RU198659U1 - Spindle assembly of a metal-cutting lathe - Google Patents

Abstract

The utility model relates to the field of metal-cutting machine tools. The spindle assembly of a metal-cutting lathe contains a spindle having a longitudinal axis, a headstock made with the possibility of mounting on the base plane of the bed, and the first and second supports made with the possibility of adjusting and fixing the position of the said spindle relative to the headstock. Each support includes a ring made with the possibility of detachable connection with the headstock and a bushing made with the possibility of mounting a bearing and a detachable connection with the ring. The ends of the ring and the sleeve are mated on a spherical surface. The useful model is aimed at improving the accuracy of the location of the longitudinal symmetry axis of the spindle relative to the base plane of the bed by adjusting the first and second headstock supports along the mating spherical surfaces. 1 ill.

Description

The utility model relates to the field of metal-cutting machine tools.

Known lathe spindle assembly containing a spindle having a longitudinal axis, a headstock made with the possibility of installation on the base plane of the bed, and the first and second supports made with the possibility of adjusting and fixing the position of the said spindle relative to the headstock / RF Patent 194224, 2019 /

In this case, it is assumed that the first and second supports are located outside the headstock and the position of the longitudinal axis of the spindle is adjusted by changing the position of the axes of the first and second supports within the gaps of the screws securing the supports to the headstock.

The utility model is aimed at improving the accuracy of the location of the longitudinal symmetry axis of the spindle relative to the base plane of the bed by adjusting the first and second headstock supports along the mating spherical surfaces.

To achieve the specified technical result, a spindle assembly of a metal-cutting machine is proposed, containing a spindle, a headstock made with the possibility of installation on the base plane of the bed, and having first and second supports made with the possibility of adjusting and fixing the position having a longitudinal axis of symmetry of the said spindle relative to the headstock.

Each support includes a ring made with the possibility of detachable connection with the headstock and a bushing made with the possibility of installing a bearing and detachable connection with the ring, while the ends of the ring and the bushing are mated along a spherical surface.

The headstock is equipped with a first drive for adjusting the position of the ring of the first support and a second drive for adjusting the position of the ring of the second support.

To adjust the position of the bushing of the first support relative to the ring, the headstock is equipped with a third drive, which includes a rod with a head and a thread, as well as a bracket that is attached to the headstock.

Each drive includes a rod with a head and a thread, as well as a bracket that is attached to the headstock.

The proposed spindle assembly of the machine can be used as part of a lathe or grinding metal-cutting machine.

The utility model is illustrated by the figure of the general view of the lathe.

The spindle assembly of a metal-cutting lathe contains a spindle 1 having a longitudinal axis of symmetry, a headstock 2, and the first and second supports made with the possibility of adjusting and fixing the position of the spindle 1 in the holes of the opposite end surfaces of the headstock 2 relative to the base plane of the bed 12 on which the headstock 2 is installed ...

The spindle 1 has a tapered seating surface at one end, made with the possibility of installing a chuck for fixing a workpiece or a tool for fixing a tool, as well as a mandrel designed to control the position of the spindle 1 relative to the bed 12.

The first support includes a first ring 13 and a first sleeve 5, which are mated on a spherical surface and, by means of screws, form a detachable connection that allows the position of the first sleeve 5 to be changed relative to the first ring 13.

In the ring 13, one end is made with a flat surface, and the other end is formed by a section of an outer flat annular surface and a section of an inner annular concave spherical surface. The first ring 13 is intended for detachable connection by means of screws (holes for which are made with a gap) with the headstock 2 and with the possibility of adjusting its position relative to the headstock 2 by means of screws 20, 23 mounted on brackets attached to the headstock 2.

