The present invention relates to sport equipment, and in particular to a goaltender leg pad.
Goaltenders in certain sports, such as hockey, typically are engaged in a high level of contact with other players and implements of the game, such as pucks and sticks. A goaltender's job is to prevent the puck or other item from entering the goal by catching the puck with a glove, or blocking the puck with a glove, a hockey stick, the goaltender's body or various pads such as leg pads.
Goaltender leg pads protect the goaltender's leg and also operate to provide a substantial blocking element. For the goaltender to prevent pucks from entering the goal, typically goaltenders will drop to one or both knees with their skates spread apart so that the puck cannot enter the goal, effectively using the leg pads to block the puck.
Goaltender leg pads are usually bulky and rigid. Most include multiple pads that are joined with one another to cover the front surface of a goaltender's leg. Leg pads come with either one of two profiles—straight or curved. Some goaltenders may desire certain other features of the leg pad. If those features do not come with the straight or curved front profile, then the goaltender must try to modify the leg pads. For example, if the goaltender acquires a leg pad with a relatively straight front profile and desires more of a curve, the goaltender has to forcibly push and/or compress the leg pad downward to create the desired curved shape. Where a goaltender acquires a leg pad with a large profile curve, they are usually stuck with that curve because it is difficult to straighten the curved front profile of the leg pads. Further, even after being forced into a desired profile, the pads typically will return to their original shape.
Most goaltender leg pads also come with a foot pad that generally sits atop the goaltender's skates. The foot pad is usually attached to the toe of the skate with an inelastic lace that extends downwardly from the foot pad, around a component of the skate, and then reattaches to the foot pad. This attachment generally keeps the skate and foot pad in close proximity. However, the laces used in this system generally do not provide a consistent return of the foot pad to a position over the skate. Further, when transitioning from a crouched or standing position, this can make the foot pad, and thus the leg pad, feel off balanced and sloppy. In some cases, the pad can remain in an undesired location over the skate and can cause an impediment to the goaltender's movement.
The foot pads of most conventionally manufactured leg pads also come in either one of two different thicknesses. The thickness of the foot pad generally dictates the engagement of the foot pad with the ice or other surface upon which the goaltender moves. Some foot pads are constructed to be flat so that when the user goes into a deep crouch, the pad does not engage the ice or surface. Others are slightly rounded, and in some cases, engage the surface more easily when in a crouching position. Again, goaltenders usually must trade off the ice engagement for some other feature of the goaltender leg pads, depending on a goaltender's preferences.
A goaltender leg pad with improved profile adjustment, toe attachment and/or toe thickness adjustment is provided.
In one embodiment, the goaltender leg pad can include a thigh pad, a knee pad, a lower leg pad and a foot pad. An adjuster flap can be joined with adjacent ones of the aforementioned pads. One end of the adjuster flap can be selectively repositioned relative to the two, to fasten that end to the adjacent pad. By selectively positioning the adjuster flap and overlapping it from one pad to the next, a user can adjust the leg pad to different front profiles depending on their preferences and performance requirements.
In another embodiment, the adjuster flap includes a first end and a second end. The first end is attached fixedly to one pad, while the second end overlaps and can be selectively joined with the adjacent pad in any one of multiple locations. By overlapping the adjuster flap second end by varying degrees with the adjacent pad, a user can set the relative angle between the pads and thereby establish a desired front profile of the leg pad. For example, by overlapping the adjuster flap more with an adjacent pad, the pads are set at a second angle that is less than a first angle established when the adjuster flap is overlapped less with the adjacent pad.
In still another embodiment, the adjustment flap can include the above noted first and second ends. The first end can be fixedly attached to a first pad, for example, a thigh pad. The second end can include a fastener. A corresponding fastener can be on a second, adjacent pad, for example, a knee pad. The fastener can be selectively attached to the corresponding fastener on the second pad to establish a desired tension in the flap. This tension can pull the first pad toward the second pad thereby creating a decreased angle between respective surfaces, for example, the rear surfaces of the first and second pads. In turn, this can operate to selectively adjust the front profile of the leg pad to a more rounded and/or curved profile.
