherein said base further comprises: a foundational leg extending along an x axis and comprising a distal end, a proximally-disposed T-shaped portion, and said frame receiving portion; wherein said T-shaped portion comprises a first extension and a second extension extending along a y axis at a perpendicular angle to said foundational leg; wherein said first extension comprises a first extension open outer end extending outwardly; wherein said second extension comprises a second extension open outer end extending outwardly; wherein said frame receiving portion extends along a z axis at a perpendicular angle to said foundational leg; a first connectional leg comprising a first connectional leg inner end and a first connectional leg outer end; wherein said first connectional leg inner end is connectable both to said frame receiving portion upper end and to said first extension open outer end; and a second connectional leg comprising a second connectional leg inner end and a second connectional leg outer end; wherein said second connectional leg inner end is connectable to said second extension open outer end.

3. The ball hitting training device as recited in claim 2, wherein said base further comprises a first leg end cap disposed at said first extension open outer end; said first leg end cap comprising a concave top surface.

4. The ball hitting training device as recited in claim 2, wherein: said first connectional leg comprises a leg attachment mechanism portion; said first extension of said T-shaped portion comprises an extension attachment mechanism portion that corresponds to said leg attachment mechanism portion; and said frame receiving portion comprises a frame attachment mechanism portion that corresponds to said leg attachment mechanism portion.

5. The ball hitting training device as recited in claim 1, wherein said base comprises a fillable container with an open interior configured to receive a weighting material.

6. The ball hitting training device as recited in claim 1, wherein: said ball suspension portion further comprises an upper cord-to-shaft connector attached to an upper part of said resilient tether; said downwardly-projecting arm comprises an open structure and a downwardly-projecting arm interior shaft disposed within said open structure; and said upper cord-to-shaft connector is removably attachable to said downwardly-projecting arm interior shaft.

7. The ball hitting training device as recited in claim 6, wherein: said ball suspension portion further comprises a lower cord-to-shaft connector attached to an lower part of said resilient tether; said upwardly-projecting arm comprises an open structure and a upwardly-projecting arm interior shaft disposed within said open structure; and said lower cord-to-shaft connector is removably attachable to said upwardly-projecting arm interior shaft.

8. The ball hitting training device as recited in claim 1, further comprising a first height-adjustment device disposed between said base and said frame.

9. The ball hitting training device as recited in claim 1, further comprising a second height-adjustment device disposed between said upwardly-projecting arm and said support section to allow adjustment of the vertical swing distance between said upwardly-projecting arm and said downwardly-projecting arm.

10. The ball hitting training device as recited in claim 1, wherein said foundational leg comprises a distal end, a proximal end, a junction, a bracing portion, and an intermediary portion; wherein said bracing portion extends from said distal end to said junction; wherein said intermediary portion extends from said junction to said T-shaped portion; and wherein said frame receiving portion extends upwardly from said junction.

11. The ball hitting training device as recited in claim 1, wherein a portion of said offset portion of said frame is not in vertical alignment with said vertical stem.

12. A base to support an upright support section of a structure comprising: a foundational leg extending along an x axis and comprising a distal end, a proximally-disposed T-shaped portion, and a frame receiving portion; wherein said T-shaped portion comprises a first extension and a second extension extending along a y axis at a perpendicular angle to said foundational leg; wherein said first extension comprises a first extension open outer end extending outwardly; wherein said second extension comprises a second extension open outer end extending outwardly; wherein said frame receiving portion extends along a z axis at a perpendicular angle to said foundational leg; a first connectional leg comprising a first connectional leg inner end and a first connectional leg outer end; wherein said first connectional leg inner end is connectable both to said frame receiving portion upper end and to said first extension open outer end; and a second connectional leg comprising a second connectional leg inner end and a second connectional leg outer end; wherein said second connectional leg inner end is connectable to said second extension open outer end.

13. The base as recited in claim 12 further comprising: a first leg end cap disposed at said first extension open outer end; said first leg end cap comprising a concave top surface.

14. The base as recited in claim 12 wherein: said first connectional leg comprises a leg attachment mechanism portion; said first extension of said T-shaped portion comprises an extension attachment mechanism portion that corresponds to said leg attachment mechanism portion; and said frame receiving portion comprises a frame attachment mechanism portion that corresponds to said leg attachment mechanism portion.

15. The base as recited in claim 12 wherein said second connectional leg inner end is connectable to said frame receiving portion outer end.

16. The base as recited in claim 15 further comprising: a second leg end cap disposed at said second extension open outer end; and a third leg end cap disposed at said distal end of said foundational leg.

