The present disclosure relates generally to protective sports equipment and, more particularly, to ice hockey goalkeeper pads.
Ice hockey players generally wear protective leg equipment. Ice hockey goalkeepers (goaltenders) wear a specific type of leg pad, typically referred to simply as “goalie pads”. Improvements in such goalie leg pads are continuously sought, particularly in order to improve the comfort, performance and/or mobility of the goalkeeper.
In one aspect, there is provided a hockey goalkeeper leg pad having a top end proximate a knee of a wearer and a bottom end proximate a foot of the wearer, hockey goalkeeper leg pad comprising: an outer shell having a facing section facing away from the wearer, a rear section facing the wearer, a lateral section, and a medial section, the medial section located inwardly of the lateral section when worn by the wearer, the facing, rear, lateral, and medial sections interconnected to form a pocket defined within the outer shell; a core padding received within the pocket of the outer shell; and a medial pad secured to the medial section of the outer shell, the medial pad having a longitudinal pad extending longitudinally between the top end and the bottom end, and a knee pad monolithically protruding from the longitudinal pad in a transverse direction, a width of the medial pad extending uninterrupted from a front edge of the longitudinal pad to a rear edge of the knee pad.
The hockey goalkeeper leg pad may include any of the following features, in whole or in part, and in any combination.
In some embodiments, the medial pad is free of a hinge connection at an intersection between the knee pad and the longitudinal pad, the knee pad being substantially non-rotatable relative to the longitudinal pad.
In some embodiments, the knee pad and the longitudinal pad are free of a stitch line therebetween.
In some embodiments, a thickness of the medial pad in a direction transverse to the width is uniform from the longitudinal pad to the knee pad across an intersection therebetween.
In some embodiments, a medial edge of the rear section is stitched to a rear edge of the medial section along a stitch line, the stitch line extending around the knee pad.
In some embodiments, the medial section of the outer shell is free of direct connection to the rear section of the outer shell along an intersection between the longitudinal pad and the knee pad.
In some embodiments, the pocket has a core volume receiving the core padding, a knee pad volume receiving the knee pad, and a longitudinal pad volume receiving the longitudinal pad, the knee pad volume uninterruptedly communicating with the longitudinal pad volume for receiving a monolithic body defining the knee pad and the longitudinal pad.
In some embodiments, the facing section has a front lateral edge, the rear section has a rear lateral edge, the lateral section has opposed front and rear lateral edges each secured to a respective one of the front lateral edge and the rear lateral edge via one or more stitch lines, the front lateral edge, the rear lateral edge, and the opposed front and rear lateral edges located inside the pocket.
In some embodiments, the facing section has a front medial edge, the rear section has a rear medial edge, and the medial section has opposed front and rear medial edges each secured to a respective one of the front medial edge and the rear medial edge, the front medial edge, the rear medial edge, and the opposed front and rear medial edges located outside the pocket.
In some embodiments, the opposed front and rear medial edges follow a contour of the knee pad.
In another aspect, there is provided hockey goalkeeper leg pad having a top end proximate a knee of a wearer and a bottom end proximate a foot of the wearer, the hockey goalkeeper leg pad comprising: a plurality of sections including a facing section facing away from the wearer, a lateral section, a medial section, and a rear section facing toward the wearer, the plurality of sections being interconnected to define a pocket sized for receiving a core padding of the hockey goalkeeper leg pad; and a medial pad secured to the medial section of the outer shell, the medial pad having a longitudinal pad extending longitudinally between the top end and the bottom end, and a knee pad monolithic with the longitudinal pad and protruding therefrom in a transverse direction, a thickness of the medial pad being substantially constant from the longitudinal pad to the knee pad across an intersection between the longitudinal pad and the knee pad such that the knee pad is substantially non-rotatable relative to the longitudinal pad.
The outer shell may include any of the following features, in any combinations.
In some embodiments, the knee pad and the longitudinal pad are free of a stitch line therebetween.
In some embodiments, the pocket has a core volume sized for receiving the core padding, a knee pad volume receiving the knee pad, and a longitudinal pad volume receiving the longitudinal pad, the knee pad volume uninterruptedly communicating with the longitudinal pad volume for receiving a monolithic body defining the knee pad and the longitudinal pad.