The first sleeve 5 from one end is made on the inside with a shoulder, and on the outside with a step forming an annular convex spherical surface, at the other end a branch pipe is made, the cavity of which is intended for installation inside a triplex of three angular contact bearings 9-11, two intermediate rings 7, 8 and a cylindrical shell 6 with channels for coolant cooling bearings 9-11. The ledge outside the first bushing 5 is designed for detachable connection by means of screws 15, conical washers 16 and spherical washers 17 with the first ring 13 and with the possibility of adjusting its position of the first bushing 5 relative to the first ring 13 by means of screws 20 mounted on brackets 18 attached to the headstock 2 ...

The second support includes a second ring 26 and a second sleeve 28, which are mated on a spherical surface and, by means of screws, form a detachable connection that allows the position of the second sleeve 28 relative to the second ring 26 to be changed.

The ring 26 has one end is made with a flat surface, and the other end is formed by a section of an outer flat annular surface and a section of an inner annular concave spherical surface. The second ring 26 is designed for detachable connection by means of screws with the headstock 2 and with the possibility of adjusting its position relative to the headstock 2 by means of screws 37 with a spherical end mounted on the brackets 35, 36 attached to the headstock 2.

The second sleeve 28 at one end is made inside with a shoulder, and outside with a step forming an end spherical surface, at the other end a pipe is made, the cavity of which is designed to be installed inside a duplex of two bearings 30, 31 and a cylindrical shell with channels for coolant cooling of bearings 30 , 31.

The ledge outside of the second sleeve 28 is intended for detachable connection by means of screws 32, conical washers 33 and spherical washers 34 with the second ring 26.

The stator 24 of the engine is installed in the cavity of the headstock 2, and the rotor 25 of the engine is installed on the spindle.

For adjustment during the assembly of the spindle assembly, a device is used to adjust the position of the axis of symmetry of the spindle (removable nozzle), which contains a base 3, which includes a boss and a flange, and a shank 4, which includes a rod with a cylindrical surface and a flange, which are made in the form of bodies of revolution.

The boss and the shank are mated with spherical surfaces that provide the ability to adjust the position of the base axis 3 and the shank axis 4.

The base boss 3 is made with an end spherical concave surface designed to mate with the end spherical convex surface of the shank flange 4. The base boss 3 is designed to create a detachable screw connection with the shank flange 4.

The base 3, on the side opposite to the end spherical surface of the boss, has an end surface including a central section with a flat circular surface, an intermediate section with a frustoconical surface and a peripheral section with a flat annular surface.

The base flange 3 is made with stepped through holes designed for detachable screw connection with the spindle 1.

The intermediate section of the end surface of the base 3 is adapted to mate with the surface of the truncated cone of the section of the end surface of the spindle 1.

Removable nozzle is designed to check the accuracy of alignment of the axis of the spindle assembly. The adjustment of the base 3 relative to the shank 4 is carried out along spherical surfaces, which makes it possible to ensure the coaxiality of the surface of the base 3 (in the form of a truncated cone of a section of the end surface) and the cylindrical surface of the shank rod 4 within the limits of the sensitivity of the measuring instruments used in setting and assembling the removable nozzle.

In the process of assembly, a bushing 5 is installed on the spindle 1, into which the intermediate bushing 6 of the jacket of the forced cooling of the outer bearing races 9, 10 and 11 is pre-glued.

With the help of locating intermediate rings 7 and 8, three angular contact bearings 9, 10 and 11, respectively, are installed in the assembly from the bushing 5 and the intermediate bushing 6 along the outer cage. The resulting assembly unit is put on the spindle 1. Next, the rotor 25 of the motor is installed on the spindle 1.

The headstock 2 with support planes is installed on the base planes of the granite bed 12.

The first ring 13 with a spherical surface of the first support is attached from the outside by screws 14 to one wall of the headstock 2 in such a way that there are gaps between the screws 14 and the stepped holes of the ring 13, which allow the ring 13 to be adjusted both in the longitudinal and transverse directions, and in the angular direction in the limits of the size of the gaps.

