This invention relates to a training pad used in training for sporting activities where a trainer presents the training pad for striking.
Combat sports, such as boxing, typically require athletes to have good speed, strength and accuracy so that they can strike their opponents whilst not being struck themselves. One method of improving the accuracy of athletes is for a trainer to use a pair of focus mitts, typically worn on the hands and having a target on a target surface, and sequentially present an athlete a target to strike. This may be done while in a sparring arrangement, which allows the athlete to improve the accuracy of their strikes whilst simulating the dynamic environment of competition.
One problem with prior art training pads, such as focus mitts, is the lack of variety in location of targets the trainer is able to present. Typically, the trainer will present the athlete with one or both targets at shoulder or head height, so that the athlete may strike the target by extending their arm to strike the target. The trainer may choose to contort their arms and torso so that additional targets may be provided at other heights, such as at waist height. However, as the athlete is effectively striking targets on the hands of the trainer, there is often a lack of resistance to the athlete, compared to the actual resistance experienced when hitting the body of an opponent. Such resistance may instead be provided by a larger punch bag held by the trainer. Whilst such targets can provide more resistance to the athlete's strike, a larger punch bag is typically attached to the arm of the trainer and held by at least one hand of the trainer to secure the punch bag when struck. This prevents the trainer from being able to utilise a punch bag and the focus mitts to provide a variety of targets to the athlete. Further, a punch bag is also much heavier than a focus mitt and is also only able to provide limited targets due to the lack of manoeuvrability of the heavier bag. Therefore, it is desirable to provide a training pad which can be worn by a trainer to provide a greater variety of targets at a greater variety of striking angles. It is also desirable to provide a training pad that is able to simulate body strikes on multiple locations, whilst allowing the trainer to remain mobile in order to retain the ability to simulate the dynamic environment of competition.
A further problem with having the trainer contort their arms and/or torso to provide a selection of targets is the risk of injury the trainer is exposing themselves to. Contorting the body in this manner requires the trainer to excessively straining their shoulder and back muscles, which may cause the trainer pain and discomfort both during and after the training session. There is also the considerable risk of injury the trainer is exposing themselves to when they absorb the energy of the strikes when in a contorted position. The biomechanically unfavourable position of the arms and torso may cause considerable forces to be exerted through the shoulders and spine of the trainer, and with repeated impacts, may lead to longer term problems for the trainer, such as excessive joint damage and degeneration. It would be desirable to provide a training pad that could be presented to an athlete for striking whilst the trainer is in a biomechanically stable position.
It is the object of the present invention to alleviate at least some of these problems.
Viewed from a first aspect, the present invention provides a training pad for preventing injury to a trainer, in particular a boxing trainer, when presenting the training pad for striking, comprising a target pad having a target surface and a resiliently deformable region located behind the target surface, and a securing member configured to secure the target pad to a first arm segment adjacent to a second arm segment. The first arm segment is proximal to the second arm segment. The resiliently deformable region is arranged to substantially absorb the energy of a strike received at the target surface. The target surface is configured to indicate to a user a strike may be made thereon.
This advantageously provides a trainer the ability to present multiple targets, in particular body shot targets having considerably more resistance than is provided for by existing mitts whilst requiring only a small amount of shoulder and elbow rotation. By substantially eliminating the need to contort the torso or arms, the trainer is able to present the multiple body shot targets having greater resistance for striking in a safe manner. As the target pad is located on an arm segment more proximal than the distal-most arm segment, the hand, such as the forearm or upper arm, the forces transferred to the arm of the trainer will be reduced compared to existing focus mitts which are attached to the distal-most arm segment, the hand. A further advantage of the present invention lies in the location of the target pad. By securing the target pad to an arm segment more proximal than the distal-most segment, such as the upper arm or the forearm, this enables a trainer to utilise a focus mitt or other training aid if they desire. Further still, the resiliently deformable target pad enables the trainer to present targets in previously unsafe locations, particularly where the trainer would need to contort their body to present the target. The energy absorption of the target pad allows the trainer to present targets for striking in a variety of locations and to absorb the striking force more than previously possible with a considerably reduced risk of injury. The target surface being configured to indicate to a user where to strike the training pad further reduces the risk of injury to the trainer, as strikes will be directed towards a specific portion of the target pad. Other benefits of the invention will become apparent from the description below.
