[0001] The invention relates to aluminium slats for armoured frames, in particular suitable
for insertion in aluminium structures equipped with anti-projectile armour for the
protection and security of various environments, such as banks or jewellers' stores,
museums etc.
[0002] There are already on the market series of slats made in such a way as to contain
a double-layer of steel armour-plating over all the external surfaces, more particularly
over the exterior-facing surface of the environment to be protected.
[0003] Internally to the tubular slats, then, armour elements can be inserted, commonly
known as plates and made of special alloys, for example aluminium, or steel, particularly
suitable for offering strong resistance to the most powerful of firearms.
[0004] The continual research for products and technologies aimed at protecting people and
their possessions adequately and securely has brought about solutions using armoured
slats which are technically perfect and impenetrable.
[0005] Each prior art system is made up of a series of slats which are reciprocally couplable
and can contain single or double armour elements, normally in steel, over all of the
external surface. Each slat has housings of different dimensions, according to the
sizes of the slats, for the insertion of steel or special alloy plates, and further
to these housings there is in at least one of the coupled slats below and adjacent
to to the junctions of the said housings, or in the coupling zones of the said housings,
at least one other housing of smaller dimensions with respect to the others, into
which another special alloy plate is inserted with the aim of guaranteeing the surface
continuity of the armouring.
[0006] A drawback of the prior art slats is their considerable structural complexity deriving
from the need to have housings of different dimensions in different but couplable
slats, guaranteeing a total armour covering on the external part of the shutter, also
in the junction zones and the doorjamb zones.
[0007] This consequently creates the problem of using a multiplicity of plates or armour
elements of different dimensions according to the arrangement, the slat which must
house the said elements, and the dimensions of the respective housings.
[0008] Aim of the present invention is thus that of eliminating the above-described drawbacks
by realising aluminium slats for armoured frames comprising at least two identical
housings for the insertion of an armour element, differently arranged and combined
housings to guarantee the necessary continuity, each said housing containing an identical
plate or armour element of prefixed form and dimensions.
[0009] Another aim of the present invention is that of realising slats with at least two
identical housings for the armour elements, thus enabling the structure to resist
the penetration of projectiles independently of the structure and conformation of
the body or shape of the slats, which can be of any shape or dimensions as according
to the usual necessities governing such a choice.
[0010] Another aim of the invention is to realise armour elements of one size if made in
aluminium alloy, or in two sizes, to be used separately and singly or coupled in relation
to the degree of armouring required, if of a flat type, and such that they can be
applied in either of the said housings in the said slats.
[0011] The invention, as characterised in the accompanying claims, solves the problem of
providing aluminium slats for the realisation of armoured frames which, from a general
point of view, is characterised by the fact that each slat comprises one or more identical
housings for armouring, each housing comprising two chambers, one of larger size and
one of smaller size, both having substantially rectangular section, arranged horizontally
and parallel to each other according to their respective longer sides, each being
of different length, said chambers being in communication with each other through
a couple of juts opposite to and interplaced between said longer sides and equidistant
from an axis passing centrally through the said armour housing perpendicularly to
the respective longer sides; said slats comprising one or two armour elements housed
internally to the said housing, more specifically, housed in at least one of the said
chambers.
[0012] One of the advantages obtained with the present invention consists essentially in
the fact that it reduces both the number of different slats and the types and dimensions
of the armour housings.
[0013] Further characteristics and advantages will better emerge from the detailed description
which follows , of a preferred but not exclusive embodiment of a slat for armoured
frames, according to the present invention. The following description will be made
hereafter with reference to the accompanying drawings, provided in the form of a non-limiting
example, in which;
- Figure 1 shows, in transversal section, a first embodiment of the slat, with one particular
in evidence;
- Figure 2 shows, in transversal section, a second embodiment of the invention;
- Figure 3 shows, in transversal section, a third embodiment of the invention;
- Figure 4 shows, in transversal section, an application of the slats, coupled in a
frame junction.
[0014] With reference to the drawings, figure 1 shows an aluminium slat 1 for the realisation
of armoured door frames.
[0015] Said slats 1, as is shown in figure 4, comprise one or more armour housings 2 which
housings 2 can house steel or aluminium alloy armour elements, and which housings
2 are conformed in such a way as to realise a complex of complementary slats 1 couplable
one to the other for the realisation of armoured door frames.
[0016] As evidenced in particular in figure 1, each said housing 2 is constituted by two
chambers, one larger chamber 3 and one smaller chamber 4, both of substantially rectangular
section, arranged parallel to each other according to their respective longer sides
31 and 41. Said respective longer sides 31 and 41 are of different length and communicate
with each other by means of a couple of juts 5 and 6 which juts 5 and 6 are opposite
to and interplaced between the said longer side 31 and 41. The said juts 5 and 6 are
equidistant from an axis 7 passing centrally through said armour housing 2 and said
juts 5 and 6 are also perpendicular to the respective said longer sides 31 and 41.
