NZ789097A - Cricket bat - Google Patents
Cricket batInfo
- Publication number
- NZ789097A NZ789097A NZ789097A NZ78909722A NZ789097A NZ 789097 A NZ789097 A NZ 789097A NZ 789097 A NZ789097 A NZ 789097A NZ 78909722 A NZ78909722 A NZ 78909722A NZ 789097 A NZ789097 A NZ 789097A
- Authority
- NZ
- New Zealand
- Prior art keywords
- handle
- cavity
- blade
- bat
- diameter
- Prior art date
Links
Abstract
cricket bat, the cricket bat comprising a handle and a blade. The blade comprises an opening at a first end and a cavity formed inside and enclosed within the blade and extending a predetermined length along the blade from the opening. The handle comprises a first portion configured to be held by a user and a second portion configured to be received in the opening and configured to extend at least partially along the cavity, wherein an outer surface of the second portion of the handle is fully surrounded by an inner surface of the cavity. a user and a second portion configured to be received in the opening and configured to extend at least partially along the cavity, wherein an outer surface of the second portion of the handle is fully surrounded by an inner surface of the cavity.
Description
A cricket bat, the cricket bat sing a handle and a blade. The blade comprises an opening at a
first end and a cavity formed inside and enclosed within the blade and extending a predetermined
length along the blade from the opening. The handle comprises a first portion configured to be
held by a user and a second portion configured to be received in the opening and configured to
extend at least partially along the cavity, wherein an outer surface of the second n of the
handle is fully surrounded by an inner surface of the cavity.
NZ 789097
CRICKET BAT
This application claims priority from United Kingdom patent application 2108109.6, filed
7 June 2021, the entire content of which is incorporated by reference.
FIELD AND BACKGROUND
The present invention relates particularly, but not exclusively, to a novel design for a
cricket bat and a method of cture of the t bat.
Innovation within the field of cricket bat design presents a unique set of challenges. Like
the game, the equipment is rooted in tradition and the laws that govern both the production processes
and material composition of the bat are, as a consequence, strict. These rules are largely set by the
Marylebone Cricket Club, MCC. The task therefore is to work within the confines of these rules and
yet continue to drive progress in the bat development.
An additional challenge comes from the main material component of the bat, the ‘Salix
alba var. caerulea’ willow wood, which forms the ‘blade’. This is the part of the bat used to hit the ball.
As the game becomes ever more lucrative, the competition to grow this material in a rapid and
sustainable way can result in a detrimental outcome to the final structure of the wood. In this instance
the willow becomes denser and therefore much heavier, which is not suitable for cricketers who
require a lightweight ‘performance’ product. Given that it takes approximately 15-20 years for a tree
to reach maturity before it is felled, the timescales involved in refining the growing practice mean that
insights into improving the process are slow to manifest. As such, it is incumbent on the bat
manufacturer to work with the material as-is in order for it to deliver peak performance.
tional cricket bats are often found to be too heavy. Thus there is a desire to
reduce the weight of the bats without ng the overall look and feel of the bat for the cricketers.
The challenge therefore is to take the dense base al, and turn it into a lightweight performance
product that can be ed for both elite, and mass market s alike. In order to stay within the
confines of the MCC rules, it is necessary for the blade to be formed of a single piece of .
Additionally, the existing cricket bat design with has a ‘v’ shaped cut in the blade for
receiving the handle. This s in the blade being weakened due to material being removed from
the blade too close to the shoulders of the blade. There is therefore also a desire to strengthen the
joint between the handle and blade of the bat.
The inventors have developed a novel t bat in order to me these problems.
The solution developed by the inventors counterintuitively reduces the weight of the bat whilst
ining the standard size and shape of the blade and increasing the strength of the interaction
between the handle and the blade of the bat.
SUMMARY
Particular aspects and ments are set out in the appended claims.
Viewed from a first aspect, there is provided a cricket bat. The cricket bat comprises a
handle and a blade. The blade comprises an opening at a first end and a cavity formed inside and
ed within the blade and extending a predetermined length along the blade from the opening.
The handle comprises a first portion configured to be held by a user and a second portion configured
to be received in the opening and configured to extend at least partially along the cavity, n an
outer surface of the second portion of the handle is fully nded by an inner surface of the cavity.
The blade of the bat is the part used to hit in the ball when the bat is in use. The blade
may have a flat front face which is typically used to hit the ball and an angled back face. The cavity is
essentially a hollowed out portion of the blade. This is formed by some of the material from inside the
blade being extracted.
The wording ‘enclosed within’ is used to mean that the cavity is nded from all
sides by the blade. The only entrance into the cavity is through the opening. Thus, if the opening were
to be covered, the cavity would form a sealed space within the blade.
In this way, when the second portion of the handle is inserted into the cavity, the inner
surface of the cavity provides support to the outer surface of the second portion of the handle along
its entire length. Thus, the joint between the blade and the handle is stronger than in existing cricket
bats. This reduces the likelihood of the bat breaking.
Additionally, by having the cavity for receiving the handle fully enclosed within the
blade, the strength of the bat’s shoulders are increased. This is because less material is ted near
the shoulders of the bat than in existing cricket bats. Furthermore, the stiffness off the blade is able
to be more easily controlled with this configuration, thus enabling a more bespoke bat to be provided
to s. The angle of the handle with respect to the blade can also be altered by having the first
and second portions of the handle angled with respect to one another. This provides a greater ‘bow’
or bend in the bat which suits some players.
In some examples, adhesive may be added between the second portion of the handle
and the cavity to increase the strength of the tion between the two. In some examples, the
second portion of the handle may extend to the end of the cavity.