In some embodiments, the target surface may comprise a target zone delineated thereon. More specifically, the target zone may comprise a sunken central area on the pad. In this way, when a gloved hand strikes the sunken central zone, the compression of air into the sunken zone makes a noise audible to the user to indicate a well-directed strike.
In certain embodiments the target zone comprises a raised central area on the pad.
In certain embodiments the target zone is a contrasting colour to the rest of the target surface.
In certain embodiments the target zone is circular. Alternatively, the target zone is square, rectangular, hexagonal or other polygonal shape.
In some embodiments, the target surface may be substantially curved or substantially planar. More specifically, the target surface can be convex, concave or flat.
In preferred embodiments the target surface is flat or concave.
In some embodiments, the largest distance across the target pad is in the range of 50 mm to 300 mm. In certain embodiments, the largest distance across the target pad is in the range of 140 mm to 180 mm. In some embodiments, the target pad has a thickness in the range of 30 mm to 300 mm. In certain embodiments, the target pad has a thickness in the range of 30 mm to 60 mm. It should be noted that the strike absorption characteristics of the material of the target pad will determine the thickness of the target pad.
In certain embodiments the target pad is of any suitable shape. More specifically, the target pad is round, square, diamond, oblong, oval, hexagon or the like.
In some embodiments, the target pad may be secured to the first arm segment only.
In some embodiments, the resiliently deformable region may comprise a resiliently deformable material such as a rubberised material, an open-cell foam or a closed-cell foam.
In some embodiments, the target pad may comprise an outer cover formed of a durable material such as leather, polyvinylchloride, vinyl or a polymerised composite. In certain embodiments the material may be any suitable material which can be welded, glued or sewn.
In some embodiments, the securing member may be secured to the first arm segment using any of a cuff, a sleeve, a bandage, a strap, a buckle or a hook and loop system.
In some embodiments, the target pad may be secured to the securing member using a releasable connection, such as mechanical fixation arrangement such as a hook and loop system, press button, magnetic fixture, button, a snap joint or a zipper.
In some embodiments, the target pad may be configured to flexibly connect to a punch mitt.
The training pad may comprise a shock absorber. The shock absorber may have a first frame member, a second frame member and a damper element connected to the first and second frame members. The first frame member may be secured relative to the first arm segment. The second frame member may be secured to the target pad. The second frame member may be configured to move relative to the first frame member upon the target pad being struck by a load. The damper element may be configured to resist relative motion between the first and second frame members so as to reduce the load transferred to the first arm segment. The damper element may comprise one or more fluid-filled elements, viscous dampers, pneumatic pistons, hydraulic pistons and resiliently deformable elements. The damper element may be configured to compress the fluid-filled element. The training pad may comprise an inner pad disposed on any of the first and/or second arm segment.
The training pad may comprise adjustment means. The target pad may comprise first and second axes extending in orthogonal directions. The first arm segment may comprise first and second axes extending in orthogonal directions. The adjusting means may be configured to secure the target pad in first and second orientations relative to the first arm segment. In the first orientation, the first axis of the pad may form first and second angles relative to the respective first and second axes of the first arm segment, and the second axis of the pad may form third and fourth angles relative to the first and second axes of the first arm segment. In the second orientation, at least one of the first, second, third or fourth angles may be different compared to when the target pad is in the first orientation. The adjustment means may set the orientation of the target pad prior to the training pad being secured to the first arm segment.
Viewed from a further independent aspect, there is provided a training pad arrangement comprising a first training pad and a second training pad configured as a training pad according to any of the embodiments described herein. The first target pad is configured to be secured to a proximal segment of the arm, and the second target pad is configured to be secured to an adjacent distal segment of the arm.
In some embodiments, the first training pad may be connected to the second training pad by any of an interconnecting web, releasable connection or an elasticated band or sleeve.
Viewed from a further independent aspect, there is provided a method of securing a training pad to an arm of a trainer, particularly a boxing trainer, for providing a target for striking, comprising the steps of providing a training pad comprising a target pad having a target surface and a resiliently deformable region located behind the target surface, and a securing member configured to secure the target pad to a first arm segment adjacent to a second arm segment, wherein the first arm segment is proximal to the second arm segment, wherein the resiliently deformable region is arranged to absorb substantially all of the energy of a strike received at the target surface, and wherein the target surface is configured to indicate to a user a strike may be made thereon, and securing the training pad to the first arm segment using the securing member such that the trainer can present the target pad for striking without contorting their torso.
