Patent Grant
8647242
This application relates to striking devices used to train individuals for fighting in sporting events and in combat situations, as well as for individuals who wish to use these training methods for personal fitness, weight loss and recreational purposes.
In particular, it relates to training devices for the practice of hand, foot, elbow and knee strikes for improvement of skills in the area of Martial Arts, Mixed Martial Arts, Boxing, Kick Boxing, Law Enforcement, Military, or any other field where a total body workout is desired while practicing fighting skills.
With the ever growing interest in martial arts by both civilians and the military (particularly mixed martial arts), a sturdy device that will allow a user to practice and improve skills without causing harm to others would be beneficial.
In the prior art, it is often necessary to have a partner hold a striking device; those wishing to improve their skills when they are alone are limited in their choices. Injuries are also a common problem when holding striking devices for others.
A key part of true combat fighting is the use of upper cut strikes, elbow strikes and knee strikes. There is no prior art that we could locate that is designed to allow a user to practice elbow and knee strikes, particularly in combination with hand strikes and kicks, without multiple equipment adjustments.
The use of various types of padded striking devices which could be utilized to improve hitting and kicking skills using some type of spring mechanism is well known in the prior art. As far back as U.S. Pat. No. 615,700 issued to Hess on Dec. 13, 1898 shows a punching bag with a spring mechanism. Today, large heavy punching bags, which are usually mounted by a single harness from an overhead support, largely represent the state of the art in providing striking practice for developing kicking and punching skills. An important deficiency experienced with this art is they are only useful in developing punching skills of straight punches, or “hook” punches, (a close punch delivered from the side). Lacking in this art is the ability to develop an uppercut punch (a rapidly rising blow delivered with the arm bent up), or strikes with the knees or elbows from above or below.
In U.S. Pat. No. 4,702,472 issued to Anquetil on Oct. 27, 1987, a training dummy for combat sports is described. When reviewed closely, several deficiencies are found.
Most prior art also fails to provide the so-called “bounce-back after the strike is delivered. This is a feeling that occurs in an actual event when an individual lands a strike on another person. In most prior art, a strike lands on a dull and unresponsive surface which 1) does not accurately simulate what occurs in an actual fighting situation and 2) does not provide an ‘incentive’ for continued strikes.
U.S. Patent Application No. US 2004/0220021 A1, Nov. 4, 2004 to Bryant for a Martial Arts Practice Apparatus which indicates a wall mounted device with a singular striking pad mounted on wood with springs. It includes an electrical circuit that blinks. This device does not appear to address the issue of durability, particularly when utilized for military, law enforcement, or high level martial arts. In particular, the electrical circuitry may not be practical when the unit is experiencing heavy usage. The forces involved would eventually loosen wires or damage the lights which could render this concept useless. Application 0220021 also does not appear to be practical for the practice of knee, elbow and upper cut strikes.
U.S. Pat. No. 4,309,029 describes a device “. . . comprising a base and at least two arc supports of differing heights”. The inventor goes on to describe the invention as one that can be used by “students . . . of a variety of size and strengths”. It appears that the inventor is using the terms ‘size’ and ‘strength’ synonymously. The invention in question makes a provision for adjusting the tension of the springs, which would allow users of different strengths to use the machine (note that this would be AFTER the machine was adjusted), however, there are only two pads, and the heights of the pads are not variable. Therefore, it would be impractical, if not impossible, for a 5-year-old student to use the device and for a 25-year-old to use it without adjustment. Our device allows for use by users of all sizes without any adjustments whatsoever. Also, because the pads of U.S. Pat. No. 4,309,029 are set at a single height, it only allows the practice of strikes at those two levels, not at a variety of levels as our device allows. The mounting of one pad behind the other in U.S. Pat. No. 4,309,029 leads us to believe that it is, at best, impractical, and at worst, dangerous, to perform kicking strikes on the back pad. Therefore, this limits kicking strikes to only one pad that must be adjusted multiple times.
