FIELD OF THE INVENTION
[0001] This invention relates generally to armoured structures such as armoured vehicles
and fortifications from which an attack or defence can be launched. In particular,
the invention relates to a gun port arrangement for an armoured structure and to an
armoured structure including said gun port arrangement.
BACKGROUND OF THE INVENTION
[0002] Naval vessels, military vehicles, military aircrafts, turrets and cash-in-transit
vehicles are all commonly provided with a fortified or armoured structure in which
at least one gun port is defined. The gun port provides a means through which a gun
can be fired by armed crew from within the structure.
[0003] In particular, cash-in-transit vehicles are increasingly faced with attacks against
them. Although cash-in-transit vehicles are commonly equipped with peepholes and/or
gun ports that allow armed crew to defend the vehicle and its contents when attacked
in a cash-in-transit heist, many of the existing gun ports are difficult to open or
close while carrying a firearm. One existing gun port arrangement requires a two step
opening process in which a latch, preventing unauthorised opening of the gun port
arrangement, first needs to be unlatched before an external closure plate can be moved
to open the gun port arrangement so as to allow the armed crew to place a gun barrel
through the gun port.
[0004] It will be appreciated that measures need to be implemented to boost security of
crew driving cash-in-transit vehicles, or armed crew when in transit, against increasing
security risks.
[0005] This invention, at least in part, attempts to address the above described problem
by saving the gun port operator time when actuating the gun port arrangement.
[0006] In this specification the following terms or expressions are used with the meanings
indicated:
"gun" means any weapon having a barrel and a trigger or firing mechanism for projecting
a missile; it may be a piece of ordnance or a smallarm. It may use combustible or
explosive propellant charges, air pressure, electromagnetism or other propulsive forces;
"sighting" means bringing into visual coincidence a direction defined by a so-called
"sighting" device with the direction of a target;
"aiming" means bringing a weapon to a direction differing from the sighting direction
by corrections in order that the projectile may hit the target; and
"laying" means setting a weapon in the correct position for hitting a target.
SUMMARY OF THE INVENTION
[0007] In broad terms and in accordance with this invention there is provided a gun port
arrangement for an armoured structure, the gun port arrangement comprising:
a frame for mounting the gun port arrangement to the armoured structure, the frame
including an exterior mount plate that defines a gun port dimensioned to support a
closure plate which is openable and closable relative to the gun port so as to allow
sighting, laying and aiming from within an interior of the armoured structure;
a handle operable to be displaced between a locked position in which the closure plate
abuts the exterior mount plate and an unlocked position in which the closure plate
is displaced relative to the exterior mount plate, the handle having first bias means
biasing the handle to remain in the locked position; and
a connector having an intermediate portion disposed between opposing exterior and
interior ends, the exterior end of the connector being secured to a peripheral region
of the closure plate, the interior end being secured to the handle, and the intermediate
portion is arranged to pass through a chamber defined in the frame, the connector
having second bias means biasing the closure plate to remain in abutment with the
exterior mount plate.
[0008] There is also provided for the handle to comprise a locking member which projects
from a first end of the handle, said locking member having a seat to in use facilitate
maintaining the handle in a locked position by abutting a fixed stop, associated with
the frame, so as to prevent displacement of the closure plate relative to the exterior
mount plate. The seat may be located at a remote end of the locking member and may
comprise a portion of the locking member which is bent substantially perpendicularly
relative to the direction in which the locking member extends.
[0009] In addition, there is provided for the handle to comprise first bias means adapted
to urge the seat into a position in line with the stop so as to prevent displacement
of the closure plate from the exterior mount plate. Preferably, the first bias means
comprises a springy member such as, for example, a coil spring.
[0010] There is further provided for the stop to be formed on an interior end of an open-ended
sleeve, which sleeve is connected to, and extends from, an interior mount plate of
the frame and locates around part of the intermediate portion of the connector.
