AU2020226955B2 - Glove and accessory for use with a glove - Google Patents
Glove and accessory for use with a gloveInfo
- Publication number
- AU2020226955B2 AU2020226955B2 AU2020226955A AU2020226955A AU2020226955B2 AU 2020226955 B2 AU2020226955 B2 AU 2020226955B2 AU 2020226955 A AU2020226955 A AU 2020226955A AU 2020226955 A AU2020226955 A AU 2020226955A AU 2020226955 B2 AU2020226955 B2 AU 2020226955B2
- Authority
- AU
- Australia
- Prior art keywords
- glove
- wearer
- force transferring
- transferring element
- force
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
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Classifications
-
- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D19/00—Gloves
- A41D19/015—Protective gloves
- A41D19/01523—Protective gloves absorbing shocks or vibrations
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B71/00—Games or sports accessories not covered in groups A63B1/00 - A63B69/00
- A63B71/08—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions
- A63B71/14—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions for the hands, e.g. baseball, boxing or golfing gloves
-
- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D19/00—Gloves
- A41D19/015—Protective gloves
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B71/00—Games or sports accessories not covered in groups A63B1/00 - A63B69/00
- A63B71/08—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions
- A63B71/14—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions for the hands, e.g. baseball, boxing or golfing gloves
- A63B71/141—Body-protectors for players or sportsmen, i.e. body-protecting accessories affording protection of body parts against blows or collisions for the hands, e.g. baseball, boxing or golfing gloves in the form of gloves
Landscapes
- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Health & Medical Sciences (AREA)
- General Health & Medical Sciences (AREA)
- Physical Education & Sports Medicine (AREA)
- Gloves (AREA)
- Professional, Industrial, Or Sporting Protective Garments (AREA)
Abstract
Subject of this invention is a glove (10) for protecting fingers (12, 14, 16, 18, 20) of a wearer against impact from an object (22). The glove (10) includes a plurality of finger portions (24, 26, 28, 30, 32) for receiving the fingers of the wearer. Each finger portion defines a palm side (34) and a dorsal side (36). At least one substantially rigid force transferring element (38, 40, 42) is attached to at least one of the finger portions and extends at least partially between the palm side and dorsal side of such a finger portion. The force transferring element is configured, upon receiving a compressive impact force from the object on the dorsal side of the finger portion, to at least partially transfer the compressive force past the wearer's fingers. A palm side edge (44) of the force transferring element is operatively spaced away from the palm side (34) of the finger portion (24, 26, 28, 30, 32) when the glove (10) is worn by the wearer.
Description
This application claims priority from South African patent application number 2019/01014 filed on
18 February 2019, which is incorporated by reference herein.
This invention relates to protective gloves and accessories used with protective gloves.
More particularly, but not exclusively, this invention relates to a glove for protecting fingers or
hand of a wearer against impact from an object during ball sports, goal sports or the like.
Protective gloves are used in a variety of sports to protect the hands and fingers of a wearer. This
is particularly important in ball or puck sports played with bats or sticks. Well known examples of
sports where protective gloves are required include cricket, hockey, ice hockey, baseball and
lacrosse. These sports involve fast moving objects such as solid core balls, pucks, bats and sticks
which pose a risk of injury to the hands and fingers of players. As a result, protective gloves have
been developed over the years. These known protective gloves generally include padding on a
dorsal side of the glove to protect against the objects. Padding is typically not provided on a palm
side of these gloves, because that would interfere with the player's feel and interaction with
whatever sporting equipment is being used.
The known gloves are designed so that the pads absorb some of the energy of the striking ball or
object. This padding comes in many shapes and sizes and is sometimes in the form of elongated
sausage-like pads provided along the dorsal side of finger portions of the gloves. These are
appropriately termed sausage-fingered gloves. Other types of protective gloves have a series of
protective pads along the dorsal side of the glove and finger portions. Batting gloves, such as
cricket batsman's or batswoman's gloves, sometimes include soft padding along the length of the
index finger on a side adjacent the thumb, to reduce the impact of a ball striking the index finger
from that side.
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Notwithstanding these developments, injuries to players' fingers and hands are still very common
even when these known gloves are worn. A problem with known gloves is that when the pads are
compressed by the ball, a significant portion of the ball's energy is still transferred through the
player's finger which is then compressed against the bat or handle, often causing injury or even
fractured bones. During their careers, most professional batsmen in the game of cricket would
have suffered broken bones in their fingers or hands as result of this type of compression injury
at some point.
Other attempts at reducing these injuries have been made such as those disclosed in PCT
application no. PCT/AU2013/001017, where a protective shield is provided directly on a handle
of a cricket bat. However, this protective shield is bulky and prevents certain movements of the
hands and bat that is natural to the game.
Accordingly, there is scope to address the aforementioned problems and limitations, or at least to
provide a useful alternative to the known devices.
The preceding discussion of the background to the invention is intended only to facilitate an
understanding of the present invention. It should be appreciated that the discussion is not an
acknowledgment or admission that any of the material referred to was part of the common general
knowledge in the art as at the priority date of the application.
In accordance with an aspect of the invention there is provided a glove for protecting fingers of a
wearer against impact from an object, the glove comprising:
a plurality of finger portions for receiving the fingers of the wearer, each finger portion
defining a palm side and a dorsal side; and
at least one substantially rigid, planar force transferring element which is attached to at least one
of the finger portions and extends at least partially between the palm side and dorsal side of such
finger portion, the force transferring element being configured, upon receiving a compressive
impact force from the object on the dorsal side of the finger portion, to at least partially transfer
the compressive force past the wearer's fingers,
wherein a palm side edge of the force transferring element is operatively spaced away
from the palm side of the finger portion when the glove is worn by the wearer.
Further features provide for the palm side edge to be configured to move towards the palm side
of the finger portion upon receiving the compressive impact force from the object; for the force
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transferring element to be suspended by a flexible member so that the palm side edge of the force
transferring element may be operatively spaced away from a handle of sporting equipment held
by the wearer in use; and for the flexible member to be compressed under the force of the object
bringing the force transferring element into abutment with the sporting equipment, thereby at least
partially transferring the impact force from the object to the sporting equipment to protect one or
more fingers or a hand of the wearer.
Still further features provide for the force transferring element to include a substantially rigid
member extending at least partially between the palm side and dorsal side; and for the palm side
edge of the force transferring element to be arranged to abut a handle of sporting equipment
when held by the wearer upon receiving the compressive impact force.
Yet further features provide for the force transferring element to further include a dorsal surface;
and for the dorsal surface to include a transversely extending wing or shield which extends at
least partially across an adjacent finger portion; and for the dorsal surface itself to extend across
one or more of the finger portions.
