RU2738119C1 - Device for fixation of rocket engine housing with curvilinear bottom - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to the field of lathe processing and can be used as a tooling for securing the workpiece of the rocket engine body with a curvilinear bottom having a hole in the center on the lathe during its processing. Device comprises annular sectors configured to rigidly attach to the chuck jaws of lathe and contact with the inner cylindrical surface of the treated body when the jaws are released, wherein it is equipped with a mandrel consisting of base and pipe, and fixed in tube hole by one end stepped shaft, on the other end of which there is a stop with a sharpened annular projection, made with possibility of resting against the concaved profile of the inner surface of the bottom of the above housing, wherein said base is configured to be installed in central channel of chuck. Versions of the mandrel and the anvil are different.

EFFECT: use of the invention increases accuracy of location when fixing a workpiece of the housing on the machine and accordingly increases accuracy of its processing.

4 cl, 16 dwg

Description

The invention relates to the field of technological equipment on lathes and can be used for turning a rocket engine with fixing it on a lathe.

Known designs of lathe chucks, consisting of a body and wide cams (see B.C. Korsakov, "Basics of designing devices", a textbook for universities, M., "Mechanical Engineering", 1983, p. 37, Fig. 17b) - a prototype.

The disadvantage of these cartridge designs is the impossibility of using cams for fixing and for basing rocket engine casings, in which the technological bases are indicated in the inner cavity on a curved bottom with a through hole or attachment surfaces.

In addition, the required processing accuracy is not ensured, since the chuck jaws have insufficient overhang to secure long thin-walled workpieces. At the same time, the required processing accuracy is not ensured, since the chuck jaws 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 rocket engine body workpiece at the points of contact with the jaws. In this case, deformations occur, leading to the formation of an error in the shape in the cross section of the blank of the rocket engine body. The size of the shape error in the cross-section increases after the part from the three-jaw chuck is unfastened after the turning operation due to elastic recovery. This defect affects all diametric dimensions and, especially, profile grooves and threads. As a result, local exits of the required diametrical dimensions outside the tolerance range are observed. In this case, the percentage of scrap after processing blanks of rocket engine casings can be significant.

Rocket engine housings have a number of design features, for which it is necessary to modify the cartridge to ensure its correct installation and fastening. Based on the peculiarities of the dimensional chains, the linear dimensions are set from the bottom of the concave shape at a certain diameter of its narrowing or expansion, as well as on adjacent surfaces, including conical ones. Consequently, these planes are technological bases for machining and the blank of the rocket engine body must be based on the theoretically manufactured template. In the technology of mechanical engineering, there are a number of parts of complex configuration, which have curved surfaces in their composition, which must be based at certain points.

The technical task is to fix the blank of the rocket engine body on a lathe for machining while ensuring the required precision of machining of the resulting product due to precise positioning and minimizing the error in the cross-sectional shape by uniformly distributing the applied force along the entire periphery of the base cylindrical surface of the thin-walled blank of the rocket body. engine.

Options for solving a technical problem:

1. The solution to the technical problem is achieved by the fact that a device for fixing a rocket motor housing with a curved bottom having a hole in the center on a lathe during machining, containing annular sectors made with the possibility of rigid attachment to the jaws of the chuck of the said machine and contacting with the inner cylindrical surface of the said body when the cams are unclenched, the said device is equipped with a mandrel consisting of a base and a pipe, and a stepped shaft fixed in the pipe hole with one end, on the other end of which there is a stop with a pointed annular protrusion made with the possibility of abutting against the concave profile of the inner the surface of the bottom of the said housing, while the said base is made with the possibility of installation in the central channel of the chuck of the machine.

2. The solution to the technical problem posed is achieved by the fact that a device for fixing a rocket engine body with a curved bottom having a hole in the center on a lathe during machining, containing annular sectors made with the possibility of rigid attachment to the jaws of the chuck of the said machine and contacting with the inner cylindrical surface of the said body when the cams are unclenched, the said device is equipped with a mandrel with a tapered base, which is configured to be installed in the central channel of the chuck of the machine, and a shaft, with one end fixed in the hole made in the center of the mandrel, while the other end of the shaft is made a hole in which an abutment is installed with a pointed annular protrusion made with the possibility of abutting against the concave profile of the inner surface of the bottom of the said body.