In yet another aspect, there is provided a method of manufacturing a hockey goalkeeper leg pad, comprising: obtaining an outer shell defining a pocket, the outer shell having a facing section, a rear section, a medial section, and a lateral section; securing a medial pad to the medial section of the outer shell, the medial pad having a longitudinal pad and a knee pad, the longitudinal pad extending longitudinally between a top end and a bottom end, the knee pad monolithically protruding from the longitudinal pad in a transverse direction; inserting a core padding inside the pocket of the outer shell; and closing an opening of the pocket by securing a rear edge of the medial section of the outer shell to a medial edge of the rear section of the outer shell by contouring a perimeter of the knee pad such that a thickness of the medial pad at an intersection between the knee pad and the longitudinal pad is substantially equal to the thickness of the medial pad at opposite sides of the intersection.
The method may include any of the following features, in any combinations.
In some embodiments, the closing of the pocket includes enclosing the knee pad between a protrusion of the rear section of the outer shell and a protrusion of the medial section of the outer shell such that the medial section of the outer shell is free of direct connection to the rear section at the intersection between the longitudinal pad and the knee pad.
In some embodiments, the obtaining of the outer shell includes securing together top edges and bottom edges of the facing section and the rear section.
In some embodiments, the method includes orienting outer faces of the facing section and of the rear section toward one another before the securing together of the top edges and the bottom edges of the facing section and of the rear section.
In some embodiments, the method includes flipping the outer shell inside out until inner faces of the facing section and of the rear section face one another.
In some embodiments, the method includes securing a lateral edge of the rear section to an edge of the lateral section before the flipping of the outer shell inside out such that the top edges, the bottom edges, the lateral edge of the rear section, and the edge of the lateral section are located inside the pocket.
In some embodiments, the outer shell defines a core volume receiving the core padding, a knee volume, and a longitudinal volume, the method comprising inserting the knee pad inside the knee volume and inserting the longitudinal pad inside the longitudinal volume.
Many further features and combinations thereof concerning the present improvements will appear to those skilled in the art following a reading of the instant disclosure.
Referring to
When the leg pad 10 is worn by the player (wearer), it extends along the leg from a skate worn by the wearer to a thigh of the wearer. In the embodiment shown, the leg pad 10 is adapted to be worn on the right leg of the wearer. A corresponding leg pad, which may be a mirror image of the leg pad 10, may be worn on the left leg of the wearer. For ease of explanation, however, only the left leg pad will be generally described herein below.
The leg pad 10 has a medial side 12 and an opposed lateral side 14. The leg pad 10 has an inner side 16 (
Referring more particularly to
As shown in
The medial calf flap 22a, lateral calf flap 22b, knee stack 24a, and outer knee flap 24b may be stitched to a rear side of the outer padding 30 and may be pivotable relative to the outer padding 30. The medial calf flap 22a, lateral calf flap 22b, knee stack 24a, and outer knee flap 24b define a spacing S (
Referring to
Referring to
Typically, a leg pad includes a knee pad that is configured to register with a knee of the wearer and to contact the ice when the wearer is in the butterfly position. This knee pad is usually a separate piece of padding that is assembled to a remainder of the leg pad 10. This configuration is a result of a manufacturing technique. Namely, a typical leg pad has a facing section, to which are attached a medial section and lateral gusset section, with all flaps being attached separately for ease of overall manufacturing. This manufacturing process results in having a hinge between the medial section and the knee pad. That is, the knee pad is usually stitched to a remainder of the leg pad 10. However, such an assembly of the knee pad by stitching creates a hinge at an intersection between the knee pad and the remainder of the leg pad. This hinge allows the knee pad to pivot substantially freely. However, in some circumstances, this hinge and the pivot movement it allows may be undesirable.
As shown in
The outer shell 33 may be assembled by stitching together the medial section 35, the lateral gusset section 36, the facing section 37, and the rear section 38 along their respective peripheral edges. Understandably, the core 34 is inserted into the pocket of the outer shell 33 before the pocket is fully stitched closed. The assembly steps of the leg pad 10 are described herein below.
The medial calf flap 22a, lateral calf flap 22b, knee stack 24a, and outer knee flap 24b of the inner paddings 20 may be stitched along one of their edges to the rear section 38 of the outer shell 33. Hence, the medial calf flap 22a, lateral calf flap 22b, knee stack 24a, and outer knee flap 24b may be pivotable relative to the outer shell 33 along their stitched lines via which they are connected to the outer shell 33 at the rear section 38. These stitched lines may therefore correspond to live hinges between the medial calf flap 22a, lateral calf flap 22b, knee stack 24a, and outer knee flap 24b and the outer shell 33.
