Technical field
[0001] The invention relates to a storage facility designed as a building wherein explosive
substances are examined.
Prior art
[0002] The patent application "Explosion-proof finishing layer" (
GB 2201183(A), H. Salzer, published on 24.08.1988) has published an explosion-proof finishing
layer for the panels of the building. The panels contain lattices, which consist of
mutually connected flanged meshes. The flanges are installed inside the building and
are supported with suppression elements. The suppression elements used are zigzag
plates or deformable tubes. When the explosive explodes, the deformation of the suppression
elements absorbs a substantial share of the explosion energy and directs it against
the panels, whereby the scope of destruction is substantially smaller.
[0003] The closest to the invention by its technical nature is the patent application "A
building for hazardous explosive substances" (
US 3832958 (A), DYNO INDUSTRIER AS, published on 03.09.1974), where the building has walls with
air gaps, the hollows inside being filled with sand and the walls fixed on a circle-shaped
base plate. The roof of the building contains a mesh structure anchored to the inner
wall, while the upper part of the roof is covered with materials that consist of elements
or are fibre-reinforced. The upper part of the covering is a layer of sand.
[0004] The drawback of these known solutions are the inadequate conditions for the storage
of explosive substances, whereby the safeness of explosive materials during examination
work is not guaranteed.
Description of the invention
[0005] This invention treats a storage facility for explosive substances for the safe examination
of explosive substances. The storage facility for explosive substances is created
with reinforced concrete enclosures separate from the normal building and the storage
facility is isolated from the normal building with flexible structures. Between the
storage area of explosive materials and the exit doors of the storage facility there
are barrier walls. Above the storage area for explosive substances, a ceiling is mounted,
which is executed as a ballistic surface, while under the ballistic surface is a safety
mesh installed, fixed to the walls of a shock wave guide. The ballistic surface contains
a bearing mesh, insulation material on top of it and a covering material fixed to
it. The ballistic surface is made from eight triangular surfaces, which rest diagonally
on the corners and on steel wires stretched to the side tips of the shock wave guide.
The insulation material of the ballistic surface is a composite thermal, waterproof
and radiation insulation material consisting of seven layers, and the covering material
is a weather-proof and ultraviolet-resistant material.
List of figures
[0006]
Figure 1 shows a general view of the storage facility for explosive substances;
figure 2 is a layout with the enclosures, storage area, barrier walls and exit doors
of the storage facility for explosive substances;
figure 3 depicts the ballistic surface, seven-layer insulation material and covering
material of the ballistic surface.
Embodiment of the invention
[0007] The storage facility for explosive substances is created separately from the normal
building with reinforced concrete enclosures 1, taking into account that the strength
of enclosures 1 would hold the explosion pressure of the explosives in the quantity
designed for storing (in the given case the most powerful explosive RDX in the quantity
of 50 kg). The storage facility of explosive substances Is separated with flexible
structures 2 and are installed below ground level 3 into grained mineral soil 4 to
avoid damages to the normal building in case of an explosion of the explosive. Between
area 5 for the storage of explosive substances and the exit door 6, a barrier wall
7 is built, which will block the spread of the shock wave. An emergency exit door
8 and a barrier 7 wall that blocks the spread of the shock wave, built in front of
emergency exit 8, are built similarly as a mirror image on the other side of area
5 for the storage of explosive substances. The main exit door 6 and the emergency
exit door 8 are built as impact and fire-proof doors.
[0009] The ceiling above area 5 of the explosive substances, built as a ballistic surface
9, is elevated higher from ceiling 10 of the storage facility, which has an opening
above area 5 of the explosive substances. , The ballistic surface 9 above the level
of the ceiling 10 of the storage facility is assembled at least as high as the height
of the storage facility under ceiling 10. Ballistic surface 9 guides the shock wave
from a possible explosion of the explosive substance vertically up into the air. The
ends of the sides of the shock wave guide 11 are produced in the form of a ridge with
a 4% inclination towards the corners. Such shape of the shock wave guide 11 ensures
the flow of rainwater off the ballistic surface and diffuses the shock wave.