3. The solution to the technical problem posed is achieved by the fact that a device for fixing a rocket motor housing with a curved bottom having a hole in the center on a lathe during machining, containing annular sectors made with the possibility of rigid attachment to the jaws of the chuck of the said machine and contacting with the inner cylindrical surface of the said body when the cams are unclenched, the said device is equipped with a mandrel having a tapered base and made integral with the shaft, at the end of which there is a cylindrical protrusion with a stop in the form of a disk, made with the possibility of abutting against the inner surface of the bottom of the said body, while the said tapered the base is made with the possibility of installation in the central channel of the chuck of the machine.

Also, the said device according to any of the variants is provided with a center made in the form of a body of revolution with a conical surface with the possibility of fixing in the tailstock of the said machine and fixing the said body through a hole in its bottom.

FIG. 1 shows the housings of rocket engines.

Figures of the variant according to independent claim 1 of the claims:

FIG. 2 shows a perspective view of a lathe chuck with an emphasis without the blank of the rocket engine body.

FIG. 3 shows a perspective view of a lathe chuck with an emphasis without the blank of the rocket motor housing.

FIG. 4 shows a perspective view of a lathe chuck with an emphasis without a blank of the rocket motor housing.

FIG. 5 is an isometric view of a lathe chuck with an emphasis without a rocket motor housing blank.

FIG. 6 is a perspective view of a lathe chuck with a fixed rocket motor housing blank.

FIG. 7 shows a perspective view of a lathe chuck with a fixed rocket motor housing blank.

FIG. 8 is a perspective view of a lathe chuck with a rocket motor housing blank fixed to its center in the tailstock.

FIG. 9 shows a sectional view of a rocket motor housing blank installed and fixed in a lathe chuck and in the center of the tailstock.

FIG. 10 shows a cross-sectional view of a rocket motor housing blank with an abutment.

Figures of the variant according to independent claim 2 of the claims:

FIG. 11 shows a perspective view of a lathe chuck with an emphasis without a blank of the rocket motor housing.

FIG. 12 shows a sectional view of a rocket motor housing blank installed and fixed in a lathe chuck.

Figures of the variant according to independent claim 3 of the claims:

FIG. 13 is a perspective view of a lathe chuck with a disc without a rocket motor housing blank.

FIG. 14 shows a cross-sectional view of a rocket motor housing blank installed and fixed in a lathe chuck.

FIG. 15 shows a cross-section of a rocket motor housing blank installed and fixed in a lathe chuck fixed by the center of the tailstock.

FIG. 16 shows a sectional view of a blank rocket engine housing with a disk stop.

The fixing device on the lathe of the rocket engine body with a curved bottom with a hole in the center contains a mandrel installed in the central channel 4 of the cartridge 1, which consists of a base 5 and a pipe 6, into the end of which a stepped shaft 7 with a step and a thread is installed, from the other end, a stop 8 is installed, fixed by a nut screwed onto the threaded end of the shaft 7, the annular end of the stop, abutting against the curved bottom of the rocket engine housing 9, and also cams 2 installed in the standard way in the cartridge 1, with which sectors 10 are rigidly connected, in addition, the front part of the rocket engine body is fixed, fixed in the tailstock 3 by the center 12.

The fixing device on the lathe of a rocket motor body with a curved bottom with a hole in the center works as follows: sectors 10 are rigidly connected in the assembly state and fixed on cams 2, which, in turn, are installed in a standard way in chuck 1. To start work, the blank of the rocket engine body 9 with the inner cavity is directed to the stop 8 fixed on the shaft 7 and the pipe 6 through the base of the mandrel 5. Sectors 10 at this moment are in a reduced state and enter freely into the inner cavity of the blank of the rocket engine body 9 until the annular end of the stop 8 contacts the concave surface at the bottom blanks. The stop 8 locates an annular protrusion inside the edges of the hole 11. This should ensure a free state between the blank end of the rocket engine body 9 and the sectors 10. Then the blank is finally fixed in the cartridge 1, unclamping the sector 10. After that, the blank is machined.

