RU2759187C1 - Method for using a universal module container - Google Patents

Abstract

FIELD: transportation.SUBSTANCE: invention relates to means of transporting passengers, relocation of cargo, in particular, in aviation. The method for using a universal module container consists in interconnecting at least two universal module containers by means of locks formed in the niches of the frames. Said module containers are attached to the aircraft, thus a removable part of the aircraft is formed, providing equipment into a single fuselage. The aircraft is therein additionally equipped with an emergency rescue system unit.EFFECT: constructive versatility, possibility of using on various types of transport, and increased safety are achieved.8 cl

Description

Technology area

The technical solution relates to overhead containers and can be used for the carriage of passengers, the movement of goods, in particular in aviation.

State of the art

There is a known method of loading a trailer (US 4265588 A dated 08.21.1979, IPC class B64D 9/00), coupled to a tractor and having at one end a vertically retractable landing device, a jack and a support means at the opposite end, as well as a retractable running device, including a support swivel wheels, into an aircraft having a cargo deck and equipped with an onboard winch and a cargo ramp, said method including the steps of: placing said trailer with said jack and support means above and in contact with said cargo ramp or said cargo deck; extending said landing gear into contact with a surface on which said aircraft and said trailer stand; disconnecting said tractor from said trailer; removing the wheels from said running device; winch said trailer into said aircraft until said landing gear approaches said ramp; retraction of said chassis; and terminating the winch of said trailer into said aircraft.

Known aircraft suspended container (RU 2677734 C1 dated 01.24.2018), taken as a prototype due to its closest technical characteristics, which makes it possible to use a suspended container both in a suspended operating state from an aircraft and in a disconnected position as a ground mobile power supply complex and automated control of the technical condition of onboard equipment. The container contains fairings, stringers, frames that form niches for placing equipment, as well as suspension assemblies and niche covers, three pairs of retractable landing gear, a tape winch and a carrier. In this case, two landing gear struts are located on the sides in the lower part of the container, which is forward in the direction of flight, and four landing gear struts are located in the rear lower part of the container and are fixed on the locks.

A known method of landing and unloading passengers of an aircraft and an aircraft with a reduced immobilization time of the aircraft (US 20130228651 A1 from 01.03.2012, IPC B64D 9/00), taken as another prototype. The aircraft contains a removable cockpit module containing the floor and the upper part of the aircraft fuselage connected to the floor, and the first and second end walls, and the first and second end walls, the floor and the upper part of the aircraft fuselage form a cabin for transporting passengers, luggage, cargo or combinations thereof; receiving space for receiving a removable cabin module; a nose cone containing a cockpit and a transverse wall; a tail cone containing a tail unit and a transverse wall; a lower structure containing the lower part of the fuselage, truncated in the horizontal plane, and the receiving space is delimited between the transverse wall of the nose cone and the transverse wall of the tail cone, as well as above the horizontal plane of the lower structure; centering device for centering the removable car module in the reception area; and a holding device for holding the removable car module in the receiving space, the holding device comprising a first docking device for securely connecting the floor of the removable car module with the horizontal plane of the lower structure, the first docking device comprising a first element forming a hook that is securely connected to the floor of the removable module cockpit, and a second element forming a hook, reliably connected to the horizontal plane of the lower structure, while the holding device comprises a second docking device for securely connecting the first or second end wall of the removable cockpit module with the transverse wall of the nose cone or the transverse wall of the tail cone, the second docking the device contains a longitudinally located rod, which is drawn into an opening in the transverse wall of the nose cone, the transverse wall of the tail cone, or in both cases.

The disadvantage of the above technical solutions is the lack of versatility when using containers.

The technical problem is a universal method of using a module-container in railway and motor transport as an independent unit and in aircraft as a single fuselage due to the provision of universal attachment points in the design of module-containers.

Disclosure of the essence of a technical solution

The technical result is the development of a method for using a universal container module, where the latter contains structurally connected fairings, stringers, frames, wires and doors, characterized in that at least two universal container module interconnected by means of locks placed in the formed niches of the frames , when attached to the aircraft, a detachable part of the aircraft is formed together with it, while the assembly is provided in a single fuselage that performs all the functions of the aircraft, additionally equipped with an emergency rescue system unit. The specified technical solution ensures the use of module containers in aircraft.