Further features provide for the force transferring element to be in the form of a u-shaped structure
including two substantially rigid members extending at least partially between the palm side and
the dorsal side; and for the u-shaped structure to include a dorsal surface facing away from the
palm side, the dorsal surface extending across one, two, three or more than three of the finger
portions.
Still further features provide for the force transferring element to be suspended by a flexible
member SO that the palm side edge of the force transferring element is operatively suspended
away from the handle of the sporting equipment and is configured to move into abutment with the
sporting equipment upon receiving the compressive impact force from the object, thereby at least
partially transferring the impact force from the object to the sporting equipment to protect one or
more fingers or other parts of the hand of the wearer; for the flexible member to be impact
absorbing; and for the palm side edge to be suspended away from the sporting equipment in use,
SO that it enables the wearer to use the sporting equipment freely without the force transferring
element or palm side edge coming into contact with the sporting equipment unless a significant
impact is received on the dorsal side.
Yet further features provide for the force transferring element to have a radial length which is
greater than a diameter of the wearer's fingers, or an estimated diameter of the wearer's fingers
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expected to use the glove; and for at least two force transferring elements to be provided between
two or more of the finger portions.
Further features provide for the glove to include padding adjacent to, or forming part of the finger
portions, or adjacent to a body of the glove; for the padding to include an inner pad which is on
the dorsal side of the glove near the wearer's fingers, and an outer pad which is on the dorsal
side of the glove and outside the inner pad; for the inner pad to be provided, between the wearer's
finger and the outer pad, and for example, in the case of a u-shaped or winged force transferring
element, for the dorsal surface of the element to extend between the inner and outer pads; or for
the dorsal surface to extend across one or more of the finger portions between the inner and outer
pads; for the inner pad to be arranged to space the u-shaped force transferring element away
from the wearer's hand or fingers, and away from the palm side of the finger portions, or away
from the palm side of the glove; for the inner pad to be soft, so that the force transferring element
is not perceived by the wearer; and for the inner pad or the finger portion to be configured such
that when an impact is received on the dorsal side, one of the outer pad and the inner pad is
compressed, until the palm side edge of the force transferring element comes into abutment with
the sporting equipment, or with the handle thereof, thereby transferring at least part of the
compressive force past the wearer's fingers or past the wearer's hand onto the handle or onto the
sporting equipment; and for the force transferring element to form a protective chamber wherein
the hand or fingers of the wearer are located in use, to inhibit injury from the compressive force
of the object. The flexible member may be provided by the inner pad, or by a part of the glove.
Still further features provide for a distal end of the dorsal surface of the u-shaped force transferring
element to extend past a tip of one of the wearer's fingers in use; and for the distal end to be an
open end; alternatively, for the distal end to include a substantially rigid closure or face that at
least partially covers the tip of one or more of the wearer's fingers in use.
In accordance with another aspect of the invention there is provided a glove for protecting hands
of a wearer against impact from an object, the glove comprising:
a glove body having a plurality of finger portions for receiving the fingers of the wearer,
the glove body defining a palm side and a dorsal side; and
at least one substantially rigid force transferring element which is attached to the glove
body and extends at least partially between the palm side and dorsal side of the glove, the force
transferring element being configured, upon receiving a compressive impact force from the object
on the dorsal side of the glove, to at least partially transfer the compressive force past the wearer's
hands, wherein a palm side edge of the force transferring element is operatively spaced away from the palm side of the glove when the glove is worn by the wearer.
Further features provide for the palm side edge to be configured to move towards the palm side
of the glove upon receiving the compressive impact force from the object; for the force transferring
element to be suspended by a flexible member so that the palm side edge of the force transferring
element may be operatively spaced away from a handle of sporting equipment held by the wearer;
and for the flexible member to be operatively compressed under the force of the object bringing
the force transferring element into abutment with the sporting equipment, thereby at least partially
transferring the impact force from the object to the sporting equipment to protect one or more
fingers or a hand of the wearer in use.
In accordance with yet another aspect of the invention there is provided an accessory for use with
a glove to protect hands of a wearer against impact from an object, the accessory comprising:
a substantially rigid force transferring element having a palm side edge and a dorsal
surface; and
an attachment formation which is configured to be attached to a glove body such that the
force transferring element extends at least partially between a palm side and a dorsal side of the
glove in use, with the palm side edge operatively spaced away from the palm side of the glove.
A further feature provides for the attachment formation to be arranged to enable movement of the
force transferring element to at least partially transfer a compressive impact force from the object
past the wearer's hands in use.
Still further features provide for the attachment formation to be arranged to be suspended by a
flexible member so that the palm side edge of the force transferring element may be operatively
spaced away from a handle of sporting equipment held by the wearer; and for the flexible member
to be arranged to compress under the force of the object bringing the force transferring element
into abutment with the sporting equipment, thereby at least partially transferring the impact force
from the object to the sporting equipment to protect one or more fingers or a hand of the wearer
in use.
Embodiments of the invention will now be described, by way of example only, with reference to
the accompanying drawings.
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In the drawings:
Figure 1 is a three-dimensional view of a glove including a plurality of finger portions for
protecting fingers of a wearer against impact from an object;
Figure 2 is a three-dimensional view from a little finger side of the glove of Figure 1,
showing more detail of one of a plurality of force transferring elements provided
on one of the finger portions for a little finger of a wearer;
Figure 3 is a three-dimensional view from a thumb side of the glove of Figure 1;
Figure 4 is a three-dimensional view of another example embodiment of the glove as
viewed from a palm side of the glove, showing a broader u-shaped force
transferring element;
Figure 5 is a three-dimensional view from a distal end of the glove of Figure 4, showing
more detail of the broader u-shaped force transferring element;
Figure 6 is a three-dimensional view from a thumb side of the glove of Figure 4;
Figure 7 is a three-dimensional view from a little finger side of the glove of Figure 4;
Figure 8 is a diagrammatic sectional view of the glove of Figure 1 in use, while the
wearer is holding a bat or stick;
Figure 9 is a diagrammatic sectional view similar to Figure 8, showing a compressive
impact force being received by the glove from an object such as a ball, puck or
stick;
Figure 10 is a diagrammatic sectional view of the glove of Figure 4 in use, while the
wearer is holding a bat or stick;
Figure 11 is a diagrammatic sectional view similar to Figure 10, showing a compressive
impact force being received by the glove from an object such as a ball, puck or
stick;
Figure 12 is a top view of another example embodiment of a glove showing a winged
force transferring element of the index finger's finger portion;
Figure 13 is a three-dimensional view from a thumb side of the glove of Figure 12;
Figure 14 is a three-dimensional view of a distal end of the index finger's finger portion
of the glove of Figure 12, showing the glove being used to hold sporting
equipment such as a bat or stick; and
Figure 15 is a three-dimensional view from a distal end of another embodiment of the
glove, similar to Figure 5, which includes an angled force transferring element.