Also, the body of the rocket engine 9 through the hole 11 is fixed by the center 12, fixed in the tailstock 3, made in the form of a body of revolution with a tapered surface.

An emphasis in the form of a pointed annular protrusion solves the problem of basing. The technological base is located on the curved surface of the bottom of the rocket engine body. Due to its curvilinearity, this base is specified through the diameter along the circle line. To base, you need to create a plane that is created through the lines of the circle. The position of the workpiece with this positioning on the stop will be stable. The pointed stop follows the contour of the technological base as much as possible. The more accurate the match, the more accurate the rocket motor case will be.

Also, as a result of the increased grip by the cams 2 due to the sectors 10 attached to them, upon contact with the base diameter of the blank of the rocket engine body 9, the fastening force is evenly distributed over the entire periphery of the base cylindrical surface of the blank.

Option. A fixation device on a lathe of a rocket engine body with a curved bottom with a hole in the center including a conical mandrel 13 installed in the central channel 4 of the cartridge 1, in the center of which there is a hole in which the shaft 14 is fixed, from the other end of the shaft there is a hole with it is a stop 15 with a sharpened annular protrusion abutting against the concave profile of the inner surface of the bottom of the rocket engine housing 16, in addition, sectors 17 are rigidly attached to the cams 2, made in the form of a part of a ring with an outer cylindrical surface, in addition, the front part of the rocket engine housing is fixed, fixed in tailstock 3 by center 12.

The fixation device on the lathe of the rocket engine body with a curved bottom with a hole in the center works as follows: sectors 17 are rigidly connected in the assembly state and fixed on the cams 2, which in turn are installed in the standard way in the chuck 1. To start work, the blank of the rocket engine body 16 is guided by the inner cavity to the stop 15 fixed on the shaft 14 in the mandrel 13 with a tapered base. Sectors 17 at this moment are in a reduced state and freely enter the inner cavity of the blank of the rocket engine 18 until the annular protrusions of the stop 15 contact the concave surface at the bottom of the blank. The stop 15 is placed inside the irregularities on the edges of the hole 18. A free state should also be ensured between the end of the blank of the rocket engine body 16 of the sectors 17. Then the blank is finally fixed in the lathe chuck 1, unclamping the sectors 17. After that, the blank is machined.

Also, the body of the rocket engine 9 through the hole 11 is fixed by the center 12, fixed in the tailstock 3, made in the form of a body of revolution with a tapered surface.

As a result of the increased grip by the cams 2 due to the sectors 17 attached to them, upon contact with the base diameter of the rocket engine body blank, the fastening force is evenly distributed over the entire periphery of the base cylindrical surface of the blank.

An emphasis in the form of a pointed annular protrusion solves the problem of basing. The technological base is located on the curved surface of the bottom of the rocket engine body. Due to its curvilinearity, this base is specified through the diameter along the circle line. For basing, you need to create a plane that is created through the circle line. The position of the workpiece with this positioning on the stop will be stable. The pointed stop follows the contour of the technological base as much as possible. The more accurate the match, the more accurate the rocket motor case will be.

Option. A fixation device on a lathe of a rocket engine body with a curved bottom with a hole in the center including a conical mandrel 19, installed in the central channel 4 of the cartridge 1 and made integral with the shaft, at the end of which a cylindrical protrusion is made, on which the stop in the form of a disk 20 is fixed, abutting with its profile against the inner surface adjacent to the bottom of the rocket engine body 16, in addition, sectors 21 are rigidly attached to the cams 2, made in the form of a part of a ring with an outer cylindrical surface, and the front part of the rocket engine body is fixed, fixed in the tailstock 3 by the center 12 ...