In even another embodiment, the fasteners used in conjunction with the adjuster flap and an adjacent pad can be constructed to have a lengthwise shear strength of at least 10 PSI, 20 PSI, 30 PSI, 40 PSI, 50 PSI, 60 PSI or more depending on the particular application and the stiffness of the leg pad components.
In still even another embodiment, the leg pad can include a toe attachment strap joined with a foot pad and/or boot of the leg pad. The toe attachment strap can be configured to join part of the leg pad, for example, the foot pad, with the user's skate, thereby securing the user's skate to the foot pad. The strap can be constructed from an elastic material to provide desired movement of the foot pad relative to the skate, and optionally, return the foot pad to a desired central location over the skate.
In still yet another embodiment, the strap can be constructed to engage a redirection element that is joined with the foot pad and/or the boot. The redirection element can engage a central portion of the strap, allowing the strap to slide freely relative to the redirection element. The strap and redirection element can act in concert so that the strap can stretch an additional amount and provide a desired amount of movement of the skate relative to the foot pad, yet still quickly return the foot pad to a pre-desired location over the skate.
In a further embodiment, the redirection element can be in the form of a sleeve that extends across the longitudinal axis of the leg pad. The strap, where elastic, can stretch and retract within the sleeve as well as between the redirection element and the second end of the strap when a user transitions to varying positions, for example, to or from a standing and/or crouching position.
In still a further embodiment, the leg pad can include a toe thickness adjustment system. The foot pad can include a front and a rear, with the rear adapted to face the skate of a user. The foot pad can define a pad cavity in communication with an opening, which is accessible to a user.
In yet a further embodiment, the leg pad can include a secondary pad that is operable in an installed mode and a removed mode. In the installed mode, the secondary pad can be positioned in a pad cavity by the user. In turn, this provides a first thickness of the foot pad. In a removed mode, the user removes the secondary pad from the pad cavity to provide a second thickness, less than the first thickness of the foot pad. With this construction, a user has the option of adjusting the thickness of the foot pad to their desired performance characteristics and/or physical stature.
The present invention provides a goaltender leg pad that is customizable and adjustable. Where the profile adjustment mechanism is provided, a user can easily adjust the front or other profile of the leg pad to their desired performance characteristics and physical stature. Where the leg pad includes the toe thickness adjustment system, a user can easily change out secondary pads or remove secondary pads over the toe of a user's skate. This can provide a preferred feel and performance. Further, where included, the toe attachment strap system enables the user to quickly and easily attach a toe strap to the user's skate thereby securing the foot pad to the skate. The toe attachment strap system enables the leg pad to quickly and responsively return to center or another desired orientation of the foot pad relative to the user's skate. The above features provide a leg pad offering significantly improved performance.
These and other objects, advantages, and features of the invention will be more fully understood and appreciated by reference to the description of the current embodiment and the drawings.
Before the embodiments herein are explained in detail, it is to be understood that the invention is not limited to the details of operation or to the details of construction and the arrangement of the components set forth in the following description or illustrated in the drawings. The invention may be implemented in various other embodiments and of being practiced or being carried out in alternative ways not expressly disclosed herein. Also, it is to be understood that the phraseology and terminology used herein are for the purpose of description and should not be regarded as limiting. The use of “including” and “comprising” and variations thereof is meant to encompass the items listed thereafter and equivalents thereof as well as additional items and equivalents thereof. Further, enumeration may be used in the description of various embodiments. Unless otherwise expressly stated, the use of enumeration should not be construed as limiting the invention to any specific order or number of components. Nor should the use of enumeration be construed as excluding from the scope of the invention any additional steps or components that might be combined with or into the enumerated steps or components.