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There is provided a protective glove for guarding the hand or fingers of a user of the glove, for
example while the user is holding equipment such as sporting equipment. The glove includes a
plurality of shielding members or accessories provided to inhibit damage to the user's fingers or
hand. The shielding members may be made of a substantially rigid material such as, but not
limited to, metal, carbon fibre, plastics, polymers (for example polycarbonate), composites or the
like. The shielding members or accessories may be suspended by cushions which elevate or
suspend the shielding members away from a gripping side of the glove while holding the
equipment. When the glove receives a hit or strike from a ball, puck, bat, stick or any other object,
a contact surface of one or more of the shielding members or accessories may be arranged to
move and to make contact with the equipment, thereby directing at least part of the energy from
the hit onto the equipment and beyond the user's fingers or hand. This may protect the user's
hand or fingers from damage such as compression fractures and other injuries. An accessory or
force transferring element for use with a glove may be provided and it may be retro-fitted to an
existing glove.
An example embodiment of a glove is shown in Figures 1 to 3, another example embodiment of
the glove is shown in Figures 4 to 7, yet another example embodiment of the glove is shown in
Figures 12 to 14, and a further example embodiment of the glove is shown in Figure 15.
Diagrammatic sectional views of the example embodiment of Figures 1 to 3, are shown in Figures
8 to 9; and diagrammatic sectional views of the example embodiment of Figures 4 to 7, are shown
in Figures 10 to 11.
Referring to Figures 1, 8 and 9, there is provided a glove (10) for protecting fingers (12, 14, 16,
18, 20) of a wearer against impact from an object (22). The glove (10) may include a plurality of
finger portions (24, 26, 28, 30, 32) for receiving the fingers of the wearer. A first finger portion (24)
may be provided for receiving the wearer's thumb (12); a second finger portion (26) for the
wearer's index finger (14); a third finger portion (28) for the wearer's middle finger (16); a fourth
finger portion (30) for the wearer's ring finger (18); and a fifth finger portion (32) for the wearer's
little finger (20). Each of the finger portions (24, 26, 28, 30, 32) may define a palm side (34) and
a dorsal side (36). The glove (10) may include a glove body (33) defining its palm side (34) and
its dorsal side (36). The glove (10) may further include at least one substantially rigid, planar force
transferring element (38, 40, 42) which may be attached to at least one of the finger portions (24,
26, 28, 30, 32) and may extend at least partially between the palm side (34) and dorsal side (36)
of such finger portion. The force transferring element (38, 40, 42) may also be attached to the
glove body (33) and may extend at least partially between a palm side (34) and a dorsal side (36)
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of the glove (10). The force transferring element may also be made separately and retro-fitted or
attached to an existing glove, or attached to the glove during manufacturing of the glove.
In the example embodiment shown in Figures 1 to 3 and Figures 8 to 9, a u-shaped force
transferring element (38, 40) may be provided for the index finger's finger portion (26) and for the
middle finger's finger portion (28). The u-shaped force transferring element (38, 40) may be
substantially planar, but may have some curved surfaces or edges as required. Curved or
substantially flat planar force transferring elements (42) may be attached to the little finger's finger
portion (32). These are more clearly visible in Figure 2. More detail of the force transferring
element (38) for the index finger's finger portion (26) is shown in Figure 3. In the example
embodiment of the glove (10), force transferring elements (38, 40, 42) may be omitted from the
finger portions for the ring finger and thumb (24, 30), however embodiments are also possible
where force transferring elements may be provided on each of the five finger portions (24, 26, 28,
30, 32). Various arrangements are possible and the force transferring elements may be attached
to different fingers than are shown in the accompanying drawings.
Figures 8 and 9 show diagrammatic sectional views of the glove of Figures 1 to 3 in use while the
wearer is holding a bat (46) or other sporting equipment. For exemplary purposes, in the sectional
views in Figures 8 and 9, force transferring elements (48, 50) are also provided on the ring finger's
finger portion (30) and on the thumb's finger portion (24). A palm side edge (44) of the force
transferring elements (38, 40, 42, 48, 50) may be operatively spaced away from the palm side
(34) of the finger portions (24, 26, 28, 30, 32) when the glove (10) is worn by the wearer, as is
indicated by distance (D). This may improve the "feel" of the bat (46) perceived by the wearer
because the force transferring elements preferably do not make contact with a handle of the bat
(46) while the wearer holds or uses it. Embodiments are also possible wherein the force
transferring elements (38, 40, 42, 48, 50) are not operatively spaced away from the palm side
(34) of the finger portions or from the palm side of the glove, and where they may operatively abut
the bat (46) or its handle while the wearer is holding the bat.
In Figure 9 is shown the glove (10) in use, when receiving an impact from the object (22). It will
be appreciated that the object (22) may be any object that may cause harm to the wearer,
including, but not limited to a ball, bat, stick, puck, etc. The palm side edge (44) of each of the
force transferring elements (38, 40, 42, 48, 50) may be configured to move towards the palm side
(34) of the relevant finger portion (24, 26, 28, 30, 32) upon receiving a compressive impact force
(F) from the object (22) on the dorsal side (36) of that finger portion. In the example shown, the
impact force (F) from the object (22) is received partially on the ring finger's finger portion (30)
and partially on the little finger's finger portion (32). The force transferring elements (42, 48) may
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at least partially transfer the compressive force (F) past the wearer's ring and little fingers (18, 20)
as indicated by the directional arrows (A). When the ball (22) strikes the glove from the dorsal
side (36), the force transferring elements (42, 48), and their palm side edges (44) may be
configured to move towards the bat (46), and towards the palm side edge (34), until they abut
with the handle of the bat (46). Upon making contact with the bat (46), at least part of the force
(F) or energy of the impact is transferred to the relatively hard surface of the bat (46) which may
protect the wearer's fingers (18, 20) or hand from injury. The bones (52) of the wearer's fingers
(12, 14, 16, 18, 20) (as well as other body tissue and cartilage of the hands and the fingers) may
hence also be protected from compressive fractures or other damage, because a protective
chamber may be formed by the force transferring elements. The ball (22) may contact the padding
(56, 54) which may cause the force transferring element to move and the compressive force may
hence be transferred through the force transferring element via the padding (for example, the ring
finger's finger portion (30), its padding (56, 54), and its force transferring element (48) in Figure
9). Alternatively, the ball may contact the force transferring element directly (for example force
transferring element (42) in Figure 9), thereby transferring at least part of the impact force past
the wearer's hand and onto the handle of the bat (46).