[0010] A safety mesh 12 of steel wires is installed under ballistic surface 9, fixed to
the walls of shock wave guide 11 and blocking unauthorised entrance to the storage
facility. The loop size of safety mesh 12 is selected so that in most cases the shock
wave could penetrate the mesh. The safety mesh is connected along the diagonals, so
that if the mesh breaks, it will break from the connections points of the mesh along
the diagonals and bend up, but will remain attached to the walls of the shock wave
guide 11.
[0011] Ballistic surface 9 that forms the ceiling of area 5 for the storage of explosive
substances consists of bearing mesh 13 from galvanized steel wire, composite thermal,
waterproof and radiation insulation material 14 and weather-proof and ultraviolet
resistant covering material 15 that is glued air-tightly to the composite material.
Ballistic surface 9 is produced from eight triangular surfaces 16 that rest diagonally
on the corners and on steel wires 17 stretched to the side tips of shock wave guide
11. The central part of steel wires 17 is connected so that the connection will be
become loose at the impact of the shock wave, the triangular parts 18 of the bearing
mesh will bend and the shock wave is free to escape into the air. The triangular parts
16 of the ballistic surface mounted to the bearing mesh 13 from steel wires also bend
to the sides of guide 11 at the impact of the shock wave.
[0012] Composite thermal, waterproof and radiation insulation material 14, with total thickness
10 mm, is produced in seven layers: the first layer 19 is produced from aluminium
foil with the thickness 30 microns and processed against oxidation; the second layer
20 is produced from fire-retarding polyethylene that contains hollows 21 with dry
air, with diameter 10 mm and height 4 mm; the third layer 22 is produced from aluminium
foil; the fourth layer 23 is produced from a layer of fire-retarding and water-repellent
foam polyethylene with the thickness 3 mm; the fifth layer 24 is produced from aluminium
foil with the thickness 30 microns; the sixth layer 25 is produced from a layer of
fire-retarding polyethylene that contains hollows 21 with dry air, with diameter 10
mm and height 4 mm; the seventh layer 26 is produced from aluminium foil with the
thickness 30 microns and processed against oxidation.
[0013] The eight triangular ballistic surface parts 16 of the composite thermal, waterproof
and radiation insulation material 14 are installed on one another with 5-10 cm overlap
and the edges are taped with a special tape 27 that contains aluminium foil. All the
aluminium foil parts 19, 22, 24, 26, including the aluminium foil of the tape 27 are
connected electrically with the earthing 28 of the storage facility.
[0014] The weather-proof and ultraviolet resistant covering material 15 of the ballistic
surface contains polyester fabric 29, which is plasticized with a layer of fireproofing
polyvinyl that is again covered from beneath and on the top with a layer of acrylic
31. The covering material 15 of the ballistic surface is produced from eight triangular
parts 32, which are positioned with edges overlapping by 10-20 cm. The overlapping
areas are taped air-tightly to one another.
[0015] The eight triangular parts 16 of the ballistic surface are fixed to the outside of
the sides of shock wave guide 11. In case of an explosion of the explosive substance,
the triangular parts 16 of the ballistic surface will open at the impact of the shock
wave and will turn to the outer sides of the shock wave guide 11.
[0016] The thermal insulation capacity of ballistic surface 9 (in case of temperature difference
between external and internal surface -20 °C and 20 °C) is R=5.70 m
2*K/W at minimum (maximum thermal conductivity 0.175 W/m
2*K). In colder climates the composite material of the ballistic surface can also be
installed in two layers. The weight of ballistic surface 9 is 0.15 g/cm
2 at maximum, which has practically no influence on the pressure of the shock wave,
and the explosion gases can escape from the storage facility relatively freely.
[0017] The storage facility is supplied with local supply and extraction ventilation system
33, which adjusts the air temperature, the levels of dust and relative humidity in
the storage facility. Ventilation system 33 is also supplied with wet filters, which
remove dust from the supply air. The temperature of the storage facility is maintained
by ventilation system 33 and heating system 34 within the range of 5 °C to 15 °C and
relative humidity at 55%-60%, and dust-free.
[0018] The air supply units 35 and extraction units 36 of ventilation system 33 are supplied
with fire-retarding valves 37, which close as a result of an explosion, and steel
grilles 38, where the front lamella 39 are at a 45 degree angle in order to reduce
the pressure force of the shock wave.