[0011] There is also provided for the interior end of the connector to be secured to a fixed
base of the handle, which base includes a cavity for locating the first bias means.
[0012] There is further provided for the connector to have a second bias means, co-axial
with the intermediate portion of the connector and secured thereto between the handle's
base and an internal mount plate of the frame, the second bias means being configured
to apply a tension force between the handle's base and an internal mount plate of
the frame tending to in use draw the closure plate into the gun port to facilitate
rapid closure of the gun port. Preferably, the second bias means comprises a springy
member such as, for example, a coil spring capable of applying a tension force larger
than that which the first bias means is adapted to apply.
[0013] Moreover, there is provided for the closure plate and frame to be manufactured from
armoured materials so that upon linear displacement of the closure plate away from
the exterior mount plate, gravity automatically urges the closure plate downwards
whereby the connector rotates within the chamber.
[0014] The invention further extends to an armoured structure including a gun port arrangement
as described hereinbefore.
BRIER DESCRIPTION OF THE DRAWINGS
[0015] An embodiment of the invention is now described, by way of example, with reference
to the accompanying non-limiting diagrammatic drawings. In the drawings:
- Figure 1
- shows a side view of a gun port arrangement according to the invention, mountable
to an armoured structure of a military vehicle;
- Figure 2
- shows a plan view of a gun port arrangement of Figure 1 in an operatively locked position;
- Figure 3
- shows a plan view of a gun port arrangement of Figure 1 in an operatively unlocked
position;
- Figure 4
- shows a section view of the gun port arrangement of Figure 2, taken along line IV-IV
of Figure 2;
- Figure 5
- shows a section view of the gun port arrangement of Figure 2, taken along line V-V
of Figure 2;
- Figure 6
- shows a section view of the gun port arrangement of Figure 3;
- Figure 7
- shows a perspective view of a gun port arrangement of Figure 1 in an operatively locked
position;
- Figure 8
- shows a perspective view of a gun port arrangement of Figure 1 in an operatively unlocked
position;
- Figures 9&10
- show section views of a gun port arrangement, respectively closed and partially opened,
in accordance with an alternative embodiment of the invention; and
- Figures 11&12
- show section views of a gun port arrangement, respectively closed and partially opened,
in accordance with a further alternative embodiment of the invention.
DETAILED DESCRIPTION OF THE DRAWINGS
[0016] In the drawings, like numerals generally indicate like members, unless otherwise
indicated.
[0017] Referring to Figures 1 to 8, reference numeral 10 generally refers to a gun port
arrangement in accordance with the invention. Reference numerals 100 and 200 in Figures
9 to 10 and 11 to 12, respectively refer to alternative embodiments of the invention.
[0018] The arrangement 10 can be fitted to an opening in an armoured structure such as,
for example, a cash-in-transit vehicle 2. Although not described herein, it will be
appreciated that gun port arrangement 10 can also find application in naval vessels,
military vehicles, military aircrafts, and other fortifications such as turrets.
[0019] Evident from Figures 1, 7, and 8 is that gun port arrangement 10 consists of a frame
12 for mounting gun port arrangement 10 to a side wall 4 of the cash-in-transit vehicle
2. The frame 12 includes an exterior mount plate 14 and an interior mount plate 16.
The exterior mount plate 14 defines a gun port 18 dimensioned to support a closure
plate 20 which is openable and closable relative to the gun port 18 so as to allow
sighting, laying and aiming from within an interior of vehicle 2.
[0020] Gun port arrangement 10 further includes a handle 30 which is connected to closure
plate 20 by means of a connector 50, typically in the form of a push-rod as shown
in Figures 4 to 6 of the drawings. Handle 30 is connected to an interior end 52 of
connector 50, which also includes an intermediate portion 53 disposed between opposite
ends 52 and 54, being an exterior end 54 and the interior end 52 of the connector
50. The exterior end 54 is connected to a peripheral region of closure plate 20 while
the interior end 52 is secured to the handle 30 and the intermediate portion 53 is
arranged to slidingly pass through an elongate chamber or through bore defined in
a bottom portion of frame 12.