17. A ball swing training device comprising: a base comprising: a foundational leg extending along an x axis and comprising a distal end, a proximally-disposed T-shaped portion, and said frame receiving portion; wherein said T-shaped portion comprises a first extension and a second extension extending along a y axis at a perpendicular angle to said foundational leg; wherein said first extension comprises a first extension open outer end extending outwardly; wherein said second extension comprises a second extension open outer end extending outwardly; wherein said frame receiving portion extends along a z axis at a perpendicular angle to said foundational leg; wherein said frame receiving portion comprises a frame receiving portion upward end and a frame receiving portion downward end connected to said foundational leg; a first connectional leg comprising a first connectional leg inner end, a first connectional leg outer end, and a leg attachment mechanism portion; wherein said first connectional leg inner end is connectable both to said frame receiving portion upper end and to said first extension open outer end; a second connectional leg comprising a second connectional leg inner end and a second connectional leg outer end; wherein said second connectional leg inner end is connectable to said second extension open outer end; and a first leg end cap disposed at said first extension open outer end; said first leg end cap comprising a concave top surface. said first extension of said T-shaped portion comprises an extension attachment mechanism portion that corresponds to said leg attachment mechanism portion; and said frame receiving portion comprises a frame attachment mechanism portion that corresponds to said leg attachment mechanism portion. a frame comprising a vertical stem and an offset portion; said vertical stem comprising an upwardly-projecting arm and a support section removably attachable to said upward end of said frame receiving portion; said offset portion having an offset lower portion attached to said vertical stem, an offset midsection attached to said offset lower portion, an offset upper section attached to said offset midsection, and a downwardly-projecting arm attached to said offset upper section and vertically aligned with said upwardly-projecting arm; a first height-adjustment device disposed between said base and said frame; and a ball suspension portion comprising a resilient tether, comprising an upper cord-to-shaft connector attached to an upper part of said tether connectable to at least said downwardly-projecting arm, and comprising a ball suspended intermedially on said tether.

18. The ball hitting training device as recited in claim 17, further comprising a second height-adjustment device disposed between said upwardly-projecting arm and said support section to allow adjustment of the vertical swing distance between said upwardly-projecting arm and said downwardly-projecting arm.

19. The ball hitting training device as recited in claim 17, wherein said downwardly-projecting arm comprises a fish mouth-type upper edge; and wherein said upwardly-projecting arm comprises a fish mouth-type upper edge.

20. The ball hitting training device as recited in claim 17, wherein said downwardly-projecting arm comprises a flared-type upper edge; and wherein said upwardly-projecting arm comprises a flared-type upper edge.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0035] The preferred embodiments of the invention will hereinafter be described in conjunction with the appended drawings, provided to illustrate and not to limit the invention, where like designations denote like elements.

[0036] FIG. 1 is a perspective view of a first embodiment of the batting swing training device of the present invention.

[0037] FIG. 2 is a perspective view of a second embodiment of the batting swing training device of the present invention.

[0038] FIG. 3 is a perspective view of a third embodiment of the batting swing training device of the present invention.

[0039] FIG. 4 is a cut view of the upper portion of an aspect of the invention with the ball suspension system removed for clarity of discussion, which shows a tether end cap and interior shafts to which the ball suspension system may be attached.

[0040] FIG. 5 is a cut view of the upper portion of an aspect of the invention with the ball suspension removed, which shows bolts having a bolt shaft to which the suspension system may be attached.

[0041] FIG. 6 is a perspective view of the upper portion of the ball suspension system which shows a first aspect of the cord-to-shaft connector, which is suitable for use with the fixedly-attached shaft aspect of FIG. 4 or the bolt shaft aspect of FIG. 5.

[0042] FIG. 7 is a perspective view of the upper portion of the ball suspension system which shows a second aspect of the cord-to-shaft connector, which is suitable for use with the bolt shaft aspect shown in FIG. 5.

[0043] FIG. 8 is a cut view of an aspect of the ball of the ball suspension system showing a cord running through a bore in the ball.

[0044] FIG. 9 is a cut view of an aspect of the ball of the ball suspension system showing a cord running through a sleeve-lined bore in the ball.

[0045] FIG. 10 is a perspective view of a tether end cap of the present invention.

[0046] FIGS. 11-13 are aspects of an optional separate batting tee insertable into, and usable with, the batting swing training device of the present invention.

[0047] FIG. 14 is a perspective view of a fourth embodiment of the batting swing training device of the present invention arranged in a tethered ball configuration.

[0048] FIG. 15 is an expanded perspective view of the fourth embodiment of the batting swing training device of the present invention in the process of being converted to a tee ball configuration.