The second portion of the cavity may be configured to extend along the cavity to a
length less than the length of the cavity. By having this unfilled part of the cavity, the weight of the
blade is significantly reduced without altering the shape of the blade. Thus a more lightweight bat is
produced without affecting the performance of the bat.
The blade may be formed of a single piece of material. Specifically, the blade may be
made of a single piece of wood such as willow which is formed into the desired shape.
The handle may be cylindrical and wherein the first portion of the handle may have a
diameter larger than the second portion of the handle. In this way, the cavity can be sized to receive
the second portion of the handle but not the first portion. Therefore, the second portion of the handle
can be inserted into the cavity until the end of the first n of the handle abuts the opening. Thus,
the manufacturer is aware when the handle has been inserted into the blade to the desired .
The cylindrical handle is a comfortable shape for holding by a player when the bat is in use.
The cavity may be rical and may be sized to receive the second portion of the
handle. The cylindrical cavity, i.e. the use of a cavity t corners, provides an even distribution of
forces around the cavity inside the bat thus reducing the amount of stress s within the bat.
Furthermore, the cylindrical cavity can be more easily and efficiently manufactured by drilling into the
In other examples, the cavity may be a different shape. For example, the cavity may
have a square cross section. Alternatively, the cavity may se slots or runners for interaction
with corresponding slots or runners on the handle to ensure the handle is inserted into the cavity at
the correct ation.
The cavity may have a larger diameter than the second portion of the handle. Before
being inserted in the cavity, the second portion of the handle may be coated with adhesive. In this
way, when the handle is inserted in the cavity, air inside in the cavity is able to escape down the sides
of the handle past the adhesive. Thus when the handle is inserted in the cavity, the gap between the
handle and the cavity is filled with adhesive. By allowing air to escape from the cavity down the sides
of the handle as the handle is inserted, air is prevented from being d in the cavity and ing
a force on the handle to push it out of the cavity. The interaction of the cylindrical handle and the
cylindrical cavity results in an even distribution of force around the joint. This therefore strengthens
the join between the handle and blade.
The first and second portions of the handle may have the same cross-sectional width in
a first direction and a different cross-sectional width to one another in a second direction
perpendicular to the first direction. Specifically, the first n of the handle may be elliptical and
the second n of the handle may be circular. Thus, an overhang or lip is formed between the
elliptical first portion and the circular second portion at the intersection between the two.
By having a constant width handle in the first direction, and consequently a larger cavity
in the bat, the weight of the bat can be r reduced. This is because extra material can be removed
from the shoulders of the bat. The use of the lip of the handle allows the manufacturer to know when
the handle has been inserted in the cavity to the desired amount as the lip contacts the opening of
the cavity and is not able to be inserted into the cavity. The lip also prevents the cavity approaching
too close to the front face of the blade within the blade. This prevents the face of the blade being
weakened.
The cavity may have a tapered end. In this way, the cavity may be extended further into
the blade without the cavity coming too close to the back face of the blade. Thus, the weight can be
further reduced whilst maintaining the structural ity of the bat. Furthermore, the use of the
taper ts a sharp edge being formed at the end of the cavity (for example if the cavity had a flat
end) which would create shock or sheer points and potentially weaken the bat. The shape of the cavity
can be used to mirror the external tapering of the back surface of the blade.
In other examples, instead of a tapered end, the cavity may have a smooth curved end.
This shape is r and easier to manufacture by drilling than the cavity with the tapered end.
The cavity may extend over half of the length of the blade. The further the cavity
extends along the blade, the more the weight of the blade is reduced.
The cavity may extend at most to within approximately 15 mm of the end of the blade.
Specifically, the cavity may be formed along the length of the blade but may stop approximately 15
mm from the end of the blade. Thus the cavity is prevented from coming too close to the end of the
blade and thus the strength of the end of the blade is maintained whilst removing the m
amount of material from the inside of the blade.
The cavity may have a first portion and a second portion. The first portion of the cavity
may have a first er and the second portion of the cavity may have a second diameter. The first
diameter may be smaller than the second diameter and wherein the first portion of the cavity may be
sized to receive the second portion of the handle.
By having a larger second portion of the , the weight of the bat can be further
reduced by removing more material from the inside of the blade at a point of greater thickness and
therefore strength of the blade.
The first diameter may be larger than the second diameter and wherein the first portion
of the cavity may be sized to receive the second portion of the handle.
The second portion of the cavity may be formed of a pair of adjacent cavities extending
along and within the blade. The pair of cavities may be symmetrical about the central axis of the blade.
In this way the weight can be evenly d across the width of the blade. Furthermore, by having
two narrower cavities, additional material can be removed from the interior of the blade without the
cavity needing to be formed too close to the flat hitting surface of the blade. Thus the cavities formed
in this way may result in a more robust bat compared to one formed with a single larger .
The second portion of the cavity may be asymmetric. Specifically, the second portion of
the cavity may extend sideways from the central axis of the blade and towards the back of the blade
and the part of the cavity facing the flat face of the blade may be aligned and continuous with the first
portion of the cavity. This configuration is quicker to manufacture than some other configurations as
the initial hole can be drilled and then a burr cutter or mill cutter or router inserted into the cavity and
pushed to the sides and back to channel out the necessary al. Furthermore, by extending the
cavity to the back and sides but not forwards, this avoids excessive material being removed near the
face of the blade which is used for striking the ball. Instead, the weight is reduced by removing material
in the body of the blade away from the hitting area. Thus the structural ity of the g face is
maintained.
