SU1422099A1 - Bed for dynamic tests of shells - Google Patents

Abstract

The invention relates to a technique for dynamic testing of shells under loading with external (internal) pressure and axial force. The purpose of the invention is to expand the range of the duration of axial loading by reducing the inertia and simplifying the structure. The test shell 2 is attached to the movable 5 and fixed 6 flanges and divides the high pressure chamber 1 into cavities 3 and 4. A sealed cavity 10 is formed between the lid 11 of the chamber and the flange 5. The flange 5 is fitted with a pipe 13 that is tightly passing through the lid 11. In the flange 5 The cavity 12 and the through hole 15, in which the piston 14 is mounted, are open from the flange 6 side. The piston 14 shaft 16 of the piston 14 is connected to a shaft 7 with channels 8 and 9 fixed to the flange 6 along the axis of the chamber 1. cavity 10 flange 5 works as n rshen and compresses the sheath 2. When applying the medium through the pipe 13, the pressure acts on the inner surface of the flange 5 of the cavity, creating a tensile force of the shell. Due to the exclusion from the device for axial loading of the power cylinder, the inertia is reduced and the design of the device is simplified. 1 il. (p cl

Description

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The invention relates to testing equipment, in particular to test stands for HHJJ shells under loading with external (internal) pressure and axial force.

The purpose of the invention is to expand the range of the duration of axial loading by reducing the inertia and simplifying the structure.

iHa the drawing shows the proposed steyd, longitudinal section.

The bench contains a high-pressure chamber 1 | and which is divided by the test equipment 2 into cavities 3 and 4, movable 5 and non-movable 6 flanges for fixing the shell 2 in chamber 1, and. mounted on a fixed flange 6 along the axis of the chamber 1 bar 7 with channels 8 and 9 to communicate the inner cavity 4 of the shell 2 with a pressure source (not shown). The hermetic cavity 10 is formed by the inner surface of the chamber;)) s 1 with a cover 11 and a movable flange 5; The flange 5 is provided with a socket 13 which is hermetically passing through the lash 11 of the chamber 1 with a socket 13, serving as a TYPE to communicate the cavity 12 of the flange 5 with a pressure source of the axial loading device of the casing. The piston 14 is installed in the through hole 15, made in the movable flange 5 from the end facing: to the fixed flange 6 to the cavity 12. W | approx 16 piston 14 hinge m 17 is connected to (rod 7. In chamber 1 and the lid 11, holes 18 and. 19 are provided for communicating cavities 3 and 10, respectively, with pressure sources. The stand also contains sealing seals 20-25, and seals 20 and 21 serve for separating cavities 3 and 4, and sealing 22 for separating cavities 3 and 10, seal 23; to separate cavity 3 from the atmosphere, and seals 24 and 25 to seal tion cavity 10.

The movable flange 5 with the nozzle 13, the piston 14 with the rod 16, the hinge 17, the rod 7, together with the cavities 10 and 12 with the bore 15, form an axial loading device for the shell 2.

The test shell on the stand is as follows.

According to the commands of the control system, the medium is supplied under pressure in cavity 3, or 4, or 10, or 12. The order in which the medium is introduced into the cavity is determined by the combination of loads specified by the control system, based on the goals and objectives of the test. To create a dynamic load when loaded with external pressure, the medium is supplied through openings 18, and the internal pressure through channels 8 and 9. To create a compressive axial force, the medium is fed through a discharge circuit 4422/42

Production.D1.-tve.io-printing company, Uzhgorod, st. Project, 4

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cutting a hole 19 in the cover 11 into the cavity 10, while the flange 5 works like a piston, compressing the shell 2.

To create a tensile axial force, the medium is supplied through the nozzle 13, while the pressure acts on the inner surface of the cavity of the flange 5 and the piston 14 installed in the hole 15, and since the shaft 16 of the shaft 14 is connected to the fixed flange 6, moves the movable flange 5 by stretching the sheath 2. The hinge joint of the shaft 16 with the shaft 7 allows the sheath 2 to deform in the transverse direction.

Making a movable flange with a nozzle and an open cavity and aperture on the side of the fixed flange, installing a piston in the piston bore, making a hinge connection of the piston rod with a rod fixed to the fixed flange, making openings in the cap, and connecting them and the bushing with a power source for axial loading, the range of axial loading durations can be expanded by reducing the inertia and simplifying the structure.

Claims (1)

Invention Formula 0 five 0 A stand for dynamic testing of shells under loading with external (internal) pressure and axial force, containing a pressure source, a high pressure chamber connected to it with a lid, fixed and movable flanges for fastening the test shell in a meter, and the movable flange forms a sealed cavity fixed on a fixed flange along the chamber axis; a rod with channels for communication of the inner cavity of the shell with a pressure source and a device for axial loading of the shell including a pressure source a piston with a rod, characterized in that, in order to expand the range of axial loading time by reducing the inertia and simplify the design, the movable flange is made from a cavity open from the stationary-J-flange and provided with a hermetic passage of the PAIM through the lid of the high-pressure chamber by a nozzle, Serving for the communication of the flange cavity with the pressure source of the device for axial loading of the shell, the piston is installed in the through-m hole made in the movable flange from the end facing the stationary fly But, up to the cavity, the piston rod is pivotally connected to the rod, and in the cover there are channels for communicating the cavity formed by the movable flange and the chamber with the pressure source of the device for axial loading. Circulation 847 Subscription 0 five