[0049] FIG. 16 is a perspective view of the fourth embodiment of the present invention arranged in a batting tee configuration.

[0050] FIG. 17 is a perspective view of the fourth embodiment of the present invention in which most sections are disconnected, such as for shipping or transport.

[0051] Like reference numerals refer to like parts throughout the several views of the drawings.

DETAILED DESCRIPTION OF THE INVENTION

[0052] Shown throughout the figures, the present invention is directed toward a baseball and/or softball hitting training device that can be used for practice to improve a player's swing and hitting proficiency and that can be converted from a tethered ball device to a tee ball device.

[0053] The baseball and/or softball hitting training device, shown generally as reference number 20, is illustrated in accordance with the four embodiments of the present invention. As shown, the baseball/softball hitting training device 20 comprises a base 60, a frame body 40, and a ball suspension system 30.

[0054] The base 60 is configured to support the frame body 40, which, in turn, supports the ball suspension system 30. The frame body 40 comprises a vertical stem 22 and an offset portion 50. The vertical stem 22 comprises a support section 41 and an upwardly-projecting arm 45 in alignment with each other. In the first three embodiments, the support section 41 is formed integrally with, or attached to, the upwardly-projecting arm 45. In the fourth embodiment, the vertical stem 22 portions (the support section 41 and the upwardly-projecting arm 45) are joined by an arm height-adjustment system 44. Together the vertical stem 22 and the offset portion 50 support the ball suspension system 30.

[0055] The ball suspension system 30 comprises both a ball 35 and a resilient tether 31 onto which the ball 35 is suspended. The ball suspension system 30 is suspended between, and in alignment with, the upwardly-projecting arm 45 of the vertical stem 22 of the frame body 40 and the downwardly-projecting arm 55 of the offset portion 50 of the frame body 40. When in position to be hit, the ball 35 is retained in line with the centerline of the vertical stem 22 and the frame receiving portion 90 of the base 60.

[0056] The frame body 40 is height-adjustable via stem height-adjustment device 44, thus allowing the ball 35 to be positioned higher or lower to accommodate the height of the player and/or the particular type of swing to be practiced by the player, such as high or low ball drills. Complementary portions of the stem height-adjustment device 44 are disposed on the support section 41 and the base 60, at the juncture of the support section 41 and the base 60.

[0057] The base 60 is configured to provide stability and steadiness to the baseball/softball hitting training device 20. The base 60 of the first embodiment comprises the substantially vertical frame receiving portion 90 and substantially horizontal leg projections 61 extending outwardly from the leg joining area 65. Though an X-shaped base 60 with four leg projections 61 is shown in FIG. 1, the base 60 may be formed of other numbers of multiple leg projections 61. FIG. 1 also shows the leg projections 61 as having a consistent height and width, i.e., the height and width of each leg projection 61 remains substantially constant from the proximal portion adjacent to the base leg joining area 65 to the distal end portion. But this is not necessary to the invention. For instance, the distal end portions may have a greater width than the proximal portions to provide more stability without having to increase the length of the leg projections 61. The proximal portions of the leg projections 61 of the first embodiment meet at the base leg joining area 65, where they are attached to and support the vertical frame receiving portion 90. Though the leg projections 61 are show in FIG. 1 as fixedly attached to the bottom of the frame receiving portion 90, such as via a weld, seam, adhesive, or the like, the leg projections 61 may be optionally detachable from the frame receiving portion 90, which serves to increase compactness of the baseball/softball hitting training device 20 for shipping and retail display, as well as for transport between a player's home and ball practice field.

[0058] In FIG. 1, the frame receiving portion 90 projects vertically upwardly from the base leg joining area 65 and is configured to allow the vertical stem 22 to be connected and disconnected. Both the frame receiving portion 90 and the vertical stem 22 are configured with complementary height-adjustment mechanisms 44 to allow the ball 35 to be raised and lowered to accommodate players of different heights and to facilitate different batting drills.

[0059] The lower end of the stem support section 41 is attachable to and detachable from the frame receiving portion 90 of the base. The offset portion 50 attaches to the upper half of the vertical stem 22 and extends laterally a distance at least half the length of a bat to slightly less than the length of a bat, thereby allowing the player to strike the ball 35 with the bat without contacting or impacting the offset portion 50. Though the offset portion 50 is attached to the upper portion of the vertical stem 22, it is not attached at the end of the vertical stem 22, because the upwardly-projecting arm 45 portion of the vertical stem 22 extends upwardly beyond the attachment point of the offset portion 50. The upwardly-projecting arm 45 provides a framework to which the lower portion of the ball suspension system 30 is attached.