The fixing device on the lathe of the rocket engine body with a curved bottom with a hole in the center works as follows: sectors 21 are rigidly connected in the assembly state and fixed on cams 2, which, in turn, are installed in a standard way in chuck 1. To start work, the blank of the rocket engine body 16 by the inner cavity is directed to the disk stop 20 fixed on the shaft that passes into the mandrel 19. Sectors 21 at this moment are in a collapsed state and enter freely into the inner cavity of the blank of the rocket engine body 16 until the disk stop 20 contacts the adjacent surfaces of the curved bottom of the blank of the rocket engine body 16. In this case, a free state should be ensured between the end face of the blank of the rocket engine body 16 of the sectors 21. Then the blank is finally fixed in the lathe chuck 1, unclamping the sectors 21. After that, the blank is machined.

Also, the body of the rocket engine 16 through the hole 18 is fixed by the center 12, fixed in the tailstock 3, made in the form of a body of revolution with a tapered surface.

The technological base is built through a circle line along the adjacent surface to the bottom of the rocket engine body. The edges of the disc are able to ensure contact of the stop with the technological base, which significantly reduces the positioning errors. The disc connects to the shaft through a center hole. In this case, the shaft is made integral with the base of the tapered mandrel, due to the simplified design. This design will allow performing the function of a stop, while it is technologically advanced with sufficient manufacturing accuracy.

As a result of the increased grip by the cams 2 due to the sectors 21 attached to them, upon contact with the base diameter of the rocket engine body blank, the fastening force is evenly distributed over the entire periphery of the base cylindrical surface of the blank.

The invention allows to fix the blank of the rocket engine body on a lathe for machining while ensuring the required processing accuracy of the resulting product, which has design features in the form of placing design and technological bases on a curved bottom with a hole or adjacent surfaces of the inner cavity of the blank, also taking into account its length and the presence of mounting elements on the body, as well as ensuring the accuracy of the processed products based on minimizing elastic deformations during turning.

Claims (4)

1. A device for fixing a rocket engine body with a curved bottom having a hole in the center on a lathe during machining, containing annular sectors made with the possibility of rigid attachment to the jaws of the chuck of the said machine and contacting the inner cylindrical surface of the said body when the jaws are unclenched characterized in that it is equipped with a mandrel, consisting of a base and a pipe, and a stepped shaft fixed in the pipe hole with one end, on the other end of which there is a stop with a pointed annular protrusion made with the possibility of abutting against the concave profile of the inner surface of the bottom of the said body, wherein said base is designed to be installed in the central channel of the chuck of the machine tool. 2. A device for fixing a rocket motor housing with a curved bottom having a hole in the center on a lathe during machining, containing annular sectors made with the possibility of rigid attachment to the jaws of the chuck of the said machine and contacting the inner cylindrical surface of the said housing when the cams are unclenched , characterized in that it is equipped with a mandrel with a tapered base, which is configured to be installed in the central channel of the chuck of the machine, and with a shaft, one end fixed in a hole made in the center of the mandrel, while on the other end of the shaft there is a hole in which an abutment with a pointed annular protrusion made with the possibility of abutting against the concave profile of the inner surface of the bottom of said body. 3. A device for fixing a rocket engine body with a curved bottom having a hole in the center on a lathe during machining, containing annular sectors made with the possibility of rigid attachment to the jaws of the chuck of the said machine and contacting the inner cylindrical surface of the said body when the jaws are unclenched , characterized in that it is equipped with a mandrel having a tapered base and made integral with a shaft, at the end of which there is a cylindrical protrusion with a stop in the form of a disk, made with the possibility of abutting against the inner surface of the bottom of said housing, while said conical base is made with the possibility of installation in the central channel of the machine chuck. 4. Device according to any one of paragraphs. 1-3, characterized in that it is provided with a center made in the form of a body of revolution with a conical surface with the possibility of fixing in the tailstock of the said machine and fixing the said body through a hole in its bottom.

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