U.S. patent application number 10/772316 was filed with the patent office on 2005-08-11 for hockey stick blade.
Invention is credited to Bellefleur, Alain, Montemurro, Angelo, Sartor, Leo.
Application Number | 20050176530 10/772316 |
Document ID | / |
Family ID | 34826579 |
Filed Date | 2005-08-11 |
United States Patent
Application |
20050176530 |
Kind Code |
A1 |
Sartor, Leo ; et
al. |
August 11, 2005 |
Hockey stick blade
Abstract
A hockey stick blade comprising a shank and a blade element
having a front surface and a rear surface. The blade comprises a
core of synthetic material extending along a longitudinal axis, the
core comprising a blade element portion. The blade also comprises a
layer of fibers recovering the core of synthetic material and a
layer of thermoplastic material recovering the layer of fibers.
Inventors: |
Sartor, Leo; (Montebelluna,
IT) ; Montemurro, Angelo; (Chiavenna, IT) ;
Bellefleur, Alain; (St-Luc, CA) |
Correspondence
Address: |
Ralph A. Dowell of DOWELL & DOWELL P.C.
2111 Eisenhower Ave.
Suite 406
Alexandria
VA
22314
US
|
Family ID: |
34826579 |
Appl. No.: |
10/772316 |
Filed: |
February 6, 2004 |
Current U.S.
Class: |
473/561 |
Current CPC
Class: |
A63B 2102/24 20151001;
A63B 2102/22 20151001; A63B 60/52 20151001; A63B 59/70
20151001 |
Class at
Publication: |
473/561 |
International
Class: |
A63B 059/12; A63B
059/14 |
Claims
1. A hockey stick blade with a shank and a blade element having a
front surface and a rear surface, said hockey stick blade
comprising; (a) a core of synthetic material extending along a
longitudinal axis; (b) a layer of fibers recovering at least
partially said core of synthetic material; and (c) a layer of
thermoplastic material recovering at least partially said layer of
fibers, said layer of thermoplastic material forming part of one of
said front and rear surfaces of said blade element.
2. A hockey stick blade as defined in claim 1, wherein said core
comprises a blade element portion and a shank portion with a tenon
portion.
3. A hockey stick blade as defined in claim 2, wherein said layer
of fibers also recovers said shank portion of said core.
4. A hockey stick blade as defined in claim 3, wherein said layer
of thermoplastic material form part of said front and rear surfaces
of said blade element.
5. A hockey stick blade as defined in claim 4, wherein said shank
comprises a front surface and a rear surface, said layer of
thermoplastic material also forming part of said front and rear
surfaces of said shank.
6. A hockey stick blade as defined in claim 5, wherein said layer
of thermoplastic material comprises a front thermoplastic sheet and
a rear thermoplastic sheet, said front and rear thermoplastic
sheets forming part of said respective front and rear surfaces of
said blade element and said shank.
7. A hockey stick blade as defined in claim 6, wherein said sheets
of thermoplastic material are made of thermoplastic material
selected from the group consisting of polyethylene, polyurethane,
polypropylene, polyester, polystyrene, polyvinyl chloride and
cellulose acetate.
8. A hockey stick blade as defined in claim 7, wherein said core is
made of thermo-expandable foam selected from the group consisting
of polyurethane foam, ethylene vinyl acetate (EVA) foam, polyvinyl
chloride (PVC) foam, ethylene polypropylene foam and
polyisocyanurate foam.
9. A hockey stick blade as defined in claim 8, wherein said core
comprises a first portion located above a second portion;
10. A hockey stick blade as defined in claim 9, wherein said layer
of fibers comprises a first fibers braid covering said first
portion and a second fibers braid covering said second portion.
11. A hockey stick blade as defined in claim 10, wherein said layer
of fibers further comprises a third fibers braid covering said
second fibers braid.
12. A hockey stick blade as defined in claim 11, wherein said layer
of fibers further comprises a fourth fibers braid covering said
first and third fibers braids.
