Tethered punching bag support device

A punching bag support device including a lower frame assembly, an upper frame assembly, a height adjustment pole assembly selectively attachable at an upper end to the upper frame assembly and at a lower end to the lower frame assembly, a punching bag support platform selectively and adjustably attachable to the upper frame assembly and a cross bar selectively attachable to the lower frame assembly or the height adjustment pole assembly.

BACKGROUND OF THE INVENTION 
The present invention generally relates to boxing training devices. More 
specifically, this invention relates to support means for tethered 
punching bag training devices. 
Various support means for punching bag training devices are disclosed in 
the prior art which provide for free swinging and turning of a punching 
bag and/or vertical adjustment of a punching bag. Such devices facilitate 
the training of a boxer in the different punches of the sport. Vertically 
adjustable punching bags are also adaptable for the training of boxers of 
different heights. In U.S. Pat. No. 818,604 to Bierd a punching bag 
support is disclosed which comprises a bag supporting hanger threadedly 
attached to a bearing ring, said bearing ring being rotatably engageable 
with a support bracket that is fixedly attachable to a ceiling or other 
like surface. The bag supporting hanger is constructed in a manner to 
permit the suspension of a punching bag therefrom by a rope or rod. A 
similar punching bag support is described in U.S. Pat. No. 1,050,501 to 
Walter which reduces wear on the suspended rope as it swings back and 
forth by securing one end of the support rope to a hollow ball seated 
within a tubular member. Vacuum cup punching bag mounting means are 
described in U.S Pat. No. 3,226,116 to Klingler. While these punching bag 
support means of the prior art permit pendulum rotation and axial turning 
of a punching bag, they are not adaptable for the training of boxers of 
different height or for training for opponents of varying height. 
Furthermore, training on punching bags so supported is generally limited 
to speed training due to the rapid pendulum movements of the bag. 
Vertically adjustable punching bag supports and boxing training devices 
that permit striking of a bag from different positions are also known in 
the prior art. In U.S. Pat. No. 1,851,649 to Schindler an adjustable 
punching bag is disclosed having a bag suspended from an elastic cord that 
is attached to a vertically adjustable support line by means of a slidably 
mounted carrier device. The support line is detachably securable at its 
ends to a wall or like surface and includes stops selectively disposed 
upon said support line to limit the lateral movement of said carrier 
device along said support line. In U.S. Pat. No. 2,625,356 to Kennedy et 
al. there is disclosed an adjustable punching bag training device 
comprising, in combination, a slidably mounted rod telescoped in a base 
post, a horizontally-extending platform attached to said rod, and a 
punching bag suspended from said platform. In U.S. Pat. No. 4,257,589 to 
Outlaw there is disclosed a handle and cleat adjustment structure for 
vertical adjustment of a suspended training device. Furthermore, none of 
the punching bag supports of the prior art, except for the Schindler 
invention, permit a bag to be punched while moving laterally. Generally, 
the adjustable punching bags of the prior art also change the bag's reflex 
time when the tethered supporting rope or rod is adjusted to various 
lengths. These and other limitations of the prior art are overcome by the 
invention of the present disclosure. 
SUMMARY OF THE INVENTION 
The present invention is a tethered punching bag support device generally 
comprising a structural framework including a lower frame assembly, a 
laterally adjustable upper frame assembly, a height adjustment pole 
assembly disposed between the lower frame assembly and the upper frame 
assembly, a punching bag support platform attached to the upper frame 
assembly, and a laterally adjustable cross bar selectively attachable to 
either the lower frame assembly or the height adjustment pole assembly. A 
tethered punching bag is adjustably extendable at various lengths from the 
punching bag support platform. Support platform may be disposed at various 
angular orientations from the upper frame assembly. 
An object of the present invention is to provide a tethered punching bag 
support that is adjustable for training in the various boxing regimens 
including speed punching, jabs, hooks, power punching and lateral 
movement. 
Another object of the present invention to provide a punching bag support 
that can be adjusted vertically for training of boxers of different height 
or for training for opponents of different height. 
It is also an object of this invention to provide a punching bag support 
that can be vertically adjusted without changing the reflex time of the 
punching bag. 
A further object of the present invention is to provide a boxing training 
device that can be easily assembled and disassembled for storage and 
transport. 
These and other objects and advantages of the present invention will be 
apparent to those skilled in the art from the following description of a 
preferred embodiment, claims and accompanying drawings.