The handle may be formed of a first al and may se inserts formed of a
second material. The first material may be a natural material and the second material may be a
synthetic material. The term natural material is used to mean a naturally occurring substance such as
wood. The inserts may be a synthetic material such a rubber. These help absorb vibrations when the
bat is in use making it more table for the user to hit the ball. The term inserts are intended to
mean additional components which are added to the main body of the handle which is formed of the
first material and which are located y within the main body.
The inserts formed of a second material may be formed in a cross shape within the
handle when the handle is viewed in cross section. The use of the cross shape provides a ing
effect across two axes in the handle. The synthetic insert may also be formed as an elongate core or
as a plurality of flattened portions extending across the width of the handle and at least partially along
its length.
An elongate axis of the first portion of the handle may be angled with respect to an
elongate axis of the second portion of the handle. In this way, the angle mirrors the bow in the blade.
This appeals to some players as the angle of the handle exaggerates the bow of the bat which enables
the players to hit more air-borne shots.
Viewed from a further aspect there is ed a method of manufacturing a cricket bat.
The method ses forming the blade, forming the cavity with a ermined diameter inside
the blade, forming the handle, and inserting the handle inside the blade such that the second n
of the handle is fully received by the blade.
The cavity may be formed inside the blade by drilling. The second n of the handle
may be coated in adhesive before inserting it in the cavity. The use of the adhesive between the handle
and the wall of the cavity provides a strong connection between the two. In some examples, a latex
glue may be used as the adhesive. This also helps dampen shock when the bat is in use.
The forming of the handle may additionally comprise assembling a plurality of strips
made of a first material, forming an insert made of a second material, attaching the plurality of strips
to the insert, and shaping the assembled plurality of strips and insert to the predetermined shape and
diameter.
The insert may have a cross shape when viewed in cross section. The insert may
se an elongate member extending at least partially along the length of the handle.
The assembled plurality of strips and insert may be shaped using a lathe. Thus the
handle can be quickly assembled. The use of the lathe provides a smooth finish to the handle which
provides a comfortable e for a player to hold.
Other aspects will also become apparent upon review of the present disclosure, in
particular upon review of the Brief Description of the Drawings, ed Description and Claims
sections.
BRIEF DESCRIPTION OF THE DRAWINGS
Examples of the disclosure will now be described, by way of example only, with
reference to the accompanying drawings in which:
Figures 1A to 1G show a cricket bat according to the prior art;
Figures 2A to 2G show a cricket bat according to a first ment of the invention;
Figures 3A to 3H show a cricket bat according to a second embodiment of the invention;
Figures 4A to 4H show a cricket bat ing to a third embodiment of the invention;
Figures 5A to 5G show a cricket bat according to a fourth embodiment of the invention;
Figures 6A to 6G show a t bat according to a fifth embodiment of the invention;
Figures 7A to 7G show an alternative shaped cavity in the cricket bat of the first
embodiment of the invention;
s 8A to 8G show the alternative shaped cavity in the cricket bat of the second
embodiment of the invention;
Figures 9A to 9G show the alternative shaped cavity in the cricket bat of the third
embodiment of the ion;
Figures 10A to 10G show the alternative shaped cavity in the cricket bat of the fourth
embodiment of the invention;
Figures 11A to 11G show the alternative shaped cavity in the cricket bat of the fifth
embodiment of the invention;
Figures 12A to 12C show a handle for a cricket bat according to the present invention.
Figures 13A to 13C show the handle according to the first, third, fourth and fifth
embodiments;
Figures 14A to 14C show the handle according to the first, third, fourth and fifth
ments;
s 15A to 15C show the handle according to the second embodiment;
Figures 16A to 16C show an alternative design for the handle for a cricket bat according
to the present invention;
Figures 17A to 17C show the handle according to the first, third, fourth and fifth
ments;
Figures 18A to 18C show the handle according to the first, third, fourth and fifth
embodiments;
s 19A to 19C show the handle according to the second embodiment;
Figures 20A to 20C show an alternative design for the handle for a cricket bat according
to the present invention;
Figures 21A to 21C show the handle according to the first, third, fourth and fifth
embodiments;
s 22A to 22C show the handle according to the first, third, fourth and fifth
embodiments; and
Figures 23A to 23C show the handle according to the second embodiment.
While the disclosure is susceptible to various modifications and alternative forms,
specific example approaches are shown by way of example in the drawings and are herein described
in detail. It should be understood however that the drawings and ed ption ed hereto
are not intended to limit the disclosure to the particular form disclosed but rather the disclosure is to
cover all modifications, equivalents and alternatives falling within the spirit and scope of the claimed
invention.
As used in this specification, the words “comprises”, “comprising”, and similar words,
are not to be interpreted in an exclusive or exhaustive sense. In other words, they are intended to
mean “including, but not limited to”.
It will be recognised that the features of the above-described examples of the disclosure
can iently and interchangeably be used in any suitable combination. It will also be recognised
that the invention covers not only individual embodiments but also ations of the embodiments
that have been discussed herein.
DETAILED DESCRIPTION
The present teaching relates to a cricket bat with reduced weight.
Figure 1 shows a cricket bat 1 according to the prior art. The t bat 1 comprises a
handle 3 and a blade 2 comprising shoulders 4 between which the handle 3 is ed into the blade
As is shown in figures 1A, 1C and 1E, the blade has a ‘v’ shaped cut in one end. When
the bat is constructed, the blade is formed out of a solid piece of willow with this ‘v’ shaped cut formed
between the shoulders 4 of the blade 2. The handle 3 has a ‘v’ shaped n and a straight portion.
The ‘v’ shaped n of the handle 3 is inserted into the ‘v’ shaped cut in the blade. An adhesive is
coated on the handle 3 before insertion into the ‘v’ shaped cut.
