RU129438U1 - PRECISION TURNING AND GRINDING MACHINE FOR PROCESSING SPHERES OF LOCKING EQUIPMENT OF PRODUCT WIRES - Google Patents

Abstract

1. A precision turning and grinding machine for processing spheres of locking equipment, comprising a bed, a headstock, a carriage, a tailstock, a cutting head and a grinding head, the headstock being mounted on the bed, comprising a spindle and a spindle rotation drive, the bed is provided with longitudinal guides, the carriage installed with the ability to move along the longitudinal guides of the frame and is equipped with a drive of longitudinal movements, the tailstock is installed with the ability to move along the longitudinal guides of the frame, and in the housing of the grinding head has a cylindrical hole in which the spindle of the grinding head is mounted, characterized in that the transverse guides are fixed to the carriage, the machine is equipped with transverse slides mounted for movement along the transverse guides of the carriage and provided with a lateral movement drive, the cutting and grinding heads are oppositely mounted on cross rails on different sides of the axis of the centers of the machine, and the axis of rotation of the spindle of the grinding head is perpendicular to the axis spindle head spindle rotation and is located with it in the same horizontal plane, a nozzle for grinding spherical surfaces is fixed at the end of the spindle of the grinding head, a sleeve is installed in the cylindrical hole of the grinding head housing, the spindle of the grinding head is mounted in the sleeve with rotation and eccentricity relative to the axis of the outer cylindrical the surface of the sleeve, and the grinding head is equipped with a mechanism for turning the sleeve relative to the axis of the cylindrical hole in the housing

Description

The utility model relates to machine tool construction, and in particular to machines for turning and grinding the outer spheres of locking equipment for product pipelines.

Known spherical machine tool containing a bed, a headstock, a tailstock, a cutting head and a grinding head, the spindle head mounted on the bed, contains a spindle and a spindle rotation drive, the bed is provided with longitudinal guides, and the tail head is mounted to move along the longitudinal guides of the bed [ RF patent for utility model No. 45660, V23V 5/40, Spherical processing machine / Kurochkin K.A. and others, No. 2004128140, publ. May 27, 2005].

In this machine, the bed is equipped with two additional guides parallel to its longitudinal guides. On these additional guides are installed nodes of turning and milling-grinding processing, which can move independently of each other. The turning unit includes a carriage mounted for movement along additional bed guides and equipped with an appropriate drive. Transverse guides are fixed on the carriage, on which transverse rails are mounted with the possibility of movement, provided with an appropriate drive. A multi-cutter turret is mounted on the transverse slide. Accordingly, the milling-grinding processing unit contains its own carriage, mounted with the possibility of movement along the additional guides of the bed and equipped with an appropriate drive. The transverse guides are also fixed on this carriage, on which the transverse slide, equipped with an appropriate drive, is mounted for movement. A milling and grinding head is fixed to these transverse slides.

The presence of two carriages, each of which is equipped with its own drive of longitudinal displacements, as well as the presence of two transverse slides equipped with its own drives of transverse displacements, significantly complicates the design of the machine. For the arrangement of additional guides, the width of the bed is more than doubled, which significantly increases the metal consumption of the machine and its dimensions.

A well-known turning and grinding machine for processing spheres, comprising a bed, a headstock, a carriage, a tailstock, a cutting head and a grinding head, the spindle head mounted on the bed, contains a spindle and a spindle rotation drive, the bed is provided with longitudinal guides, the carriage is mounted for movement along the longitudinal guides of the bed, equipped with a drive of longitudinal displacements, the tailstock is mounted to move along the longitudinal guides of the bed, and in the housing of the grinding head a cylindrical hole is made in which the spindle of the grinding head is installed [RF Patent for Utility Model No. 48488, V23V 5/40, Spherical Processing Machine / Kurochkin K.A. and others, No. 2005107236, publ. 10.27.2005] - a prototype.