[0019] Lights 40 are flush-mounted in the reinforced concrete enclosure 1 of the storage
facility, are explosion-proof and dust-proof and have impact-proof glasses 41 with
steel mesh installed in front of the lights.
[0020] The storage facility is supplied with at least two independent temperature sensors
42 and moisture sensors 43. The storage facility is also supplied with an automatic
addressed security alarm system 44 and fire alarm system 45.
[0021] The heating system 34 of the storage facility is installed inside the floor of the
storage facility and is automatically controlled. The temperature of the heater does
not exceed the maximum indoor temperature +15 °C. Under the heater is the composite
thermal, waterproof and radiation insulation material 14 installed. The floor of the
storage facility is covered with an even, easy-to-clean material 46 that conducts
static discharges.
[0022] Composite thermal, waterproof and radiation insulation material 14 is glued air-tightly
with moisture resistant glue to the outside of the reinforced concrete enclosure 1
of the storage facility.
[0023] The inner sides of the enclosure of the storage facility are covered with material
47, which buffers ricochets.
[0024] The reinforced concrete framework 48 of enclosures 1 of the storage facility, aluminium
foil layers 19, 22, 24, all steel elements and products 6, 8, 12, 13, 33, 35, 36,
37, 38, 39, 40 and flooring 46 that conducts static discharges are connected to earthing
28. Earthing 28 of the storage facility is local and away from the influence of the
earthing of the normal building and the lighting conductor 49 of the storage facility.
[0025] The storage facility is supplied with lighting conductor 49, the earthing loop of
which is taken away from the storage facility, more far from the influence of the
electrostatic and electromagnetic induction of lightning bolts.
[0026] The result is a storage facility for explosive substances, where explosive substances
are secured with an environment with suitable storage temperature, moisture level
and air, and protected against the influence of electrostatic and magnetic inductions
and radio waves.
1. Storage facility for explosive substances, comprising enclosures (1), barrier walls
(7) to block the spread of a shock wave, a ceiling, safety mesh (12), bearing mesh
(13) all which are above the storage area (5) of explosive substances, insulation
material (14) and covering material (15) located on top of the bearing mesh (13),
characterized in that:
- the storage facility for explosive substances has reinforced concrete enclosures
(1);
- it comprises flexible structures (2) which isolate the storage facility for explosive
materials from a normal building and which are installed below the ground level (3)
into grained mineral soil (4);
- the barrier walls (7) are built between the storage area (5) of the explosive substances
and exit doors (6, 8);
- the ceiling (10) of the storage facility above the storage area (5) for explosive
substances has an opening allowing the storage area (5) to have an elevated celling
which is built as a ballistic surface (9), which comprises eight surfaces (16), which
are supported on the corners;
- the ballistic surface (9) above the level of the ceiling (10) of the storage facility
is assembled at least as high as the height of the storage facility under ceiling
(10);
- the storage facility contains shock wave guides (11);
- the safety mesh (12) of the storage facility is fixed to the walls of the shock
wave guides (11);
- the ballistic surface (9) of the storage area (5) of the explosive substances incorporates
the bearing mesh (13), the insulation material (14) located on top of the bearing
mesh (13), and the covering material (15);
- the storage facility incorporates local earthing (28), local supply and extraction
ventilation (33), a heating system (34), lights (40), at least two independent temperature
sensors (42) and moisture sensors (43), security alarm and fire alarm systems (44,
45), the floor of the storage facility being covered with a material (46) that conducts
static discharges and the storage facility being protected with a lighting conductor
(49).
2. Storage facility for explosive substances according to claim 1, characterized in that the external sides of the enclosures (1) are covered air-tightly with an insulation
material (4) with the help of a moisture-resistant glue, and the internal sides are
covered with a material (47) that buffers ricochets.
3. Storage facility for explosive substances according to claim 1, characterized in that the ballistic surface (9) comprises eight triangular surfaces (16), which rest diagonally
on the corners and on steel wires (17) stretched to the side tips of the shock wave
guide (11), while the triangular parts (16) are attached to the outside of the sides
of the shock wave guide (11); the ballistic surface contains a bearing mesh (13) from
steel wires, which consists of triangular parts (18).