Figures 1B and 1D show cross sectional views of the bat 1 according to the prior art in
the direction shown in the left facing arrows in figures 1A and 1C respectively. As can be seen from
these, the bat has a front face which is used for striking the ball and an angled back face. Figure 1B
shows the handle 2 and blade 3 in exploded view whilst figure 1D shows the handle 2 and blade 3 in
their assembled form. Figures 1E and 1F show front and side views respectively of the bat when
assembled. Figure 1G shows an end on view of the blade in the direction of the downward arrows in
figure 1A.
When constructed, the handle 3 of the prior art bat 1 extends approximately 125 mm
into the bat. The maximum extension of the handle into the blade is restricted by the MCC rules.
There are a number of problems with the existing cricket bat design. Due to the material
removed from the blade at the top of the ‘v’ shaped cut approaching the shoulders 4 of the blade, the
shoulders are significantly weakened. Furthermore, the ‘v’ shaped cut in the blade add a stress point
down the centre of the entire length of the blade. Additionally, as can be seen from figure 1C and 1E,
when the handle is inserted in the blade, the only part of the handle in contact with and joined to the
blade are the sides of the ‘v’. This can result in the handle coming detached from the blade.
Figure 2 shows a cricket bat 1 according to a first embodiment of the invention. The
cricket bat 1 comprises a handle 3 and a blade 2.
Figure 2A shows a cross sectional front on view of the handle 3 and blade 2 in exploded
view. Figure 2B shows a cross nal side view of the handle 3 and blade 2 in exploded view in the
ion shown in the left facing arrows in figure 2A. As can be seen from these s, the external
shape of the blade is the same as that of the bat in figure 1 according to the prior art. Figure 2C shows
a cross sectional front on view of the bat 1 with the handle 3 inserted in the blade 2. Figure 2D shows
a cross sectional side view of the bat 1 with the handle 3 inserted in the blade 2 in the direction shown
in the arrows in figure 2C. Figures 2E and 2F show front on and side views of the bat 1 respectively
with the handle 3 inserted in the blade 2. Figure 2G shows an end on view of the blade in the direction
of the downward arrows in figure 2A.
As can be seen from figures 2A to 2D, the bat of the t invention has a cavity or
ed section 5 formed in the blade 2. The blade 2 has a neck 6 extending from the shoulders 4
with an opening 7 for receiving the handle 3. In the present example, the opening of the cavity is
circular. In other es, the cavity may have a square or alternatively shaped cross section. The
cavity 5 extends from the opening 7 down the length of the blade 2. In the present example, the blade
2 of the bat 1 has a length of approximately 590 mm from the neck 6 to the end of the bat. In other
examples, the blade of the bat may have a length of about 400 mm.
In the present example, the cavity 5 extends approximately 545 mm along the length of
the blade. In other examples, the cavity 5 may be longer or shorter than this. For example, the cavity
could extend along the length of the blade to within approximately 15 mm of the end of the blade.
The diameter of the cavity 5 in the present example is approximately 25 mm. However, the diameter
may be more or less than this.
The distal end of the cavity 5 from the opening 7 is tapered into a point 8. In other
examples, the end of the cavity may be flat or may have a different shape. For example, the distal end
of the cavity 5 may taper into a flat end with a diameter r than that of the cavity 5 or a pointed
In the present example, the cavity extends past the thickest part of the blade (see
figures 2B and 2D), the ‘swell’, and then tapers to a point. In some examples, the angle of the taper
may mirror the shape of the back of the blade as it s from the maximum thickness at the ‘swell’
to the end of the blade. Thus, in high swell blades where the thickest part of the blade is formed
r up the blade, the angle at which the cavity tapers would be much shallower and the taper
section of the cavity much longer than in low swell bats where the thickest part of the blade is formed
further down the blade.
In the present example and as can be seen from figures 2B and 2D, the cavity s
straight from the opening 7 down the length of the blade. In other examples, the cavity may be curved
to mirror the curve of the back of the blade 2.
The blade 2 is made of a single piece of material. In the present example, the blade is
made of wood, for example .
The handle 3 has a first portion 9 and a second portion 10. The first and second portions
according to this embodiment of the invention are cylindrical and the second portion 10 has a
diameter smaller than the diameter of the first portion 9.
In order to be received by the cavity 5 the second portion 10 of the handle 3 also has a
diameter similar to that of the diameter of the cavity. In the present example, and as discussed above,
the diameter of the cavity is approximately 25 mm. The second portion 10 of the handle is sized to
have a diameter imately 1 mm smaller than the diameter of the cavity. As discussed below,
ve is used n the handle and the cavity to join them er and to fill the space between
the two. When a handle with a non-cylindrical second portion is used, the cross n of the cavity
is shaped to match this. In other examples, the diameter of the second portion of the handle may be
the same as that of the cavity.
The first portion 9 of the handle has a diameter of approximately 32 mm thus is too
large to be received by the cavity 5. In other examples, the first portion of the handle may have a
diameter larger or smaller than this. For example, the diameter could be between 25 mm and about
32 mm. When the second portion of the handle is fully inserted into the cavity 5, therefore, the first
n 9 contacts the neck of the blade and is not able to be ed by the cavity due to its larger
diameter. The second portion 10 of the handle is coated with adhesive before inserting it into the
cavity. In some examples, the adhesive is a Latex glue. In other examples, the adhesive is a Polyvinyl
acetate, PVA, or a Pearl glue.
In the present example, the first portion 9 of the handle has a length of approximately
260 mm. The length of the second portion 10 of the handle is approximately 167 mm. However, the
length of the second portion of the handle may be larger or smaller than this, for e between
160 mm and 175 mm. The rules set by the MCC require that the total length of the handle ing
into the blade is not more than 52% of the total length of the bat.