13. A hockey stick blade as defined in claim 12, wherein said
first, second, third and fourth fibers braids are made of woven
fibers selected from the group consisting of carbon fibers, glass
fibers, KEVLAR fibers, ceramic fibers, boron fibers, quartz fibers,
spectra fibers, polyester fibers and polyethylene fibers.
14. A hockey stick blade as defined in claim 13, wherein said
first, second, third and fourth fibers braids are made of fibers
crossing at between 30.degree. and 60.degree..
15. A hockey stick blade as defined in claim 14, wherein said blade
comprises an interface between said first and second portions, said
interface comprising fibers oriented transversely relative to the
longitudinal axis of said core.
16. A hockey stick blade as defined in claim 15, wherein said shank
comprises a tenon adapted to be inserted into a hollow hockey stick
shaft.
17. A hockey stick blade as defined in claim 16, wherein one of
said front and rear thermoplastic sheets comprises an indicia.
18. A hockey stick blade with a shank and a blade element having a
front surface and a rear surface, said hockey stick blade
comprising (a) a core of synthetic material extending along a
longitudinal axis; and (b) a layer of fibers recovering at least
partially said core of synthetic material, wherein one of said
front and rear surfaces of said blade element comprises a layer of
thermoplastic material that recovers at least partially said layer
of fibers.
19. A hockey stick blade as defined in claim 19, wherein said front
surface of said blade element comprises a layer of thermoplastic
material recovering at least partially said layer of fibers, said
layer of thermoplastic material comprising a front thermoplastic
sheet.
20. A hockey stick blade as defined in claim 20, wherein said rear
surface of said blade element comprises a layer of thermoplastic
material recovering at least partially said layer of fibers, said
layer of thermoplastic material further comprising a rear
thermoplastic sheet.
21. A hockey stick blade as defined in claim 21, wherein said core
comprises a blade element portion and a shank portion with a tenon
portion and said layer of fibers further recovers said shank
portion of said core.
22. A hockey stick blade as defined in claim 21, wherein said shank
comprises a front surface and a rear surface, said front and rear
thermoplastic sheets also forming part of said respective front and
rear surfaces of said shank.
23. A hockey stick blade as defined in claim 22, wherein said
thermoplastic sheets are made of thermoplastic material selected
from the group consisting of polyethylene, polyurethane,
polypropylene, polyester, polystyrene, polyvinyl chloride and
cellulose acetate.
24. A hockey stick blade as defined in claim 23, wherein said core
is made of thermo-expandable foam selected from the group
consisting of polyurethane foam, ethylene vinyl acetate (EVA) foam,
polyvinyl chloride (PVC) foam, ethylene polypropylene foam and
polyisocyanurate foam.
25. A hockey stick blade as defined in claim 24, wherein said layer
of fibers comprises a fibers braid and epoxy.
26. A hockey stick blade as defined in claim 25, wherein said
fibers braid is made of woven fibers selected from the group
consisting of carbon fibers, glass fibers, KEVLAR fibers, ceramic
fibers, boron fibers, quartz fibers, spectra fibers, polyester
fibers and polyethylene fibers.
27. A hockey stick blade as defined in claim 26, wherein said
fibers braid is made of fibers crossing at between 30.degree. and
60.degree..
28. A hockey stick blade as defined in claim 27, wherein said shank
comprises a tenon adapted to be inserted into a hollow hockey stick
shaft.
29. A hockey stick blade as defined in claim 28, wherein one of
said front and rear thermoplastic sheets comprises an indicia.
Description
FIELD OF THE INVENTION
[0001] The present invention relates to a hockey stick blade
comprising front and rear surfaces having a layer of thermoplastic
material.
BACKGROUND OF THE INVENTION
[0002] Typical hockey stick blades or replacement blades are
generally made of a wooden core reinforced with one or more layers
of synthetic material such as fiberglass, carbon fibers or
graphite. The core of the blade may also be made of a synthetic
material reinforced with layers of fibers material. The layers are
usually made of woven filament fibers, typically soaked in a resin
and glued to the surfaces of the core of the blade. Expandable
fibers braids may also be used for recovering the core of the
blade.