Referring again to Figure 8, the force transferring elements may have a variety of shapes. For
example, the force transferring elements (38, 40) for the index and middle fingers' finger portions
(26, 28) may be a u-shaped structure and may each include two substantially rigid members
(38.1, 38.2, 40.1, 40.2) extending at least partially between the palm side (34) and the dorsal side
(36) of those finger portions (26, 28). This u-shaped structure may also include a dorsal surface
(38.3, 40.3) facing away from the palm side (34). Similar substantially rigid members and dorsal
surfaces (48.1, 48.2, 48.3, 50.1, 50.2, 50.3) may be provided for the ring and thumb's finger
portions (30, 24). The dorsal surface (38.3) may extend across one, two, three or four (or more
than three) of the finger portions. In the embodiment shown in Figures 4 to 7, the dorsal surface
extends across four of the finger portions, as is discussed in more detail below. The dorsal surface
of each force transferring element may include one or more dorsal edges. It will be appreciated
that for the little finger's force transferring elements (42), the dorsal surface may be a dorsal edge
of the force transferring element. With a wider or broader force transferring element, the dorsal
surface may extend across one or more of the finger portions.
Still referring to Figure 8, the glove also includes padding (54, 56) which may form part of the
finger portions (24, 26, 28, 30, 32). The padding may include an inner pad (54) near the wearer's
fingers (12, 14, 16, 18, 20), which may be towards the dorsal side (36) of the glove (10). It should
be appreciated that the dorsal side of the glove (10) may also include the dorsal sides (36) of the
finger portions (24, 26, 28, 30, 32). The padding may further include an outer pad (56) which may
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be provided on the dorsal side (36) of the glove (10), outside the inner pad (54). In the example
embodiment, the inner pad (54) may be provided between the wearer's finger (12, 14, 16, 18, 20)
and the outer pad (56). In the case of a u-shaped force transferring element (38, 40, 48, 50), the
dorsal surface (38.3, 40.3, 48.3, 50.3) of the respective element (38, 40, 48, 50) may extend
between the inner and outer pads (54, 56). The inner pad (54) may have the functionality of
improving the "feel" of the glove (10) to the wearer by creating a barrier between the wearer's
fingers (12, 14, 16, 18, 20) and the dorsal surface (38.3, 40.3, 48.3, 50.3) of the force transferring
elements (38, 40, 48, 50). The inner pad (54), or the outer pad (56) may be arranged to space
the u-shaped structure away from the wearer's hand or fingers, and away from the palm side (34)
of the finger portions (24, 26, 28, 30, 32). The u-shape may be selected SO that the "feel" of the
glove (10) as perceived by the wearer is not substantially affected. The inner pad (54) may for
example be manufactured from soft material SO that the force transferring elements are not
perceived by the wearer while wearing the glove (10).
The inner pad (54), or the finger portions (24, 26, 28, 30, 32) may be configured such that when
an impact is received on the dorsal side (36), one or both of the relevant inner and outer pads
(56, 54) are at least partially compressed until the palm side edge (44) of the force transferring
element (38, 40, 42, 48, 50) comes into abutment with the sporting equipment (46), or with the
handle thereof, thereby transferring at least part of the compressive force (F) past the wearer's
fingers (12, 14, 16, 18, 20) and hand directly onto the handle. The force transferring element may
form a protective chamber wherein the hand or fingers of the wearer are located in use. A distal
end (51) (shown in Figure 1) of the dorsal surface (38.3) of the u-shaped force transferring
element (38) may extend past a tip (53) of any one of the wearer's fingers. The distal end may be
an open end, or alternatively, embodiments are possible wherein the distal end (51) may include
a substantially rigid closure (an example of which is shown in Figure 15 and described below) that
at least partially covers the tip (53) of the wearer's finger in use.
Referring again to Figure 9, as the ball (22) impacts the dorsal side (36) of the glove (10), the little
and ring fingers' finger portions (30, 32) are at least partially compressed by the compressive
force (F) of the ball. This is because the inner padding (54) and/or the outer padding (56) is at
least partially compressed or deformed, which may cause the force transferring elements (42, 48)
and the palm side edges (44) to move towards the palm side (34) of the glove (10) (or towards
the palm side (34) of the finger portions), until it abuts with the handle of the sporting equipment
(46). For finger portions (30, 32) the outer padding (56) may be compressed while the inner
padding (54) may remain substantially in its normal shape (substantially un-compressed). The
inner padding (54) may however move slightly towards the fingers (18, 20) of the wearer (without
compressing them substantially) until the palm side edges (44) abut with the bat (46). The force
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transferring elements (38, 40, 42, 48, 50) may be suspended (D) by the padding (54, 56) away
from the palm side (34) when not receiving an impact (as shown in Figure 8). The padding (54,
56) may thus provide a flexible member (which may preferably be impact absorbing) SO that the
palm side edges (44) of the force transferring elements are operatively suspended or elevated
away from the handle (46) of the sporting equipment. This may enable the wearer to use the
sporting equipment (46) freely without the force transferring elements (38, 40, 42, 48, 50) or palm
side edges (44) coming into contact with the sporting equipment (46) during use and when not
receiving an impact. The elevation or spacing of the palm side edge(s) away from the sporting
equipment may also be provided by the way that the force transferring element is attached to the
glove. The glove itself, or the finger portions may provide a flexible member which suspends the
palm side edge(s) away from the sporting equipment until an impact is received from the object.
In the embodiments of the present disclosure, the flexible member may be compressed under the
compressive or impact force of the object and this may, in turn, cause the palm side edge(s) to
come into abutment with the handle of the sporting equipment to at least partially transfer the
force past the wearer's hand or fingers.
It should be appreciated that the finger portions (24, 26, 28, 30, 32) of the glove (10) may also
include finger receiving parts (25) which may be made of suitable material such as, but not limited
to, cloth, leather, nylon etc. The finger receiving parts (25) of the finger portions (24, 26, 28, 30,
32) may be attached to the padding (54, 56) for example by adhering, gluing or stitching or other
attachment methods may be used. The force transferring elements (38, 40, 42, 48, 50) may for
example be stitched, adhered or otherwise attached to the padding (54, 56) and/or to the finger
portions (24, 26, 28, 30, 32) and/or to the finger receiving parts (25). It is further envisaged that
the force transferring elements may include an attachment formation or attachment means for
attaching each of the force transferring elements to the glove (in other words, retro-fitting it to an
existing glove). Adhesives, gluing, stitching or other attachment or fastening methods or
apparatuses may be used. The force transferring elements may have a radial length (L) which
may be equal to or greater than a diameter of the wearer's fingers, or an estimated diameter of a
wearer's fingers who is expected to use the glove.