[0060] The height of the vertical stem 22 and the frame receiving portion 90 is sufficient to support the ball 35 at a desired height. As illustrated, to provide sufficient extension to allow both high and low hitting drills, one of the vertical stem 22 or the frame receiving portion 90 will be sized to slide into the other one. In the figures and discussion, the vertical stem 22 is sized to fit into the top edge 47 of frame receiving portion 90, though the reversed arrangement is also suitable.

[0061] The stem height-adjustment system 44 is disposed at the intersection of the frame receiving portion 90 of the base 60 and the support section 41 of the vertical stem 22. And in the fourth embodiment of FIG. 14, an arm height-adjustment system 44 is disposed at the intersection of the stem support section 41 and the upwardly-projecting arm 45. Any height-adjustment system 44 as is known or becomes known in the art is within the scope of the invention. For example, the height-adjustment system 44 may comprise any of the following: the inner section can be configured with a button or buttons that pop out through holes in the outer section to lock (similar to the releasable and engageable coupling mechanism 86 of FIG. 14); the two sections can be configured to be locked in place with a screw or with an offset cam arrangement (the lower height-adjustment system 44 of FIG. 14); the inner section can be configured to be telescoped and then locked in place with a twisting motion that tightens a friction plate against the inner surface of the outer section (the upper height-adjustment system 44 of FIG. 14); the inner section can be configured to be locked in place using a bolt passing through holes that match corresponding holes in the outer section; the inner and outer sections can be configured with corresponding male and female threads; the inner section can be configured with male threads that correspond to female threads in a nut mounted to the outer section via a bearing arrangement; a rack or racks with pinion gear sets can be mounted appropriately at the junction of the two sections; a rope or cable with a winch arrangement can be mounted to adjust the height; a hydraulic cylinder with a spring-mounted piston and relief valves can be installed to provide adjustment; a collar mounted to the outer section that can be tightened to activate a friction lock on the inner section can be used; or any other known height-adjustment system.

[0062] In the first embodiment of FIG. 1, the offset portion 50 is an angular U-shape with a proximal end of a generally horizontal offset lower portion 59 joined to the vertical stem 22, with a distal end of the generally horizontal offset lower portion 59 joined to the lower part of a generally vertical offset midsection 57, with the upper part of the generally vertical offset midsection 57 joined to the proximal end of the generally horizontal offset upper portion 51, and with the distal end of the generally horizontal offset upper portion 51 joined to the upper part of the downwardly-projecting arm 55. The tubular downwardly-projecting arm 55 has an interior framework to which the upper portion of the ball suspension system 30 is attached. The joints 54 between the offset portion 50 and the vertical stem support section 41 and between the portions of the U-shaped offset portion 50 are permanent connections that may be formed by any known method, such as by welding, adhesives, or the like. In a less preferred aspect, the sections may be removably attachable by any known device to the adjoining section, such as via bolts or pins, to facilitate transport of the baseball/softball hitting training device 20.

[0063] Preferably the offset lower portion 59 and the offset upper portion 51 are between 10 and 18 inches in length, and most preferably are 12-14 inches in length. Preferably the offset midsection 57 is between 20 and 30 inches in height, and most preferably 23-28 inches in height. Preferably the upwardly-projecting arm 45 extends from 2 to 10 inches above the attachment location of the offset portion 50 on the vertical stem 22. The separate upwardly-projecting arm 45 may have a length of from 5 to 18 inches but is preferably 8-10 inches.

[0064] A tether mount 46 (to which a portion of the ball suspension system 30 will be attached) is disposed within both the upwardly-projecting arm 45 and downwardly-projecting arm 55 at the open ends or preferably a short distance (such as one half to two and a half inches) inside of the open ends. In the first embodiment of FIG. 1, at least a portion of the tether mount 46 protrudes outside of the outer walls of the upwardly-projecting arm 45 and the downwardly-projecting arm 55. In FIG. 1 this tether mount 46 is shown as a nut and bolt 48. The portion of the tether mount 46 that is interior of the outer walls of the arms 45, 55 is a shaft 42, 52 (FIG. 4) to which the upper and lower cord-to-shaft connectors 25 of the ball suspension system 30 are removably attachable.

[0065] The ball suspension system 30 includes the ball 35 supported by and suspended intermedially on a resilient tether 31, with the tether 31 having opposing ends configured with an upper and lower cord-to-shaft connector 25. The upper and lower cord-to-shaft connectors 25 attach to the interior shaft 42, 52 of the lower and upper tether mounts 46. The lower and upper cord-to-shaft connectors 25 may be a connector with an open hook 29 or may be a closed ring-type connector (FIG. 7). The hook-type cord-to-shaft connector 25 may be used with either the removable tether mount 46 (such as the shaft 42, 52 of bolt 48) of FIG. 5 or with the permanently affixed tether mount 46 (such as a shaft that is permanently connected to, or formed integrally with, the external walls) of FIG. 4. If the ball 35 is to be removable, the ring-type connector can only be used with the removable tether mount 46 of FIG. 5, as it can be held in place while the shaft is inserted through it.