A goaltender leg pad, also referred to as a goalie leg pad, in accordance with a current embodiment is illustrated in
As shown in
Each of the respective pads can include a front and an opposing rear, for example, a front surface and an opposing rear surface. As a further example, the thigh pad 20 can include a front 20F and a rear 20R; the knee pad can include a front 30F and a rear 30R; the lower leg pad can include a front 40F and a rear 40R (
The leg pad can generally include a thigh pad 20, a knee pad 30, a lower leg pad 40 and foot pad 50. The thigh pad 20 can be configured to cover a user's thigh, for example, the front portion of their thigh. The knee pad 30 is joined with the thigh pad below the thigh pad. The knee pad 30 generally covers the user's knee, and for example, the forward or front portion of the knee. A lower leg pad 40 is joined with the knee pad 30 below the knee pad 30. The lower leg pad 40 can be configured to cover the lower leg of the user, and in some cases, the calf or side portions of the user's lower leg with additional padding. A foot pad 50 projects forwardly from the lower leg pad 40.
As shown in
Optionally, the thigh pad 20 and knee pad 30 can be referred to as the upper leg pad. If desired, these pads can be generally formed as one pad rather than separate pads.
The pads are joined with one another so that adjacent pads can flex, pivot, rotate, bend, fold or otherwise move relative to one another. As used herein “flex region” means and includes, for example, adjacent pads that are joined with one another but remain movable relative to one another about a pivot point, a pivot axis, a pivoting region, a flexing region, a location and/or multiple locations. Generally, a flex region can include a region, point or axis about which a first pad rotates, bends, folds, flexes, hinges, pivots or otherwise moves relative to a second pad. In some constructions, the flex region can be established, for example, by having two inner pads joined to one another with a cover, where the cover flexes or pivots between the adjacent pads. In other cases, the thickness of the padding member can be varied in the flex region by thinning, recessing, cutting, scoring and/or creating a cavity between the adjacent pads so that they rotate, bend, fold, flex, hinge, pivot or otherwise move relative to one another within the flex regions, which also can be referred to as hinge regions herein.
With reference to
The leg pad 10 can also include a calf guard 15 and a secondary knee pad 16. The calf guard 15 can be duplicated on both sides of the user's calf, generally fitting and protecting on opposing sides of the calf or lower leg. The secondary knee pad 16 can be disposed on the medial 13 side of the leg pad so that when the user goes down into a butterfly or partially kneeling position, the secondary knee pad 16 is disposed between the user's knee and the ice or surface upon which the user kneels.
Optionally, the leg pad 10 can be constructed with a boot 17. As shown in
The boot 17 can be joined and/or secured with the user's lower leg and/or skate via one or more straps 17S as shown in
As shown in
The thigh pad 20 can include a cover 21 which may or may not be contiguous with the cover 31 of the knee pad 30. The covers 21 and 31 can extend over the internal pads 22 and 32 of the respective components of the respective thigh pad and knee pad.
A. Profile Adjustment System
As shown in
Returning to
The adjuster flap 73 can be disposed centrally relative to the longitudinal axis LA. For example, the adjuster flap 73 can extend across the longitudinal axis and can be located on both sides of the longitudinal axis. Optionally, the flap can be on either one of the lateral 14 and medial 13 sides of the longitudinal axis as desired. Further, one adjuster flap can be on the lateral side 14 and another can be on the medial side 13.
As shown in
The second end 72 of the adjuster flap 73 can include a fastener 75. The fastener can be a hook-and-loop fastener system including a first hook-and-loop fastener 75A, joined with the second end 72, and a corresponding second hook-and-loop fastener 75B joined with the cover 31 of the second pad, which is shown as the knee pad 30, or any component thereof. For example, the corresponding fastener 75B can be attached to the rear 30R of the knee pad 30, the internal pad 32 itself, or any other structure as desired.
Although shown as a hook-and-loop fastener 75, the fastener can be any alternative fastening system, for example, a button, a needle and eye system, a grid of pins affixing to corresponding apertures, or any other construction that provides selective orientation or location of the first fastener 75A relative to the second fastener 75B.
The second end 72 can be detachable from the knee pad 30, for example, its rear surface 30R, by decoupling the fasteners 75A and 75B from one another. The flap 73 can be foldable toward and away from the rear 30R of the pad 30. For example, when the first fastener 75A is detached from the second fastener 75B, the fastener flap 73 can be folded or otherwise moved away from the rear surface 30R. In reverse, it can then be moved toward the rear surface 30R so that the first fastener 75A and second fastener 75B contact and engage one another sufficiently to join the adjuster flap with the second pad, that is, the knee pad.