Viewed from a further independent aspect, there is provided a kit of parts comprising a training pad and instructions for implementing the method of securing the training pad.
Embodiments of the invention are further described hereinafter with reference to the accompanying drawings, in which:
The present invention provides a training pad that enables a trainer to present targets for striking with a significantly reduced risk of injury. Where reference is made to the “outside” or “outer” surface of the arm, this should be taken to mean the surface that is further away or more laterally displaced from a virtual centreline extending longitudinally through the torso. Where reference is made to the “inside” or “inner” surface of the arm, this should be taken to mean the surface that is closer to or more medially displaced from a virtual centreline extending longitudinally through the torso. Where reference is made to a “proximal” or “more proximal” arm segment, this should be taken to mean the arm segment that is closer to the torso when considering the standard anatomical configuration of the arm. For example, the forearm may be considered to be proximal to the hand. Alternatively, the upper arm may be considered to be more proximal than the forearm. Where reference is made to a “distal” or “more distal” arm segment, this should be taken to mean the arm segment that is further away from the torso when considering the standard anatomical configuration of the arm. For example, the hand is distal to the forearm. Alternatively, the forearm may be considered to be more distal than the upper arm.
Alternatively, the securing member 104 may comprise a plurality of cuffs or straps 104A, 104B such as shown in
As shown, the rear side 105 of the target pad 102 is also curved. This allows for greater conformity with the arm 12 and provides a more secure and comfortable fit to the trainer. While the target pad 102 is shown with a curved rear side 105, this is optional. The target pad 102 may comprise a flat rear side 105 and curved target pad 102. The target pad 102 may comprise a curved rear side 105 and flat target pad 102. The target pad 102 may comprise a flat rear side 105 and a flat target pad 102. Any of the target surface 110 or rear surface 105 may be substantially curved, for example forming a substantially convex or concave surface. A concave target surface will present an inviting target for the striker. Where a surface is defined as being substantially flat, this should be taken to mean substantially planar. An exemplary target pad has a circumference of 18 cm.
The target pad 102 may have similar dimensions to a hand-held focus mitt 14. The largest distance across the target pad 102 may be in the range of 50 mm to 300 mm. The largest distance across the target pad 102 may be in the range of 140 mm to 180 mm. The thickness of the target pad 102 may be in the range of 30 mm and 300 mm. The thickness of the target pad 102 may be in the range of 30 mm and 60 mm. The thickness of the target pad 102 may be similar to that of a focus mitt 14. The target pad 102 will typically absorb a large proportion of the energy of a strike so as to minimise the energy transferred to the trainer 10. One way of achieving this is to incorporate a resiliently deformable material within the target pad 102. The resiliently deformable material may be any of: air, a rubberised material, an open-cell foam and a closed-cell foam. The target pad 102 may comprise a fluid-filled layer. The fluid-filled layer may comprise a gel or similar such material configured to substantially dissipate the energy of the strike. The resiliently deformable material would help absorb the energy of the strikes and reduce the loads transferred to the trainer 10. The target pad 102 may be contained within an outer cover (not shown) formed of a durable material such as leather, polyvinylchloride, vinyl or a polymerised composite. This advantageously allows the target pad 102 to be contained within a durable material which is substantially waterproof and can be cleaned simply by wiping down or washed separately from the target pad 102. This provides a lightweight and durable training pad. The securing member 104 may be attached to the outer cover. The target pad 102 may have a substantially circular or rectangular cross-section. Whilst it may be preferable to have a target pad 102 with a rectangular or circular cross section, it would be understood by the skilled person that a circular and rectangular cross-section are provided merely as examples and that other shapes of target pad 102, including irregular shapes, are equally included by this description (see also
As illustrated in
In one example, the training pad 100 comprises adjustment means (not shown) to enable the trainer 10 to adjust the orientation of the target pad 102 relative to the arm segment to which the target pad 102 is secured. This is desirable, as the trainer 10 is then able to secure the securing member 104 once and configure the target pad 102 depending on the training to be delivered. In one example, the trainer 10 may set the target pad 10 in a first orientation to receive strikes from a first direction and change the orientation of the target pad 102 using the adjustment means to receive strikes from a second direction different from the first direction. This is advantageous, as the trainer 10 is able to provide targets for striking from multiple directions whilst remaining in a biomechanically stable position. The adjustment means may comprise any of an adjustable hinge, a spherical bearing, a rotary bearing, a linear bearing or a gimbal. The adjustment means may further comprise locking means to secure the target pad 102 in the first and second orientations. The locking means may comprise any of a clamp or a set screw to secure the target pad 102 in the first or second orientation.