[0003] Canadian Patent Application 2,228,104 discloses a hockey
stick comprising a wooden shaft and a composite blade with a
pre-form core made of thermoplastic polyurethane foam. The pre-form
core is recovered of braided glass socks and layers of reinforcing
materials.
[0004] U.S. Pat. No. 5,048,878 discloses an expanded polyvinyl
chloride foam core stick wherein the core is covered with meshes of
fiberglass or carbon fibers.
[0005] U.S. Pat. No. 5,333,857 discloses a hockey stick comprising
a shaft section, a blade section and a heel section forming the
connection between the blade and shaft sections. The stick
comprises a core made of synthetic foam having a first density for
the shaft, a second density for the heel and a third density for
the blade. The core is covered with three layers of woven
materials.
[0006] There is a demand for an improved hockey stick blade having
a better impact resistance.
SUMMARY OF THE INVENTION
[0007] As embodied and broadly described herein, the invention
provides a hockey stick blade with a shank and a blade element
having a front surface and a rear surface. The blade comprises a
core of synthetic material extending along a longitudinal axis, a
layer of fibers recovering at least partially the core of synthetic
material and a layer of thermoplastic material recovering at least
partially the layer of fibers. The layer of thermoplastic material
forms part of one of the front and rear surfaces of the blade
element.
[0008] As embodied and broadly described herein, the invention
provides a hockey stick blade with a shank and a blade element
having a front surface and a rear surface. The hockey stick blade
comprises a core of synthetic material extending along a
longitudinal axis and a layer of fibers recovering at least
partially the core of synthetic material. One of the front and rear
surfaces of the blade element comprises a layer of thermoplastic
material that recovers at least partially the layer of fibers.
[0009] Other objects and features of the invention will become
apparent by reference to the following description and the
drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0010] A detailed description of the embodiments of the present
invention is provided herein below, by way of example only, with
reference to the accompanying drawings, in which:
[0011] FIG. 1 is a perspective view of a hockey stick blade
constructed in accordance with the invention;
[0012] FIG. 2 is a perspective view of the blade of FIG. 1 with
layers being peel off;
[0013] FIG. 3 is a perspective view of first and second core
portions used in the construction of the blade of FIG. 1;
[0014] FIG. 4 is a cross sectional view taken along line 4-4 of
FIG. 1;
[0015] FIG. 5 is a perspective view of the first and second core
portions of FIG. 4 with first and second fibers braids used in the
construction of the blade of FIG. 1;
[0016] FIG. 6 is a perspective view of the first and second core
portions and first and second fibers braids of FIG. 5 with a
further fibers braid used in the construction of the blade of FIG.
1;
[0017] FIG. 7 is a perspective view of the first and second core
portions and the fibers braids of FIG. 6 with a further fibers
braid used in the construction of the blade of FIG. 1;
[0018] FIG. 8 is a perspective view of the blade of FIG. 1 before
the molding operation;
[0019] FIG. 9 is a cross sectional view taken along line 9-9 of
FIG. 8;
[0020] FIG. 10 is a perspective view of the preformed blade of FIG.
8 with sheets of thermoplastic material used in the construction of
the blade of FIG. 1; and
[0021] FIG. 11 is a perspective view of a mold and the preformed
blade with the sheets of thermoplastic material.
[0022] In the drawings, the embodiments of the invention are
illustrated by way of examples. It is to be expressly understood
that the description and drawings are only for the purpose of
illustration and are an aid for understanding. They are not
intended to be a definition of the limits of the invention.
DETAILED DESCRIPTION OF THE EMBODIMENTS
[0023] To facilitate the description, any reference numeral
designating an element in one figure will designate the same
element if used in any other figures. In describing the
embodiments, specific terminology is resorted to for the sake of
clarity but the invention is not intended to be limited to the
specific terms so selected, and it is understood that each specific
term comprises all equivalents.