The fastener 75, whether a hook-and-loop fastener or any other type of fastener system, can have a lengthwise shear strength sufficient to hold the thigh pad 20, folded, bent and/or moved toward the knee pad 30 in a preselected orientation as the leg pad is used thereby fixing the front profile of the leg pad.
The pad is operable in a first mode shown in
A user can adjust the profile adjuster 70 and/or adjuster flap 73 from the first mode to a second mode. In the second mode, the adjuster flap 73 is selectively joined with the second pad, for example, the knee pad shown in
In the second mode shown in
With the adjuster flap 73 holding the thigh pad 20 and the knee pad 30 in the preselected configuration of the second mode shown in
In general, when in the first mode, the profile adjuster including the adjuster flap maintains the front profile 10F in a generally straight configuration, for example, the front surfaces 20F and 30F of the respective pads lay substantially within the same plane, plus or minus 5° to 10°. In the second mode, the profile adjuster including the adjuster flap holds the front profile 10F′ so that it has a generally rounded configuration, particularly at the curve 10C, near the flex region 61. Generally, the respective pad, are not within the same plane. The user can select a variety of intermediate profiles and curvatures other than those shown in the figures. These other profiles can be achieved by selectively placing the second end relative to the second pad and securing it with the fasteners at a variety of different locations.
B. Toe Attachment System
The leg pad 10 can include a toe attachment system 90 as shown in
The strap 95 can be constructed from an elastic material, such as Lycra®, spandex, nylon, nylon interwoven with an elastomeric material, an elastomeric material alone, natural or synthetic rubber, or other stretchable fibers, whether woven, matted or solid construction, or some other material. When constructed from an elastic material, the strap can be extended or stretched to a length greater than its original length, and then can return by memory to its original length or something very close to it after repeated uses.
As shown in
Optionally, in addition to the toe attachment system 90, the leg pad 10 can include an optional boot strap 107 which generally is joined with the boot 17 and/or foot pad 50. The boot strap 107 can secure to the skate 105 at a rear portion of the skate.
As shown in
In the configuration shown in
Usually during this movement of the skate 105 in direction D, the subpart 93 of the central portion 93 pivots about the redirection element 80, and in particular, the hole 83. The subpart of the central portion 93 also simultaneously can slide or move relative to the hole 83 and its perimeter. For example, where the strap 95 is elastic, a portion of the subpart 93C can move through the hole 83 stretching as the strap 95 stretches. In so doing, the subpart 93C can also undergo an additional tension or stretch as shown by the arrows adjacent the subpart 93C. Other subparts, such as 93A, 93C and 93D can undergo similar stretching, tension and/or other forces, as also indicated by two-way arrows.
Generally, the strap 95 and central portion 93 can stretch and retract between the redirection element 90 and the second end 92, as well as between the redirection element 80 and the first end 91. When it retracts, the strap can operate to locate the foot pad 90 centrally over the user's foot and/or skate 105.
As shown in
Optionally, the sleeve 84 can be configured to engage the uppermost portion of the skate 105 when the leg pad 10 is installed on a user's leg. Generally, the sleeve can prevent the strap 95 from being snagged on the skate, and can allow the strap to freely stretch and retract and/or move relative to the skate, optionally within the internal compartment 85 of the sleeve 84.
As shown in
The sleeve 84 can be constructed to define another hole 87 disposed generally on the lateral side 14 of the longitudinal axis LA. This hole 87 can be configured to accommodate the central portion 93 and/or first end 91 extending from the exterior of the sleeve 84 to the internal compartment 85. Although shown as being located on the lateral side 14 of the longitudinal axis LA, this hole 87 can be on the longitudinal axis and/or on the medial side as desired.
