The invention relates to a method for determining a fire guidance solution of an artillery weapon (2) in indirect ballistic fire to hit a target (5), wherein a changing weapon position (P2) of the weapon (2) and a target position (P5) of the target (5) are taken into consideration as geographical position data.
The invention relates to a protective device for a military vehicle (100) for protecting against repercussions (R) of a distance-active protection system (200) on the vehicle (100). According to the invention, a protective shield (2) can be secured, in particular pivotably, to the vehicle (100) by means of a fastening device (3).
The invention relates to a bridge laying device (2) for laying a bridge (3), in particular a single-piece bridge, comprising a main part (5) for arranging on a load transport vehicle (7), in particular a hook-lift vehicle, a laying arm (12) for setting down the bridge (3), and an extending device (6) for moving the laying arm (12) from a transport position into an extended placing position. The invention additionally relates to a bridge laying system (1) comprising a load transport vehicle (7), in particular a hook-lift vehicle, and a bridge laying device, (2) which can be arranged on the load transport vehicle (7), and to a method for laying a bridge (3), in particular a single-piece bridge, using a bridge laying device (2).
E01D 15/127 - Portable or sectional bridges combined with ground-supported vehicles for the transport, handling or placing of such bridges or of sections thereof
4.
METHOD FOR OPERATING A DISPLAY DEVICE AND SYSTEM FOR DISPLAYING ACTUAL IMAGE CONTENTS OF AN ACTUAL ENVIRONMENT OVERLAID WITH VIRTUAL IMAGE CONTENTS
The invention relates to a method and system for operating a display device (20) having a display element (21) arranged in the field of vision (2) of the user (22) for displaying virtual image contents (10), displayed overlaying actual image contents (11), comprising the following method steps: determining a position (14) and a viewing direction (15) of the user (22) in an actual environment (1); positioning at least one virtual object (19) in an object position (16) of a computer-generated simulation environment (13) that depicts the actual environment (1) in a geo-referenced, in particular geo-specific manner; determining a virtual position (14.2) and viewing direction (15.2) by transferring the determined position (14) and viewing direction (15) into the simulation environment (13); calculating a virtual image content (10) as a portion of the virtual object (19) in simulation environment (13) that is visible from the virtual position (14.2) and in the virtual viewing direction (15.2); calculating an overlay position (18) of the virtual image content (10) on the display element (21) based on the object position (16) and the virtual position (14.2) and viewing direction (15.2); displaying at least one virtual image content (10) on the display element (21).
G06T 19/00 - Manipulating 3D models or images for computer graphics
G09B 9/00 - Simulators for teaching or training purposes
G09B 9/05 - Simulators for teaching or training purposes for teaching control of vehicles or other craft for teaching control of land vehicles the view from a vehicle being simulated
The invention relates to a buoyancy module (10) comprising a buoyancy body (11) for a, in particular, military vehicle (1), which can be secured to said module for operating the vehicle (1) as a watercraft, also comprising a land driving unit (13) for operating the vehicle (1) as a land vehicle. The invention also relates to a vehicle (1), in particular a military vehicle, comprising a base module (20) in particular for accommodating crew members, also comprising a buoyancy module (10) which can be arranged on said base module for operating said vehicle (1) as a watercraft.
The invention relates to an amphibious vehicle (1), in particular a military amphibious vehicle, having a trough (2) which accommodates the crew of the vehicle, and a flow duct (10) which extends through the trough (2) and has a water jet drive (12) which is arranged therein and has the purpose of driving the amphibious vehicle (1) when it is travelling on water, wherein at least one end (11) of the flow duct (10) is embodied in such a way that it can be closed off by means of an anti-mine element (14) when the vehicle is travelling on land. In addition, the invention relates to a method for operating an amphibious vehicle (1), in particular a military amphibious vehicle, having a trough (2) which accommodates the crew of the vehicle, and a flow duct (10) which extends through the trough (2) and has a water jet drive (12) which is arranged therein and has the purpose of driving the amphibious vehicle (1) when it is travelling on water, wherein at least one end (11) of the flow duct (10) is closed off by means of an anti- mine element (14)when the vehicle is travelling on land.
Disclosed and described is a device for coupling an attachment (2), in particular a dozer blade, mine roller or mine plough, to a vehicle (3), comprising a pin (6), a pin receptacle (4) which receives the pin, and an explosive device (5) for emergency decoupling. In order to guarantee durable and reliable emergency decoupling of an attachment from a vehicle, the pin for releasing the coupling can be pushed out of the pin receptacle by means of the explosive device.