[0024] FIGS. 1 and 2 illustrate a hockey stick blade 10 constructed
in accordance with the invention. The blade 10 comprises a shank
12, a heel section 14 and a blade element 16. The heel section 14
is located at the junction of the shank 12 and the blade element
16. The shank 12 comprises a tenon 18 adapted to be inserted into a
hollow hockey stick shaft made of aluminum, composite or graphite.
It is understood that instead of having the tenon 18, the shank 12
can be integrally formed with a hockey stick shaft.
[0025] The blade 10 comprises a top edge 20, a tip edge 22 and a
bottom edge 24. The blade 10 also comprises a front surface 26
defined by the front surface of the blade element 16 and the front
surface of the shank 12; and a rear surface 28 defined by the rear
surface of the blade element 16 and the rear surface of the shank
12.
[0026] As shown in FIGS. 3 and 4, the blade 10 comprises a core 30
extending along a longitudinal axis A-A. The core 30 comprises a
first portion 32 located above and aligned with a second portion
34. The first and second portions 32, 34 are dimensioned such as to
have the shape of a blade when aligned with one another.
[0027] The first portion 32 comprises a bottom surface 36 and
extends from the heel section 14 to the tip edge 22. The first
portion 32 is generally delimited by its bottom surface 36 and the
planes defined by the top and tip edges 20, 22. The second portion
34 comprises a top surface 38 and extends from the heel section 14
to the tip edge 22. The second portion 34 is generally delimited by
its top surface 38 and by the planes defined by the bottom and tip
edges 24, 22. As shown in FIG. 3, the first and second portions 32,
34 may further comprise respective shank portions 40, 42 defining
the core of the shank 12, these shank portions 40, 42 comprising
respective tenon portions 44, 46. The shank portions 40, 42
generally extend upwardly and rearwardly from the heel section 14.
Hence, the core 30 comprises the first portion 32 with its shank
portion 40 and the second portion 34 with its shank portion 42.
[0028] It is understood that the core may comprise first and second
portions that do not comprise respective first and second shank
portions. In fact, the first and second portions of the core may be
confined to the blade element of the hockey stick blade (from the
heel section to the tip edge) and the shank may be a separate
component that is joined to the blade element. For example, the
shank may be made of wood and comprises a groove in which a tongue
portion provided on the blade element is inserted for joining
together both components.
[0029] The first and second portions 32, 34 are made of synthetic
material such as a thermo-expandable foam selected in the group
consisting of polyurethane foam, ethylene vinyl acetate (EVA) foam,
polyvinyl chloride (PVC) foam, ethylene polypropylene foam and
polyisocyanurate foam. For example, the first and second portions
32, 34 may be made of thermo-expandable polyurethane foam sold by
General Plastic Manufacturing. The first and second portions 32, 34
may be cut from a sheet of foam. Liquid foam may also be injected
in a mold in order to form the first and second portions 32,
34.
[0030] The second portion 34 may be made of foam having a higher
density than the one of the first portion 32. For example, the
first portion 32 may be made of foam having a density of between 6
to 12 lbs/cubic foot while the second portion 34 may be made of
foam having a density of between 14 to 18 lbs/cubic foot. In one
possible embodiment, the first portion 32 is made of foam having a
density of 10 lbs/cubic foot and the second portion 34 is made of
foam having a density of 15 lbs/cubic foot.
[0031] As shown in FIGS. 3 and 4, the bottom surface 36 of the
first portion 32 and the top surface 38 of the second portion 34
extend generally along an irregular line. More particularly, the
top surface 38 of the second portion 34 extends beyond the
longitudinal axis A-A in the heel region such that the heel region
of the blade 10 is mostly made of higher density foam. In the tip
region, the bottom surface 36 of the first portion 32 extends
beyond the longitudinal axis A-A such that the tip region of the
blade 10 is mostly made of lower density foam in order to reduce
the weight of the blade 10.