4. Storage facility for explosive substances according to claim 1, characterized in that the ends of the sides of the shock wave guide (11) are produced in the form of a
ridge with an inclination towards the corners.
5. Storage facility for explosive substances according to claim 1, characterized in that the insulation material (14) located on top of the bearing mesh (13) of the ballistic
surface is a composite thermal, waterproof and radiation insulation material, which
is produced in seven layers: the first layer (19) is produced from aluminium foil
and processed against oxidation; the second layer (20) is produced from fire-retarding
polyethylene that contains hollows (21) with dry air; the third layer (22) is produced
from aluminium foil; the fourth layer (23) is produced from a layer of fire-retarding
and water-repellent foam polyethylene; the fifth layer (24) is produced from aluminium
foil; the sixth layer (25) is produced from a layer of fire-retarding polyethylene
that contains hollows (21) with dry air; the seventh layer (26) is produced from aluminium
foll and processed against oxidation.
6. Storage facility for explosive substances according to claim 1, characterized in that the covering material (15) is weather-proof and ultraviolet resistant and contains
polyester fabric (29), which is plasticized with a layer of fireproofing polyvinyl
(30), while the layer of polyvinyl (30) is covered from beneath and on the top with
a layer of acrylic; the covering material (15) is produced from eight triangular parts
(32), which are positioned with overlapping edges.
7. Storage facility for explosive substances according to claim 1, characterized in that the eight triangular parts of the surface (16) of the composite thermal, waterproof
and radiation insulation material (14) are positioned with overlapping edges and the
edges are taped with a tape (27) that contains aluminium foil.
1. Lager für Sprengstoffe, enthält aus Einfriedungen (1), Sperrwänden (7), um die Ausbreitung
der Druckwelle zu hemmen, einer Decke, Sicherheitsnetz (12), Tragnetz (13) jeweils
über dem Lagerbereich (5) der Sprengstoffe, Isoliermaterial (14) und Abdeckmaterial
(15) oben auf dem Tragnetz (13),
dadurch gekennzeichnet, dass:
- das Lager für Sprengstoffe Stahlbetoneinfriedungen (1) hat;
- es aus flexible Strukturen (2) enthält, die das Lager für Sprengstoffe von einem
normalen Gebäude isolieren und die unterhalb der Oberfläche (3) in grobem Mineralboden
(4) installiert sind;
- die Sperrwände (7) sind zwischen dem Lagerbereich (5) der Sprengstoffe und Ausgangstüren
(6, 8) eingebaut;
- die Decke (10) des Lagers des Lagerbereichs (5) für Sprengstoffe hat eine Öffnung,
die für den Lagerbereich (5) eine erhöhte Decke zulässt, die als ballistische Oberfläche
(9) ausgeführt ist, die aus acht Oberflächen (16) enthält, die in den Ecken abgestützt
sind;
- die ballistische Oberfläche (9) oberhalb der Ebene der Decke (10) des Lagers ist
zumindest so hoch montiert, wie die Höhe des Lagers unter Decke (10);
- das Lager enthält Druckwellenleiter (11);
- das Sicherheitsnetz (12) des Lagers ist an den Wänden der Druckwellenleiter (11)
befestigt;
- die ballistische Oberfläche (9) des Lagerbereichs (5) der Sprengstoffe umfasst ein
Tragnetz (13), das Isoliermaterial (14) oben auf dem Tragnetz (13) und das Abdeckmaterial
(15);
- das Lager umfasst lokale Erdung (28), lokale Be- und Entlüftung (33), ein Heizsystem
(34), Beleuchtung (40), mindestens zwei unabhängige Temperatursensoren (42) und Feuchtesensoren
(43), Sicherheits- und Brandmeldealarmsysteme (44, 45), der Boden des Lagers ist mit
einem Material (46) bedeckt, das statische Entladungen leitet und das ist Lager durch
einen Blitzableiter (49) geschützt.
2. Lager für Sprengstoffe gemäß Anspruch 1, dadurch gekennzeichnet, dass die Außenseiten der Einfriedungen (1) luftdicht mit einem Isoliermaterial (4) mithilfe
feuchtigkeitsbeständigen Klebstoffs abgedeckt sind und die Innenseiten mit einem Material
(47) abgedeckt sind, das Querschläger puffert.