[0017] One application of the said armour housings 2 is shown in figure 2. The slat 1 comprises
on the same level and in horizontal succession two said identical armour housings
2, centrally connected by a flat horizontal section 10.
[0018] Advantageously, a third armour housing 2 will be provided below and central to the
said flat section 10, identical to the other housings 2 and arranged so as to be at
least partially horizontal in section in such a way as to overlap on both sides the
opposite ends of the said two housings 2. In particular, the said third armour housing
2 is open on one side 12, opposite to the said flat section 10 and in communication
with the interior of the body 11 of the said slat 1.
[0019] In figure 3 a further embodiment of the said slat 1 is shown, in which the slat 1
comprises on the same plane and in consecutive succession two identical horizontal
housings 2 , arranged in inverted positions in such a way that the larger chamber
3 of the said armour housing 2 is adjacent to the smaller chamber 4 of the successive
armour housing 2 and viceversa, so as to cover the interspace between the said two
housings 2 and obtain a continuity of armouring.
[0020] In figure 1, the slat 1 comprises two said armour housings 2, which are arranged
parallel on different planes, each overlapping the other and having their respective
larger chambers 3 partially adjacent.
[0021] As has already been indicated, the said armour elements can be either in steel or
in aluminium alloy.
[0022] In particular, as shown in figure 3, the armour element is constituted by one single
shaped element 9 in aluminium alloy and is conformed in such a way as to be housed
in the said armour housings 2 and in both chambers 3 and 4.
[0023] In figure 1, however, 8 denotes another armour element of longitudinal form, made
of steel and of dimensions which correspond to the internal dimensions of at least
the said larger chamber 3.
1. Aluminium slats for armoured frames, comprising one or more housings (2) for the housing
of armour elements (8) and (9), either made of steel (8) or aluminium alloy (9), wherein
said slats (1) each comprise one or more identical armour housings (2), each said
housing (2) being consitituted by two chambers, one larger chamber (3) and one smaller
chamber (4), both said chambers (3) and (4) being of substantially rectangular section,
arranged horizontal and parallel to each other according to their respective longer
sides (31, 41) of different lengths, said chambers (3) and (4) being in communication
by means of a couple of juts (5) and (6) opposite to each other and interplaced between
the said longer sides (31) and (41) and equidistant from an axis (7) passing centrally
to the said armour housing (2) and perpendicular to the respective longer sides (31,
41); said slats (1) comprising one or two armour elements (8, 9) housed internally
to the said housing (2) and housed in at least one of the two said chambers (3, 4).
2. Aluminium slats for armoured frames, as in claim 1, wherein at least one of the said
slats (1) comprises on the same plane and in horizontal succession two said armour
housings (2) connected centrally by an interplaced horizontal section (10), and wherein
a third armour housing (2) is made below and central to the said section (10), which
third armour housing (2) is arranged in such a way as to be in horizontal section
at least partially overlapping on both of its sides with respect to the opposite ends
of the said two housings (2).
3. Aluminium slats for armoured frames, as in claim 2, wherein said third armour housing
(2) is open one one side (12), that side (12) facing away from the said section (10)
of the said slat (19).
4. Aluminium slats for armoured frames, as in claim 1, wherein at least one of the said
slats (1) comprises on the same plane and in consecutive succession two of said horizontal
armour housings (2), arranged in inverted positions in such a way that the larger
chamber (3) of the armour housing (2) is adjacent to the smaller chamber (4) of the
successive armour housing (2) and viceversa, in such a way as to cover the interspace
between the said two armour housings (2).
5. Aluminium slats for armoured frames, as in claim 1, wherein at least one of the said
slats (1) comprises two said armour hornsings (2) arranged parallel on different planes,
one overlapping the other and having their respective larger chambers (3) partially
adjacent.
6. Aluminium slats for armoured housings, as in claim 1, wherein the said armour elements
are constituted by one single shaped element (9) in aluminium alloy, conformed in
such a way as to be housable in said armour housings (2) and housed in both said chambers
(3) and (4).
7. Aluminium slats for armoured frames, as in claim 1, wherein said armour elements are
constituted by longitudinal elements (8), substantially flat, of rectangular section,
made in steel, of dimensions corresponding to the internal dimensions of at least
the said larger chamber (3).
8. Aluminium slats for armoured frames, according to the preceding claims, wherein the
said slats (1) having the two armour housings (2) are conformed in such a way as to
realise a complex of slats (1) complementary and couplable one to another for the
realisation of armoured frames.