[0032] In another embodiment, the bottom and top surfaces of the
respective first and second portions may both extend along the
longitudinal axis of the blade.
[0033] In a further embodiment, the first and second portion 32, 34
may be made of a thermo-expandable foam of same density.
[0034] It is understood that the core 30 may be made of a single
piece that is dimensioned such as to have the shape of the blade.
This single piece may be cut from a sheet of foam. Liquid foam may
also be injected in a mold in order to form a foam core having the
shape of the blade.
[0035] A method of making the blade 10 is hereinafter described. As
shown in FIG. 5, a first fibers braid 48 is wrapped over the first
portion 32 and a second fibers braid 50 is wrapped over the second
portion 34. As shown in FIG. 6, a third fibers braid 52 is wrapped
over the second fibers braid 50 of the second portion 34. As shown
in FIG. 7, a fourth fibers braid 54 is wrapped over the first and
third fibers braids 48, 52 of the first and second portions 32, 34
such as to realize a preformed blade 56 as illustrated in FIG. 8.
Note that the preformed blade 56 has the general shape of a
straight hockey stick blade and comprises front and rear faces 58,
60.
[0036] The fibers braids 48, 50, 52, 54 are expandable so as to
conform to the shape of the first and second portions 32, 34 and
are made of woven fibers selected from the group consisting of
carbon fibers, glass fibers, KEVLAR fibers, ceramic fibers, boron
fibers, quartz fibers, spectra fibers, polyester fibers and
polyethylene fibers. For instance, a 3K carbon fibers braid, medium
weight, commercialized by A & P Technology or Eurocarbon may be
used. Moreover, the fibers braids 48, 50, 52, 54 may be made of
fibers crossing at 45.degree.. However, any other fibers crossing
at between 30.degree. and 60.degree. may be used. Alternatively,
layers of uni-directional or woven fiberglass, layers of
uni-directional or woven carbon fibers or sheets of fibers may be
used for covering the core 30. In another alternative construction,
pre-impregnated expandable fibers braids may be used for covering
the core 30.
[0037] FIG. 9 shows a cross section view of the preformed blade 56
for illustrating the fibers braids before the molding process.
[0038] As shown in FIG. 10, front sheet 62 and rear sheet 64 are
used for covering the respective front and rear faces 58, 60 of the
preformed blade 56 in the construction of a blade 10. The sheets
62, 64 are made of a thermoplastic material selected in the group
consisting of polyethylene, polyurethane, polypropylene, polyester,
polystyrene, polyvinyl chloride and cellulose acetate. For example,
the thermoplastic sheets 62, 64 may be made of thermoplastic
polyurethane (TPU) sheets sold by Isosport IS under the name ISOCAP
(density of 1.11 gr/cc and hardness of 73D) or sold by Dow Chemical
(density of 1.15-1.25 gr/cc and hardness of 73D).
[0039] Each of the thermoplastic sheets 62, 64 may have a contour
that is slightly larger than that of the preformed blade 56 such
that portions of the thermoplastic sheets 62, 64 covers the edges
of the preformed blade 56. One of the sheets 62, 64 may comprise an
indicia 66 that has been marked, engraved or printed thereon as
shown in FIG. 10 (see the trade-mark SWOOSH Design of Nike). It is
also understood that the contour of the sheets of thermoplastic
material may be smaller than that of the preformed blade 56.
Moreover, the sheets of thermoplastic material may only recover
specific regions of the preformed blade 56. For example, only the
regions of the preformed blade 56 that are more subject to impacts
may be recovered with the sheets of thermoplastic material. In one
embodiment, only the front face 58 may be recovered with a sheet of
thermoplastic material; and such a sheet may entirely recovers the
front face 58, or only a specific region of this front face 58
(only the heel region of the front face for example).
[0040] The preformed blade 56 and the thermoplastic sheets 62, 64
are afterwards inserted in a mold having the shape of the blade 10.