[0021] Handle 30 can, thus, be manually actuated from within vehicle 2 by a person (not
shown). Typically, such a person will be an armed guard who, while holding a gun (not
shown) in one hand, actuates handle 30 of the gun port arrangement 10 with the other
hand to remove closure plate 20 from its position flush with the exterior mount plate
14 to allow sighting, laying and aiming of the gun. The arrangement 10 is advantageously
fitted to an opening in side wall 4 so that the connector 50 and handle 30 are substantially
in linear alignment with each other at the bottom portion of frame 12.
[0022] Handle 30 is, thus, operable to be displaced between a locked position in which an
internal surface of closure plate 20 abuts an external surface of the exterior mount
plate 14 and an unlocked position in which the closure plate 20 is displaced relative
to the exterior mount plate 14 so that a barrel of a gun can extend through the open
gun port 18.
[0023] In order to achieve displacement as described above, handle 30 needs to be actuated,
i.e. pushed in towards the exterior of the vehicle 2 thereby actuating first bias
means 40 and second bias means 60, which are associated with handle 30 and connector
50 respectively, as best shown in Figure 5.
[0024] First bias means 40 is biased to keep handle 30 in the locked position whereas the
second bias means 60 is biased to keep the closure plate 20 in abutment with the exterior
mount plate 14. The second bias means 60 is, preferably, but not necessarily a coil
spring capable of applying a tension force larger than that which the first bias means
40 is adapted to apply. The coil spring 60 is shown to be co-axial with part of the
intermediate portion 53 of the push-rod 50 and secured thereto between a base 36 of
the handle 30 and an internal mount plate 16 of the frame 12. The coil spring 60 is
further configured to apply a tension force between the handle's base 36 and the internal
mount plate 16 tending to in use draw the closure plate 20 into a mouth of the gun
port 18 to facilitate rapid closure of the gun port 18.
[0025] In particular, handle 30 consists of a locking member 32 which projects from a first
end of handle 30. Locking member 32 also has a seat 34 to in use facilitate maintaining
the handle 30 in a locked position when it abuts a fixed stop 22, which is associated
with the frame 12, so as to prevent displacement of the closure plate 20 relative
to the exterior mount plate 14. The seat 34 is located at a remote end of the locking
member 32 and forms an end portion of the locking member 32, the end portion or seat
is bent substantially perpendicularly relative to the direction in which the locking
member 32 extends.
[0026] The first bias means 40 is shown to be a coil spring, but may take many other shapes
and configurations of commonly available springy members. Coil spring 40 is secured
to a bottom of a cavity formed in the fixed base 36 of the handle 30. In its normal
extended state, spring 40 pushes against an internal surface of an actuating member
38 of handle 30 so that seat 34 is pivoted about a pivot point 39 and pressed against
intermediate portion 53 in line with an interior end or stop 22 of an open-ended sleeve
24. The sleeve is connected to, and extends from, the interior mount plate 16 of the
frame 12 and locates around part of the intermediate portion 53 of the connector 50.
As the seat 34 is pressed against the intermediate portion 53 only a small gap is
left between stop 22 and seat 34. By pushing actuating member 38 downwards towards
contact with a flat outer surface 37 of fixed base 36, coil spring 40 is compressed
and seat 34 is pivoted out of line relative to the interior end or stop 22 of the
open-ended sleeve 24.
[0027] Further pushing of actuating member 38, which after initial pushing already is in
contact with a flat outer surface 37 of fixed base 36, inwards or towards the exterior
of gun port arrangement 10 compresses coil spring 60 and moves seat 34 past stop 22
so that same is slidably locked-in behind stop 22. In so doing, closure plate 20 is
moved along a rectilinear path away from exterior mount plate 14 until moved far enough
out of the mouth of port 18 and free of any bottom support previously provided by
peripheral edge 26 so that gravity pulls the closure plate 20 downward with the result
that push-rod 50, consequently rotates within the frame's elongate chamber.