Figures 4 to 7 and Figures 10 to 11 show another example embodiment (100) of the glove where
the force transferring element may be in the form of a broader or wider u-shaped force transferring
element (158) which may at least partially cover and protect more than one finger of the wearer.
For example, four fingers (26, 28, 30, 32) (in this case the index, middle, ring and little finger of
the wearer) may be protected by the broader u-shaped force transferring element (158). Similar
to the u-shaped force transferring element (38) of Figure 1, the broader force transferring element
(158) may also have two substantially rigid members (158.1, 158.2) extending at least partially
WO wo 2020/170126 PCT/IB2020/051333
12
between a palm side (162) and a dorsal side (164) of the glove (100). Stated differently, the two
substantially rigid members (158.1, 158.2) may extend at least partially between a palm side (162)
and a dorsal side (164) of the relevant finger portions (26, 28, 30, 32). These substantially rigid
members (158.1, 158.2) may extend along the index finger's finger portion (26) and along the
little finger's finger portion (32). The broader force transferring element (158) may also include a
dorsal surface (158.3) facing away from the palm side (162). Other features of this embodiment
may be similar to the embodiment described with reference to Figures 1 to 3, Figures 8 to 9 or
Figure 15 which is described below. Figures 10 and 11 are similar to Figures 8 and 9, but show
the embodiment of the glove (100) of Figures 4 to 7 in use. A palm side edge (160) of the broader
force transferring element (158) may be operatively spaced away from the palm side (162) of the
finger portions (26, 28, 30, 32) when the glove (100) is worn by the wearer, as is illustrated by
distance (DD). Inner and outer pads (154, 156) may be provided similarly to the inner and outer
pads (54, 56) of the embodiment of Figures 1 to 3 and Figures 8 to 9. In this example embodiment,
the force transferring element (50) for the thumb's finger portion may be omitted (for example, to
possibly increase mobility of the wearer's thumb), but it may still include inner and/or outer pads
(154, 156). The broader force transferring element (158) may have a radial length (LL) which may
be equal to or greater than a diameter of the wearer's fingers, or an estimated diameter of a
wearer's fingers who is expected to use the glove. The broader u-shape may also be selected so
that the "feel" of the glove (100) as perceived by the wearer is not substantially affected.
Turning now to Figure 11, upon receiving an impact from an object (22) and as result of a
compressive force (FF), the force transferring element (158) and particularly its palm side edges
(160) may move towards the palm side (162) of the glove (100) until one or both of them abut
with the handle of the sporting equipment (46), thereby protecting the wearer's fingers and hand
by transferring at least part of the compressive force (FF) past the wearer's fingers and onto the
sporting equipment as is indicated by directional arrows (AA).
It may be advantageous to use the embodiment of the glove (100) with the broader force
transferring element (158) of Figures 4 to 7 and Figures 10 and 11 on one hand of the wearer and
the embodiment of the glove (10) of Figures 1 to 3 and Figures 8 to 9 on the other hand of the
wearer. In the case of the glove (10, 100) being used in the game of Cricket, it may be
advantageous for the broad u-shaped force transferring element (158) to be used on a leading
hand or upper hand of a batsman (the leading or upper hand may be the left hand for a right-
handed batsman, and the right hand for a left-handed batsman). For the other hand, a trailing or
lower hand, it may be advantageous to provide the embodiment of the glove (10) with some u-
shaped force transferring elements (38, 40, 48, 50) covering pre-selected ones of the fingers, and
with substantially flat or curved force transferring elements (42) provided on other ones of the
WO wo 2020/170126 PCT/IB2020/051333
13
fingers, or optionally with some fingers only being provided with padding (54, 56). This may
provide increased mobility in the trailing hand (which may require more mobility than the leading
hand), while still providing protection for fingers that are often broken or damaged by fast balls or
the like.
Referring to Figures 12 to 14, there is shown another example embodiment (200) of the glove. In
this embodiment, a force transferring element (238) of an index finger's finger portion (226) may
include substantially rigid members (238.1, 238.2) extending at least partially between a palm
side (234) and dorsal side (236) of the glove (200). The force transferring element (238) may
further include a dorsal surface (238.3), and this dorsal surface (238.3) may include a transversely
extending wing (238.4) (which may also be referred to as a shield or winged formation) which
may extend at least partially across an adjacent finger portion in use. The dorsal surface may
include one or more dorsal edges. As is shown in Figure 14, the winged formation (238.4) may
extend at least partially across a thumb's finger portion (224) when the wearer is holding a bat
(246). This may provide protection against objects, and may in particular also protect a distal part
of the wearer's thumb. Other embodiments are also possible wherein the wing extends partially
or completely across one or more of the other finger portions as required. The wing (238.4) may
protect the wearer's thumb which may be subject to oncoming balls or other objects. It will be
appreciated that the force transferring element (238) may otherwise be similar in functionality to
the force transferring elements described above with reference to Figures 1 to 11. In this
embodiment the force transferring element (238) may also be retro-fitted or attached to the glove
and it may also include an attachment formation. For example, the attachment formation may be
provided by one or more holes (247) in the dorsal surface (238.3), to facilitate the force
transferring element to be stitched to the dorsal side of the glove or finger portions. The palm side
edges of the force transferring element (238) may also move to abut with the handle of the bat
when receiving an impact or compressive force from an object, to protect the wearer's hand and
fingers. The wearer's thumb is particularly at risk in Cricket, because the distal end of the thumb
faces directly at incoming deliveries. This embodiment may alleviate the aforesaid risk. Other
embodiments are also possible where the wing extends over one or more other fingers, for
example the force transferring element of the ring finger's finger portion may have a wing that
extends at least partially over the little finger's finger portion, etc. In Figure 14, the outer pads are
omitted, but embodiments are possible where outer pads are provided on the dorsal surface
similar to Figure 1.