F41H 11/24 - Self-propelled mine-clearing vehicles; Mine-clearing devices attachable to vehicles with ground-penetrating elements, e.g. with means for removing buried landmines from the soil the elements being ploughs
F16B 21/10 - Means without screw-thread for preventing relative axial movement of a pin, spigot, shaft, or the like and a member surrounding it; Stud-and-socket releasable fastenings without screw-thread by separate parts
F42B 3/00 - Blasting cartridges, i.e. case and explosive
8.
HOUSING FOR AUXILIARY POWER GENERATOR, AUXILIARY POWER GENERATOR, AND VEHICLE
The invention relates to a housing (20) for an auxiliary power generator (10) of a military vehicle (1), having a generator compartment (21) for arranging a generator (11) which is coupled to an auxiliary motor (14), having an energy store compartment (22) for arranging an energy store (12) for starting the auxiliary motor (14) and/or for buffer-storing the energy which is generated by the generator (11), and having a cooling system compartment (23) for arranging a cooling system (13) for cooling the generator (11) and/or the auxiliary motor (14), wherein the generator compartment (21), the energy store compartment (22) and the cooling system compartment (23) are formed separately from one another, and also relates to an auxiliary power generator (10) having a housing (20) of this kind. A further subject of the invention is a military vehicle (1) having an auxiliary power generator (10) of this kind.
B60F 3/00 - Amphibious vehicles, i.e. vehicles capable of travelling both on land and on water; Land vehicles capable of travelling under water
F41H 7/02 - Land vehicles with enclosing armour, e.g. tanks
F41H 7/03 - Air-pressurised compartments for crew; Means for preventing admission of noxious substances, e.g. combustion gas from gun barrels, in crew compartments; Sealing arrangements
9.
VEHICLE JUMP START UNIT, VEHICLE, AND METHOD FOR OPERATING A VEHICLE JUMP START UNIT
The invention relates to a vehicle jump start unit (20) for connecting external electrics (30) to an electrical power supply (10) of a vehicle, wherein a connection module (21), which can be interposed between the vehicle power supply (10) and the external electrics (30) for the adapted connection of the external electrics (30), can be replaceably received in a module receptacle (23). The invention further relates to a vehicle having an electrical power supply (10) and a vehicle jump start unit (20). The invention also relates to a method for operating a vehicle jump start unit (20) for connecting an external electrics (30) to an electrical power supply (10) of a vehicle, wherein a replaceable connection module (21), which can be interposed between the vehicle power supply (10) and the external electrics (30) for the adapted connection of the external electrics (30), can be inserted into a module receptacle (23) of the vehicle jump start unit (20).
Method for training a crew member (2) of a vehicle, in particular a military vehicle, in the vehicle interior, wherein a virtual vehicle external environment is produced, wherein the crew member (2) wears a camera (6) which is fixed to the head and films the vehicle interior, and a display apparatus (6), which is fixed to the head and is arranged in the field of view of the crew member, wherein the position of a view (5.1, 5.2, 5.3) is defined via a marker (7.1, 7.2, 7.3) which is arranged in the vehicle interior, and wherein a detail of the virtual vehicle external environment, which detail is dependent on the position and the viewing direction of the crew member (2), is overlaid in the display apparatus (15) at the position of the view (5.1, 5.2, 5.3), as well as a corresponding vehicle simulator.
G09B 9/05 - Simulators for teaching or training purposes for teaching control of vehicles or other craft for teaching control of land vehicles the view from a vehicle being simulated
G09B 9/042 - Simulators for teaching or training purposes for teaching control of vehicles or other craft for teaching control of land vehicles providing simulation in a real vehicle
Housing for electrical components (8, 9), in particularly capacitor elements (8), for a vehicle, in particular a fighting vehicle, which may be inserted in an external vehicle recess (30) having an anti-ballistic armoured lid (4) with thermal insulation (5, 6, 22) and a base (11) with thermal insulation (14, 15). The invention further relates to a vehicle with such a housing.
A composite armor element for protection against projectiles. At least one layer of effective bodies is disposed in rows next to one another in the composite armor element, the effective bodies being embedded in a matrix material. The effective bodies of one row are fixedly interconnected at least partially by means of webs to form a chain which is a monolithic element. An effective body element for insertion in a composite armor element comprises at least two effective bodies fixedly interconnected by at least one web to form a chain. The effective body element is a monolithic element, and a plurality of effective body elements are embedded in a matrix material.
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