[0066] Preferably the cord-to-shaft connector 25 is a hook-type connector, such as an eye hook 28 with a safety latch, a carabiner connector, a snap hook with a latch, a scaffold hook, a hook 29 attached via at an articulation device or hinge 23 to a safety latch, or the like. In one aspect of the invention, the cord-to-shaft connector 25 may be a hook-type connector with a swivel incorporated.

[0067] A longitudinally resilient, i.e. elastic, cord is used to form the tether 31. Typically, the upper and lower end portions of the tether 31 are attached to the upper and lower cord-to-shaft connector 25, respectively, via a connector securing mechanism 27. Optionally, for a variation in a skill drill, the lower portion of the tether 31 may be unattached with only the top portion of the tether 31 remaining attached. The connector securing mechanism 27 may be as simple as a knot (FIG. 7) or may be any conventional securing mechanism 27 (for example, rings of metal 26 or another clamping mechanism such is as used to secure a hook to the end of a shock cord). The installation of the connector securing mechanism 27 may create a tether loop 32 that is inserted through an eye 28 (FIG. 6). The connector securing mechanism 27 may be disposed at the ends of the tether 31 or near the ends of the tether 31 with a residual portion 21 of the tether 31 extending beyond the securing mechanism 27. This connector securing mechanism 27 may be permanently or removably attached to the end portions of the tether 31. Permanently attaching the opposing ends of the tether 31 to the cord-to-shaft connectors 25 may be beneficially sturdier and more robust, but when the player needs to replace the ball 35, the entire ball suspension system 30 will necessarily need to be purchased, because the ball 35 cannot be slid off and replaced. Removably attaching the opposing ends of the tether 31 to the cord-to-shaft connector 25 or at least removably attaching the upper end of the tether 31 to the cord-to-shaft connector 25 may allow for replacement of only the ball 35.

[0068] The ball 35 may be a baseball, softball, or other type of conventional sports ball. Ball 35 is configured with a vertically oriented bore defined by bore edges 34 (FIGS. 6, 7, 8) passing from its top surface through to its bottom surface. In one aspect, a center portion 33 of tether 31 is fed through the bore. In another aspect of the invention (shown in FIG. 9) the vertically-oriented bore may be lined with a sleeve 37 with or without flanges 36. The optional sleeve 37 may serve to protect the bore from wear.

[0069] The ball 35 may be suspended on the tether 31 via a vertical location restraining mechanism 38. The restraining mechanism 38 serves to hold the ball 35 at a desired vertical location on tether 31 with a tether lower portion 39 extending below the restraining mechanism 38. The restraining mechanism 38 may be as simple as a knot (shown in FIG. 9) or may be a separate apparatus, such as a tightly wound wire, clamp, a yoke that can be tightened, or any other of various conventional clamping, gripping, or clasping devices.

[0070] The second embodiment shown in FIG. 2, in comparison to the first embodiment, illustrates variations in the base 60, in the upwardly-projecting arm 45, and in the offset portion 50.

[0071] The fillable base 60 of the second embodiment includes a container with an open interior that can be filled via a removable plug 66 (such as with water or sand) to significantly increase the weight so that the baseball and/or softball hitting training device 20 stays in place. The base 60 has a hollow interior for receiving the fill material. In an aspect shown in FIG. 2, the base 60 may be outfitted with a set of wheels 69 to provide a convenient means of movement of the baseball/softball hitting training device 20. The weighted base 60 may be optionally detachable from the frame body 40 to increase efficiency of transport.

[0072] The second embodiment also illustrates that the offset portion 50 need not be angular as in the first embodiment but can have a softened U-shape or a C-shape (as illustrated). The C-shape has a curved lower offset portion 59, a slightly curved midsection 57, and a curved upper offset portion 51 that ends in downwardly-projecting arm 55.

[0073] Additionally, the upwardly-projecting arm 45 of the second embodiment of FIG. 2 illustrates a fish mouth top edge 24 in which the portion of the fish mouth top edge 24 in line with the swing is cut lower than the portion of the fish mouth top edge 24 that is not in line with the swing. This provides additional freedom of movement for the tether 31. This is in contrast to the first embodiment that has straight top and bottom edges 24, in contrast to the third embodiment that has tether end caps 70, and in contrast to the fourth embodiment that has a flared top edge 24.