In U.S. Pat. No. 4,702,472 issued to Anquetil on Oct. 27, 1987, a training dummy for combat sports is described. When reviewed closely, several deficiencies are found. The side to side movement of U.S. Pat. No. 4,702,472 does not necessarily accurately simulate an opponent. When fighting an actual opponent their tactical movements would be based on real attacks and counter attacks, and not random, side to side movements based on chance. In addition, the 5 degree forward angle starting position of U.S. Pat. No. 4,702,472 results in an unrealistic starting point for the athlete when striking the device. Fighters of all different styles would be hard pressed to find an opponent leaning 5 degrees forward with their face or body. In one embodiment,
The numerous and varied assembly groups that are used in U.S. Pat. No. 4,702,472 require a plethora of moving parts. These parts may require periodic maintenance and replacement, adding an additional downtime and expense. Further, there are numerous assembly groups and components within the device that appear to be working against one another to create the intended movements. For instance, the spring used to return the dummy to “it's most inclined position forward” (along the vertical axis), is fine for that purpose, however, stresses will be created on the mounting point of the spring when the bearing shaft allows the dummy to move along the horizontal axis. Another area of concern is the use of a tubular sheath over the vertical mounting element. This type of design may tend to bind up under moderate or heavy use. In summary, when strikes and kicks are delivered with great force, and/or in a continuous fashion over a long period of time, the durability of U.S. Pat. No. 4,702,472 is an issue.
Another shortcoming of U.S. Pat. No. 4,702,472 is that using a sliding head frame to perform upper cuts and requiring a hydraulic or screw jack to adjust the devices height requires multiple adjustments that stop, or slow down the flow of a workout. Our devices strategically placed, slanted pad surfaces require no adjustment, allowing an athlete, from an average 5 year old, up to a skilled MMA fighter, to work out on the device using the same strikes, kicks, elbows, knees or any combination of these without any adjustments or stoppage in the flow of the workout.
In U.S. Pat. No. 4,702,472, the inventor describes a “fixing element 6 of the support can be attached to a wall of training building or propped up between its ceiling and floor”. In the description, the sturdiness of the method of attachment to floor, ceiling or wall is so vague it begs for further description or proof for practical, real world usage. Further, U.S. Pat. No. 4,702,472 lacks the sturdiness and practicality of our attachment to the wall.
Most prior art also fails to provide the proper “bounce-back” after the strike is delivered. This is a feeling that occurs in an actual event when an individual lands a strike on another person. In most prior art, a strike lands on a dull and unresponsive surface which 1) does not accurately simulate what occurs in an actual situation and 2) does not provide an ‘incentive’ for continued strikes.
All of the devices above are potential solutions for the intended purpose. However, new improvements are constantly being added to the store of prior art. The mere fact that so many patents have issued on such devices is indicative of consumer interest and demand. Any improvement or innovation which results in a better user experience, can be used in multiple disciplines, allows for a wider variety of practice strikes and provides a more efficient or economical construction which would fulfill a need in this area.
In summary, the advantages that this device provides include, but are not limited to: 1) designed for three styles of fighting, combat, competitive and recreational, 2) safety and reduction of potential injuries because you strike the device and not an opponent, and it eliminates the need for a partner to hold pads 3) saving floor space because it has a smaller ‘footprint’ than much of the prior art 4) the spring mechanisms in combination with the caster assembly provides better user experience than is available in the prior art 5) the caster (or similar) assembly eliminates the need to anchor the device to the floor 6) the caster (or similar) assembly allows the device to move smoothly which provides an added incentive to the athlete to have a longer and more vigorous workout 7) it is specifically designed to allow for the practice of hand, foot, knee and elbow strikes in one device, without the need of adjustments which is a feature that is limited or nonexistent in prior art. 8) It can be used by individuals of any size and ability, at the same time, without adjustments.
In one aspect, the present invention is designed to provide users at all levels and abilities an automatic incentive to have longer and more vigorous workouts through the use of the multiple spring mechanisms in combination with the caster (or similar) assembly which creates a moveable center post. When struck by a user at a low level of force, the spring mechanism on the striking pads will move and return to its original position almost immediately, and provide an audible cue to the user. When struck with a higher level of force, not only does the striking pad move, but the spring mechanism on the wall mount assembly absorbs some of the force, while at the same time the entire device is allowed to move smoothly along the horizontal plane because it is mounted on a caster or similar assembly, and is not secured to the floor. This provides a strong incentive for an athlete to keep working to have the device move towards the wall.
The prior art lacks the spring loaded assemblies that work in conjunction with, in our embodiments, a balloon caster (any other suitable device could be used) that is mounted to the bottom of the main center post. This provides the desired feel when struck or kicked with heavy force from a powerful and experienced athlete. Two other benefits of the balloon caster are that it allows the center post to smoothly glide horizontally, and it helps to provide the necessary response from our embodiment when struck with the downward force of an elbow or similar strike. These unique characteristics are key to providing an incentive for the athlete to have longer and more vigorous workouts. Our two large spring assemblies hold a center post which is placed on a balloon caster, wheel, moveable track, or any other similar suitable device, to help support the unit and ensure its smooth backward movement and instant replacement to its original position of readiness when engaged. This configuration also provides a significant reduction in the noise and vibration caused by the use of our device.