3. Lager für Sprengstoffe gemäß Anspruch 1, dadurch gekennzeichnet, dass die ballistische Oberfläche (9) aus acht dreieckigen Oberflächen (16) enthält, die
diagonal auf den Ecken und auf Stahldrähten (17) ruhen, die gegen die seitlichen Spitzen
des Druckwellenleiters (11) gespannt sind, während die dreieckigen Teile (16) an der
Außenseite der Seiten des Druckwellenleiters (11) befestigt sind; die ballistische
Oberfläche enthält ein Tragnetz (13) aus Stahldrähten, das aus dreieckigen Teilen
(18) besteht.
4. Lager für Sprengstoffe gemäß Anspruch 1, dadurch gekennzeichnet, dass die Enden der Seiten des Druckwellenleiters (11) in Form einer Erhöhung mit einer
Neigung gegen die Ecken gefertigt sind.
5. Lager für Sprengstoffe gemäß Anspruch 1, dadurch gekennzeichnet, dass das Isoliermaterial (14) oben auf dem Tragnetz (13) der ballistischen Oberfläche
eine Verbundstruktur aus wärmedämmendem, wasserdichtem und strahlengeschützem Material
ist, das in sieben Lagen gefertigt ist: die erste Lage (19) ist aus Aluminiumfolie
gefertigt und oxidationsgeschützt verarbeitet; die zweite Lage (20) ist aus feuerhemmendem
Polyethylen gefertigt, das Hohlraume (21) mit trockener Luft enthält; die dritte Lage
(22) ist aus Aluminiumfolie gefertigt; die verte Lage (23) ist aus einer Lage feuerhemmendem
und wasserabweisendem Polyethylenschaumstoff gefertigt; die fünfte Lage (24) ist aus
Aluminiumfolie gefertigt; die sechste Lage (25) ist aus feuerhemmendem Polyethylen
gefertigt, das Hohlräume (21) mit trockener Luft enthält; die siebente Lage (26) ist
aus Aluminiumfolie gefertigt und oxidationsgeschützt verarbeitet.
6. Lager für Sprengstoffe gemäß Anspruch 1, dadurch gekennzeichnet, dass das Abdeckmaterial (15) wetterfest und UV-beständig ist und Polyestergewebe (29)
enthält, das mit einer Lage feuerfestem Polyvinyl (30) plastifiziert ist, während
die Lage Polyvinyl (30) von unten und oben mit einer Schicht Acryl bedeckt ist; das
Abdeckmaterial (15) ist aus acht dreieckigen Teilen (32) gefertigt, die mit überlappenden
Rändern platziert sind.
7. Lager für Sprengstoffe gemäß Anspruch 1, dadurch gekennzeichnet, dass die acht dreieckigen Teile der Oberfläche (16) der Verbundstruktur aus wärmedämmendem,
wasserdichtem und strahlengeschützem Material (14) mit überlappenden Rändern platziert
sind und die Ränder mit einem Klebeband (27) verklebt sind, das Aluminiumfolie enthält.