In this machine, the axis of rotation of the spindle of the grinding head is parallel to the axis of rotation of the spindle of the headstock and grinding of the spherical surface is carried out by the periphery of the grinding wheel mounted on the spindle of the grinding head. During processing, the grinding head is moved in a circle around an axis passing through the center of the sphere. To do this, a rotary table is mounted on the carriage, equipped with a drive for turning it. Transverse guides are fixed on the rotary table, on which two technological racks are installed with the possibility of movement, each of which is equipped with an appropriate drive. A cutter head is fixed on one rack, and a grinding head on the other. Moving the technological racks along the transverse guides, the cutter and grinding heads are set to the desired position depending on the diameter of the spherical surface being machined. The height of the grinding head is set using a gasket placed under the head body. This does not allow to establish with high accuracy the axis of the spindle of the grinding head in the same horizontal plane with the axis of the centers of the machine. The consequence of this is the low accuracy of the machined spherical surfaces.

The presence of a rotary table with its rotation drive and two technological racks with drives for their movement complicates the design of the machine.

The proposed utility model is aimed at improving the accuracy of processing of spherical surfaces and simplifying the design of the machine.

To solve this problem, in a machine containing a bed, a headstock, a carriage, a tailstock, a cutting head and a grinding head, the headstock is mounted on the bed, contains a spindle and a spindle rotation drive, the bed is provided with longitudinal guides, the carriage is mounted to move along the longitudinal bed guide and is equipped with a drive of longitudinal displacements, the tailstock is mounted with the possibility of movement along the longitudinal guides of the bed, in the case of the grinding head is made cylindrical e hole in which the spindle of the grinding head is installed, according to a utility model, the transverse guides are fixed on the carriage, the machine is equipped with transverse slides mounted to move along the transverse guides of the carriage and provided with a drive of lateral movements, the cutting and grinding heads are oppositely mounted on the transverse rails on different sides from the axis of the centers of the machine, and the axis of rotation of the spindle of the grinding head is perpendicular to the axis of rotation of the spindle of the headstock and located and with it in the same horizontal plane, at the end of the spindle head is fixed grinding head for grinding of spherical surfaces. A sleeve is installed in the cylindrical hole of the body of the grinding head. The spindle of the grinding head is mounted in the sleeve rotatably and with eccentricity relative to the axis of the outer cylindrical surface of the sleeve, and the grinding head is equipped with a mechanism for turning the sleeve relative to the axis of the cylindrical hole in the housing and means for fixing the sleeve against rotation.

To facilitate rotation of the sleeve, one of the walls of the grinding head housing is cut in the radial direction, and the means for fixing the sleeve from rotation are made in the form of tangentially located screws connecting parts of the cut wall of the grinding head housing.

To reduce the size of the grinding head, its spindle can be made in the form of an electrospindle with a built-in electric motor.

The proposed utility model is illustrated by drawings. Figure 1 shows the proposed machine, front view; figure 2 is a top view of the machine; figure 3 is a right view of the machine; figure 4 is a section aa in figure 1; figure 5 shows the grinding head, side view; in Fig.6 is a view of B in Fig.5.

A precision turning and grinding machine for processing spheres of product piping locking equipment comprises a frame 1, a headstock 2, a carriage 3, a cross slide 4, a tailstock 5, a cutting head 6 and a grinding head 7. The headstock is mounted on a bed, contains a spindle 8 and a spindle rotation drive 9. Rotation to the workpiece 10 is transmitted using a drive device 11 mounted on the spindle 8. The bed is provided with longitudinal guides 12, 13 along which the carriage provided with the appropriate drive moves. The drive of the longitudinal movements of the carriage comprises an electric motor 14 with a gearbox and a screw-nut transmission, the screw 15 of which is rotatably mounted in the bed, and the nut 16 is mounted on the carriage. Transverse guides 17, 18 are fixed on top of the carriage, along which the transverse slide 4, equipped with an appropriate drive, moves. The drive of the transverse movements of the slide contains an electric motor 19 with a gearbox and a screw-nut transmission, the screw of which is mounted in the carriage for rotation, and the nut is mounted on the slide. The cutting and grinding heads are mounted opposite on the transverse slide on opposite sides of the axis of the machine centers.