[0028] It is envisaged that the closure plate 20 and frame 12 will be manufactured from
armoured material which is heavy so that upon linear displacement of the closure plate
20 away from the exterior mount plate 14, gravity automatically urges the closure
plate 20 downwards whereby the push-rod 50 rotates within the elongate chamber as
shown in Figure 8.
[0029] The reverse operation is also easy to effect since the actuating member 38 can be
rotated until closure plate 20 slides past peripheral edge 26 and snaps, under the
influence of tension forces created by coil spring 60, into position flush with exterior
mount plate 14 to close off port 18. At the same time seat 34 is urged backwards and
as a result seat 34 slides past stop 22 to end up in line therewith. Thereby stop
22 blocks and/or prevents unauthorised displacement of closure plate 20 from exterior
mount plate 14.
[0030] A gun port arrangement having a 90° peripheral edge 26, which in locking position
abuts a 90° peripheral edge 21 of closure plate 20, as shown in Figures 4 to 6, is
not ideal. When closure plate 20 is hit by a bullet near edge 21 or 26, the armoured
material may be deformed or swaged so as to form a protuberance which can cause the
closure plate 20 to get trapped in the locking position.
[0031] Having both edges 121 and 126 complementary tapered, as shown in an alternative embodiment
of gun port arrangement 10, gun port arrangement 100 of Figures 9 and 10 ensures that
bullets hitting approximate edge 121 and 126 cannot jam or trap closure plate 120
in the locked position. It is envisaged that having at least one of said edges tapered
relative to the other can also prevent jamming. Apart from differences in edge shape
and configuration, gun port arrangements 100 and 200 are quite similar to gun port
arrangement 10.
[0032] Further alternatively, as shown in Figures 11 and 12, a stepped edge configuration
of edges 221 and 226 of gun port arrangement 200 is also envisaged to prevent unwanted
jamming of closure plate 220 when bullets hit approximate said edges.
[0033] It will be appreciated that when the closure plate 20, 120, 220 is urged into abutment
with the exterior mount plate 14, the gun port arrangement 10 is automatically locked
by means of seat 34 and stop 22 and the applicant believes that this differentiates
the gun port arrangement of the invention from known gun port arrangements.
[0034] While a preferred embodiment of the invention is shown and described, it will be
understood that it is not intended to limit the extent of the invention, but rather
it is intended to cover all modifications and alternate methods, including: methods,
for manufacturing the gun port arrangement 10, 100, 200 and components thereof, falling
within the scope of the invention.
[0035] The applicant believes that gun port arrangement 10, 100, 200 provides a unique quick
release mechanism for opening or closing a gun port located in an armoured structure.
As such, the invention provides a neat, easy to use, and affordable alternative to
gun port arrangements previously known in the art.
1. A gun port arrangement (10, 100, 200) for an armoured structure (2), the gun port
arrangement having:
a frame (12) for mounting the gun port arrangement to the armoured structure, the
frame (12) including interior and exterior mount plates (16, 14) that define a gun
port (18) dimensioned to support a closure plate (20), which is openable and closable
relative to the gun port (18) so as to allow laying, sighting, and aiming from within
an interior of the armoured structure;
a handle (30) operable to be displaced between a locked position in which the closure
plate (20) abuts the exterior mount plate (14) and an unlocked position in which the
closure plate (20) is displaced relative to the exterior mount plate (14), the handle
(30) having first bias means (40) biasing the handle (30) to remain in the locked
position; and
a connector (50) having exterior and interior ends (54, 52) and an intermediate portion
(53) disposed between said ends (54, 52), the exterior end (54) of the connector (50)
being secured to the closure plate (20), the interior end (52) being secured to the
handle (30), and the intermediate portion (53) being arranged to pass through a chamber
defined in the frame (12) and extending between the exterior mount plate (14) and
the interior mount plate (16), the connector (50) having second bias means (60) biasing
the closure plate (20) to remain in abutment with the exterior mount plate (14).
