RU2653527C1 - Multifunctional unit for underwater technical work implementation - Google Patents

Abstract

FIELD: shipbuilding.

SUBSTANCE: invention relates to the field of shipbuilding, namely, to underwater engineering, including to the technique for performing various underwater engineering works, and can be used for demining the water area. Multifunctional unit for performing underwater engineering works consists of an on-board module and includes a tripping device, power supply means, a control means of the mobile module. Mobile module contains a self-propelled platform with propulsors, antennas and sensors of navigation and hydroacoustic equipment and a functional underwater vehicle. Platform is designed as a surface watercraft, is equipped with four identical propellers located in the corner extremities, the control system of which is integrated with the system of dynamic platform positioning, and also the platform is equipped with a lifting device, an electric power source. Platform body comprises a chamber configured to house a functional underwater vehicle therein. As propulsors used pod propulsion system, equipped with electric motors. Unit control system is radio-controlled with the possibility of transmitting to the carrier vessel the information obtained by the self-propelled platform equipment and the functional underwater vehicle through the radio channel.

EFFECT: it is possible to increase the safety of the survey of the water area and its de-mining.

4 cl, 4 dwg

Description

The invention relates to the field of shipbuilding, in particular to underwater equipment, including equipment for performing various underwater technical works (search, diving, rescue), and can be used to mine the water area.

Known uninhabited underwater telecontrol vehicles having a propulsion-steering complex, television, sonar and navigation equipment, systems, manipulators and other devices (see SU No. 336205, 1999; GB No. 1345683, 1974; US No. 4185580, 1980, etc.), designed to perform search and survey work, as well as to perform various underwater technical works using manipulators without the use of diving labor.

When performing specific underwater technical works on the same underwater object, it is sometimes required to use several types of tethered self-propelled technical equipment, which increases the cost of operations.

Also known is a multifunctional complex for performing underwater technical work, consisting of an on-board module located on a carrier vessel and including a launching device, power supply, mobile module control means, and a mobile module containing a self-propelled platform with propulsion, antennas and navigation and sonar sensors equipment and a functional underwater vehicle, made with the possibility of basing on the platform and powering through it (see RU No. 2220880, IPC B63G8 / 00, B63C11 / 34, 200 0). The platform is underwater and is connected to the carrier vessel by cable.

The disadvantage of this solution is the impossibility of an operative and safe survey of the water area with the identification or destruction of mines, since both the platform and the underwater vehicle are anchored and therefore can not exclude the destruction of the carrier ship in a mine. In addition, the platform is made underwater and poorly streamlined, which reduces the speed of its movement in the water area.

The task of the invention is to increase the efficiency and safety of the survey of water and its clearance.

The technical result that manifests itself in solving the problem is expressed in increasing the safety of surveying the water area and clearing it (eliminating a mine explosion close to the carrier vessel, threatening its survivability), since the distance from the carrier vessel to the platform is not limited by the cable length. In addition, the risk of losing the platform during a mine explosion during operation of the underwater vehicle with it is minimized (the platform is on the surface, has a relatively small weight and dimensions with a small draft, while it can be removed from the underwater vehicle by the length of the cable). In addition, the efficiency of the survey of the water area is increased, since its preliminary reconnaissance is carried out from a platform capable of moving at a sufficiently high speed and scanning the water area along its route using the underwater lighting equipment mounted on it, which makes it possible to quickly identify the location of potentially capable objects in the thickness of the water area turn out to be mines, and then clarify the status of these objects or their parts using equipment mounted on underwater apparatus, and, if necessary, to ensure their undermining or cut minrepy.