A cylindrical hole is made in the housing of the grinding head, in which the sleeve 20 is mounted. The spindle 21 of the grinding head is mounted in the sleeve with the possibility of rotation and with eccentricity relative to the axis of the outer cylindrical surface of the sleeve. The axis of rotation of the spindle of the grinding head is perpendicular to the axis of rotation of the spindle 8 of the headstock. At the end of the spindle 21 of the grinding head, a setting 22 is fixed for grinding spherical surfaces. The setup includes a housing 23, in which the grinding bars are fixed 24. To install the axis of the spindle 21 in the same horizontal plane with the axis of the centers of the machine, the grinding head is equipped with a mechanism for turning the sleeve relative to the axis of the cylindrical hole in the housing. This mechanism comprises a gear gear 25 engaged with a gear wheel 26 mounted on the sleeve 20. When the sleeve is rotated, the grinding head spindle moves in the vertical direction due to its eccentric arrangement with respect to the axis of the sleeve. To facilitate the rotation of the sleeve, the upper wall of the housing of the grinding head is cut in the radial direction. The sleeve is fixed from turning with the help of tangentially located screws 27 connecting the parts of the cut wall of the housing. Screws 28 are used to expand the housing.

To reduce the size of the grinding head, its spindle can be made in the form of an electrospindle with a built-in electric motor.

The tailstock is mounted to move along the longitudinal guides of the bed.

The machine operates as follows. Using the pads, set the cutting and grinding heads in height so that the tops of the cutters of the cutting head and the axis C of the grinding head spindle are in the same horizontal plane with the axis of the machine centers. The spindle of the grinding head is additionally set in height with an accuracy of several microns using the sleeve rotation mechanism. To do this, loosen the screws 27, and, turning the screws 28, increase the gap between the parts of the cut wall of the grinding head housing. Rotating gear 25 turn the sleeve in one direction or another. In this case, the spindle 21 of the grinding head moves up or down. After aligning the spindle axis C with the horizontal plane in which the axis of the machine centers is located, the screws 28 are loosened and the screws 27 are tightened by clamping the sleeve 20 in the cylindrical hole of the grinding head body.

The workpiece is installed in the leash device 29 and tighten the center of the tailstock. They make parts rotate using a spindle rotation drive. Moving the carriage in the longitudinal direction, and the slide in the transverse direction, bring the cutting head 6 to the workpiece, and then turn the cylindrical and end surfaces of the trunnions of the workpiece. Due to the simultaneous movement of the carriage and the slide on commands from the CNC system of the machine, the cutter is moved along an arc of a circle, due to which the spherical surface of the part is turned.

To grind a spherical surface, the carriage is set in a position in which the axis C of the spindle of the grinding head is located on a straight line passing through the center of the sphere. Moving the transverse slide 4, bring the grinding adjustment 22 to the machined spherical surface. Due to the simultaneous rotation of the workpiece 10 and the spindle 21 of the grinding head, grinding of a spherical surface is performed.

Claims (3)

1. A precision turning and grinding machine for processing spheres of locking equipment, comprising a bed, a headstock, a carriage, a tailstock, a cutting head and a grinding head, the headstock being mounted on the bed, comprising a spindle and a spindle rotation drive, the bed is provided with longitudinal guides, the carriage installed with the ability to move along the longitudinal guides of the frame and is equipped with a drive of longitudinal movements, the tailstock is installed with the ability to move along the longitudinal guides of the frame, and in the housing of the grinding head has a cylindrical hole in which the spindle of the grinding head is mounted, characterized in that the transverse guides are fixed to the carriage, the machine is equipped with transverse slides mounted for movement along the transverse guides of the carriage and provided with a lateral movement drive, the cutting and grinding heads are oppositely mounted on cross rails on different sides of the axis of the centers of the machine, and the axis of rotation of the spindle of the grinding head is perpendicular to the axis the spindle head spindle rotation and is located with it in the same horizontal plane, a nozzle for grinding spherical surfaces is fixed at the end of the spindle of the grinding head, a sleeve is installed in the cylindrical hole of the grinding head housing, the grinding head spindle is mounted in the sleeve with rotation and eccentricity relative to the axis of the outer cylindrical the surface of the sleeve, and the grinding head is equipped with a mechanism for turning the sleeve relative to the axis of the cylindrical hole in the housing means of fixing the sleeve against rotation. 2. The machine according to claim 1, characterized in that one of the walls of the body of the grinding head is cut in the radial direction, and the means for fixing the sleeve against rotation are made in the form of tangentially located screws connecting parts of the cut wall of the body of the grinding head. 3. The machine according to claim 1, characterized in that the spindle of the grinding head is made in the form of an electrospindle with a built-in electric motor.

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