It is an object of this invention to provide an audible and tactile cue to the operator to increase the incentive for hitting.
It is also an object of this invention that individuals of all heights, ages and skill levels can practice striking techniques on the same embodiment without having to adjust or change it in any way. This also allows an instructor to have students of different sizes and abilities use the equipment all at the same time.
It is another object of this invention that the various heights and angles of the striking pads allow a user to practice a wide variety of techniques including from lower body “knee strikes” and “shin kicks” to upper body punches and strikes. The option of practicing upper cut strikes and knee and elbow strikes from above and below are also incorporated in the embodiment. A unique feature of the embodiment is that all of these techniques can be practiced without any adjustments to the embodiment.
It is yet a further object of this invention that the apparatus can be used for military, sporting and civilian applications.
It is still a further object of this invention that it be used to improve the aim, force and technique of a wide variety of strikes and kicks with the hands, feet, elbows and knees without having to adjust the machine in any way. One minor ‘on the fly’ placement of a head assembly allows the user to practice multiple styles of head level kicks.
It is yet another object of this invention to maximize efficient space utilization and provide ease of installation. The device has a smaller ‘footprint’ than free standing devices or a suspended heavy bag. It is wall mounted to increase stability and durability and can be mounted sixteen inches on center to match standard studs. The mounting can also be adapted to other types of wall construction. The wall is protected from damage and excessive noise by the unique shock absorbing properties of the wall mount assembly and caster assembly.
It is also another object of this invention that users of the unit can practice alone without need for a partner to hold a striking pad.
It is another object of this invention that the apparatus helps to effectively train a student while minimizing the risk of injury to them or others.
FIG. 1.2.1 shows a top view of the connector channel assembly attached to the main post.
FIG. 1.1.1 shows a dynamic view of an embodiment of the striking apparatus.
FIG. 2.1.1 shows a side view of the striking pad assembly in an embodiment of the striking apparatus.
FIG. 6.2.1 is a detail view of an embodiment of the carriage bolt assembly.
FIG. 7.0.1 is a detail view of an embodiment of the mounting rods.
FIG. 7.0.2 is a drawing of an embodiment of the caster assembly.
FIG. 7.1.1 is a detail view of an embodiment of the mounting rods.
In summary, the advantages that this device provides include, but are not limited to: 1) designed for three styles of fighting: combat, competitive and recreational; 2) enhanced safety and reduction of potential injuries because a user strikes the device and not an opponent, and it eliminates the need for a partner to hold pads; 3) saved floor space because it has a smaller ‘footprint’ than much of the prior art 4) the spring mechanisms in combination with the caster assembly providing better user experience than is available in the prior art; 5) the caster (or similar) assembly eliminates the need to anchor the device to the floor; 6) the caster (or similar) assembly allows the device to move smoothly which provides an added incentive to the athlete to have a longer and more vigorous workout; 7) it is specifically designed to allow for the practice of hand, foot, knee and elbow strikes in one device, without the need of adjustments which is a feature that is limited or nonexistent in prior art; and 8) it can be used by individuals of any size and ability, at the same time, without adjustments.
Referring to
Referring to
In one embodiment, the striking pad 20 (
The pad mounting plate 12 provides a firm mounting surface for the striking pad 20. Its primary purpose is to allow for movement of the striking pad 20 along a mounting rod 13, (with the help of the bushing assembly as shown in
Referring to
Referring to
In order to create the necessary movement of the striking pad, the pad mounting plate 12 and pad connector plate 14 are assembled with the bushing assembly as described herein. Referring to
The size, length and resistance characteristics of compression spring one 48 can be varied to achieve the desired effect and resistance. In one embodiment, shown in
One of the features of the device is the ability to quickly and easily remove the striking pads if desired. Therefore, a mounting mechanism must be built in to the device to allow for this. Referring again to
In order to provide an effective user experience in regards to the knee and elbow strikes, the device must provide movement in a plurality of directions. In addition, the compression spring one 48 and the bushing assembly 15 are not durable enough to withstand the pressures of heavy blows from experienced fighters particularly with knees and elbows. This issue is solved in one embodiment with the addition of a connector channel assembly (
The front of the channel connector assembly has four slots 54, 55, 56 and 60. Slot 54 is positioned to align with the top tab 51 of the pad mounting plate and slot 56 placed to line up with the bottom tab 52 built into the pad connector plate 14. The top tab guide slot 54 in this embodiment is approximately 3 inches in length. The bottom tab guide slot 56 is also approximately 3 inches in length. The connector channel post 53 will have a right pull pin receiving hole 57 and a left pull pin receiving hole 78 drilled into it.