The redirection element 80 and strap 95 and the toe attachment system 90 in general are configured to enable a skate to move relative to the foot pad 50, for example, when the user drops to the ice in a butterfly or a crouching position, yet snap or relocate the foot pad 50 generally centrally over the user's skate when the user returns to an upright or standing position. As shown in
Optionally, the redirection element 80 can be modified. For example, as shown in
C. Toe Thickness Adjustment System
The leg pad 10 can include a toe thickness adjustment system 55 as shown in
As shown in
As shown in
The pad cavity 57 can be in communication with opening 56. The opening 56 can provide access to the pad cavity 57 through the cover 51, generally on the rear 50R of the foot pad 50. The opening 56 can be sized slightly smaller than the side-to-side lateral or other dimensions of the secondary pad 58 positioned within the pad cavity 57. Further, the opening 56 can be offset from the respective ends 57A and 57B (
As shown, the opening 56 is generally in an oval or elliptical configuration. Of course, the opening can be in a variety of other geometric shapes. For example, it can be rectangular, square, triangular, polygonal, generally rounded or any shape that facilitates intentional, manual removal of the secondary pad 58 from the foot pad 50, and more particularly, the pad cavity 57 can be used.
With the opening 56, a user can generally install and/or remove the secondary pad 58 to and/or from the pad cavity 57. The secondary pad 58 can be constructed to substantially fill the pad cavity 57 when placed therein. Optionally, the corners and edges of the secondary pad 58 can be rounded to facilitate installation through the opening 56. The secondary pad 58 can be constructed from the same material, for example, foam, as the primary pad 52 of the foot pad 50. Further, the secondary pad can be considered to be manually and non-destructively removable from the pad cavity 57. For example, the covering 51, and the foot pad 50 need not be torn, cut or have stitching pulled to remove the secondary pad 58 from the pad cavity 57.
Optionally, the toe thickness adjustment system 55 can include a closure flap 59 as shown in
Returning to
Optionally, the secondary pad 58 of the toe thickness adjustment system 55 can be modified. For example, as shown in
If desired, a user can also install both the secondary pad 58A and the tertiary pad 58B in the cavity 57 to achieve the greater thickness T1 of the toe pad. The secondary pad 58A and tertiary pad 58B in
Directional terms, such as “vertical,” “horizontal,” “top,” “bottom,” “upper,” “lower,” “inner,” “inwardly,” “outer” and “outwardly,” are used to assist in describing the invention based on the orientation of the embodiments shown in the illustrations. The use of directional terms should not be interpreted to limit the invention to any specific orientation(s).
The above description is that of current embodiments of the invention. Various alterations and changes can be made without departing from the spirit and broader aspects of the invention as defined in the appended claims, which are to be interpreted in accordance with the principles of patent law including the doctrine of equivalents. This disclosure is presented for illustrative purposes and should not be interpreted as an exhaustive description of all embodiments of the invention or to limit the scope of the claims to the specific elements illustrated or described in connection with these embodiments. For example, and without limitation, any individual element(s) of the described invention may be replaced by alternative elements that provide substantially similar functionality or otherwise provide adequate operation. This includes, for example, presently known alternative elements, such as those that might be currently known to one skilled in the art, and alternative elements that may be developed in the future, such as those that one skilled in the art might, upon development, recognize as an alternative. Further, the disclosed embodiments include a plurality of features that are described in concert and that might cooperatively provide a collection of benefits. The present invention is not limited to only those embodiments that include all of these features or that provide all of the stated benefits, except to the extent otherwise expressly set forth in the issued claims. Any reference to claim elements in the singular, for example, using the articles “a,” “an,” “the” or “said,” is not to be construed as limiting the element to the singular. Any reference to claim elements as “at least one of X, Y and Z” is meant to include any one of X, Y or Z individually, and any combination of X, Y and Z, for example, X, Y, Z; X, Y; X, Z; and Y, Z.
This application is a continuation of U.S. patent application Ser. No. 14/177,886, filed Feb. 11, 2014, now U.S. Pat. No. 9,440,136, which claims benefit of U.S. Provisional Application No. 61/783,759, filed Mar. 14, 2013, which are hereby incorporated by reference.
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Number | Date | Country | |
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Number | Date | Country | |
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Number | Date | Country | |
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Parent | 14177886 | Feb 2014 | US |
Child | 15238376 | US |