[0074] The third embodiment illustrated in FIG. 3 is similar in many aspects to the first and second embodiments, but illustrates variations in the base 60, in the structural material used for the frame body 40, in the permanently affixed tether mount 46, and in the inclusion of tether end caps 70.

[0075] The base 60 of the third embodiment, like the base 60 of the second embodiment, includes a flattened cylindrical container having a hollow interior for receiving a fill material, such as sand or water, but differs from the base 60 of the second embodiment in that it has no wheels.

[0076] The frame body 40 of the third embodiment is angular, as in the first embodiment, but formed of round tubular members, as in the second embodiment and as in the fourth embodiment. The variations shown in the embodiments illustrate that the frame body 40 can be formed of any of a variety of materials having any of an assortment of external form factors. For example, the structural members of the frame body 40 may be formed of PVC pipe having a diameter of from 2 to 4.5 inches or formed of a metal, such as 1 to 2.5-inch square or cylindrical steel or aluminum, which may add sufficient weight to lend stability to the structure during use. Preferably the material has a tubular form, or some other such form as would maximize its strength while being relatively inexpensive to form and use. At least the upwardly-projecting arm 45 and the downwardly-projecting arm 55 of the frame body 40 are tubular so the ball suspension 30 is attachable within the open ends, shown in FIG. 4 as shafts 42, 52 that extend across the interior of the tubular structure.

[0077] Additionally, as best seen in FIG. 4, the third embodiment illustrates a permanently affixed tether mount 46, in contrast to the removable tether mount 46 (nut and bolt 48) of the first embodiment. The permanently affixed tether mount 46 is shown as an upper and lower shaft 42, 52. Shaft 42, 52 is permanently connected to, or formed integrally with, the external walls of the tubular arms 45, 55 of FIG. 4. The upper and lower cord-to-shaft connectors 25 of the ball suspension system 30 are removably attachable to this shaft 42, 52.

[0078] In an aspect shown in FIGS. 3, 4, and 10, a tether end cap 70 is provided to be attached over the open ends of the upwardly-projecting arm 45 and downwardly-projecting arm 55 of the frame body 40. The tether end cap 70 has a shape that generally corresponds to the shape of the upwardly-projecting arm 45 or the downwardly-projecting arm 55 to which it is to be attached. In the illustrated tether end caps, the shape is cylindrical to fit over cylindrical frame tubing. The tether end cap 70 has exterior walls 71 (FIG. 10) of sufficient thickness to retain the end cap 70 in position and of a material that is not brittle and susceptible to cracking upon impact. Each end cap 70 is preferably configured with an open slot 75 (or coin slot) defined by slot edges 77. The slot 75 is generally thin and oblong with the longer dimension aligned with the direction of the swing of the bat to allow movement of the elastic tether 31 within the slot 75. Thus, the slot-end 77 of the end cap and the opposing end of the end cap both have an opening. The slot of the slot-end of the end cap receives a portion of the tether 31. The opposing end is sized and shaped to accommodate the open end of the upwardly-projecting arm 45 or the downwardly-projecting arm 55 to which it is to be attached.

[0079] The tether end cap 70 may be attached permanently or removably. It is preferred that the end cap 70 be removably attached to allow for replacement in case of damage from misplaced bat impacts. The removably attachable end cap may be frictionally engaged, threadingly engaged, or secured by a securing mechanism. The preferred material to form the tether end cap 70 is a natural or man-made material characterized by strength and ductility that withstands both stress and strain by absorbing energy and plastically deforming without fracturing. Non-limiting examples are polyurethane and other plastics, rubber, and NINJA FLEX and other thermoplastic polyurethanes.

[0080] In a further aspect, the baseball/softball hitting training device 20 may additionally comprise a batting tee insert 80 to enhance the usability of the device 20 and to increase the types of hitting drills that can be performed with the device 20. To use the batting tee insert 80, the vertical stem 22 (with the attached offset portion 50) is removed from the top of the frame receiving portion 90 of the base 60. The lower end 87 of the batting tee 80 is then inserted into the top end 47 (FIG. 1) of the frame receiving portion 90.