The essence of the claimed invention lies in the fact that the multifunctional complex for performing underwater technical work, consisting of an on-board module located on a carrier vessel and including a launching device, power supply means, a control module for a mobile module containing a self-propelled platform with propulsion devices, antennas and navigation sensors and sonar equipment and a functional underwater vehicle, made with the possibility of basing on the platform and power through it, excellent This is because the platform is designed as a surface craft, equipped with four identical propellers located in angular extremities equidistant from the center of the platform, the control system of which is integrated with the platform’s dynamic positioning system, while the platform body contains a camera configured to accommodate a functional underwater apparatus, in addition, propellers equipped with electric motors are used as propulsors, while the platform is equipped with a descent a lifting device configured to lower and raise the underwater vehicle, in addition, the platform is equipped with an electric power source configured to provide the functioning of the platform systems and a functional underwater vehicle in any combination, in addition, the complex control system is radio-controlled with the possibility of transmission to the carrier ship information received by the equipment of a self-propelled platform and a functional underwater vehicle over the air. In addition, the platform is equipped with a cable connector for transmitting electric power and cable control commands to a functional underwater vehicle and information from it to the platform control system with the possibility of its transmission over the air to the ship. In addition, an electric energy storage device or a compact electric generator was used as a source of electricity. In addition, the platform body is streamlined along the longitudinal axis.

A comparative analysis of the features of the claimed solution with the signs of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

The features of the characterizing part of the claims solve the following functional tasks.

A sign indicating that "the platform is designed as a surface craft", provides the possibility of its more rapid movement than moving under water and minimizes the risk of losing the platform when a mine explodes during operation of the underwater vehicle.

Signs indicating that the platform “is equipped with four identical movers located at the angular extremities equidistant from the center of the platform” ensures high maneuverability of the platform and the possibility of integrating its control system into the platform’s dynamic positioning system.

Signs indicating that the platform’s control system is “integrated with the platform’s dynamic positioning system” provide the possibility of long-term platform retention at a specific point in the water area.

Signs indicating that “the platform body contains a camera configured to accommodate a functional underwater vehicle” exclude the possibility of deterioration of the hydrodynamic characteristics of the platform during transportation of the underwater vehicle due to resistance to movement of its body (if it were outside the camera) in the process surveys of the water area by platform equipment).

Signs indicating that “propeller-driven columns equipped with electric motors are used as propulsors” provide high platform maneuverability and the ability to add traction pulses from propulsors (to increase speed) when the platform moves across the water area.

A sign indicating that “the platform is equipped with a hoisting device configured to lower and raise the underwater vehicle”, provides the underwater vehicle in a working or transport position in which it does not resist movement.

Signs indicating that “the platform is equipped with an electric power source capable of ensuring the functioning of the platform systems and the functional underwater vehicle in any combination” ensures the operability of the platform systems while simultaneously including as many systems and mechanisms as necessary for the successful completion of a particular stage of work .

Signs indicating that “the complex’s control system is radio-controlled, with the possibility of transmitting information received by the equipment of the self-propelled platform and a functional underwater vehicle via radio channel to the carrier vessel,” provides for the implementation of the detached mode of the platform and remote transmission of information to the carrier vessel.

Signs indicating that "the platform is equipped with a cable connector for transmitting electric power and cable control commands to a functional underwater vehicle and information from it to the platform control system with the possibility of transmitting it over the air to the ship," ensure the operability and controllability of the underwater vehicle and its information exchange with a complex management system.

Signs indicating that “an electric energy storage device or a compact electric generator was used as a source of electricity” specify the possible solutions to energy issues of the mobile module.

A sign indicating that “the platform body is streamlined along the longitudinal axis” allows the platform to move at high speed along its longitudinal axis.

Figure 1 shows the complete set of the complex in the expanded position; figure 2 shows a view of the platform from the stern or from the bow; in FIG. 3 shows a bottom view of the platform with the camera open; side view, in FIG. 4 shows a cross section of the platform along the chamber.

The drawings show the onboard module 1, the carrier vessel 2, its launching device 3, control means 4, mobile module 5, self-propelled platform 6, antennas 7, sensors 8 of navigation equipment 9, sensors 10 of hydroacoustic equipment 11, functional underwater vehicle 12, propulsors 13 of platform 6, its control system 14, dynamic positioning system 15, camera 16 and lifting device 17 of platform 6, electric power source 18, equipment 19 of a functional underwater vehicle 12, cable connector 20, cable cable 21, longitudinal The axial axis 22 of the platform 6, the cable drum 23, the leaves 24 of the chamber 16.