The outer knee flap 24b (
As seen in
As shown in
Still referring now to
Accordingly, the knee pad 35g and the adjacent portion of the longitudinal pad 35h are monolithic. However, the entirety of the medial section 35 need not be monolithic, and may for example be formed by multiple pieces to enable flexibility in the front-to-back plane. The lack of any stitching and/or hinge connection line between knee pad 35g and adjacent longitudinal pad 35h of the medial section 35 results in an increased rigidity in the resulting plane formed by the ice-contacting surface of the knee page 35g and the adjacent portion of the longitudinal pad 35h. Thus, for pivoting the knee pad 35g in relationship to the longitudinal pad 35h, it is required to bend a material of the medial pad 35f. A thickness of the medial pad 35f may be substantially constant from the front edge 35a to the rear edge 35b.
Referring to
“Monolithic” as defined herein with respect to the medial pad 35f is understood to mean that there is no live hinge(s) between the knee pad 35g and the longitudinal pad 35h of the medial pad 35f, and thus that substantially no pivotable or rotational movement therebetween is possible (without permanently deforming the medial pad 35f). However, as explained above, the knee pad 35g may include a three-piece construction as long as a single piece extends monolithically to define both of a portion of the longitudinal pad 35h and the knee pad 35g.
The knee pad 35g may therefore correspond to a rearwardly extending protrusion that extends away from the longitudinal pad 35h, with the rear edge 35b therefore protruding away from both the front edge 35a, and from a rear edge of the longitudinal pad 35h, at the knee pad 35g. The monolithic medial pad 35f extends over an entirety of the medial section 35 to define the knee pad 35g and the longitudinal pad 35h. In other words, there is no connection, hinge, stich, live hinge, and so on, between the knee pad 35g and the longitudinal pad 35h of the medial pad 35f, and as such that substantially no relative rotational movement between the knee pad 35g and the longitudinal pad 35h is possible along a longitudinal axis extending from a top to a bottom of the pad 10. The medial section 35 is thus free of a pivotal connection between its different constituents. The knee pad 35g may be substantially non-rotatable relative to the longitudinal pad 35h. That is, a thickness of the medial pad 35f may be substantially uniform from the longitudinal pad 35h to the knee pad 35g. Hence, the medial pad 35f is free of a reduced thickness area between the knee pad 35g and the longitudinal pad 35h. If one were to rotate the knee pad 35g relative to the longitudinal pad 35h of the medial pad 35f, this person would be required to exert sufficient force to bend a material of the medial pad 35f. Therefore, the knee pad 35g does not swivel easily relative to the longitudinal pad 35h. The knee pad 35g is therefore a monolithic extension of the longitudinal pad 35h in a rearward direction away from the front edge 35a. The medial section 35 is therefore free of stitch line at an intersection between its knee and longitudinal portions. A width W1 of the medial pad 35f at the knee pad 35g extends uninterrupted from the front edge 35a to the rear edge 35b. A stiffness of the high-density foam used for the medial pad 35f will determine the stiffness of the knee pad 35g when a force is exerted on the knee pad 35g to rotate the knee pad 35g about a longitudinal axis extending from the top to the bottom of the pad 10. And, the unitary nature or not of the high-density foam used from top to bottom of the medial pad 35f will determine the extent of movements in the direction D1. In the embodiment shown, the medial section 35 of the outer shell 33 is free of direct connection to the rear section 38 of the outer shell 33 along an intersection between the longitudinal pad 35h and the knee pad 35g. In other words, the pocket of the outer shell 33 has a core volume receiving the core padding 34, a knee pad volume receiving the knee pad 35g, and a longitudinal pad volume receiving the longitudinal pad 35h. The knee pad volume uninterruptedly communicates with the longitudinal pad volume for receiving a monolithic body defining the knee pad 35g and the longitudinal pad 35h. During assembly, inserting the knee pad 35g is inserted inside the knee volume and the longitudinal pad 35h is inserted inside the longitudinal volume.
Having the knee pad 35g monolithic with the longitudinal pad 35h of the medial pad 35f may allow a reduced a number of pieces of the leg pad 10; increased a stiffness of the knee pad 35g; improved a sliding motion of the leg pad 10 on an ice surface; and/or allow for a more responsive movement of the wearer of the leg pad 10. More specifically, in use, the wearer may move his or her legs such that the medial section 35 is in contact with the ice. This is known as the “butterfly” position. In so doing, knees of the wearer abut the knee pads 35g of the medial pads 35f of the leg pads 10. The wearer is then required to either move quickly in a lateral direction or to revert back from the butterfly position to a standing position. Having the knee pad 35g solidary and monolithic with the longitudinal pad 35h of the knee pad 35g may help the wearer carrying out those movements by being more responsive to force inputs provided by the wearer, thereby reducing reaction time, reducing energy loss, increasing force transfer from the wearer's knee to the pad. The monolithic construction of the knee pad 35h and the longitudinal pad 35h may also help the wearer to move around on and/or up or down from/to the ice.