In an example, the trainer 10 may set the target pad 102 on the lateral side of the upper arm 12a with the target pad 102 positioned at a first height on the upper arm 12a so a trainee can deliver strikes at a first height. The trainer 10 may then set the target pad 102 at a different height, for example a lower height than before, so that the trainee can deliver strikes at a second height.
In the example illustrated in
In an alternative example, the shock absorber 116 is secured within the target pad 102. In this case, the first frame member 118a may be directly or indirectly secured to the target surface 110 and the second frame member 118b may be directly or indirectly secured to the rear surface 105. For example, the first frame member 118a may be secured to a pad disposed between the target surface 110 and the first frame member 118a. For example, the second frame member 118b may be secured to a pad disposed between the rear surface 105 and the second frame member 118b. Further padding may be disposed between the first 118a and second 118b frame member to further reduce the impact transferred to the trainer 10. When contained within the target pad 102, the shock absorber 116 may be used in combination or conjunction with the resiliently deformable member described elsewhere in this specification to absorb the load of strikes onto the target pad 102. Locating the shock absorber 116 within the target pad 102 would also provide a training pad 100 that looks like a standard training pad, for example in terms of its size and depth, but offer much greater resistance to strikes by a trainee. Internalising the shock absorber 116 in the described manner also reduces the risk of the components of the shock absorber 116 being exposed or damaged in use.
It is desirable to incorporate a shock absorber 116 in a training pad 100, as standard foam used in focus mitts typically provide a linear response as the foam is deformed. In contrast to this, a shock absorber 116, which may contain hydraulic elements such as a dash-post, can provide considerably more resistance upon initial contact with the target pad 102, thus dissipating the energy of the strike more efficiently than a foam-filled pad. As there is less deformation required to dissipate substantially all of the energy, the thickness of the present training pad 100 is also reduced compared to equivalent pads. This provides a training pad 100 having the manoeuvrability of a focus mitt, but the dissipative properties of a much larger strike bag. This further helps to reduce the risk of injury to the trainer 10 as they are less fatigued from training, which in turn means they are able to present targets to trainees in a more accurate manner, thus ensuring strikes are delivered in a safe way.
In an example, a frame 118 may be mounted to a sleeve (not shown) worn by the trainer 10. The sleeve and/or the frame 118 may incorporate one or more damping elements 120, such as a pneumatic or hydraulic piston integrated therein. The training pad 100 would thus be able to receive powerful strikes with minimal load being transferred to the trainer 10. The frame 118 is preferably made from a rigid and lightweight material. One such material may comprise laminated carbon fibre sheets, for example carbon fibre reinforced polymer. The rigid material may comprise aluminium or aluminium alloys. The adjustable means may be set before the trainer 10 puts on the training pad 100. For example, a hinge in combination with pistons 120 of different stroke lengths may be used to set the initial orientation of the target pad 102. The piston 120 typically comprises a piston head arranged in a piston shaft having opposed first and second ends. The piston head may be biased to have a rest position at an end of the respective piston shaft. Using as much of the stroke length as possible provides a greater amount of damping. In other examples, the spring, or similar such member, may be tuned so that the piston head has a rest position at a location between the first and second ends. Providing a piston 120 with less travel reduces the depth of the training pad 100. Where more than one piston 120 is used, each piston 120 may be tuned such that the target pad 102 is set to a predetermined angle relative to the arm 12 of the trainer 10. In one example, an the target pad 102 may be rotated about a first axis such that an end of the target pad 102 nearest the proximal end of the arm may be displaced further from the arm than the distal end or vice versa. In an other example, the target pad 102 may be rotated around a second axis parallel to a longitudinal axis of the arm 12 and passing through the training pad 100. The first axis and second axis may be as described above. The first axis and second axis may lie in a plane substantially parallel with the target surface 110 of the target pad 102.
