RU152816U1 - LATERAL CARTRIDGE FOR ATTACHING THE ROCKET ENGINE - Google Patents

Abstract

A turning chuck for securing, during processing on a machine tool, a rocket engine blank equipped with nozzle bosses and mounting elements, comprising a body with a cylindrical channel in the center and straight cams, characterized in that a bore is made in the cylindrical body of the channel, in which the base is placed in the form of a glass with flanges edges and a threaded hole in the center, in which an adjustable screw is installed on the axis of symmetry - an emphasis, while in the glass to accommodate the installation elements and nozzle bosses of the workpiece for of the actuator are released, and covering sectors made in the form of parts of the ring are rigidly attached to the straight cams, on the inner surfaces of which, in accordance with the angular orientation of the releases, longitudinal grooves are made in the glass, and the releases are separated by a jumper, and rubber is installed in one of them gaskets, and from the end the covering sectors are made with flanges fixing the said workpiece, while on the outside of the covering sectors the stiffeners are rigidly fixed lennye direct cams.

Description

The technical solution relates to the field of tooling on the machines of the turning group with CNC and can be used for turning a rocket engine with fixing it in a turning cartridge of the machine.

Known designs of turning chucks, consisting of a housing and wide cams (see B.C. Korsakov, "Fundamentals of the design of devices", a textbook for universities, M, "Engineering", 1983, p. 37, Fig. 176) - prototype.

The disadvantage of these designs of cartridges is that the cams have insufficient reach to secure long thin-walled blanks. At the same time, the required processing accuracy is not ensured, since the cams of the cartridge have an insufficient angle of coverage of thin-walled workpieces, which leads to the concentration of the clamping force along the periphery of the base cylindrical surface of the workpiece of the rocket engine in contact with the cams. In this case, deformations arise, leading to the formation of a shape error in the cross section of the rocket engine blank. The magnitude of the shape error in the cross section increases after the detachment of the part from the three-jaw chuck after turning operations due to elastic recovery. Such a defect affects all diametric dimensions and, especially, the thread. As a result of this, there are local exits of the required diametrical dimensions outside the tolerance field. Moreover, the percentage of rejects after processing the blanks of a rocket engine can be up to 40%.

In addition, the rocket engine has a number of design features, for which it is necessary to modify the cartridge to ensure its proper installation and fastening.

The technical task is to secure the rocket engine blank (with design features on the convex spherical cylindrical part in the form of nozzle bosses and mounting elements larger than the diameter of its cylindrical part) in a turning chuck for machining while ensuring the required accuracy of the resulting product by minimizing the size of the cross-sectional shape error , by uniformly distributing the applied force over the entire periphery of the base cylindrical surface of the thin-walled oh workpiece.

The solution of the technical problem is achieved by the fact that the lathe chuck for fixing the rocket engine in the machine, containing a body with a cylindrical channel in the center and straight cams, while in the cylindrical channel there is a bore in which the base is placed, made in the form of a glass with flanged edges with threaded a hole in the center into which an adjustable screw is mounted on the axis of symmetry is an emphasis, and releases are made to direct cams to accommodate the mounting elements and nozzle bosses of the engine in the glass the female sectors made in the form of a part of the ring are firmly attached, longitudinal grooves are made on the inner surfaces of the rings, placed in accordance with the angular orientation of the releases in the cup, and the releases are separated by a jumper, one of which has rubber gaskets, while the ends of the female sectors are made the flanges securing the rocket engine, and stiffeners mounted on straight cams are rigidly fixed on the outside of the covering sectors.

In FIG. 1 shows a front view of a cartridge.

In FIG. 2 shows an isometric cartridge.

In FIG. 3 shows a base mounted in a bore in a cylindrical channel of a cartridge case.

In FIG. 4 is a perspective view of a rocket engine blank.

The turning cartridge for securing the rocket engine in it contains a housing 1 in which a glass 3 and an adjustable stop screw 4 are installed, as well as straight cams 2, to which the covering sectors 5 are rigidly connected, in which grooves 6, 7 and release 8 with rubber are made gaskets 9, and on the outside, rigid ribs 11 are mounted rigidly, which are mounted on straight cams 2.

The cartridge for securing the rocket engine works as follows: covering sectors 5, stiffeners 11 are welded in the assembly state and are fixed on straight cams 2, which, in turn, are installed in the standard way into the housing 1. The blank of the rocket engine is directed by a convex spherical-cylindrical part between the covering sectors 5 to the adjustable screw stop 4, having previously oriented the nozzle bosses 12 and the mounting elements 13 of the rocket engine blank into sectors 5 through grooves 6 and 7. After that, fixing flanges 10, it is fixed to the base diameter 14, which is made in the middle of the tolerance field. The installed rubber gasket 9 covers the workpiece of the rocket engine and further orientates its position relative to the axis of rotation. Such a rubber gasket 9 reduces the risk of vibration during processing of a rocket engine blank.

Also, as a result of the increased girth by the cams 2 due to the covering sectors 5 attached to them, in contact with the base diameter of the workpiece, the fixing force is evenly distributed over the entire periphery of the base cylindrical surface of the workpiece.

The technical solution makes it possible to fix a blank of a rocket engine for machining in the turning cartridge, which has design features in the form of nozzle bosses and mounting elements on the body larger than its diameter and to ensure the accuracy of the processed product based on minimizing elastic deformations during turning.

Claims (1)

A turning chuck for securing, during processing on a machine tool, a rocket engine blank equipped with nozzle bosses and mounting elements, comprising a body with a cylindrical channel in the center and straight cams, characterized in that a bore is made in the cylindrical body of the channel, in which the base is placed in the form of a glass with flanges edges and a threaded hole in the center, in which an adjustable screw is installed on the axis of symmetry - an emphasis, while in the glass to accommodate the installation elements and nozzle bosses of the workpiece Ateliers are made releases, and covering sectors made in the form of ring parts are rigidly attached to straight cams, on the inner surfaces of which, in accordance with the angular orientation of the releases, longitudinal grooves are made in the glass, and the releases are separated by a jumper, and rubber is installed in one of them gaskets, and from the end the covering sectors are made with flanges securing the said workpiece, while stiffening ribs are rigidly fixed on the outside of the covering sectors, installed s direct cams.

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