As can be seen from figures 2B and 2C, when the handle 3 is inserted in the blade 2, the
second portion 10 of the handle 3 is fully received by the cavity 5 and only partially fills the length of
the cavity 5. Thus, the cavity 5 extends beyond the distal end of the second portion 10 handle 3. In
other examples, the second portion of the handle may reach the end of the cavity. For example, when
the length of the second portion of the handle is approximately 167 mm as above, the cavity may have
a similar length.
Figure 3 shows a cricket bat 1 according to the second embodiment of the invention.
The cricket bat 1 ses a handle 3 and a blade 2.
Figure 3A shows a cross sectional front on view of the handle 3 and blade 2 in exploded
view. Figure 3B shows a cross sectional side view of the handle 3 and blade 2 in exploded view in the
direction shown in the left facing arrows in figure 3A. Figure 3C shows a cross sectional front on view
of the bat 1 with the handle 3 inserted in the blade 2. Figure 3D shows a cross sectional side view of
the bat 1 with the handle 3 inserted in the blade 2 in the direction shown in the arrows in figure 3C.
Figures 3E and 3F show front on and side views of the bat 1 respectively with the handle 3 inserted in
the blade 2. Figure 3G shows an end on view of the blade in the direction of the downward arrows in
figure 3A.
In the bat of the second embodiment of the ion, the first and second portions of
the handle have the same cross-sectional width in a first direction and a different cross-sectional width
to one another when viewed in a second direction dicular to the first direction. This can be
seen in s 3A to 3D. s 3A and 3C show the handle having a constant width along its length
whereas figures 3B and 3D show the second portion of the handle having a reduced width. In some
examples, the first portion of the handle is elliptical and the second portion of the handle is circular.
In the present example, the larger diameter of the elliptical first portion of the handle is imately
32 mm. However, the width could be larger or smaller than this, for example between about 29 mm
and 35 mm. The smaller diameter of the elliptical portion (and thus the diameter of the second portion
of the handle) is between 25 mm and 30 mm.
The handle 3 of this embodiment comprises a lip 15 on one side of the handle at the
intersection n the first and second portions of the handle, as is shown in figures 3B and 3D.
This is caused by the first portion of the handle 3 having a larger width (the larger diameter of the
elliptical portion) than the second portion in the second direction. Thus, the handle 3 is inserted into
the cavity 5 until the lip 15 contacts the neck 6 of the blade 2. The handle is inserted into the blade
with the lip facing s the flat face of the blade.
As with the first embodiment, the cavity 5 formed within the blade of the second
embodiment has a diameter slightly larger than that of the handle 3 in order to receive it. For example,
the cavity may have a diameter 1 mm more than the diameter of the handle.
The cavity is formed such that a minimum distance between the cavity and the flat face
of the bat is 15 mm. As with the first embodiment, the handle is inserted such that the second n
of the handle is fully received inside the cavity 5.
The cavity 5 according to the second embodiment extends approximately 543 mm along
the length of the blade. In other examples, the cavity may extend n more or less that this along
the length of the blade up to within 15 mm of the end of the blade.
The same variations discussed above regarding the first ment, for example with
t to the taper, are also able for the second embodiment.
In an alternative example, the handle and cavity may be formed as in figures 3A to 3G
but without the lip 15. In this way, the handle has a constant diameter along its length.
Figure 3H shows a slightly altered design of the handle of the second embodiment. In
this aspect, the first portion of the handle is angled with t to the second portion of the handle.
Figure 4 shows a cricket bat 1 according to the third embodiment of the invention. The
t bat 1 comprises a handle 3 and a blade 2.
Figure 4A shows a cross sectional front on view of the handle 3 and blade 2 in exploded
view. Figure 4B shows a cross sectional side view of the handle 3 and blade 2 in exploded view in the
direction shown in the left facing arrows in figure 4A. Figure 4C shows a cross sectional front on view
of the bat 1 with the handle 3 inserted in the blade 2. Figure 4D shows a cross sectional side view of
the bat 1 with the handle 3 inserted in the blade 2 in the direction shown in the arrows in figure 4C.
Figures 4E and 4F show front on and side views of the bat 1 respectively with the handle 3 inserted in
the blade 2. Figure 4G shows an end on view of the blade in the direction of the downward arrows in
figure 4A.
The handle 3 of the third embodiment of the invention corresponds to the handle of
the first embodiment of the invention in that it has a stepped diameter. The cavity 5 formed inside
the blade 2 differs from that in the first and second embodiments of the invention in that it has a nonconstant
, stepped diameter between the opening 7 and the tapered end 8.
] As can be seen from s 4A to 4D, the cavity 5 has a first portion 11 with a first
diameter and a second portion 12 with a second diameter larger than the first diameter. In the present
example, the first portion has a diameter of approximately 25 mm and the second portion has a
diameter of approximately 32 mm. However, in other examples, the ers of the first and second
portions of the cavity may be smaller than or larger than this. For example, the diameter of the first
portion may be from 25 mm to 32 mm and the diameter of the second portion may be up to about 35
mm. The diameter of the first portion of the cavity and the diameter of the second portion of the
handle are sized such that the handle is receivable inside the cavity.
When the second n 10 of the handle is inserted into the blade, it is received by
and extends at least partially along the length of the first portion 11 of the cavity 5.
The same variations discussed above regarding the first and second embodiments are
also applicable for the second embodiment.