When the striking pad assembly 2 (in
When a user wishes to mount a striking pad assembly to the connector channel post 53 (
The channel connector assembly must now be attached to a main post in a manner that provides for the movement and durability described above. In one embodiment, the channel connector assembly may be attached to the main post by using, for example, a spring assembly such as the one shown in
The front of the channel connector assembly may have two access holes 55 and 60 drilled into it. These holes may line up with bushings 28 (
Referring to
Once secured, upon application of an appropriate force on the striking pad, the heads of the carriage bolts will strike the main post 1 to produce an audible effect. This audible effect may provide positive feedback to a user, informing user that proper force was delivered.
The other two of the six holes may be used for two bushings 28 (
The main post assembly (
In one embodiment the main post assembly 1 is 2½ inch square by 3/16 inch wall by 67½ inch HRS. Eight 5″ mounting rods 32 with threaded ends may be welded through the main post 1 in positions that line up with the position of the two bushings 28 that are located on each of the four connector channel posts 53. The threaded end of the mounting rods 32 will extend outward. The mounting rods 32 are welded in a position which extends through the main post 1 in a manner that is secure enough to withstand forces applied from punching, kicking and the like.
The connector channel assembly 53 (
In one embodiment, the wall mount assembly may provide a number of functions for the device: First, it is the most aggressive noise and vibration dampening mechanism on the device. When a device such as this is mounted to a wall without proper noise and vibration reduction technology, the device may be disturbing to others in a building or home and also potentially destructive or damaging to the wall itself; second it is the structure that attaches the main post 1 to a wall 101. This is the feature that eliminates the need for a partner to hold equipment. The third purpose of the wall mount assembly is to allow for spring loaded movement (in conjunction with the caster assembly described below) when the striking pad is struck with significant force. This movement provides a more realistic experience for the user because it simulates the lifelike movements of an opponent.
In one embodiment, the wall mount assembly may include a spring assembly as shown in FIGS. 8 and 8.1. The wall mount assembly (FIGS. 8 and 8.1) is attached to the main post assembly 1 by securing a front wall mount plate 44 to the main post 1 with the main post mounting bolt assembly 45. Bolts 45 are passed through the main post assembly 1 and threaded into two main post mounting threaded receiving holes 100.
The wall mount assembly is attached to the wall 101 via a rear wall mount plate 38 which in one embodiment is 1″×2 ½″×20″ plate of C.R.S, however it should be understood that an alternative size may be used. The rear wall mount plate 38 is anchored securely to a wall 101, in whatever fashion necessary for it to withstand the punching and kicking forces applied.
Two mounting rods 39 are welded to, and extend from, the rear wall mount plate 38 (
In order to minimize the noise and vibration generated from the use of the device, and to assist in providing the desired movement, one embodiment has the following parts placed over the mounting rods 39 in the order described here, starting from the wall and working outward. It should be understood that any rearrangement, modification, change or substation that achieves a similar significant noise and vibration reduction would be acceptable, including the introduction of commercially available technologies from a third party remains within the scope of the present invention.
In one embodiment, each of the mounting rods 39 first receives a compression spring 42a, next a rubber cushion 43a, is placed on the rod and the spring fits inside of this rubber cushion 43a and extends beyond the end of the rubber cushion 43a. Next a washer 69 rests against compression spring 42a, next a first bushing 70a is inserted into the washer 69 and inside of the compression spring 42a, next a bushing 70a is inserted into the washer 69 and inside of the compression spring 42a. A second bushing 70b is placed to abut the first bushing 70a so the large ends of both bushings are in contact with one another. A second compression spring 42b is placed on the second bushing 70b, a third bushing is placed at the end of the second compression spring. Next the mounting rods 39 are placed through the front wall mount plate 44, a metal washer 71 and three felt washers 72 are placed on the rod (with the metal washer 71 being placed against the front wall mount plate 44), the mounting rods 39 are then fit into a second rubber cushion 43b with the assistance of a rubber bushing/grommet 73 for sizing. The assembly is held together by a knob 49 which inserts into the second rubber cushion 43b and is fastened to the threads on the mounting rods 39.