1. Installation de stockage pour des substances explosives comprenant des enceintes (1),
des murs de barrière (7) pour bloquer la propagation d'une onde de choc, un plafond,
un grillage de sécurité (12), un grillage de support (13) qui sont tous au-dessus
la zone de stockage (5) des substances explosives ainsi qu'un matériau d'isolation
(14) et de recouvrement (15) situé au-dessus du grillage de support (13),
caractérisée en ce que:
- l'installation de stockage pour des substances explosives a des enceintes en béton
armé (1);
- elle comprend des structures flexibles (2) qui isolent d'un immeuble normal l'installation
de stockage pour matériaux explosifs et qui sont installées au-dessous du niveau du
sol (3) dans un sol minéral à grain fin (4);
- les murs de barrière (7) sont construits entre la zone de stockage (5) des substances
explosives et les portes de sortie (6, 8);
- le plafond (10) de l'installation de stockage au-dessus de la zone de stockage (5)
pour des matières explosives comporte une ouverture permettant à la zone de stockage
(5) d'avoir un plafond élevé qui est construit comme une surface balistique (9), qui
comporte huit surfaces (16), qui sont supportés sur les coins;
- la surface balistique (9) au-dessus du niveau du plafond (10) de l'installation
de stockage est assemblé au moins aussi haut que la hauteur de l'installation de stockage
sous plafond (10);
- l'installation de stockage contient des guides d'ondes de choc (11);
- le grillage de sécurité (12) de l'installation de stockage est fixé sur les parois
des guides d'ondes de choc (11);
- la surface balistique (9) de la zone de stockage (5) des substances explosives comporte
un grillage de support (13), la matière isolante (14) située au-dessus du grillage
de support (13) et le matériau de recouvrement (15);
- l'installation de stockage incorpore la mise à la terre du local (28), la ventilation
de soufflage et d'extraction (33) du local, un système de chauffage (34), un éclairage
(40), au moins deux capteurs de température indépendants (42) et des capteurs d'humidité
(43), des systèmes d'alarme de sécurité et d'alarme incendie (44, 45), le sol de l'installation
de stockage étant recouvert d'un matériau (46) qui conduit les décharges statiques
et l'installation de stockage étant protégée par un parafoudre (49).
2. Installation de stockage pour des substances explosives selon la revendication 1,
caractérisée en ce que les faces extérieures des enceintes (1) sont couvertes hermétiquement par un matériau
d'isolation (4) à l'aide d'une colle résistant à l'humidité et que les côtés internes
sont couverts avec un matériau (47) qui prévient les ricochets.
3. Installation de stockage pour des substances explosives selon la revendication 1,
caractérisée en ce que la surface balistiques (9) comprend huit surfaces triangulaires (16), qui reposent
en diagonale sur les coins et sur les fils d'acier (17) étirés sur l'inclinaison latérale
du guide d'onde de choc (11), tandis que les parties triangulaires (16) sont fixées
à l'extérieur des côtés du guide d'onde de choc (11); la surface balistique contient
un grillage de support (13) fait de fils d'acier, qui se compose de parties triangulaires
(18).
4. Installation de stockage pour des substances explosives selon la revendication 1,
caractérisée en ce que les extrémités des côtés du guide d'onde de choc (11) sont réalisées sous la forme
d'une arête avec une inclinaison vers les coins.
5. Installation de stockage pour des substances explosives selon la revendication 1,
caractérisée en ce que le matériau isolant (14) situé au-dessus du grillage de support (13) de la surface
balistique est un matériau composite d'isolation thermique, imperméable à l'eau et
au rayonnement qui est produit en sept couches: la première couche (19) est réalisée
en une feuille d'aluminium et traitée contre l'oxydation; la deuxième couche (20)
est fabriquée à partir de polyéthylène ignifuge qui contient des cavités (21) avec
l'air sec; la troisième couche (22) est réalisée en une feuille d'aluminium; la quatrième
couche (23) est produite à partir d'une mousse de polyéthylène retardateur de combustion
et hydrofuge; la cinquième couche (24) est réalisée en une feuille d'aluminium; la
sixième couche (25) est produite à partir de polyéthylène retardateur de combustion
qui contient des cavités (21) avec de l'air sec; la septième couche (26) est réalisée
en une feuille d'aluminium et traité contre l'oxydation.
6. Installation de stockage pour des substances explosives selon la revendication 1,
caractérisée en ce que le matériau de recouvrement (15) est résistant aux intempéries et aux rayons ultraviolets
et qu'il contient un tissu en polyester (29), qui est plastifié avec une couche de
protection contre l'incendie en polyvinyle (30), tandis que la couche de polyvinyle
(30) est recouverte dessous et dessus d'une couche d'acrylique; le matériau de recouvrement
(15) est réalisé en huit parties triangulaires (32), qui sont positionnées avec des
bords se chevauchant.
7. Installation de stockage pour des substances explosives selon la revendication 1,
caractérisée en ce que les huit parties triangulaires de la surface (16) du matériau composite d'isolation
thermique, imperméable à l'eau et au rayonnement (14) sont positionnées en faisant
se chevaucher les bords et que les bords sont scellés avec une bande (27) qui contient
une feuille d'aluminium.