Figure 4H shows a slightly altered design of the handle of the third embodiment. In this
aspect, the first portion of the handle is angled with respect to the second n of the handle. This
handle design could also be used in the bat of the first, fourth and fifth embodiments.
Figure 5 shows a t bat 1 ing to the fourth embodiment of the invention. The
cricket bat 1 comprises a handle 3 and a blade 2.
Figure 5A shows a cross sectional front on view of the handle 3 and blade 2 in exploded
view. Figure 5B shows a cross sectional side view of the handle 3 and blade 2 in ed view in the
direction shown in the left facing arrows in figure 5A. Figure 5C shows a cross sectional front on view
of the bat 1 with the handle 3 ed in the blade 2. Figure 5D shows a cross sectional side view of
the bat 1 with the handle 3 inserted in the blade 2 in the direction shown in the arrows in figure 5C.
Figures 5E and 5F show front on and side views of the bat 1 respectively with the handle 3 inserted in
the blade 2. Figure 5G shows an end on view of the blade in the direction of the downward arrows in
figure 5A.
The handle 3 of the fourth embodiment of the invention corresponds to the handle of
the first and third embodiment of the invention.
The cavity 5 of the fourth embodiment of the invention has a first portion 11 and a
second portion 12. The first n 11 of the cavity corresponds to that of the third embodiment of
the invention.
The second portion 12 of the cavity comprises two individual cavities 13, 14 extending
away from the first portion 11 of the cavity along the length of the blade. This is shown in figures 5A
and 5C. As can be seen from figures 5B and 5D, the diameter of each of these cavities is less than the
diameter of first portion 11 of the cavity. In the present example, the diameter of each of the cavities
of the second portion 12 is about 16 mm. The diameter of these cavities may be r or larger than
this, for e the diameter may be up to about 20 mm. As with the earlier embodiments, the ends
of each of the cavities is tapered. In the present example, the two split cavities extend substantially
parallel to the front of the bat and away from each other towards the sides of the bat. This can be
seen in figures 5C and 5D. The ends of each of the individual es extend up to 15 mm from the
respective edges of the bat.
Figure 6 shows a cricket bat 1 according to the fifth ment of the invention. The
cricket bat 1 comprises a handle 3 and a blade 2.
Figure 6A shows a cross sectional front on view of the handle 3 and blade 2 in exploded
view. Figure 6B shows a cross sectional side view of the handle 3 and blade 2 in exploded view in the
direction shown in the left facing arrows in figure 6A. Figure 6C shows a cross sectional front on view
of the bat 1 with the handle 3 inserted in the blade 2. Figure 6D shows a cross sectional side view of
the bat 1 with the handle 3 ed in the blade 2 in the direction shown in the arrows in figure 6C.
Figures 6E and 6F show front on and side views of the bat 1 tively with the handle 3 inserted in
the blade 2. Figure 6G shows an end on view of the blade in the ion of the downward arrows in
figure 6A.
The handle 3 of the fifth embodiment of the invention corresponds to the handle of the
first, third and fourth embodiments of the invention.
] The cavity 5 of the fifth embodiment of the invention has a first portion 11 and a second
portion 12. The first portion 11 of the cavity corresponds to that of the third and fourth embodiments
of the invention.
As can be seen from figures 6B and 6D, the part of the second portion of the cavity
facing the flat face of the bat is substantially aligned with the part of the first portion of the cavity
facing the flat face of the bat. As can be seen from figures 6A and 6C, the second portion of the cavity
is extended further to the sides and back of the blade. The cross nal shape of the second portion
of the cavity can be seen in figure 6G. Thus, the second portion of cavity in this embodiment provides
an asymmetric bore hole.
Figures 7 to 11 show the cricket bat of the first to fifth embodiments with an alternative
cavity shape.
As can be seen from each of s 7A to 7D, 8A to 8D, 9A to 9D, 10A to 10D and 11A
to 11D, the cavity 5, rather than having a tapered end 8 as shown in figures 2 to 6, has a rounded end.
Apart from the alternative shape for the end of the cavity, the cricket bat of figures 7 to 11 correspond
to those of figures 2 to 6. The above description regarding figures 2 to 6, apart from that relating to
the taper 8, is equally applicable to the cricket bat of figures 7 to 11.
The handle 3 of present invention will now be described in more detail with t to
figures 12 to 23.
As well as controlling the length of the handle 3, the MCC rules also restrict the
composition of the handle. Specifically, the handle must be made of at least 90 % natural materials
such as cane with a m of 10 % formed of synthetic materials such as rubber.
In the present example, the handle is made of a first material and a second material. In
some examples, cane is used as the first material in combination with rubber as the second material.
In other examples, alternative woods such as beech or cork may be used. Additionally, alternative
synthetic materials may be used in place of rubber. In some examples, however, the handle of the
cricket bat according to the present invention may have more than 10 % synthetic materials and less
than 90 % natural materials.
Each handle of the present invention is formed of eight pieces made of the first al
joined er. For example, eight pieces of cane may be used. The use of eight pieces creates
dampening between each piece. The first and second als of the handle may be ed in a
number of different ways. This is discussed with respect to figures 12 to 23. An adhesive is used
between the first and second als to join the two.
Figures 12 to 15 show a first arrangement of the synthetic portion 16 of the handle 3
with respect to the wooden part of the handle 17.
] Figure 12A shows a cross sectional view of a bottom end of the handle which is inserted
into the blade according to the present example. As can be seen from this figure, the handle 3 is
formed of eight separate parts of wood 17. From this figure, the eight pieces can be seen as forming
two rows of four. Figure 12B shows a cross sectional view of a top end of the handle. In this example,
the synthetic core 16 is formed in a cross shape. The cross-shaped synthetic core 16 divides the eight
pieces into four separate groups of two. Figure 12C shows the synthetic core 16 extending part of the
way along the handle.