Figure 15 shows yet another embodiment (300) of the glove and force transferring elements,
similar to the embodiment (100) shown in Figures 4 to 7 and Figures 10 to 11, and which glove
also includes a palm side (362). In this embodiment (300), the force transferring element (312)
WO wo 2020/170126 PCT/IB2020/051333
14 14
(and particularly a distal end thereof) may be angled. The distal end of the force transferring
element (312) may define a distal surface (310) that partially covers one or more of the fingertips
of the wearer. The distal end may be angled as shown, and it may extend across one or more of
the fingertips of the wearer. At the little finger's finger portion the little finger's fingertip may be
covered, the ring finger's fingertip may be partially covered, the middle finger's fingertip may be
partially covered and the index finger's fingertip may be substantially open towards a distal end
thereof, defining an opening (328) in the force transferring element (312). This embodiment may
include a separate rigid structure (320) or force transferring element, for example provided on a
distal end of the index finger's finger portion to protect the index finger against strikes from the
distal end of the index finger. A palm side edge (322) of the separate rigid structure (320) or force
transferring element may be operatively spaced from the palm side (362) of the glove, in a similar
way as described above with reference to the other embodiments. A blocking device may also be
provided to block movement of the separate rigid structure in the direction of the length of the
wearer's finger. The blocking device (not shown) may for example be provided on an inside of the
u-shaped force transferring element (312) and may arrest movement of the rigid structure (320)
to inhibit damage to that finger when the object hits it from the front of the relevant fingertip. The
separate rigid structure (320) may also include an attachment formation for attachment to the
glove body. Other features of the embodiment (300) of the glove may be similar to the
embodiment (100) described above with reference to Figures 4 to 7 and Figures 10 to 11. Padding
may also be provided for this embodiment if needed, or it may simply be covered by leather,
synthetic material, cloth or the like. Combinations of features of the various embodiments depicted
and described herein may also be possible. For example, the embodiment shown in Figures 4
and 5 may include a distal surface similar to the distal surface (310) shown in Figure 15, or a
distal surface that only covers one or more of the fingertips of the wearer. The distal surface may
also be referred to as a front face of the force transferring element. The distal surface may extend
to cover the fingertips of one or more of the finger portions, such as the middle finger's finger
portion and the ring finger's finger portion.
The present disclosure may provide advantages over known devices, because the force
transferring elements may provide at least two contact points arranged to abut with the sporting
equipment upon receiving an impact from an object, irrespective of the orientation of the wearer's
hand relative to the sporting equipment. For example, with the embodiment shown in Figure 15,
a first contact point or palm side edge (324) as well as a second contact point or palm side edge
(326) may be arranged to abut with the sporting equipment when an impact is received from the
object. Similarly, with the embodiment shown in Figure 1, both the palm side edges (44) of the
force transferring element (38) of the index finger may be arranged to both come into abutment
or contact with the sporting equipment when receiving an impact force from the object. It will be
WO wo 2020/170126 PCT/IB2020/051333
15
appreciated that at least two contact points or palm side edges may also be provided for the other
embodiments described herein. This may especially provide advantages for a bottom hand of a
Cricket player, because typically only a few fingers of the wearer are used to hold the handle of
the Cricket bat with the operatively lower hand.
For the example embodiment of Figure 15, if the wearer uses his index finger, middle finger and
thumb of his hand to hold the handle of the bat, and an impact force is received from a ball onto
a dorsal surface of the force transferring element (312), then both the first and second contact
points (324, 326) or palm side edges may move towards the handle of the bat, make contact with
the bat handle, and the force would therefore be at least partially transferred past the wearer's
fingers to protect them. The flexible member may be compressed by the impact force of the object.
In other words, a flexible part of the glove to which the force transferring element is attached may
flex or compress (or move) to bring the palm side edge into abutment with the sporting equipment.
Alternatively, one or more of the pads may provide the flexible member as described above. The
flexible member may also be a separate flexible member which is attached to the attachment
formation of the force transferring element and to the glove. Referring again to Figure 15, an
embodiment may also be possible wherein an opening (328) is provided on both sides of the u-
shaped force transferring element (312) (i.e. at the index finger side and at the little finger side),
with the front face (310) or substantially rigid closure extending between these two openings.
Such an embodiment may provide an ambidextrous accessory or force transferring element which
can be attached or retro-fitted to either a right-hand glove or a left-hand glove.
Having at least two contact points or palm side edges between the force transferring element and
the sporting equipment upon impact from the object may be important, because if only one contact
point is provided the object may still cause damage to the wearer's fingers or hand as a result of
the force transferring element pivoting or rotating upon receiving the impact. Having at least two
contact points may thus provide a secure or stable structure which may be more effective at
transferring force to the sporting equipment, because the force transferring element may be less
likely to rotate or pivot when it contacts the sporting equipment at two or more separate locations.
This advantage may be provided even if the wearer does not use all his or her fingers to hold the
sporting equipment. There are known gloves have reinforcing parts provided in an upper layer of
padding. However, these reinforcing parts are fixed into these gloves, and they are thus unable
to move past the wearer's finger(s) to come into contact with the sporting equipment without
causing significant compression to the wearer's finger or hand. This is because a dorsal layer of
these gloves prevents this movement, and/or because these reinforcing parts are usually too
short to prevent injury.
WO wo 2020/170126 PCT/IB2020/051333
16
It will be appreciated by those skilled in the art that there are many variations to the invention as
herein defined and/or described with reference to the accompanying drawings. For example, the
inner and outer pads may be provided by a single pad. The force transferring element(s) may be
provided only on one, or on more than one of the finger portions as required by the particular
application. U-shaped force transferring elements, or generally flat, or generally curved, or
generally elongated force transferring elements may be used or a combination of these as
required. The force transferring elements may have any shape that includes projections that are
longer than the thickness or diameter of the wearer's fingers, or an estimated diameter of a
wearer's fingers who is expected to use the glove. The force transferring elements may be
arranged to inhibit possible damage to the ball or object, for example by adding outer pads of a
particular foam or other cushioning or shock absorbing materials. The palm side surface or edge
of the force transferring elements may be a straight surface, or it may be a curved surface that is
arranged to abut a round or oval handle. There may also be parts of the force transferring
elements that are cut away to accommodate the wearer's fingers, particularly to accommodate
the thumb as it wraps around the handle while the wearer is holding a bat. The force transferring
elements may also be padded or lined (for example with leather or synthetic material), to limit
wear on the glove and/or to improve the feel of the glove for the wearer and/or to alleviate damage
to the ball. The force transferring elements, and particularly the outer pads may be arranged so
that they have a shape that resembles a sporting glove of the particular sport, for example a
Cricket glove. The padding or cushioning materials may be chosen SO that it deflects the ball in a
way that is familiar or known to players so that wearing the glove does not increase chances of
being caught off the glove.
The force transferring elements may have holes in them SO that the other components of the glove
may be stitched or otherwise attached to the force transferring elements. An example of these
holes is shown in Figure 14, but the other embodiments may also include these holes or other
types of attachment formations for attaching the force transferring element(s) to the glove body.
