RU231422U1 - Modular mining installation - Google Patents

Abstract

The utility model relates to the field of military sciences, in particular to devices intended for remote installation of minefields using artillery shells. The technical result of the utility model is: reduction of weight, size and cost, increase in survivability due to reduction of unmasking features, provision of the possibility of absence of personnel in the immediate vicinity during operation of the installation, absence of need for highly qualified personnel, significant simplification of the design due to modular construction, as well as the possibility of installation of minefields of a larger area and at greater distances. The set technical result is achieved by creating a modular mining installation consisting of a platform (base) with folding stops, on which a lifting and turning mechanism with a control unit, a launch container (module) with ten rockets, a power supply and a portable remote control for controlling the process of guidance, launching of projectiles and fixation of the minefield are located. Thus, the proposed modular mining installation will allow: elimination of the prototype's shortcomings due to significant reduction of weight, size and cost indicators, as well as simplification of the design; eliminate the main unmasking signs, which will significantly increase the efficiency of performing tasks on the installation of mine-explosive barriers by increasing the degree of survivability and the probability of performing tasks on the installation of mine-explosive barriers; use the modular design of the installation the required number of times, determined by its warranty period; launch shells with mines without the direct participation of personnel.

Description

The utility model relates to the field of military sciences, in particular to devices intended for remote installation of minefields using artillery shells.

A portable remote mining installation is known (RU 197288) - an analogue containing a plate with holes, contact sockets for cassettes with mines, made with the possibility of transmitting launch pulses to electric cap bushings of cassettes with mines. The base of the installation is made in the form of a rectangular plate, along the perimeter of which mounting holes are located, launchers are mounted on the base in such a way that the angle between the vertical projections of the axial lines of the launchers is in the range from 11 to 14 degrees, each of the launchers contains an inclined plate located at an angle of 45 degrees relative to the base, while on the back side of the plate - between the base and the plate triangular stiffening elements are installed, and on the front side there is a socket for a cassette with mines in the form of a cylindrical part, while the socket is made with the possibility of fixing cassettes with mines.

This analogue has a number of disadvantages: short mining range, small number of mines in cassettes, mechanical adjustment with movement of machines is required to change the mining parameters.

A mining control system is known (RU 2427784) - an analogue containing a mining control panel and at least one firing control unit with an input and an output, a transport and launch container mounted on the corresponding mechanism for controlling a group of containers, a storage battery, while it additionally contains at least one unit for controlling rotation and elevation, a power supply unit with an input and an output, and is also equipped with a mode switch "Loading control, task setting, training mining", "Combat manual" and "Combat automatic" included in the mining control panel, an indication board and a memory device, while the firing control units are equipped with input and output interface buses, and the rotation and elevation control units are equipped with outputs connected to the actuators of the corresponding mechanisms for controlling a group of containers, and input interface buses, while the indication board is designed with the possibility of displaying the code of the loaded cassettes, the number of cassettes, the number of good cassettes and the numbers of bad cassettes in each container, the mining step, the number of rows and their numbers on the minefield, the self-destruction time installed in the mines, the date and current time, and the memory device is designed with the ability to remember the loading parameters and the parameters of the minefields installed earlier.

This system is designed for installation on mobile platforms (cars) and regulates the installation of mines from launching rotary containers at short distances, typical for launching devices of this type. The system itself is not a full-fledged device for installing mine-explosive barriers, but is a means of expanding the functionality of mine layers.

An analogue of RU 2339897 is known. This minelayer is a mobile platform for launching cluster munitions, has a short range of mine delivery and a small number of installed munitions, and is an accessible and visible target for modern weapons.

The closest technology from the level adopted as a prototype is the engineering system of remote mining (ISDM) "Zemledeliye" (https://www.gazeta.ru/army/2022/02/16/14542531.shtml), which consists of a combat vehicle on a high-cross-country chassis and a transport and launch container with engineering ammunition (Fig. 1). The task of the system is to quickly create minefields in especially dangerous areas at a distance of 5 to 15 km.

It fires rockets that scatter mines in a given location. The system lays a minefield of any complexity, including with ready passages for friendly troops. At the same time, ISDM allows solving mining problems in compliance with international agreements on the prohibition or restriction of the use of mines, booby traps and other devices.

ISDM operates on the principle of multiple launch rocket systems, only its shells do not explode, but are containers for mines. The system can use two types of mines - anti-personnel and anti-tank. The minefield installed by ISDM can be turned on and off, and can be eliminated on command.

This system has the following disadvantages: high cost, a large number of unmasking signs associated with its design and the presence of an internal combustion engine, operation of the installation requires the presence of a highly qualified crew and a gunner in the immediate vicinity, low reliability associated with the complexity of the ISDM itself.

The technical result of the utility model is the ability to install minefields of a larger area and over greater distances from a stationary position, ensuring its secrecy and high survivability.

The stated technical result is achieved by creating a modular mining installation consisting of a platform (base) 1 with folding supports 2, on which a lifting and turning mechanism 3 with a control unit 4 is located, a launch container (module) 5 with ten rockets 6, a power supply (battery) 7 and a portable control panel 8 for controlling the process of guidance, launching of rockets and fixing of a minefield.

The modular mine-laying unit is installed on the launch pad in standby mode and is in the transport (folded) state. Transportation to the installation site and unloading is carried out by the standard transport of the units. It has small dimensions and is camouflaged by standard or improvised means, while the unit itself does not have elements with elevated temperatures and creating a strong noise impact, which allows it to be less noticeable in the main (IR, radar, visible) reconnaissance ranges.

The MUM operates according to the algorithm shown in Fig. 3. The operator, using the control panel, connects via wires or a radio channel and enters the coordinates of the minefield into the control unit. After this, the installation is in standby mode, and the control panel can be disconnected and used to program the next installation.

The command to start - to lay a minefield is given by the operator from the control panel remotely, or in automatic mode after a certain period of time. In the standby mode, the installation is in a state of radio silence, which significantly reduces the likelihood of its detection. The maximum time in the standby mode is determined by the properties of the battery and is not an essential feature of the model.

The self-destruction time for the mines being installed can be set in advance or transmitted together with the launch command from the operator's console to the control unit. The operator's presence in the immediate vicinity of the installation is not required.

After receiving the command to prepare, the control unit starts the installation’s lifting and rotating mechanism, which guides the launch container to the required position.

After this, a command is sent from the control unit to launch the ammunition in the required sequence. The minefield is installed in the same way as the ISDM. After all the shells have been fired, the installation is folded and goes into standby mode with an empty container.

If during preparation for launch a command is received to cancel the task, the installation folds up and goes into the mode of waiting for a new command.

In accordance with the decision taken, the deployed installation can be recharged and prepared for the installation of the next section of the minefield. Otherwise, it will remain in standby mode until the moment of removal.

Thus, the proposed modular mining installation will allow:

- eliminate the shortcomings of the prototype and existing analogues;

- to lay minefields over a larger area and greater distances from a stationary position, ensuring its secrecy and high survivability.

Claims (1)

A mining installation consisting of a base platform with folding supports, a lifting and rotating mechanism, a control unit, a launch container, a power supply unit and designed with the possibility of connecting a control panel, characterized in that it is stationary, designed with the possibility of guiding the launch container due to the combined operation of the control unit and the lifting and rotating mechanism, entering the initial task for mining from the control panel and canceling it during preparation for launch, and is also designed with the possibility of reloading.