Breaking News :
on 27/01/2023 Dynamic received from WIPO (World Intellectual Property Organization)
the approval for all criteria for patentability: novelty, inventive step, and industrial applicability;
Gravity Dynamic Defense Modular Wall :
the first "proactive" blast wall, designed
- for urban scenarios,
- for the protection of naval hulls,
- to protect highly sensitive targets,
effective, customizable and mobile,
built for seamless efficiency
always one step ahead and beyond.
How?
What you see
How it works
Its components
Dynamic : The Combating Wall
Beyond a Dynamic wall, sensitive urban targets stay protected from explosions and their collateral effects.
Efficiently and discretely.
Gravity Dynamic Defense Modular Wall
Gravity
This is a (patented) evolution of Gravity's construction technique, applied to the world of defence.
The concept of a non-stuck wall, whose single elements are always ready to move in the event of shocks or blasts, finds its best use in situations in which the effects of an earthquake are replaced and amplified by the effects of an explosion.
Dynamic
Until now, explosion-proof protective walls and shields have always been
passive only,
i.e. they are intended
to absorb shocks
and resist explosions.
Gravity explosion-proof wall
is dynamic because
it re-uses the power of tools
created to disaggregate it
to instead compact itself
and to "actively respond
to the attack".
Defence
An anti-blast wall
that actively responds
to the explosive attacks?
Even to explosive projectiles?
Possible, with Dynamic
Modular
This defence wall is designed to be modular,
easy to assemble
and transportable.
Its dimensions allow
a logistics of its stocks based on the containers' management model.
This modularity makes it reusable, repairable
and replaceable
for immediate functionality and 100% efficiency
after any attack.
Wall
This wall can make a difference
in the defence of people, vehicles and infrastructures.
It is certainly a revolution
in terms of logistics management.
The construction details,
part of the patent, are a confidential part,
to be explored
in our future contacts.
An anti-blast wall
that actively responds
to the explosive attacks ?
Even to projectiles with EPW charges ?
Possible, with Dynamic
Explosions strengthening the wall
rather than destroying it ?
Even when blasts are internal to the wall ?
Possible, with Dynamic
An anti-blast wall
pre-assembled, modular
and transportable?
Possible, with Dynamic
How come ?
Insert a Moving Wall
into a muzzle brake
and you will get your answer !
Possible, with Dynamic
Dynamic, a Defensive War Machine
There is more to a great war machine
than intelligent engineering:
it must also solve problems.
Possible, with Dynamic
the secret
At the moment of the attack,
when a rocket explodes internally,
after having pierced the container's wall…
The transversal barrels present in the internal wall
will divert the gases and the debris/projectiles towards the muzzle brakes,
in directions which that are harmless for the defenders,
and will dissipate the internal pressure, discharging it laterally.
In those expansion chambers, as in any muzzle brake,
the pressure of the gases is reused to contrast their own effects
by reverting their force vectors' direction.
Instead of hurling the inner wall elements around,
these redirected and canalized gases will compact the structure,
before sorting out through the vent holes
and shooting out the debris as if they were bullets,
towards the direction the projectiles were arriving from.
A bit of philosophy (for professionals)
Dynamic changes perspective and terminology,
by identifying the elements that can transform an inert wall,
impacted by an explosive bullet, into a powerful firearm.
So far, even if never identified with these functions ever before,
we already had three components:
- an explosion chamber, created in the random point of the wall
where the explosive bullet impacts, - an explosive charge, carried into the wall by the bullet itself,
with the purpose of destroying it, - one or more projectiles, i.e. the fragments of the bullet
and the fragments of the impacted wall.
This invention adds:
- firearm-barrel-bores shaped holes inside the wall, to convey the pressure of the gases of the explosion, and any bullets, in preordained directions, and
- muzzle brakes at the end of the internal barrel bores,
i.e. the empty spaces between the internal moving wall
and the container's internal walls.