Abstract:
The invention accomplishes the protection of vehicles, helicopters and other structures from attacks with rocket propelled grenades of the RPG 7 type, except of grenades of the NADER or other similar to that type. Compromising of several grids of electrodes (1, 2, 3) that are placed one behind the other, of one mounting frame (4) where each grid of electrodes (1, 2, 3) is fixed only from one of its sides, while the cross side from its fixed side is tied on the mounting frame (4) with special elastic canals (7), leaving all the other sides unfixed. The next grid (1, 2, 3) is fixed on the frame (4) from the side that the previous was tied with the special elastic canals (7) while it is tied with the special elastic canals (7) from the side that the previous was fixed on the frame (4). It is lightweight. During impact of the grenades on the shield, an electronic device (8) directs instantaneously modulated electronic pulses resulting in the instantaneous destruction of the grenades.
Abstract:
A method and a system of treatment of municipal solid waste, which produces dehydrated and compressed final products with variable qualitative composition and capable of producing industrial products, which is applied by the continuous waste feeding with simultaneously flow softening and separation of magnetic and inert materials, a 1st materials drying and further partial separation of inert material, the entry of the waste to the system, the opening of the packages, the homogenization treatment, the recycling, recovery and storage of useful materials, the materials final drying, the first pulverization treatment, the additional pulverization treatment, the exposure to electrical field, the exposure to UV radiation emmission, and the final product cooling by using a chain conveyor of redler type (152), a opening unit (19), a homogenization unit (28), a recycling, recovery (154) and useful materials' storage (157) unit, a unit of materials' final drying (190), a lower frequency pulsator (39), a higher frequency pulsator (68) and the final product cooling system (156), with the possibility of a first optional selection of the ferrous metallic elements with magnetic elements, separation of glass, ferrous metallic elements, aluminium and plastic, by using a sorter of recyclable materials (122) and transfer of the selected materials to be recycled, and finally the exposure of the resulting material to microwave radiation and pelletization of the final product.
Abstract:
Liquid fuel method and hybrid production system from waste treatment, without the use of catalytic compounds, which is applied by the combination of mechanical, UV and thermal degradation of waste. Initially, takes place the waste entrance to the system (2), the waste mechanical degradation (homogenization) in order to obtain particles of desired size less than 10cm, using for this purpose a homogenization high frequency pulsators system, the UV degradation, the thermal degradation - small size waste treatment, using a continuous flow special reactor (4) for the conversion of inserting material to gaseous, the condensation of produced reactive gases to liquid material, the automatic adjustment of end product ph between 4-4.5 and the simultaneous viscosity stabilization through special regulated operation systems and the filtering of liquid material for viscous material removal.
Abstract:
Method and Drying System of Organic Biodegradable Waste that is characterized by the fact that it is a hybrid drying system (synergistic action of photo degradation and mechanic degradation) which produces stabilized mass of low granulometry for multiple uses. Initially, the input of organic biodegradable waste into the main drying unit (1) is realized and the operation planning via the unit of control and handling, the photo degradation -exposure to a special drying lamp (6), as a pre- treatment stage, the mechanic waste degradation for the reception of particles with a desirable size smaller than 3 cm using for this purpose a continuous horizontal rotary agitation device (7), which is placed in a suitable height inside the removable perforated chamber of metallic robust structure (5), which is placed concentrically and coaxially inside the main drying unit (1), the parallel continuous photo degradation and continuous separation of dried-stabilized mass from the removable perforated chamber of metallic robust manufacture (5), based on granulometry, and the parallel under-pressure suction of the produced gases as well as their removal.
Abstract:
It comprises of a protective grid (12) of special configuration and hardness. In the interspaces (19) of the grid (12) there exists a polyester foam (13) for its adequate electrical insulation. The grid (12) possesses a serrate conductive entrance (14) on the side of rocket impact (40) and a conductive cathode (15) on its other side. All the electrodes (23) are connected with an electronic control unit (16) in order for the data to be transferred from the impact surfaces to this unit. The unit (16) is programmed to terminate the electric energy produced by the piezoelectric crystal to an ignition head of the Rocket Propelled Grenade RPG when this rocket strikes against the conductive entrance (14) of the protective grid (12). It can be used for the protection against the lethal Rocket propelled grenades RPG.
Abstract:
The robotic materials recycling station is appropriate for use as a concentration station for recycling materials of big volume into limited space, for the thorough and effective «sorting out at source» of the disposed materials from every citizen-consumer who is motivated by a rewarding compensation. The main unit of sorting out and treatment (1) of the robotic materials recycling station comprises externally and perimetrically one at least robotic multi-chamber for organic waste treatment (2), equipped with the appropriate devices for the- ecological treatment of the organic- degradable fraction. Also, outside, there is at least one waste disposal gate for the reception of the rest recycling materials and the special waste which through at least one feeding system, are led to its main internal area. Through at least one moving table for material sorting out (5) with material removing exits, material sorting out is achieved. Finally, perimetrically of the robotic station, six at least robotic bins for waste management (patent No. 1005724) for the effective management, after sorting out, of recyclable to compression materials and six at least metallic containers, of appropriate rectangular cross-section (7) for the management of waste that can not be compressed.
Abstract:
The flexible web to confront rocket propelled grenades is compromised of at least one grid (1) upon which the incoming grenades collide. This grid (1) is created by crossed strings (2). On the points where the strings (2) cross, solid connectors (3) with cuts (6) are placed. The solid connectors sustain the strings (2) in place. During the impact of the grenade on the grid (1), mechanical deformation occurs on the front conical metallic ogive (muzzle) which neutralizes the ignition mechanism. As a result, the grenade does not ignite (explode) on impact with the target. The flexible web is placed on the outside of the static or mobile target we wish to protect, ensuring a stand off distance.
Abstract:
The device is suitable for being used as a station of concentration and storage of a large volume of waste that emanates from houses, shops, etc., without environmental problems being created. It achieves the waste compaction, the ecological management, as well as disinfection of the waste. It provides large surfaces (23) for advertising displays. It allocates a large capacity of waste storage (5 up to 10 m3). It comprises a main pivotal member (13) that includes at least one chamber of waste compaction (18) at the interior thereof. The pivotal member (13) is constituted by a fixed member (14) and a moving member (15). It is constituted by a central supporting basement (11) of pivotal member (13), a chamber (17) of waste disposal, as well as at least one system of waste lifting and controlled compaction (20). The collecting is realised automatically with the waste collection vehicles already available. It may be provided with double, triple or quadruple positions of waste disposal for the recycling of materials.