[0081] Any of various types of batting tee inserts may be used, exemplary ones of which are illustrated in FIGS. 11, 12, 13. All the exemplary batting tee inserts have a ball-receiving upper portion 85 with a generally circular upper opening for holding the ball 35 in position to be hit. The walls of the ball-receiving upper portion 85 may be thinner, as seen in the wall edge 84 in FIGS. 11-12, or thicker, as in the wall edge 84 in FIG. 13. FIG. 11 shows a cone-shaped batting tee insert having side walls 83 in a cone shape; FIG. 12 shows a cylindrical batting tee insert with cylindrical side walls 83; FIG. 13 shows a square-to-round conversion batting tee insert with the lower end 87 configured to correspond to a frame 40 formed of a square tubing material, with cylindrical upper side walls 83 supporting a truncated cone-shaped side wall 88 ending in the ball-receiving portion 85.

[0082] The preferred fourth embodiment, as seen in FIGS. 14-17, illustrates variations in the base 60, in the ball suspension system 30, in the frame body 40, and in the conversion tee 80 (FIGS. 15-16).

[0083] The offset base 60 of the fourth embodiment comprises three leg projections 61 instead of the four leg projections 61 of the first embodiment, and the attachment point for the frame receiving portion 90 is not at a central leg joining area 65 (as in the first embodiment) but is instead at an offset junction point 63.

[0084] The three leg projections 61 of the offset base 60 include two connectional legs 81, 82 and one somewhat longer foundational leg 62. The foundational leg 62 comprises a bracing portion 64, an intermediary portion 68, a T-shaped portion 95, and an attached frame receiving portion 90. The bracing portion 64 extends longitudinally along the x axis from the distal end 99 to the opposing T-shaped portion 95 with the upwardly-extending frame receiving portion 90 attached within the proximal half of the foundational leg 62 (proximal to the connectional legs 81, 82). The frame receiving portion 90 extends at a perpendicular angle to the bracing portion 64 in the z axis. The T-shaped portion 95 is attached to the proximal end of the foundational leg 62 and has two arms, the two tubular T-extensions 91, 92. The two tubular T-extensions 91, 92 are perpendicular to the foundational leg 62 in the y axis. Preferably the length (in the y direction) of the two tubular T-extensions 91, 92 may be from 7 to 25 inches, but is most preferably 10 to 15 inches. The connectional legs 81, 82 may have a length of between 8 and 30 inches, but are preferably between 18 and 22 inches.

[0085] The intermediary portion 68 is disposed between the T-shaped portion 95 and the junction 63 at which the frame receiving portion 90 attaches to the bracing portion 64. The bracing portion 64 of the foundational leg 62 is preferably integrally formed with, or fixedly connected to, the intermediary portion 68. The intermediary portion 68 is preferably integrally formed with, or fixedly connected to, the T-shaped portion 95. The length of the intermediary portion 68 is less than half the total length of the foundational leg 62 and is preferably 10 to 40% of the total length of foundational leg 62. Together the intermediary portion 68 and the bracing portion 64 may be from 22 to 36 inches in length, but are preferably 25 to 29 inches in length.

[0086] The frame receiving portion 90 is disposed along the top of the foundational leg 62, attaching at offset junction point 63, and is disposed within the proximal half of the foundational leg 62, where the proximal half is the half nearer to the T-shaped portion 95. The frame receiving portion 90 may be fixedly connected to, integrally formed with, or removably attached to, the foundational leg 62, but preferably is fixedly connected.

[0087] The outward end of the first T-extension 91 is open and sized to receive the first connectional leg 81. The outward end of the second T-extension 92 is open and sized to receive the second connectional leg 82.

[0088] At least one of the two connectional legs 81, 82, and preferably both connectional legs 81, 82, are removable from the first and second T-extensions 91, 92, respectively, by utilization of a coupling and de-coupling mechanism 86. Preferably, a releasable and engageable coupling mechanism 86 is disposed between the outward end of the first T-extension 91 and the inner end of the first connectional leg 81; and a releasable and engageable coupling mechanism 86 is disposed between the outward end of the second T-extension 92 and the inner end of the second connectional leg 82. The releasable and engageable coupling mechanism 86 may be the same type of device as the height-adjustment mechanism 44 or the releasable and engageable coupling mechanism 86 and the height-adjustment mechanism 44 may be different types of devices. The releasable and engageable coupling mechanism 86 shown in FIGS. 14-17 are depressible buttons that interact with holes in the corresponding part, but other releasable and engageable coupling mechanisms are suitable.

[0089] At least one of the two connectional legs 81, 82, and preferably both connectional legs 81, 82 and the foundational leg 62, are fitted with a leg end cap 93, which may be attached permanently or removably, but is preferably removable. The leg end cap 93 is configured with an interior surface sized to frictionally engage the outer surface of the connectional leg 81, 82 and foundational leg 62. The end cap 93 is further configured with a concave outer surface 89 (FIG. 17). The end cap 93 serves two purposes. First, it serves as a termination or closure to the distal open tubular end of the connectional legs 81, 82 82 and foundational leg 62 for increasing safety and the overall aesthetic look of the device. Second, one connectional leg 81, 82 can be removed from the T-shaped portion 95 of the foundational leg 62 and can be inserted into the frame receiving portion 90 to serve as an upwardly-projecting batting tee onto which a standard baseball or softball may be placed. The ball 35 is rested on the concave surface 89.

