RU2056269C1 - Machine tool for processing disk blanks - Google Patents

Abstract

FIELD: machine-tool manufacture. SUBSTANCE: machine tool has bed-plate 1 on which diamond boring head 2 for hole processing and diamond wheel for processing external surface of blank are mounted for longitudinal displacement. mechanism for blank clamping is made in the form of bearing ring 6 and daceplate 9 coaxially set up for rotating around their axis. Faceplate 9 is movable in axial direction. Ring 6 is assembled in ball segment 8 forming a bell pair with housing of mechanism for clamping. The sphere centre of ball seg, emt is placed on the crossing of longitudinal axis of bearing ring 6 with plane passing through its face end. Diamond bearing head 2 is mounted coaxially with faceplate 9 and plane of working face end of diamond wheel is located parallel to axis of rotation of faceplate and ring 6 and can shift parallel to its axis. EFFECT: facilitated manufacture. 1 cl, 2 dwg

Description

 The invention relates to mechanical engineering, namely to machines for simultaneous processing of the outer and inner surfaces of disk blanks, and can be used, for example, in the production of abrasive wheels.

A known machine for processing disk blanks, containing mounted on the frame grinding headstock for external and internal grinding, a headstock of blanks with a faceplate, a movable centering mechanism for blanks and means for attaching them [1]
The lack of means for mechanically securing the products in a position determined by the centering mechanism does not allow for the processing of abrasive products with high productivity.

A known machine for processing disk blanks, on the frame of which mounted grinding tools for external and internal processing, installed with the possibility of axial movement, a movable mechanism for centering the workpiece on the outer diameter and a clamping mechanism, made in the form of coaxially mounted with the possibility of rotation of the support ring and faceplate, movable in the axial direction [2]
Insufficient rigidity of the support unit and the accuracy of centering of the processed workpieces do not provide processing quality.

 The aim of the invention is to improve the quality of the processed disk blanks.

 This is achieved by the fact that in the machine for processing disk blanks, on the bed of which mounted grinding tools for external and internal processing, mounted with the possibility of axial movement, a movable centering mechanism of the workpiece on the outer diameter and a clamping mechanism made in the form of coaxially mounted with the possibility of rotation of the support rings and face plates, movable in the axial direction, according to the invention, the tool for internal processing is made in the form of a diamond boring head mounted coaxially with the faceplate, and the plane of the working end of the tool for external processing is parallel to the axis of rotation of the faceplate and the support ring, and the tool is mounted with the possibility of parallel movement of the specified plane relative to this axis.

 The machine is equipped with a spherical segment placed with the mechanism of clamping the workpiece for the spherical pair with the housing, in which the support ring is placed, the center of the sphere of the spherical segment being placed at the intersection of the longitudinal axis of the support ring with a plane passing through its end face.

 In FIG. 1 shows a machine for processing disk blanks, General view; figure 2 section aa in figure 1.

 The machine includes a bed 1 on which a diamond boring head 2 is mounted to process the surface of the hole of the workpiece 3 and a tool for processing the outer surface of the workpiece, made in the form of a diamond disk 4. The machine contains a processing chamber 5, and on the outside wall of which there is a support ring 6 of the clamping mechanism on a bearing support 7 mounted in a spherical segment 8, forming a spherical pair with the housing of the workpiece clamping mechanism.

 The center of the sphere of the spherical segment is located at the intersection of the longitudinal axis of the support ring 6 with a plane passing through its end face adjacent to the workpieces 3. The clamping mechanism is also equipped with a faceplate 9 installed in the processing chamber 5 coaxially to the support ring 6 and the diamond boring head 2. The faceplate 9 is installed in the quill 10 on the bearings 11. The pin 12 is mounted in the faceplate with axial movement, in which the spindle 14 is mounted on the bearings 13, on which the diamond boring head 2 is fixed. On the faceplate 9 g the gear wheel 15 is engaged, which engages with the gear 16. The axial movement of the pin 10 with the faceplate 9 is carried out from two hydraulic cylinders 17, and the axial movement of the pin 12 with a boring head 2 and the spindle 14 from two hydraulic cylinders 18. The spindle 14 with the head 2 is rotated an electric motor (not shown) through a spline connection 19, and the rotation of the faceplate 9 by an electric motor (not shown) through a gear 16 and a gear 15.