Embodiments are also possible wherein the force transferring element and particularly the dorsal
surface thereof may extend at least partially over a dorsal part of the wearer's hand, for example
to cover at least a part of the knuckles and/or at least a dorsal part of the hand between the
knuckles and wrist of the wearer. This may enable other parts of the wearer's hand to be
protected. The force transferring elements may be manufactured from any substantially rigid
material which may be a lightweight material to reduce the overall weight of the glove. Materials
that may be used include, but are not limited to metals such as aluminium or titanium, other
materials such as composites, carbon fibre, polymers (for example polycarbonate), plastics etc.
WO wo 2020/170126 PCT/IB2020/051333
17
It will further be appreciated that the various force transferring elements described herein (and/or
the separate rigid structure in Figure 15) may be manufactured separately and then retro-fitted or
attached to a glove. Each of the force transferring elements described herein may include at least
one attachment formation which can be attached to a glove body. For example, the u-shaped
force transferring elements may include the attachment formation on a side thereof which can
then be attached to one of the finger portions, or to another part of the glove body. Alternatively,
the attachment formation may be in the form of one or more holes in the force transferring element
(as mentioned above), so that it can be stitched to the glove. Alternatively, the attachment
formation may be the dorsal surface itself, of the force transferring element, which can be
attached, glued or affixed to a dorsal side of the glove, or attached between the inner and outer
pads as described above. Otherwise, the attachment formation may be a part of the force
transferring element that partially extends from the dorsal side of the glove towards the palm side,
and it may be attached to the glove or finger portion(s). The force transferring elements that are
not u-shaped (for example those shown in Figure 1 for the little finger) may also include the
attachment formation for attachment to the glove. This type of force transferring element may also
be used or provided between other finger portions of the glove. In the embodiments described
herein, the dorsal surface may be the dorsal edge of the relevant force transferring element. The
force transferring element(s) may be attached to the glove by way of the attachment formation,
and many types of attachment formations may be used. For example, attachment by way of hook-
and-loop fasteners (e.g. Velcro or clips, snap-fit attachments, zip fasteners, glue or any other
type of fastener may be used to attach the force transferring element to the glove, or to one or
more of the finger portions.
There is thus provided an accessory (38, 40, 42, 48, 50, 158, 238, 312, 320) for use with a glove
to protect hands of a wearer against impact from an object. The accessory may include a
substantially rigid force transferring element having a palm side edge and a dorsal surface. An
attachment formation may be configured to be attached to a glove body such that the force
transferring element extends at least partially between a palm side and a dorsal side of the glove
in use, with the palm side edge being operatively spaced away from the palm side of the glove
(and spaced away from sporting equipment when held by the wearer while wearing the glove).
The attachment formation may be arranged to enable movement of the force transferring element
to at least partially transfer a compressive impact force from the object past the wearer's hands
in use.
The force transferring element may provide protection against injuries where the wearer's finger
is compressed between the object and the sporting equipment, by transferring the force from the
object to the sporting equipment. It should be appreciated that a substantial amount of the force
WO wo 2020/170126 PCT/IB2020/051333
18
or energy of the object is transferred or conveyed past the wearer's hand or fingers. The force
transferring element may thus form a protective chamber or cage wherein the wearer's hand or
finger(s) are located in use. The protective chamber may have a plurality of sides, for example
three, or four sides: the dorsal side, a distal side (facing away from the distal tip of the relevant
finger), a thumb side (facing towards the wearer's thumb when the hand is outstretched) and a
little finger side (facing away from the thumb when the hand is outstretched). This protective
chamber may house any number of fingers or even parts of the hand of the wearer.
It should further be appreciated that the padding, including the inner and outer padding may be
optional. In other words, the glove may include the force transferring element, whether u-shaped,
straight, curved, angled, or winged, and this may protect the hands or fingers of the wearer without
necessarily requiring padding. The inner pads may be provided merely for comfort (or "feel"), or
merely to suspend the dorsal surface above the wearer's fingers. The dorsal surface is typically
substantially flat, but as shown in Figure 9 for the little finger, the dorsal surface may be a relatively
small surface or dorsal edge of the force transferring element. These generally flat force
transferring elements may also be used for the rest of the wearer's fingers. Because the padding
may be omitted, the glove may be made lighter and/or less bulky than known gloves that the
applicant is aware of, without compromising protection. The hands may be enabled to be used
more dexterously when wearing the glove and the glove may provide better cooling or better
ventilation to the hand (which may also reduce the amount of sweat) because less padding or no
padding at all is needed.
The foregoing description has been presented for the purpose of illustration; it is not intended to
be exhaustive or to limit the invention to the precise forms disclosed. Persons skilled in the
relevant art can appreciate that many modifications and variations are possible in light of the
above disclosure. The language used in the specification has been principally selected for
readability and instructional purposes, and it may not have been selected to delineate or
circumscribe the inventive subject matter. It is therefore intended that the scope of the invention
be limited not by this detailed description, but rather by any claims that issue on an application
based hereon. Accordingly, the disclosure of the embodiments of the invention is intended to be
illustrative, but not limiting, of the scope of the invention, which is set forth in the following claims.
Finally, throughout the specification and accompanying claims, unless the context requires
otherwise, the word 'comprise" or variations such as "comprises" or 'comprising' will be understood
to imply the inclusion of a stated integer or group of integers but not the exclusion of any other
integer or group of integers.
