RU2699968C2 - Method of disc-shaped aeronautical vacuum device arrangement - Google Patents

Abstract

FIELD: aviation.SUBSTANCE: invention relates to balloons. Method of assembling a balloon-shaped vacuum device of disk-like shape consists in separation of a multi-layer winding with a carbon fibre thread and a polymer binder of a sealed and evacuated housing into sections which are made separately. Central section is made in the form of a hollow sphere or a hollow cylinder and is located inside one or several hollow tori or belts around the central section with formation of the general disk-shaped structure.EFFECT: invention is aimed at simplifying the design of the apparatus.1 cl, 1 dwg

Description

The layout method of a disk-shaped aeronautical vacuum apparatus according to the International Patent Classification (IPC) as amended in 2016 (2016.01) relates to Section F - mechanical engineering, where in class F16 - machine components and parts and in subclass F16S - prefabricated structures, it can be attributed to group F16S 3/00 - having an elongated shape, and in group F16S 3/04 - designed for mounting in various positions.

A known analogue of the method of assembling the airship (RF Patent No. 2042573, IPC 6 B64B 1/00, op. 27.08.1995). It includes the connection of the shells pumped by the vacuum pump to each other by a wing.

The presence of the wing here unnecessarily complicates the design of this balloon

There is another analogue of the method of assembling the airship (RF Patent No. 2372247, IPC B64B 1/24 (2006.01), op. 10.11.2009). It also includes the creation of a design of a vacuum metal housing made of light metal with removable gas, rudders, nacelles (cabs) and propulsors.

But here, too, the case with the lifting gas is heavier, as made of relatively light but metal.

A known prototype of the layout of the aeronautical vacuum apparatus (RF Patent No. 159725, IPC B64B 1/08 (2006.01), op.20.02.2016). It consists in the separation of a multilayer wound carbon fiber thread with a polymer binder of a sealed and evacuated housing into sections.

The disadvantage of the prototype is that although the sections are formed by disk partitions made of carbon fiber material applied to the gratings from intersecting rods, which provides a lighter apparatus design, but this complicates and increases the cost of the process of ensuring the tightness of the case, especially disk-shaped, due to complex geometry of partitions.

A new method for arranging a disk-shaped aeronautical vacuum apparatus, like the prototype, consists in separating a multilayer wound carbon fiber thread with a polymer binder of a sealed and evacuated body into sections.

What is new in it is that the sections are manufactured separately: the central section is made in the form of a hollow sphere or a hollow cylinder and is placed inside one or more hollow tori or belts around the central section, with the formation of a general disc-shaped structure.

The technical result of a new method for assembling an aeronautical vacuum apparatus is to simplify and cheapen the design of the entire apparatus due to the separate manufacture of sections.

The figure schematically shows a side view in section, manufactured by a new patented method of layout, balloon-shaped aeronautical vacuum apparatus.

Shown here are a disk-shaped housing 1 of sections connected to one or more vacuum pumps 2. The sections are made separately in the form of a hollow sphere (or hollow cylinder) 3 and hollow tori (or hollow belts) 4 arranged (assembled) around, which simplifies and reduces the cost of manufacturing a balloon-shaped aeronautical vacuum apparatus.

Hollow tori (or hollow belts) 4 are placed around a hollow ball (hollow cylinder) 3 with the formation of a disk-shaped design. Vacuum pumps 2 pump air from the hollow ball 3 and hollow tori 4, due to which they create the lifting force of a balloon-shaped aeronautical vacuum apparatus.

A new method for arranging a disk-shaped aeronautical vacuum apparatus is industrially applicable, because all the manufacturing processes of parts, assemblies and parts, as well as their assembly are known, except for the new layout, and are feasible in the factory. But it is feasible with an appropriate sequence of known actions.

Claims (1)

A method of arranging a disk-shaped aeronautical vacuum apparatus, which consists in separating a multilayer-wound carbon fiber thread with a polymer binder of a sealed and evacuated housing into sections, characterized in that the sections are manufactured separately: the central section is made in the form of a hollow sphere or hollow cylinder and is placed inside one or more hollow tori or belts around the central section with the formation of a general disc-shaped structure.

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