A suitable resin (urethanes, araldite epoxy, vinylester,
polycyanate or polyester resin) is then injected into the mold to
impregnate the expandable fibers braids 48, 50, 52, 54 and heat is
applied to the mold. A resin such as the resin sold by Ciba
Specialty Chemicals Inc. under the name RESINFUSION may be used.
The temperature of the mold may be between 85.degree. C. and
125.degree. C., the injection pressure of the resin may be between
25 psi and 75 psi and the injection temperature of the resin may be
between 20.degree. C. and 30.degree. C. A vacuum pump may be
mounted on the mold for easing the flow of resin through the fibers
braids. Owing to the shape to the internal cavity of the mold, the
preformed blade 56 is curved to any desired curvature typically
used by hockey players such as to obtain the blade 10.
[0041] When the resin is cured, the mold is opened and the blade 10
is removed. Excess resin and material along the edges of the blade
are removed with quick trimming and sanding operations.
[0042] Once the resin is injected in the fibers braids and the
fibers-resin matrix is cured (see large lines on FIG. 4), the blade
10 comprises an interface between the first and second portions 32,
34, this interface comprising fibers oriented transversely relative
to the longitudinal axis A-A.
[0043] As best shown in FIGS. 2 and 4, the blade 10 comprises (a)
the core 30 formed of the first and second portions 32, 34; (b) a
layer of fibers 68 recovering the core 30, this layer being formed
of a first layer of fibers comprising the fibers braids 48, 50, 52
and a second layer of fibers comprising the fibers braid 54; and
(c) a layer of thermoplastic material 70 recovering the layer of
fibers. It is understood that, when the resin is cure, the layer of
fibers 68 comprises fibers impregnated into the resin (see large
lines in FIG. 4).
[0044] The layer of thermoplastic material 70 comprises the front
and rear sheets 62, 64 and forms part of the front and rear
surfaces of the blade element 16 and the front and rear surfaces of
the shank 12 (i.e. front and rear surfaces 26, 28). In other words,
the front 10 and rear surfaces of the blade element 16 and the
shank 12 comprise the layer of thermoplastic material 70, more
precisely, the respective front and rear thermoplastic sheets 32,
34. Should the front and rear thermoplastic sheets 62, 64 have a
shape that is slightly larger than that of the preformed blade 56,
then the layer of thermoplastic material 70 may also cover the
edges of the preformed blade 56 and forms part of the edges 20, 22,
24 of the blade 10.
[0045] As indicated previously, the contour of the thermoplastic
sheets 62, 64 may be smaller than that of the preformed blade 56
such that the layer of thermoplastic material may only cover
specific regions of the blade 10. For example, only the regions of
the blade 10 that are more subject to impacts may be covered with
the layer of thermoplastic material. In one embodiment, only the
front surface 26 of the blade may be formed of a thermoplastics
layer. Indeed, it is known that the front surface of the blade is
more subject to impacts. In another embodiment, only specific
regions of the front surface 26 may be formed of a thermoplastic
layer (only the heel and middle regions of the blade 10 for
example).
[0046] Because the front and rear surfaces 26, 28 of the blade 10
comprises the layer of thermoplastic material 70, the impact
resistance of the blade 10 is greater than that of a blade having
no external layer of thermoplastic material. For example, for the
same blade construction, drop tests shown that the impact
resistance increases of at least 50% for a blade having an external
layer formed of a thermoplastic polyurethane (TPU) sheet sold by
Isosport IS under the name ISOCAP and at least 70% for a blade
having an external layer formed of a thermoplastic polyurethane
(TPU) sheet sold by Dow Chemical (density of 1.15-1.25 gr/cc and
hardness of 73D).
[0047] The above description of the embodiments should not be
interpreted in a limiting manner since other variations,
modifications and refinements are possible within the spirit and
scope of the present invention. The scope of the invention is
defined in the appended claims and their equivalents.
* * * * *