In this case, the sleeve 5 contacts the ring 13 along the spherical surface. The bushing 5 is attached to the ring 13 on screws 15 with gaps allowing adjustment both horizontally / vertically and in the angular direction within its size. To compensate for misalignment of the holes, the screws 15 are installed using a conical washer 16 and a spherical washer 17 working in pairs.

Screws 14 and 15 are not fully tightened during installation.

The stator 24 of the motor is installed inside the headstock 2.

The second ring 26 with a spherical surface of the second support is attached from the outside by screws 27 on the opposite wall of the headstock 2 in such a way that between the screws 27 and the stepped holes of the ring 26 there is a gap that allows the ring 26 to move, both in the longitudinal and transverse directions, and in the angular direction within its magnitude.

After installing the ring 14 on the headstock 2, set the spindle 1. In this case, the sleeve 5 contacts the ring 13 on a spherical surface. The bushing 5 is fixed to the ring 13 by screws 15. The holes in the bushing 5 for the screws form gaps allowing adjustment both horizontally / vertically and in the angular direction. To compensate for misalignment of the holes, the screws 15 are installed using a conical washer 16 and a spherical washer 17 working in pairs.

After installing the spindle 1 on the first and second supports on the tapered seating surface, intended for centering the three-jaw chuck 38, a removable nozzle is installed, consisting of base 3 and a shank 4. Since the previously removable nozzle is adjusted, then when installed on the tapered surface, the runout of the shaft of the shank is removable nozzle relative to the surface of the bed 12 shows the runout of the axis of the spindle 1.

The runout of the cylindrical surface of the shank rod 4 is measured by an indicator at the maximum possible overhang. After measuring the runout, the process of adjusting the position of the axis of the spindle 1 relative to the surface of the frame 12 begins.

To adjust the axis of the spindle 1, a tooling is installed on the headstock 2, consisting of brackets 18 and 19, in which adjusting screws 20 with spherical ends are installed.

Subsequently, this equipment is removed from the headstock 2. Depending on the direction of the runout, it is possible to start adjusting the axis by turning the lower or upper screws 20, acting with the spherical part on the cylindrical surface of the sleeve 5. After each adjustment, it is necessary to repeat the process of measuring the runout.

After installing the bushings 5 and 13 relative to each other in such a way that the runout of the axis of the spindle 1 at the maximum overhang of the removable nozzle is no more than 1 μm, the screws 15 can be tightened completely.

If it is necessary to adjust the height of the centers, then brackets 21 and 22 with adjusting screws 23 are installed on the body, and the axle height is adjusted similarly to the previous one.

After the described adjustment, the spindle axis 1 takes a definite position in space. Further, a sleeve 28 with a spherical surface is installed on the spindle 1, into which the jacket 29 is previously glued and the bearings 30 and 31 are installed. The sleeve 28 is centered on the spherical surface by the sleeve 26 and is fastened with screws 32 without additional adjustment.

After installing the sleeve 28 and fixing it with screws 32 through the conical and spherical washers 33 and 34, the height of the spindle axis 1 is checked. In case of a discrepancy in the measurements of the height of the spindle axis 1, a tooling is installed on the headstock 2, consisting of brackets 35 and 36 and adjusting screws 37 with spherical the end. When turning the screw 37, the spherical end abuts against the cylindrical surface of the sleeve 26 and allows you to adjust its position at the end of the headstock 2.

Claims (1)

The spindle assembly of a metal-cutting machine, containing a spindle located in the headstock, made with the possibility of installation on the base plane of the machine bed, and installed in two supports located on both sides of the headstock, made in the form of bearings placed in bushings, with the possibility of adjusting the position of the longitudinal axis of the spindle relative to the headstock, characterized in that each of the said supports is provided with a ring installed with a flat end on the corresponding side of the headstock by means of a detachable connection with the possibility of adjusting displacement relative to the headstock, and said bushings are installed on the corresponding rings by means of a detachable connection with the possibility of adjusting displacement relative to the rings, while the ends, along which the bushings with the rings are mated, are made with the corresponding spherical surfaces.

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