Figure 13 shows the same cross-shaped synthetic core 16 as in figure 12 but installed in
a handle 3 according to the first, third, fourth and fifth embodiments. Specifically, the handle 3 shown
in figure 13 has a stepped diameter.
Figure 14 shows the same cross shaped synthetic core 16 as in figures 12 and 13 but
installed in a handle 3 according to the third embodiment shown in figure 4H. Specifically, the handle
3 shown in figure 8 has a stepped er and an angled profile.
] Figure 15 shows the same cross shaped synthetic core 16 as in figures 12, 13 and 14 but
installed in a handle 3 according to the second ment shown in figure 3. Specifically, the first
and second portions of the handle 3 shown in figure 15 have different widths in one direction forming
a lip 15 between the two. This can be seen in figure 15A and 15C.
Figures 16 to 19 show a second arrangement of the tic n 16 of the handle
4 with respect to the cane 17.
] Figure 16A shows a cross sectional view of a bottom end of the handle according to the
t example. As can be seen from this figure, the handle 3 is formed of nine separate parts of
wood 17 including a central core 18. As with the arrangement shown in figures 7 to 10, eight pieces
of wood are ed in two rows of four. A hole is then drilled along the length of the . The
hole is filled partly with the ninth piece of wood 18 such as cane and partly with the core 16 formed
of tic material. This is shown in figure 16C. As can be seen from this view, the synthetic core
comprises an elongate part extending within the handle along the length of the handle. There may be
an additional tic insert 16 formed in the end of the handle which can also be seen in the end
view in figure 16B. In other examples, the handle may not include this additional insert and instead
the central core of cane 18 extends to the end of the handle.
The central synthetic core in this arrangement and the core formed of cane 18 has a
er of approximately 15 mm. The synthetic part 16 has a length of about 165 mm for the
elongate part and 10 mm for the part at the end of the handle, if included.
When the handle is inserted in the blade, at least part of the elongate synthetic core
will be located within the blade. For example, half of the elongate part may be within the blade.
Figure 17 shows the same elongate synthetic core as in figure 10 but installed in a handle
according to the first, third, fourth and fifth embodiments. Specifically, the handle shown in figure 7
has a stepped diameter.
Figure 18 shows the same elongate synthetic core 16 as in figures 16 and 17 but installed
in a handle according to the third embodiment shown in figure 4H. Specifically, the handle shown in
figure 18 has a stepped diameter and an angled profile.
Figure 19 shows the same elongate synthetic core as in figures 16, 17 and 18 but
installed in a handle according to the second embodiment shown in figure 3. Specifically, first and
second portions of the handle shown in figure 18 have different widths in one direction forming a lip
between the two.
Figures 20 to 23 show a third arrangement of the synthetic portion 16 of the handle 4
with respect to the cane 17.
Figure 20A shows a cross sectional view of a bottom end of the handle according to the
present example. As can be seen from this figure, the handle 3 is formed of eight separate parts of
wood 17 as with figures 12 to 15. As with the arrangement shown in figures 12 to 15, eight pieces of
wood are arranged in two rows of four.
As can be seen from s 20B and 20C, the synthetic n 16 in this arrangement
is comprised of three flattened elongate portions. The length these ns extend along the handle
depends on the ess of the inserts and the quantity of synthetic material allowed in the handle
according to the MCC rules. For example, the inserts may have a thickness of approximately 0.5 mm
and a length of imately 340 mm. When assembled with the cane 17, each of the elongate
portions is positioned between each row of two pieces of cane 17. The synthetic portion 16 extends
across the width of the handle 3. This ement provides a dampening effect within the handle.
When the handle is ed in the blade, at least part of the synthetic inserts will be located within
the blade. For example, half of the elongate part may be within the blade.
Figure 21 shows the same synthetic inserts in the handle as in figure 20 but installed in
a handle according to the first, third, fourth and fifth embodiments shown in figures 2A-F, 4A-F, 5A-F
and 6A-F. Specifically, the handle shown in figure 16 has a stepped diameter.
Figure 22 shows the same synthetic inserts in the handle as in s 20 and 21 but
installed in a handle according to the third embodiment shown in figure 4H. Specifically, the handle
shown in figure 13 has a stepped diameter and an angled profile.
Figure 23 shows the same elongate rubber core as in figures 20, 21 and 22 but led
in a handle according to the second embodiment shown in figure 3. Specifically, the handle shown in
figure 23 has the lip.
gh figures 12 to 23 show the use of an eight piece handle (excluding the core),
fewer pieces of wood may be used.
A method of manufacture of the bat according to the present invention will now be
described herein.
The blade is formed from a solid piece of wood. For example, the blade is shaped from
a solid piece of wood by hand using cutters, draw-knives, planes and spoke-shavers into the desired
shape. The cavity 5 is then formed inside the blade to a predetermined depth. The range of possible
depths is discussed above with respect to the first to fifth embodiments.
In the present example, the cavity 5 is formed with a drill bit, for example an underreaming
drill bit. Other types of drill bit may be used depending on whether the end of the cavity is
tapered (as in figures 2 to 6) or curved (as in s 7 to 11). Alternatively, when the second portion
of the cavity is formed to be asymmetric as in figures 6 and 11, a burr cutter, mill cutter or router may
inserted into the cavity and pushed to the sides and back in order to channel out the necessary
material. When the cavity is formed by a drill bit, the blade may first be positioned in a jig in order to
hold the blade securely in place. The cavity may also be formed by CNC machining.