2. The gun port arrangement of claim 1, wherein the handle (30) comprises a locking member
(32) which projects from a first end of the handle (30), said locking member (32)
having a seat (34) to in use facilitate maintaining the handle (30) in a locked position
by abutting a fixed stop (22), which is associated with the frame (12), so as to prevent
displacement of the closure plate (20) relative to the exterior mount plate (14).
3. The gun port arrangement of claim 2 wherein the seat (34) is located at a remote end
of the locking member (32) and comprises an end portion of the locking member (32)
which is bent substantially perpendicularly relative to the direction in which the
locking member (32) generally extends.
4. The gun port arrangement of claim 2 or 3 wherein the first bias means (40) comprises
a springy member adapted to urge the seat (34) into a position in line with the stop
(22) so as to prevent displacement of the closure plate (20) from the exterior mount
plate (14).
5. The gun port arrangement of any one of claims 2 to 4, wherein the stop (22) is formed
on an interior end of an open-ended sleeve (24), which sleeve (24) is connected to,
and extends from, the interior mount plate (16) and locates around part of the intermediate
portion (53) of the connector (50).
6. The gun port arrangement of any one of claims 1 to 5, wherein the interior end (52)
of the connector (50) is secured to a fixed base (36) of the handle (30), which base
(36) includes a cavity for locating the first bias means (40).
7. The gun port arrangement of any one of claims 1 to 6, wherein the second bias means
(60) is co-axial with the intermediate portion (53) of the connector (50) and secured
thereto between a base (36) of the handle (30) and an interior mount plate (16) of
the frame (12), the second bias means (60) being configured to apply a tension force
between the handle's base (36) and the interior mount plate (16) tending to in use
draw the closure plate (20) into a mouth of the gun port (18) to facilitate rapid
abutment of the closure plate (20) against the exterior mount plate (14) and closure
of the gun port (18).
8. The gun port arrangement of any one of the preceding claims, wherein the second bias
means (60) comprises a springy member capable of applying a tension force larger than
that which the first bias means (40) is adapted to apply.
9. The gun port arrangement of any one of the preceding claims, wherein the closure plate
(20) and frame (12) is manufactured from armoured materials so that upon linear displacement
of the closure plate (20) away from the exterior mount plate (14), gravity automatically
urges the closure plate (20) downwards whereby the connector (50) rotates within the
chamber.
10. The gun port arrangement of any one of the preceding claims, wherein the connector
(50) is secured to a peripheral or a central region of the closure plate (20).
11. The gun port arrangement of any one of the preceding claims, wherein peripheral edges
(121, 126) of both the closure plate (120) and the exterior mount plate (114) are
complementary tapered to facilitate opening and closing of the closure plate (120)
relative to the exterior mount plate (114) even when indents are formed in any way
in outer surfaces of the closure plate (20) and frame (112) adjacent said peripheral
edges (121, 126).
12. The gun port arrangement of any one of claims 1 to 10, wherein at least one of the
peripheral edges (221, 226) of the closure plate (220) and the exterior mount plate
(214) are tapered to facilitate opening and closing of the closure plate (20).
13. An armoured structure (2) including a gun port arrangement (10, 100, 200) as claimed
in any of claims 1 to 12.