The carrier vessel 2 is not structurally different from vessels of similar functional purpose, except for the case when it is intended only for clearance - in this case it can be additionally equipped with a small-caliber gun mount and / or machine guns (not shown in the drawings). An on-board module 1 is mounted on the carrier vessel 2, including a launching device 3, control means 4, which controls the operation of the on-board module 1 and the mobile module 5, as well as the exchange of information between the carrier vessel and the mobile module 5. Control means 4 (control system) the complex is radio-controlled, with the possibility of transmitting to the carrier ship 2 information received by the equipment of the self-propelled platform 6 and / or a functional underwater vehicle 12 over the air. As a means of power supply of the on-board module 1, an electric generator of a known design is used that is installed on a carrier vessel (not shown).

Self-propelled platform 6 is made as a surface craft. Its body is streamlined along the longitudinal axis 22. Elements of the body of the platform 6, incl. deck decking, bulkheads, set elements and structural elements of the chamber 16 are made of a composite material, for example, basalt plastic or fiberglass. The self-propelled platform 6 is equipped with four identical propellers 13 located in the angular extremities equidistant from the center of the (geometric) platform 6 (propeller columns equipped with electric motors were used as propellers). Platform 6 is equipped with antennas 7 and sensors 8 and 10 of navigation 9 and sonar 11 equipment. A set of equipment 7-11 is formed on the basis of ensuring the maximum possible coverage of the underwater environment (in particular, identifying the location of mines (or similar objects) and fixing their location, including through JPS and / or Glonass systems. For communication purposes, it is advisable to have a side-scan sonar integrated with an echo sounder on board the platform. The platform body 6 includes a camera 16 (a docking chamber made as a through well in the platform body, open from above and below), configured to th functional underwater vehicle 12, while the platform 6 is equipped with its own tripping device 17, designed for the possibility of lowering from it a functional underwater vehicle 12 and return it to the chamber 16. It is advisable that the lower opening of the chamber 16 be provided with shutters that allow it to overlap in the process transportation of the underwater vehicle and open when the underwater vehicle is released and its work outside the platform. As an electric power source 18 installed on the platform 6 can be used on an energy storage device (e.g. lithium polymer batteries) or a compact power generator. In addition, the platform 6 is equipped with a cable connector 20 for transmitting electric power and control commands via cable 21 to a functional underwater vehicle 12 and information from it to the control system 14 of platform 6 with the possibility of its transmission over the air to a carrier vessel 2. a drum 23 with a supply of cable-cable up to 80-150 m is mounted on the lifting device 17 of the platform 6. The body of the platform 6 is made streamlined along its longitudinal axis 22.

Functional underwater vehicle 12 is equipped with at least six propulsors, providing its free maneuvering in the thickness of the water area, and is preferably equipped with a camera with a searchlight and a manipulator (not shown in the drawings). Depending on the adopted scheme for the destruction of mines, a cutter is mounted at the end of the manipulator, which enables the cutting of mines and grapples, which makes it possible to attach a portable explosive device to the mine. In this case, the cable connector 20 is made on the free end of the cable 21, which remains on the platform 6, and is rigidly fixed to the cable drum 23 (rotatable and equipped with a drive) with a reserve cable up to 80-100 m, mounted on a lifting device 17 of the platform 6. The second end of the cable 21 is inserted into the body of the underwater vehicle 12 through the corresponding sealed input (not shown in the drawings) and is rigidly fixed there.

Due to the rather high risk of undermining the functional underwater vehicle 12, there must be at least two to three of them on board the carrier vessel 2.

The claimed device operates as follows.

In the process of movement of the carrier vessel 2 to the mine clearance area, the self-propelled platform 6 and the functional underwater vehicle 12 are located on its board in the respective compartments. When approaching the clearance area, not reaching its borders, the carrier vessel 2 anchors in a known manner (if the depth of the water allows) or is fixed at a safe point using a ship's dynamic positioning system.

If the known boundaries of the minefields are not reliable enough, then using a self-propelled platform 6, reconnaissance of the safe paths of the approach of the carrier vessel 2 is closer to the boundaries of the mine clearance area, for which platform 6 is launched (using the launching device 3 of the carrier vessel 2). After that, the proposed approach paths are examined using a set of equipment 7-11 mounted on the platform, providing illumination of the underwater environment at the proposed approach course. During the survey, using navigation equipment 9, the real trajectory of the vessel is tracked with fixation of the location points of the platform 6, at each specific point in time, “linking” the received echograms to these points. This allows you to identify underwater objects that can be identified as suspected mines, and to determine the coordinates of their location, which are transmitted by radio channel to the carrier ship 2 and used to plot its course of approach to the mine clearance area.