The handle is formed of strips of cane or other wood which are glued together with
rubber (or other synthetic material) inserts. This is discussed above. The combination of the cane and
the rubber is then turned on a lathe to obtain the desired diameter and characteristics for the handle.
The second portion 10 of the handle is then turned on a lathe in order to achieve the desired diameter
and shape to be received by the cavity 5. When an elliptical portion of the handle is formed (as in
figures 3 and 8), the handle is first turned on a lathe until it reaches the maximum er. The
elliptical portion is then filed or . The er of the second portion 10 of the handle is formed
to be slightly smaller than the diameter of the , as is sed above with nce to the first
embodiment, in order to provide a secure connection between the two. For example, the difference
between the diameters may be about 1 mm.
Before the handle is inserted into the cavity, the lower portion of the handle is coated
with adhesive. The handle is then inserted in the handle so that the second portion of the handle is
fully received by the blade.
The various embodiments described herein are presented only to assist in
understanding and ng the claimed features. These ments are provided as a
representative sample of embodiments only, and are not exhaustive and/or exclusive. It is to be
understood that advantages, embodiments, examples, functions, features, structures, and/or other
aspects described herein are not to be considered tions on the scope of the invention as defined
by the claims or limitations on equivalents to the claims, and that other embodiments may be utilised
and modifications may be made without departing from the spirit and scope of the claimed invention.
Various embodiments of the invention may suitably comprise, consist of, or consist essentially of,
appropriate combinations of the disclosed elements, components, features, parts, steps, means, etc.,
other than those specifically described herein. In addition, this disclosure may e other inventions
not tly claimed, but which may be claimed in future.
Claims (25)
1. A cricket bat, the cricket bat comprising: a handle; and a blade, wherein the blade comprises an opening at a first end and a cavity formed inside and enclosed within the blade and extending a predetermined length along the blade from the opening, wherein the handle comprises a first portion configured to be held by a user and a second portion configured to be received in the opening and configured to extend at least partially along the , n an outer surface of the second portion of the handle is fully surrounded by an inner e of the cavity.
2. The cricket bat of claim 1, wherein the second portion of the handle is ured to extend along the cavity to a length less than the length of the cavity.
3. The cricket bat of claim 1 or 2, wherein the blade is formed of a single piece of material.
4. The cricket bat of any preceding claim, wherein the handle is cylindrical and wherein the first portion of the handle has a diameter larger than the second portion of the handle.
5. The cricket bat of any preceding claim, n the cavity is cylindrical and is sized to receive the second portion of the handle.
6. The cricket bat of claim 5, wherein the cavity has a larger diameter than the second portion of the handle.
7. The apparatus of any of claims 1 to 3, wherein the first and second ns of the handle have the same cross-sectional width in a first direction and a ent cross-sectional width to one another in a second direction perpendicular to the first direction.
8. The cricket bat of any preceding claim, wherein the cavity has a tapered end.
9. The cricket bat of any preceding claim, wherein the cavity extends over half of the length of the blade.
10. The cricket bat of any preceding claim, n the cavity extends at most to within approximately 15 mm of the end of the blade.
11. The cricket bat of any of claims 1 to 10, n the cavity has a first n and a second portion, wherein the first portion of the cavity has a first diameter and the second portion of the cavity has a second diameter, wherein the first diameter is smaller than the second diameter and wherein the first portion of the cavity is sized to receive the second portion of the handle.
12. The cricket bat of any of claims 1 to 10, wherein the cavity has a first portion and a second portion, wherein the first portion of the cavity has a first diameter and the second portion of the cavity has a second diameter, wherein the first diameter is larger than the second diameter and wherein the first portion of the cavity is sized to receive the second portion of the handle.
13. The cricket bat of any of claims 1 to 10, wherein the cavity has a first portion and a second portion, wherein the second portion of the cavity is formed of a pair of adjacent cavities extending along and within the blade.
14. The cricket bat of claim 13, wherein the pair of cavities are symmetrical about the central axis of the blade.
15. The cricket bat of any of claims 1 to 11, wherein the second portion of the cavity is asymmetric about a central axis of the bat.
16. The t bat of any preceding claim, wherein the handle is formed of a first material and ses inserts formed of a second material.
17. The cricket bat of claim 16, wherein the inserts formed of the second material are formed in a cross shape within the handle when the handle is viewed in cross section.
18. The t bat of claims 16 or 17, wherein the first al is a natural material and the second material is a synthetic al.
19. The cricket bat of any preceding claim wherein an elongate axis of the first portion of the handle is angled with respect to an elongate axis of the second portion of the handle.
20. A method of manufacturing the cricket bat of any of claims 1 to 19, the method comprising: forming the blade; forming the cavity with a predetermined diameter inside the blade; forming the handle; and inserting the handle inside the blade such that the second portion of the handle is fully received by the blade.
21. The method of claim 20, wherein the cavity is formed inside the blade by ng.
22. The method of claims 20 or 21, wherein the second portion of the handle is coated in adhesive before inserting it in the cavity.
23. The method of claim 20 to 22, wherein the forming of the handle additionally comprises: assembling a plurality of strips made of a first material; g an insert made of a second material; attaching the plurality of strips to the insert; and shaping the led plurality of strips and insert to the predetermined diameter.
24. The method of claim 23, wherein the insert comprises an te member extending at least partially along the length of the handle.
25. The method of claims 23 to 24, wherein the assembled plurality of strips and insert are shaped to the predetermined diameter using a lathe.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB2108109.6 | 2021-06-07 |
Publications (1)
Publication Number | Publication Date |
---|---|
NZ789097A true NZ789097A (en) | 2022-07-01 |
Family
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