Because the device is designed to provide a certain amount of movement when struck, the main post 1 must be able to move, and cannot be secured permanently to a static floor or base structure. Therefore, the main post 1 must be mounted on a movement device such as a ball, wheel, caster 37, sliding track or other similar movement device. This device provides support for the device as well as allowing for horizontal movement. In one embodiment, the main post 1 is mounted on a caster 37 and secured using mounting rod 36 to provide the necessary movement. (
In another embodiment of the device, the striking pad assembly 9 (
This embodiment will therefore now have three components. The striking pad assembly 9 which is directly attached to main post 7/34 which is attached to a wall mount assembly 4. The wall mount assembly 4 is constructed and arranged to be mounted securely to a wall 101.
Referring to
Referring to
The bushing assembly (FIGS. 9 and 9.1) may be identical to that described in the previous embodiment. Further, the main post assembly 7/34 may be attached to the wall mount assembly shown in
Referring now to
In another embodiment, the Focusmaster™ product may have a mounting plate provided with the product removed from the back of the pad. Pad mounting plate 12 is then attached to the striking pad 17 in the same manner as described in the previous embodiments using the threaded inserts that are already present in the Focusmaster™ torso pad.
A pad connector plate 18 must be fashioned to complete the assembly. In this embodiment, the plate may consist of ⅜″×8″×12″ CRS similar to the pad connector plate 16. Pad connector plate 18 will also have the same series of holes drilled into it as the previous pad connector plate embodiments.
In a further embodiment, the Focusmaster™ mounting connector is removed from the Focusmaster™ back plate and attached to pad connector plate 18. Testing has found that the Focusmaster™ back plate is inadequate to withstand the heavy hitting and kicking that the current embodiment is designed to handle. The Focusmaster™ product became fatigued and broke during our testing. It is therefore critical that a heavier duty connector plate, as described above, or its equivalent, be used.
The bushing assembly (
A speed bag attachment shown in
Referring to
| Number | Name | Date | Kind |
|---|---|---|---|
| 396938 | Kemmler | Jan 1889 | A |
| 615700 | Hess | Dec 1898 | A |
| 1205684 | Tothill | Nov 1916 | A |
| 3114549 | Hooker | Dec 1963 | A |
| 4093212 | Jacques | Jun 1978 | A |
| 4309029 | Tomko | Jan 1982 | A |
| 4635929 | Shustack | Jan 1987 | A |
| 4702472 | Anquetil | Oct 1987 | A |
| 4749184 | Tobin | Jun 1988 | A |
| 4836533 | Dong | Jun 1989 | A |
| 4932652 | Beall, III | Jun 1990 | A |
| 5046724 | Sotomayer | Sep 1991 | A |
| 5183451 | Hautamaki | Feb 1993 | A |
| 5277679 | Wells | Jan 1994 | A |
| 5458552 | Mara | Oct 1995 | A |
| D370507 | Kha | Jun 1996 | S |
| 5800319 | Choate | Sep 1998 | A |
| 5897465 | Hautamaki | Apr 1999 | A |
| 5899835 | Puranda | May 1999 | A |
| 6808477 | Tudor | Oct 2004 | B2 |
| 7044895 | Iglehart | May 2006 | B1 |
| 7479094 | Alexander | Jan 2009 | B1 |
| 7654941 | Lacher | Feb 2010 | B2 |
| 7914423 | Cogan | Mar 2011 | B1 |
| 20040220021 | Bryant | Nov 2004 | A1 |
| 20080020910 | Preciado | Jan 2008 | A1 |
| 20080032872 | Nappier | Feb 2008 | A1 |
| 20080076636 | Smith | Mar 2008 | A1 |
| 20110059827 | Fazio | Mar 2011 | A1 |
| Entry |
|---|
| http://www.merriam-webster.com/dictionary/track (c) 2013 Merriam-Webster, Inc. |
| “Focusmaster G-1000 Single Station” www.centurymartialarts.com/Targets—and—Shields/Focusmaster/FocusMaster—G-1000—Single—Station—Training—System.aspx. |
| Number | Date | Country | |
|---|---|---|---|
| 20120214648 A1 | Aug 2012 | US |
| Number | Date | Country | |
|---|---|---|---|
| 61463632 | Feb 2011 | US |