A variant of the technical solution is possible, where the wires can be pneumatic or electrical. The specified technical solution provides connection of module-containers.

A variant of the technical solution is possible, where the doors can be loading or landing. The specified technical solution provides passengers boarding and / or cargo loading.

A variant of the technical solution is possible, where when connecting the universal module-containers to the aircraft, it is connected to the onboard pneumatic or electrical system, at the same time voltage or operating pressure is applied to the locks. The specified technical solution ensures the connection of the module-containers to the aircraft.

A variant of the technical solution is possible, where the latches connecting the universal module-containers to each other are made in the form of two cylindrical assemblies according to the principle of “male-female”, mating under the influence of electromagnets or pneumatic cylinders and disconnecting when the operating voltage or pressure is lost automatically under the influence of springs ... The specified technical solution ensures the safety of using the module-containers due to automatic shutdown in case of problems during operation.

A variant of the technical solution is possible, where, in the event of an emergency situation in the air, the pneumatic or power supply is interrupted, the locks are opened, the universal module containers are disconnected from each other and from the aircraft, which leads to the operation of the parachute emergency rescue system. The specified technical solution ensures the safety of using the module-containers due to automatic shutdown in case of problems during operation.

The technical result is the development of a method for using a universal module-container, where the latter contains structurally connected fairings, stringers, frames, characterized in that due to the standard dimensions unified along the plane-helicopter line, the container module within the airfield can be transferred from the aircraft funds in the helicopter. The specified technical solution ensures the versatility of using the container module with a helicopter.

The technical result is the development of a method for using a universal module-container, where the latter contains structurally connected fairings, stringers, frames, characterized in that the module-containers are installed on a truck trailer, on railway platforms and water transport due to standard dimensions. The specified technical solution provides the versatility of using the container module with other modes of transport.

The technical result is the development of a method for using a universal module-container, where the latter contains structurally connected fairings, stringers, frames, characterized in that due to the technological holes in the lower frames, which are made according to the dimensions of the nodes of vertical attachment to the aircraft, it is possible to place the module-containers on top of each other during storage and transportation by other means of transport. The specified technical solution provides the versatility of using several container modules.

Implementation of the technical solution

In the technical solution, the terms used mean the following: Stringers are longitudinal elements of the load-bearing frame in the form of 4 beams - 2 upper ones with attachment points to the aircraft and 2 in the lower part of the module with nodes for connecting containers to each other, rigidly interconnected by frames ...

Frames are transverse elements of the load-bearing frame, forming stiffening ribs, evenly spaced along the entire length and made in a streamlined shape to improve aerodynamic properties.

Fuselage - the body of the aircraft, which connects the wing consoles, empennage and landing gear.

The connection unit between universal modules is a unit for connecting the module-containers to each other in the form of a cylindrical assembly, inside which there are automatic locks-latches.

The technological hole is a hole in the lower stringers corresponding to the dimensions and projection of the attachment points to the aircraft and intended for the above nodes to enter them during the vertical storage of module containers (one on top of the other).

The claimed technical solution is implemented as follows:

The method of attaching universal module containers to aircraft, in particular to an aircraft, is carried out as follows:

Modular containers are being finalized, in which technological holes are installed. The connection to the onboard pneumatic and / or electrical system of the aircraft is carried out to the locks located in the formed niches of the frames, voltage or operating pressure is applied, and the module containers are fastened. The number of container modules is determined by the length of the aircraft with the fuselage removed. As practice shows, airplanes based on the TU-154 with a length of 47 meters use 4 modified container modules, which are interconnected by locking locks made in the form of two cylindrical assemblies according to the "dad-mom" principle, mated under the influence of electromagnets or pneumatic cylinders with using operating voltage or automatic pressure by means of springs.

The connection of the module-containers and the part of the aircraft together forms the detachable part of the aircraft, thus ensuring the completion into a single fuselage that performs all the functions of the aircraft.

In an emergency situation, namely an accident in the air, the pneumatic and / or power supply is cut off, the locks are opened, the module-containers are disconnected from each other and from the aircraft, which leads to the operation of the parachute emergency rescue system, similar to the systems used when landing equipment or descent manned spacecraft.