14. A method for opening a gun port arrangement (10, 100, 200) from within an armoured
structure (2), the gun port arrangement having:
a frame (12) for mounting the gun port arrangement (10, 100, 200) to the armoured
structure (2), the frame (12) including interior and exterior mount plates (16, 14)
that define a gun port (18) dimensioned to support a closure plate (20), which is
openable and closable relative to the gun port (18) so as to allow laying, sighting,
and aiming from within an interior of the armoured structure (2);
a handle (30) operable to be displaced between a locked position in which the closure
plate (20) abuts the exterior mount plate (14) and an unlocked position in which the
closure plate (20) is displaced relative to the exterior mount plate (14), the handle
(30) having first bias means (40) biasing the handle (30) to remain in the locked
position; and
a connector (50) having exterior and interior ends (54, 52) with an intermediate portion
(53) disposed between said ends (54, 52), the exterior end (54) of the connector (53)
being secured to the closure plate (20), the interior end (52) being secured to the
handle (30), and the intermediate portion (53) being arranged to pass through a chamber
defined in the frame (12) and extending between the exterior mount plate (14) and
the interior mount plate (16), the connector (50) having second bias means (60) biasing
the closure plate (20) to remain in abutment with the exterior mount plate (14),
the method including:
displacing the handle (30) so as to act against the first biasing means (40) and cause
unblocking of a seat (34) of a locking member (32) of said handle (30) by a stop (22)
provided for the interior mount plate (16) thereby facilitating movement of the seat
(34) relative to said stop (22) in a direction extending substantially perpendicular
to the longitudinal axis of the intermediate portion (53);
further displacing the handle (30) so as to act against the second biasing means (60)
and cause movement of the seat (34), and consequently the connector (50), relative
to said stop (22) in a direction extending substantially along the longitudinal axis
of the intermediate portion (53) towards the exterior mount plate (16); and
in so doing, the closure plate (50) is moved along a rectilinear path away from the
exterior mount plate (14) until moved far enough out of a mouth of the gun port (18)
and free of any bottom support previously provided by an internal peripheral edge
(26) of the frame (12) proximate the exterior mount plate (14) so that gravity pulls
the closure plate (20) downward with the result that the connector (50) rotates within
the chamber and a top portion of the closure plate (20) is secured behind an outer
surface of the frame (12) leaving the gun port (18) open.
15. A method for closing a gun port arrangement (10, 100, 200) from within an armoured
structure (2), the gun port arrangement having:
a frame (12) for mounting the gun port arrangement (10, 100, 200) to the armoured
structure (2), the frame (12) including interior and exterior mount plates (16, 14)
that define a gun port (18) dimensioned to support a closure plate (20), which is
openable and closable relative to the gun port (18) so as to allow laying, sighting,
and aiming from within an interior of the armoured structure (2);
a handle (30) operable to be displaced between a locked position in which the closure
plate (20) abuts the exterior mount plate (14) and an unlocked position in which the
closure plate (20) is displaced relative to the exterior mount plate (14), the handle
(30) having first bias means (40) biasing the handle (30) to remain in the locked
position; and
a connector (50) having exterior and interior ends (54, 52) with an intermediate portion
(53) disposed between said ends (54, 52), the exterior end (54) of the connector (53)
being secured to the closure plate (20), the interior end (52) being secured to the
handle (30), and the intermediate portion (53) being arranged to pass through a chamber
defined in the frame (12) and extending between the exterior mount plate (14) and
the interior mount plate (16), the connector (50) having second bias means (60) biasing
the closure plate (20) to remain in abutment with the exterior mount plate (14),
the method including:
rotating the handle (30) so that the connector (50) and consequently the closure plate
(20) is rotated into alignment with a mouth of the gun port (18);
releasing the handle (30) so that the second biasing means (60) and first biasing
means (40) both applies a tension force to cause movement of a seat (34), of a locking
member (32) of said handle (30), the force applied by the second biasing means (60)
urging the seat (34) away from the exterior mount plate (14) in a direction extending
substantially along the longitudinal axis of the intermediate portion (53) whereas
the force applied by the first biasing means (40) urges the seat (34) in a direction
extending substantially perpendicular to the longitudinal axis of the intermediate
portion (53) until the seat (34) locks in behind a stop (22) provided for the interior
mount plate (16); and
in so doing, the closure plate (20) is moved along a rectilinear path towards, and
into abutment with said, exterior mount plate (14) so as to shut the gun port (18)
and have bottom support provided by an internal peripheral edge (21) of the frame
proximate the exterior mount plate (14).