 The diamond disk 4 is mounted on the spindle 20 and mounted in the groove of the body of the processing chamber 5, and the plane of the working end 21 of the diamond disk 4 is parallel to the axis of rotation of the faceplate 9 and the support ring 6 and the machined disk blanks 3 and has the possibility of parallel movement relative to this axis along arrows 22 and 23. In addition, the diamond disk 4 has the possibility of axial movement relative to the faceplate 9 along arrows 24 and 25 or radial movement relative to the disk blanks 3.

 The machine is equipped with a movable mechanism 26 for centering the products 3 by the outer diameter, the vertical movement of which is carried out by the hydraulic cylinder 27 through a flexible connection 28, and an expandable latch 29 for the final centering of the disk blanks 3 according to the inner diameter mounted on the side of the support ring 6, coaxially with it along its hole. For loading and unloading workpieces 3 camera 5 processing is equipped with a door 30.

 The machine operates as follows. In the initial position, the working nodes of the machine are located as follows: the mechanism 26 is in the lower position, the faceplate 9 and the diamond boring head 2 in the extreme right position, the expandable latch 29 in the extreme left position, and the diamond disk 4 in the extreme lower position and as far as possible from the axis rotation of the disk blanks 3. Diamond boring head 2 is set to the required size of the machined hole.

 Door 30 opens and workpieces 3 of abrasive wheels are rolled into the centering mechanism 26. The hydraulic cylinder 27 is turned on, which raises the abrasive wheels to align their axes with the axes of rotation of the support ring 6 and face plate 9. In this way, the products are pre-centered on the outer diameter. Next, the expandable latch 29 is inserted through the hole of the support ring 6 into the holes of the abrasive wheels 3 and is expanded. The latch 29 performs the final centering of the disk blanks 3.

 After that, the hydraulic cylinders 17 move the pin 10 with the faceplate 9 to the left, as a result of which the abrasive wheels 3 are pressed against the support ring 6. The latch 29 is compressed and returns to its original position. The centering mechanism 26 is slightly lowered, and the package of products remains in the processing zone between the support ring 6 and the faceplate 9 in the clamped state.

 The door 30 is closed, the rotation of the package of preforms, the diamond boring head 2 and the diamond disk 4, the longitudinal supply of the diamond boring head and the axial movement of the diamond disk axially relative to the faceplate 9 along the arrow 24 are turned on, and processing is performed simultaneously on the outer and inner surfaces of the product. After the diamond disk 4 reaches its predetermined position with its axial movement, it is informed of the reverse movement along arrows 22 and 23 relative to the generatrix of the machined disks, parallel to the axis of rotation of the faceplate 9 and the support ring 6.

 At the end of the processing, the diamond boring head 2 and the diamond disk 4 are returned to their original position. The mechanism 26 for centering the products on the outer diameter rises to touch the disks. The washer 9 is returned to its original position. The processed products by the mechanism 26 are lowered and rolled out of the processing chamber 5. The cycle repeats.

Claims (2)

 1. MACHINE FOR PROCESSING DISC Billets, grinding tools for external and internal machining, mounted with the possibility of axial movement, a movable centering mechanism of the workpiece on the outer diameter and a clamping mechanism made in the form of a coaxially mounted rotary support ring and face plate are mounted on a short frame; movable in the axial direction, characterized in that the tool for internal processing is made in the form of a diamond boring head mounted coaxially with the faceplate, and p oskost working end of the tool for external machining is parallel to the rotation axis of the chuck and the support ring, wherein the tool is mounted for parallel movement of said plane relative to that axis.  2. The machine according to claim 1, characterized in that the machine is equipped with a spherical segment located in the housing of the clamping mechanism from the condition of formation of a spherical pair with it and bearing a support ring, the center of the sphere of the spherical segment being located at the intersection of the longitudinal axis of the support ring with a plane passing through his butt.

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