As shown in
A further advantage of the training pad 100 of the present disclosure is the ability of the trainer 10 to support themselves to a much greater extent than with focus mitts 14 when receiving strikes. As the target pad 102 is located on the outside of the arm, the trainer 10 is able to support their upper arm with their torso 11 to brace against the impact of the strike to the target surface 110 (as shown in
As shown in
The training pad 100 may be connected to the focus mitt 14 by a connecting member (not shown). The connecting member may be a flexible sleeve or web of material. A flexible connecting member provides the advantage of securing the focus mitt 14 to the training pad 100 whilst not impeding the movement of the wrist and elbow of the trainer. Whilst the combination of a training pad 100 and focus mitt 14 are particularly advantageous, it would be apparent that the training pad 100 alone provides significant advantages and that the focus mitt 14 is not essential to achieving the benefits of the present training pad. An important aspect of the training pad 100 is the lightweight and robust design. This allows the trainer 10 to have a target pad 102 attached to their arm 12 without hindering their ability to move and simulate the dynamic environment of competition. The training pad 100 is able to provide many new targets and combinations of strikes for a trainee, whilst significantly reducing the risk of injury to the trainer 10.
In use of the target pad of the invention, the trainer may inform the trainee where to strike and will place the target pad ready to receive the strike.
In an example, the training pad 100 comprises a sensor module (not shown) having at least one sensor configured to measure workout data. Workout data may include any combination of number of punches, punch force, punch speed, punch accuracy, punch rate (e.g. number of punches per unit time), punch type, workout duration, punch strength (e.g. punch force per unit weight), fatigue (e.g. current punch force compared to an average of earlier punches). Any combination of force transducers, pressure sensors, inertial measurement units (IMUs) and gyroscopes known in the art would be suitable for measuring the workout data. The sensor module may comprise a sensor processor in data communication with the sensor(s) and, optionally, in data communication with a remote processor. The remote processor may be comprised within any of a handheld device, a wearable device, a data logger, a laptop, a mobile phone, a tablet, an external display, a speaker, a remote server. The sensor processor is typically in data communication with a non-volatile memory and is configured to store data indicative of the measured workout data on the non-volatile memory. The non-volatile memory may be an onboard memory of the sensor processor or be a removable memory such as a memory storage card or memory stick. The sensor module may comprise data communication means. The data communication means may be configured to transmit data to the remote processor over a wired or wireless connection. The data communication means may comprise a data port (e.g. an ethernet connection, a universal serial bus (USB) connection, a serial connection), and/or a wireless transceiver configured to communicate over, for example, a Bluetooth connection, an infrared connection, a mobile telecommunications network (e.g. 2G, 3G, 4G, 5G), a local area network, a wide area network. The sensor processor may be configured to transmit data during and/or after a workout. The workout data may be downloaded or transmitted following a user input to the sensor module, the remote processor or a further device in data communication with the sensor module or the remote processor. The sensor processor and/or the remote processor may comprise a log of other workouts and output data relative to the other workouts. The workout data may be viewed in a mobile application stored on the sensor processor and/or the handheld device. This may be useful if a trainee wanted to compare their current workout with their previous workout, or that of a different person or a generic workout. The sensor processor and/or remote processor can thus output a relative measure, e.g. “30% increase in force” or “5% longer workout”. The sensor processor and/or remote processor may output any combination of measured and/or calculated punch characteristics (e.g. 10% increase in maximum punch force over the last 2 weeks, 20% decrease in punch accuracy on average today compared to last week, 4% higher rate of fatigue today compared to last week). Providing such functionality in a training pad greatly increases the motivation for the trainee as they are able to quantify their progress over time.
Throughout the description and claims of this specification, the words “comprise” and “contain” and variations of them mean “including but not limited to”, and they are not intended to (and do not) exclude other moieties, additives, components, integers or steps. Throughout the description and claims of this specification, the singular encompasses the plural unless the context otherwise requires. In particular, where the indefinite article is used, the specification is to be understood as contemplating plurality as well as singularity, unless the context requires otherwise.
Features, integers or characteristics described in conjunction with a particular aspect, embodiment or example of the invention are to be understood to be applicable to any other aspect, embodiment or example described herein unless incompatible therewith. All of the features disclosed in this specification (including any accompanying claims, abstract and drawings), and/or all of the steps of any method or process so disclosed, may be combined in any combination, except combinations where at least some of such features and/or steps are mutually exclusive. The invention is not restricted to the details of any foregoing embodiments. The invention extends to any novel one, or any novel combination, of the features disclosed in this specification (including any accompanying claims, abstract and drawings), or to any novel one, or any novel combination, of the steps of any method or process so disclosed.
Number | Date | Country | Kind |
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1801062 | Jan 2018 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/GB2019/050159 | 1/22/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2019/145692 | 8/1/2019 | WO | A |
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