Claims (1)
- CLAIMS: 25 Nov 20251. A glove for protecting fingers of a wearer against impact from an object, the glove comprising: a plurality of finger portions for receiving the fingers of the wearer, each finger portion defining a palm side and a dorsal side; at least one substantially rigid force transferring element which is attached to at least one of the finger portions, at or near a dorsal side thereof, and which includes 2020226955a dorsal surface and at least one substantially rigid member extending from the dorsal surface at least partially between the dorsal side and palm side of such finger portion, the force transferring element being configured, upon receiving a compressive impact force from the object from the dorsal surface, to at least partially transfer the compressive force past the wearer’s fingers; and one or more outer pads secured on an outer surface of the dorsal surface of the force transferring element; wherein the force transferring element is suspended by one or more inner pads positioned between the dorsal side of the at least one finger portion and the dorsal surface of the force transferring element, so that a palm side edge of the at least one rigid member is operatively spaced away from the palm side of the finger portion when the glove is worn by the wearer.2. The glove as claimed in claim 1, wherein the force transferring element is suspended by the one or more inner pads so that the palm side edge of the force transferring element is operatively spaced away from a handle of sporting equipment held by the wearer, and wherein the one or more inner pads compresses under the force of the object bringing the force transferring element into abutment with the sporting equipment, thereby at least partially transferring the impact force from the object to the sporting equipment to protect one or more fingers or a hand of the wearer in use.3. The glove as claimed in any one of the preceding claims, wherein the force transferring element is substantially u-shaped and includes two substantially rigid members extending at least partially between the palm side and the dorsal side of the at least one finger portion to which it is attached.4. The glove as claimed in claim 3, wherein the dorsal surface extends across one, two, three or more than three of the finger portions.5. The glove as claimed in any of claims 1 to 4, wherein the one or more inner pads is 25 Nov 2025positioned opposite the one or more outer pads, on an opposite side of the force transferring element.6. The glove as claimed in claim 5, wherein the dorsal surface of the force transferring element extends across one or more of the finger portions and between the inner and outer pads. 20202269557. The glove as claimed in claim 5 or claim 6, wherein the inner pad of the finger portion is configured such that when an impact is received on the dorsal side, one of the outer pad and the inner pad is compressed, until the palm side edge of the force transferring element comes into abutment with the sporting equipment, or with the handle thereof, thereby transferring at least part of the compressive force past the wearer’s fingers or past the wearer’s hand onto the sporting equipment.8. The glove as claimed in any one of the preceding claims, wherein the dorsal surface includes a transversely extending wing which extends at least partially across an adjacent finger portion.9. The glove as claimed in any one of the preceding claims, wherein the force transferring element has a radial length which is greater than an estimated diameter of the wearer’s fingers.10. The glove as claimed in any one of the preceding claims, wherein a distal end of the dorsal surface of the force transferring element extends past a tip of one of the wearer’s fingers in use.11. The glove as claimed in claim 10, wherein the distal end is an open end.12. The glove as claimed in claim 10 or claim 11, wherein the distal end includes a substantially rigid closure that at least partially covers the tip of one or more of the wearer’s fingers in use.&A 36 30 36 28 26 Figure 125 10 36 &0 44 $ 0 0 0 34 25 25 40 40 33 44 4442 4236 Figure 2Figure 3&32 158160 160158.2Figure 4 26 158.1 100 100 164 156 156 158.3 160 154 154 28 158 24 156 154 30156154 154 32 162 162154 156160 160158.2Figure 5158.126160 162 16224Figure 6 164 158 100158.2 158.316032 162 158.1 30 28 2624Figure 7WO 2020/170126 2020117012 oM PCT/IB2020/051333 5/11 II/S10 D 0 9th 46 .....L25 42 44 3699 56 54 34 3252 $5 200 25 44 42 20 48.298 3699 56 54 3448.1 48.3 48 18 44 40.2 25 93 3628 56 99 54 34 5240.1 40.3 40 04 44 7 L 16 38.236 98 0 25 52 50.2 50.2 5.0'3 50.3 26 99 56 54 34 4452 36 9825 34 54 56 99 24 14 38.3 38 8838.1 44 12 50.1 50 09Figure 8WO 2020/170126 2020117016 OM PCT/IB2020/051333 6/11 II/946 10K 98 36 42 A V 4432 52 99 56 54 3425 LL F 44 200 20 42 Y A 2552 52 99 56 54 34 30 0036 98 44 48 18 Y A 25 25 36 9828 56 54 34 5222 DV 44 40 16 91 25 36 12 52 44 36 99 26 99 56 54 34 52 24 44 34 54 99 5614 88 38 a D 44D a 25 50 09Figure 9100 DD 46 LL 158.2160 160156 15432 162156 154 162 162158.3156 15428 162156 154162 162 26160 160 164 156162 24158 158.1Figure 10WO 2020/170126 2020117012 OM PCT/IB2020/051333 8/11 II/8100 158.2AA 160 091 9th 46156 154162 162FF156 154 162 162158.3156 154 162 16222156 154 162 162091 160154 156 AA 162158 158 158.1Figure 11WO wo 2020/170126 PCT/IB2020/051333 9/11226 200238 238.4236Figure 12236 200 238 238.4238.1 238.1 X226 244 234234Figure 13236 238.4238.3 246244 224244234 238.1 238.1 226238.2Figure 14Figure 15
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| ZA201901014 | 2019-02-18 | ||
| PCT/IB2020/051333 WO2020170126A1 (en) | 2019-02-18 | 2020-02-18 | Glove and accessory for use with a glove |
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| AU2020226955A1 AU2020226955A1 (en) | 2021-10-07 |
| AU2020226955B2 true AU2020226955B2 (en) | 2025-12-18 |
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| AU (1) | AU2020226955B2 (en) |
| CA (1) | CA3130711A1 (en) |
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| US20250128141A1 (en) * | 2021-08-05 | 2025-04-24 | Glove IP (Pty) Ltd | Glove, rigid guard structure for a glove and a method ofmanufacturing a glove |
Citations (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| GB2311929A (en) * | 1996-03-27 | 1997-10-15 | Dunlop Slazenger Group Ltd | Finger protective device |
| EP3426080A1 (en) * | 2016-03-12 | 2019-01-16 | CrossGuard IP B.V. | Protective glove |
Family Cites Families (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US4751749A (en) * | 1985-06-05 | 1988-06-21 | Cowhey James R | Athletic training gloves |
| US20180317578A1 (en) * | 2017-05-04 | 2018-11-08 | Michael Amano Furukawa | Protective Sport Glove |
-
2020
- 2020-02-18 WO PCT/IB2020/051333 patent/WO2020170126A1/en not_active Ceased
- 2020-02-18 US US17/430,920 patent/US20220142275A1/en not_active Abandoned
- 2020-02-18 GB GB2113162.8A patent/GB2595834B/en active Active
- 2020-02-18 AU AU2020226955A patent/AU2020226955B2/en active Active
- 2020-02-18 CA CA3130711A patent/CA3130711A1/en active Pending
Patent Citations (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| GB2311929A (en) * | 1996-03-27 | 1997-10-15 | Dunlop Slazenger Group Ltd | Finger protective device |
| EP3426080A1 (en) * | 2016-03-12 | 2019-01-16 | CrossGuard IP B.V. | Protective glove |
Also Published As
| Publication number | Publication date |
|---|---|
| WO2020170126A1 (en) | 2020-08-27 |
| GB202113162D0 (en) | 2021-10-27 |
| CA3130711A1 (en) | 2020-08-27 |
| GB2595834A (en) | 2021-12-08 |
| US20220142275A1 (en) | 2022-05-12 |
| GB2595834B (en) | 2023-10-25 |
| AU2020226955A1 (en) | 2021-10-07 |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| FGA | Letters patent sealed or granted (standard patent) |