At the same time, all electrical, pipeline, kinematic and other connections at the points of separation are self-disconnecting and implemented using automatic electrical or pneumatic couplings, slide valves and other valves, which ensures safety during emergency situations.

The connection unit between universal modules is a unit for connecting the module-containers to each other in the form of a cylindrical assembly, inside which there are automatic locks-latches. The clamps are made in the form of retractable teeth, mating with each other under the action of electromagnets or as a result of pneumatic action and fixing retractable spring-loaded rods, having recesses in that part of the unit for connecting the module-containers to each other in the form of a cylindrical assembly, which is located in the front lower part of the next module-container ...

A connection unit between universal modules is a counterpart, which is a part of a unit for connecting module-containers to each other in the form of a cylindrical assembly, inside which there are retractable spring-loaded rods with recesses, into which the clamps of the second part of the connection unit enter.

The dimensions and weight of the module-container are unified and ensure the possibility of transportation by existing types of land and water transport due to standard dimensions equal to the dimensions of a twenty-foot sea container (GOST R 53350-2009 (ISO 668-1995), electronic deposit, Internet source https: // www.seacon.spb.ru/index.php?container_constraction=yes), which is a standardized reusable metal container made in the form of a rectangular shape with reinforcement at the corners by means of longitudinal beams.

The unified dimensions make it possible to transport module-containers both by freight and water transport, in almost the same way as the transportation of twenty-foot sea containers themselves is carried out now.

At the same time, for a series of short-range and medium-range aircraft, there is the possibility of transportation by another type of air transport, for example, along the plane-helicopter line.

The very method of using module-containers allows their operation not only in a working condition suspended from an aircraft, but also in a disconnected position as a ground mobile complex for transporting passengers, moving goods by other modes of transport, as well as placing in it means for various purposes (sanitary and hospital modules, mobile points) for operational deployment if necessary, as well as a means of delivery to the site of ready-made autonomous complexes (boiler rooms, change houses, hydraulic complexes, etc.) due to the universal size.

The claimed technical solution, namely the method of using the module-container, provides constructive versatility, the possibility of connection between each other and the aircraft, the presence of an emergency rescue system for people and cargo in flight in an emergency situation. At the same time, the dimensions correspond to the transport dimensions used by other, except for aviation, modes of transport, which makes it possible to use it on all types of transport, such as rail, water, automobile, aviation, with the possibility of diversification along the helicopter-plane line.

Claims (8)

1. A method of using a universal module-container, including structurally connected fairings, stringers, frames, wires and doors, characterized in that at least two universal module-containers, interconnected by means of locks located in the formed niches of the frames, when attached to the aircraft is formed, together with it, a detachable part of the aircraft, at the same time being manned into a single fuselage performing all the functions of the aircraft, additionally equipped with an emergency rescue system unit. 2. A method according to claim 1, wherein the wires can be pneumatic or electrical. 3. The method according to claim 1, characterized in that the doors can be loading or landing. 4. The method according to claim 1, characterized in that when the universal module containers are connected to the aircraft, they are connected to the onboard pneumatic or electrical system, while voltage or operating pressure is applied to the locks. 5. The method according to claim 1, characterized in that the locking locks connecting the universal module containers to each other are made in the form of two cylindrical assemblies according to the "dad-mom" principle, mated under the influence of electromagnets or pneumatic cylinders and disconnecting when the operating voltage is lost or pressure automatically by the action of the springs. 6. The method according to claim 1, characterized in that in an emergency situation in the air, the pneumatic or power supply stops, the locks open, the universal module containers are disconnected from each other and from the aircraft, which leads to the operation of the parachute emergency rescue system. 7. A method of using a universal module-container, including structurally connected fairings, stringers and frames, characterized in that the module-containers are installed on a freight transport trailer, on railway platforms and water transport due to standard dimensions. 8. A method of use according to claim 7 of a universal container module, including structurally connected fairings, stringers and frames, characterized in that due to the technological holes in the lower frames, which are made according to the dimensions of the vertical attachment points to the aircraft, it is possible to place containers on each friend when storing and transporting by other means of transport.