[0090] In this fourth embodiment, to convert the batting swing training device to a tee-type device, the user removes one of the first or second connectional legs 81, 82 from the corresponding first or second T-extension 91, 92. This removed leg is then connected to the top of the frame receiving portion 90 of the base 60, as shown in FIGS. 15-16. As shown in FIGS. 15-16, the remaining T-extension 92, the connectional leg 81, and the foundational leg 62 remain horizontal on the ground to support the tee-type device created by the insertion of the leg 82 into the top of the frame receiving portion 90 of the base 60. The concave surface 89 of the top of the terminal cap 89 of the leg 82 is sufficiently deep to accommodate a ball positioned in the concavity 89 but shallow enough to allow the ball to be hit off the tee-type device.

[0091] To use the baseball/softball hitting training device 20, the player assembles the device 20, which, depending on the design of the device 20, may include all or some of the following steps. When using the device of the second and third embodiments, the weighted base 60 is filled with fill material. The vertical stem support section 41 of vertical stem 22 is attached to the frame receiving portion 90 of the base. The ball suspension system 30 is installed by attaching the upper and lower cord-to-shaft connectors 25 of the ball suspension system 30 to the shafts 42, 52. The player can then adjust the height via the stem height-adjustment system 44, which is disposed at the intersection of the stem support section 41 and the frame receiving portion 90, to position the ball 35 at the desired height for the hitting training drill to be performed. In the aspects of the invention that include an arm height-adjustment system 44 (shown in FIGS. 14-17), the arm height-adjustment system 44, which is disposed at the intersection of the stem support section 41 and the upwardly-projecting arm 45, can be utilized by the player to increase or decrease the vertical swing opening (into which the ball is held on the ball suspension system), thereby increasing or decreasing the difficulty of the swing practice drill. The player then uses a bat to practice his/her swing to hit the suspended ball 35.

[0092] In the first, second, and third embodiments, if the player desires to use the device as a batting tee, the stem portion 41, the attached offset portion 50, and the attached ball suspension system 30 are removed from the frame receiving portion 90, and the tee insert 80 is inserted into the top of the frame receiving portion 90.

[0093] In the fourth embodiment, as seen in FIGS. 15-16, if the player desires to use the device as a batting tee, the stem portion 41, the attached offset portion 50, and the attached ball suspension system 30 are removed from the frame receiving portion 90. Then one connectional leg 81, 82 is removed from the T-shaped portion 95, and the removed connectional leg 81, 82 is inserted into the top of the frame receiving portion 90.

[0094] When using the tee-type device, the stem height-adjustment system 44 can also be utilized by the player to adapt the height of the ball placed onto the batting tee insert 80 to the desired height for the hitting drill.

[0095] The material used to form the elastic cord of the tether 31 preferably has the qualities of resilience, extensibility, and tensile strength. Preferably a natural or synthetic rubber or a rubber composite is used. The diameter of the tether 31 is preferably between one-quarter inch and three-quarters inch. The rubber component may form a center core with a single-layer or multi-layer jacket over the inner elastic component. The jacket is typically formed of nylon and/or braided cotton. A shock cord-type material may be used. Optionally, resistance bands may be used.

[0096] Preferably in this fourth embodiment, the material forming the frame and base may be tubular metal; and most preferably, the material forming the frame and base may be cylindrical tubular metal.

[0097] The width or diameter of the base 60 may be in the range of 1 to 4 feet. The weighted base filled with the fill material may weigh in the range of 25 to 70 pounds, with around 35 pounds preferred. The multi-projection base may weigh from 7 to 50 pounds. The vertical stem 22 and frame receiving portion 90 preferably support the offset portion 50 from 15 to 40 inches from the ground. Preferably the vertical stem 22 and the frame receiving portion 90 may together adjust from 25 to 40 inches in height, with a 32-inch height being a typical usage height.

[0098] The invention illustratively disclosed herein suitably may be practiced in the absence of any element which is not specifically disclosed herein.

[0099] Since many modifications, variations, and changes in detail can be made to the described preferred embodiments of the invention, it is intended that all matters in the foregoing description and shown in the accompanying drawings be interpreted as illustrative and not in a limiting sense. Thus, the scope of the invention should be determined by the appended claims and their legal equivalents.