DESCRIPTION OF A PREFERRED EMBODIMENT 
FIG. 1 illustrates in a front perspective view a preferred embodiment of 
the tethered punching bag support device 1 of the present invention. 
Punching bag support device 1 generally comprises a lower frame assembly 
10, an upper frame assembly 20, a height adjustment pole assembly 30 
disposed between the lower frame assembly 10 and the upper frame assembly 
20, a punching bag support platform 40 adjustably attached to the upper 
frame assembly 20, and a laterally adjustable cross bar 50 selectively 
attachable to either the lower frame assembly 10 or the height adjustment 
pole assembly 30 as hereinafter described in greater detail. 
Lower frame assembly 10 includes respective first and second 
vertically-extending base post members 11 and 12, preferably tubular 
members. Respective base post footings 13, 14 selectively engage the lower 
ends 11a, 12a of the base post members 11, 12. Base post members 11, 12 
further include respective brace engagement arms 11b, 12b which are 
fixedly attached to an upper portion of said base post members 11, 12 at a 
rearwardly and downwardly-extending angular orientation of approximately 
45.degree..Said brace engagement arms 11b, 12b selectively receive the 
upper ends 15a, 16a of respective lower frame assembly brace members 15, 
16. Brace member footings 17, 18 selectively engage the lower ends 15b, 
16b of the respective brace members 15, 16. A plurality of vertically 
displaced base post openings 19 extend laterally through the upper ends 
11c, 12c of the respective base post members 11, 12 for selective vertical 
adjustment of the height adjustment pole assembly 30 and the cross bar 50 
as hereinafter described in greater detail. 
Upper frame assembly 20 includes first and second right-triangled frame 
subassemblies 21, 22 having the right angle of said frame subassemblies 
21, 22 disposed to the rear of said upper frame assembly 20. The 
respective first and second frame subassemblies 21, 22 preferably comprise 
a vertical tubular member 21a, 22a, a hypotenuse tubular member 21b, 22b 
and a base member 21c, 22c preferably formed from a T-shaped beam having 
the stem 21c', 22c'thereof (FIG. 4) extending vertically upward. 
Subassembly stiffeners 21d, 22d extend between the vertical tubular 
members 21a, 22a and the hypotenuse tubular member 21b, 22b parallel to 
the base members 21c, 22c. Respective first and second lateral arms 23, 24 
are fixedly attached at one end to inside portions of the respective 
vertical tubular members 21a, 22a, the distal end of the first lateral arm 
23 being telescopically received in the distal end of the second lateral 
arm 24 (FIG. 2). Height adjustment pole receptacles 25, 26 are fixedly 
attached to outside portions of the respective vertical tubular members 
21a, 22a. Respective pull-up bars 27, 28 extend rearwardly from the 
respective pole receptacles 25, 26. 
As can be seen in the top plan view of the upper frame assembly 20 in FIG. 
2, a hinge plate 29 is hingedly attached by hinge means 29a to the forward 
end of the respective base members 21c, 22c. Hinge plate 29 facilitates 
the angular adjustment of punching bag support platform 40 as hereinafter 
described. 
Referring again to FIG. 1 it can be seen that height adjustment pole 
assembly 30 substantially comprises first and second height adjustment 
poles 31 and 32. Each of the poles 31, 32 includes a plurality of 
vertically displaced pole openings 31a, 32a which extend laterally through 
the poles 31, 32. Height adjustment poles 31, 32 are selectively 
receivable at upper ends thereof 31b, 32b in the height adjustment pole 
receptacles 25, 26 of the upper frame assembly 20. The respective lower 
ends 31c, 32c of the respective poles 31, 32 are selectively receivable in 
the upper ends 11c, 12c of the respective base post members 11, 12. Height 
adjustment poles 31, 32 can therefore be vertically adjusted within the 
base post members 11, 12. Upper frame assembly 20 can be separately 
adjusted vertically along the length of the height adjustment poles 31, 
32. 
Cross bar 50 comprises first and second bar members 51, 52 telescopically 
receivable in each other and having respective vertically disposed cross 
bar end members 53, 54 fixedly attached at respective ends of the 
respective bar members 51, 52. The respective first and second bar members 
51, 52 include respective bar member openings 51a, 52a which selectively 
align for fixed attachment of the bar members 51, 52 via a cross bar pin 
55. As can be seen in the fragmented elevational view of the juncture 
illustrated in FIG. 3 the cross bar end members 53, 54 surround the base 
post members 11, 12 and the height adjustment poles 31, 32. Height 
adjustment poles 31, 32 and cross bar 50 are selectively fixable to base 
post members 11, 12 by engagement of respective vertical adjustment pin 
56, 57 in the base post openings 19 and the pole openings 31a, 32a. 
Punching bag support platform 40 generally comprises a substantially flat 
board 41, preferably formed from plywood or like laminated wooden 
structure. As can be seen in FIG. 2, support platform 40 further includes 
respective pairs of Z-shaped angle members 42, 43 disposed to each side of 
the hinge plates 29. The upper legs 42a, 43a of the angle members 42, 43 
are disposed above the outer portions of the hinge plates 29 to thereby 
provide respective retaining guide slots 44, 45 for the hinge plates 29 
(FIG. 4). Hinge plates 29 are slidable within the retaining guide slots 
44, 45 to move forwardly and rearwardly therein for angular adjustment of 
board 41. Support platform 40 further includes a rope pulley 46 and rope 
anchor 47 for adjustable attachment of a punching bag 60. Punching bag 60 
is attached to a rope 61 via a S-hook 62 and is selectively extendable at 
various distances from board 41. Rope 61 extends through board 41 around 
rope pulley 46 and is fastenable around rope anchor 47 to secure the 
punching bag 60 at a selected height. 
Board 41 can be adjusted to various angular orientations relative to upper 
frame assembly 20. When board 41 is disposed in a first horizontal 
position as illustrated in FIGS. 1 and 2, hinge plates 29 are fixedly 
attached to a first position on the upper surface 41a of board 41 below a 
rearward portion of the respective pairs of Z-shaped angle members 42, 43 
(FIG. 2). The rearward edge of board 41 is disposed on U-clamps 48, 49 
fixedly attached to the respective pole receptacles 25, 26 of upper frame 
assembly 20. To disposed board 41 in a second position as illustrated in 
FIGS. 5 and 7, hinge plates 29 are moved forward below the Z-shaped angle 
members 42, 43 and fixedly attached to a more forward portion of board 41 
(FIG. 6). The rearward edge of board 41 is simultaneously lowered and 
disposed on U-clamps 48, 49 now attached to the respective height 
adjustment poles 31, 32. 
As shown in the front elevational view of the punching bag support device 1 
illustrated in FIG. 7, cross bar 50 may alternately be disposed between 
and attached to the respective height adjustment poles 31, 32. 
Various changes, modifications and additions may be made to the present 
invention without departing from the spirit and scope of this disclosure. 
Such changes, modifications and additions within a fair reading of the 
claims are considered a part of the present invention.