At the end of the positioning procedure of the carrier vessel 2, it is anchored or fixed at the point using the ship's dynamic positioning system. Next, the platform 6 is lifted aboard the carrier ship 2, and using its launching device 3, a functional underwater apparatus 12 is placed in the chamber 16. Then, the free end of the cable 21 (after its fastening point with the cable drum 23) is connected to the cable connector 20 platforms 6 (in this case, the cable 21 is almost completely wound on the cable drum 23 and at least three slings are attached to it, fixed on the eyebolts of the underwater vehicle, ensuring its horizontal location (not shown in the drawings). and 24 the lower opening of the chamber 16 is closed.

Next, the platform 6 equipped with the described method is lowered from the side of the carrier vessel 2 into the water and the survey of the selected section of the mine clearance area is started. Platform 6 passes parallel tacks at a high speed along a selected section of the mine clearance area. Movers 13 are automatically controlled by commands received over the air from the on-board module 1.

During the survey, using navigation equipment 9 from the side of the carrier 2 vessel, the real trajectory of the vessel is monitored with fixation of the platform’s location points at any given time, “linking” the received echograms to these points. This allows you to identify underwater objects that can be identified as suspected mines, and determine the coordinates of their location, which are transmitted by radio channel to the carrier ship 2, and if it is impossible to accurately determine the status of the detected objects, the control system gives the coordinates of the points where the detected objects are located, which need to be examined additionally.

The integration of the complex control system with the dynamic positioning system 15, which the platform 6 is armed with, ensures its transition to a given point, retention at a point, counteracting the influence of wind and current.

After reaching the set point, the operator from the carrier vessel 2 gives the command to hold the platform 6 at this point, to open the wings 24 at the lower edge of the chamber 16 and lower the functional underwater vehicle 12 (which is practiced by the corresponding rotation of the cable reel 23 and the cable from it cable 21).

The underwater vehicle 12, controlled from the carrier vessel 2, goes to the object of inspection, while the operator uses information about the locations of the platform 6 and the coordinates of the object being examined, recorded from platform 6 in the course of the previous examination. The camera with the spotlight is turned on, and the image of the object goes through a cable-cable 21 to platform 6 and then over the radio channel to the carrier ship 2. If this is not a mine, then the survey stops and platform 6 proceeds to the next object, where everything is repeated.

If it is a mine, then the minrep is cut, the mine pops up to the surface where it is shot with artillery and rifle means of a carrier vessel 2, or a remotely controlled explosive device is attached to it and, after removing the underwater vehicle, the mine is blown up.

Further, everything is repeated until the mine is completely cleared of the entire water area.

Claims (4)

1. A multifunctional complex for performing underwater technical work, consisting of an on-board module located on a carrier vessel and including a launching device, power supply means, a control module for a mobile module containing a self-propelled platform with propulsion devices, antennas and sensors for navigation and sonar equipment and a functional underwater apparatus made with the possibility of basing on the platform and power through it, characterized in that the platform is made as a surface melt the tool is equipped with four identical propellers located in angular extremities equidistant from the center of the platform, the control system of which is integrated with the dynamic positioning system of the platform, while the platform body contains a camera configured to accommodate a functional underwater vehicle, in addition, as propulsors propeller-driven columns equipped with electric motors are used, while the platform is equipped with a hoisting device configured to acceleration and lifting of the underwater vehicle, in addition, the platform is equipped with an electric power source, configured to ensure the functioning of the platform systems and the functional underwater vehicle in any combination, in addition, the complex control system is radio-controlled with the ability to transmit information received by the equipment of the self-propelled platform to the carrier ship and functional underwater vehicle over the air. 2. The multifunctional complex according to claim 1, characterized in that the platform is equipped with a cable connector for transmitting electric power and cable control commands to the functional underwater vehicle and information from it to the platform control system with the possibility of its transmission over the air to the ship. 3. The multifunctional complex according to claim 1, characterized in that an electric energy storage device or a compact electric generator is used as an electric power source. 4. The multifunctional complex according to claim 1, characterized in that the platform body is streamlined along the longitudinal axis.

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