Additionally, the monolithic construction of the knee pad 35g and the longitudinal pad 35h, given that no stitched hinge exists therebetween, may also help to create a substantially uninterrupted planar surface that extends fully along the medial-most surface of the medial pad 35f. This may help to reduce friction between the pad and the ice surface. Given how much time goaltenders spend in the butterfly position, with this surface of the medial pad 35f in contact with the ice and sliding back and forth on this surface, any small reduction in surface friction may result in split second improvements in displacement along the ice, for example from one goalpost to the other. This reduction in friction may be caused by the fact that ice/snow can no longer accumulate into a recess at the stitch line between medial and longitudinal pads because said recess is removed by the monolithic construction of the medial pad 35f. Moreover, the removal of this stitch line may increase a durability of the leg pad 10 since any stitch line may be subjected to wear and tear. Given that even millisecond improvements in sliding displacement along the ice can sometimes mean the difference between stopping the puck and not, any reduction in surface friction between the outer surface of the medial pad 35f and the ice remains desirable. To a greater degree, the added stiffness of the knee pad 35g, thanks to its monolithic construction with the longitudinal pad 35h, may allow the wearer to be more reactive, reduce reaction time, ease movements between the standing and butterfly positions, direct energy transfer between the wearer and the ice via the stiff knee pad and so on.
As shown in
The different components of the leg pad 10 having been described, a method to assemble the leg pad 10 is described herein below with reference to
The method may include obtaining the outer shell 33; securing the medial pad 35f to the medial section 35 of the outer shell 33; inserting the core padding 34 inside the pocket of the outer shell 33; and closing an opening of the pocket by securing the rear edge 35b of the medial section 35 of the outer shell 33 to the medial edge 38a of the rear section 38 of the outer shell 33 by contouring a perimeter of the knee pad 35g such that a thickness of the medial pad 35f at an intersection between the knee pad 35g and the longitudinal pad 35h is substantially equal to the thickness of the medial pad 35f at opposite sides of the intersection.
Referring to
Referring to
As shown in
Referring now to
The closing of the pocket may include enclosing the knee pad 35g between the protrusion 38b of the rear section 38 of the outer shell 33 and a protrusion of the medial section 35f of the outer shell 33 such that the medial section 35 of the outer shell 33 is free of direct connection to the rear section 38 at the intersection between the longitudinal pad 35h and the knee pad 35g.
The rear section 38 further includes a lateral edge 38c opposed to the medial edge 38a, a top edge 38d, and a bottom edge 38e opposed to the top edge 38d. The facing section 37 and the rear section 38 are disposed such that their inner sides—the sides that will be in contact with the core 34—are facing away from one another. At which point, the rear section 38 may be secured to the medial section 35, facing section 37, and lateral gusset section 36 that have been stitched to one another as described above. In the embodiment shown, three sides of the rear section 38 are stitched to the facing section 37 and lateral gusset section 36. That is, the top edge 38d of the rear section 38 is stitched to a top edge 37d of the facing section 37; the lateral edge 38c of the rear section 38 is stitched to a rear edge 36b (
Referring now to
Once assembled, edges of the lateral section are each secured to a respective one of the front lateral edge and the rear lateral edge via one or more stitch lines. After the outer shell 33 is flipped inside out, the front lateral edge, the rear lateral edge, and the opposed front and rear lateral edges are located inside the pocket. In the present embodiment, the front medial edge, the rear medial edge, and the opposed front and rear medial edges located outside the pocket.
Referring now to
It will be appreciated that, in another embodiment, the outer shell need not be inverted inside out. That is, the facing section 37 and the rear section 38 may have their lateral edges 37c, 38c stitched to the front edge 36a and the rear edge 36b of the lateral gusset section 36, and, the medial section 35 may have its front edge 35a stitched to the medial edge 37b of the facing section 37 leaving an opening at the rear edge 35b of the medial section 35 to insert the core 34. Once the core 34 is inserted into the outer shell 33, the rear edge 35b may be stitched to the medial edge 38a of the rear section 38 to close the pocket to enclose the core 34. A band of fabric may then be stitched all around a perimeter of the leg pad 10 for improved durability and esthetic.
Some variations in the order of the manufacturing steps described above are contemplated without departing from the scope of the present disclosure.
As can be seen therefore, the examples described above and illustrated are intended to be exemplary only. The scope is indicated by the appended claims.
This application claims priority on U.S. Patent Application No. 63/155,352 filed Mar. 2, 2021, the entire content of which is incorporated by reference herein.
Number | Date | Country | |
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63155352 | Mar 2021 | US |