CN214291218U - Internal thread grinding machine for numerical control machining - Google Patents

Abstract

The utility model discloses an internal thread grinding machine for numerical control machining, including the lathe bed, planar both ends are provided with guide rail and planker respectively on the lathe bed, be equipped with work piece adjusting device on the guide rail, be equipped with electric main shaft adjusting seat on the mill frame planker, be equipped with adjustment mechanism on the electric main shaft adjusting seat, one side and the gyro wheel adjusting seat of work piece adjusting device are connected, mill frame planker includes nut seat and ball, ball passes nut seat, work piece adjusting device includes the work piece axle, the work piece axle passes the work piece case, one end is connected with the work piece (holding) chuck, the work piece case passes the work piece planker with the guide rail and is connected; in the angle conversion, the height of the center of the two shafts is not changed with the height of the center of the workpiece shaft, and each shaft gives a true rotation point, so that the height of the center is changed only, the consistency of the heights of the grinding wheel electric main shaft, the diamond roller shaft and the workpiece shaft is ensured, the operation tool setting is simple and reliable, and the precision and the stability of the displacement of the grinding frame planker and the rotation of the workpiece are ensured by closed-loop control of a grating.

Description

Internal thread grinding machine for numerical control machining

Technical Field

The utility model relates to an internal thread grinding machine, in particular to internal thread grinding machine for numerical control processing.

Background

The internal thread grinding machine is a processing machine tool for processing precise threads by using a formed grinding wheel as a grinding tool.

The roller device and the workpiece box of the common internal thread grinding machine are separated, the size is large, the electric spindle device has no base point, the electric spindle device deviates every time of rotation, and the three devices have no uniform center height, so that the angle needs to be adjusted every time when the diamond roller and the electric spindle are adjusted. The precision is not high due to the fact that the angles need to be gathered in multiple directions, each adjustment has errors, the angle can be adjusted to the thought angle in one day sometimes, and the precision of the workpiece is not high.

SUMMERY OF THE UTILITY MODEL

The utility model provides an internal thread grinding machine for numerical control processing is used for overcoming the central height nonconformity of internal thread grinding machine's among the prior art roller device and work piece case, and buddha's warrior attendant roller device is rotatory to have the skew to lead to when changing the work piece adjustment central height waste time and energy and the not good defect of precision.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model discloses an internal thread grinding machine for numerical control machining, which comprises a machine body, wherein a guide rail and a grinding frame planker are respectively arranged at two ends of the upper plane of the machine body, a workpiece adjusting device is arranged on the guide rail, an electric main shaft adjusting seat is arranged on the grinding frame planker, an adjusting mechanism is arranged on the electric main shaft adjusting seat, and one side of the workpiece adjusting device is connected with a roller adjusting seat; the grinding frame dragging plate comprises a nut seat and a ball screw, and one end of the ball screw penetrates through the nut seat and is fixed; the workpiece adjusting device comprises a workpiece box, a workpiece chuck, a workpiece shaft and a workpiece carriage, wherein the workpiece shaft penetrates through the workpiece box, one end of the workpiece shaft is connected with the workpiece chuck, and the workpiece box is connected with the guide rail through the workpiece carriage.

Furthermore, one side of the guide rail is provided with a second servo motor, and the second servo motor provides power for the movement of the guide rail.

Furthermore, the other end of the ball screw is connected with a first servo motor, and the first servo motor provides power for the movement of the carriage of the grinding frame.

Furthermore, the other end of the workpiece shaft is connected with a third servo motor, the third servo motor is used as a power device for rotating the workpiece shaft, the third servo motor is connected with a speed reduction motor and a linear grating, and the linear grating is used for accurately positioning the rotation of the workpiece.

Furthermore, one side of the grinding frame planker is provided with a linear grating for accurately positioning the die frame planker and the workpiece.

Furthermore, the electric spindle adjusting seat comprises an electric spindle base, an electric spindle seat, an electric spindle and a base sliding plate, wherein the base sliding plate is arranged on the electric spindle base, the electric spindle seat is arranged on the base sliding plate, the electric spindle is arranged on the electric spindle seat, and the base sliding plate moves up on the electric spindle base to adjust the center height of the electric spindle.

Further, the roller adjusting seat comprises a roller seat, a roller shaft, a diamond roller, a roller seat bottom plate and a roller seat adjusting plate, the roller seat bottom plate is arranged on the roller seat adjusting plate, the roller seat is arranged on the roller seat bottom plate, the roller shaft is arranged on the roller seat, the diamond roller is arranged on the roller shaft, and the roller seat bottom plate is arranged in the chute of the roller seat adjusting plate and used for adjusting the angle of the roller shaft.

Furthermore, the rotation reference heights of the electric spindle, the workpiece shaft and the roller shaft are consistent.

The utility model discloses the beneficial effect who reaches is:

the adjustment of the angle of the electric main shaft and the angle of the diamond roller shaft is carried out, the height of the center of two shafts is unchanged with the height of the center of a workpiece shaft in angle change, the operation tool setting is simple and reliable, and grating positioning control is added, so that the precision requirement of a high-precision ball screw can be realized.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic front view of the present invention;

fig. 3 is a schematic rear view of the present invention.

In the figure: 1. a bed body; 2. a guide rail; 3. a grinding carriage planker; 31. a nut seat; 32. a ball screw; 4. an electric spindle adjusting seat; 41. an electric spindle base; 42. an electric spindle base; 43. an electric spindle; 44. a base slide plate; 5. an adjustment mechanism; 6. a workpiece adjusting device; 61. a workpiece box; 62. a workpiece chuck; 63. a workpiece shaft; 64. a workpiece carriage; 7. a roller adjusting seat; 71. a roller seat; 72. a roller shaft; 73. a diamond roller; 74. a roller seat bottom plate; 75. a roller seat adjusting plate; 8. a first servo motor; 9. a second servo motor; 10. a third servo motor; 11. a reduction motor; 12. and (3) linear grating.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example 1

As shown in fig. 1-3, an internal thread grinding machine for numerical control machining comprises a machine body 1, wherein a guide rail 2 and a grinding carriage planker 3 are respectively arranged at two ends of an upper plane of the machine body 1, a workpiece adjusting device 6 is arranged on the guide rail 2, an electric spindle adjusting seat 4 is arranged on the grinding carriage planker 3, an adjusting mechanism 5 is arranged on the electric spindle adjusting seat 4, and one side of the workpiece adjusting device 6 is connected with a roller adjusting seat 7;

the grinding carriage dragging plate 3 comprises a nut seat 31 and a ball screw 32, one end of the ball screw 32 penetrates through the nut seat 31 and is fixed, the other end of the ball screw is connected with a first servo motor 8, and the first servo motor 8 provides power for movement of the grinding carriage dragging plate 3;

the workpiece adjusting device 6 comprises a workpiece box 61, a workpiece chuck 62, a workpiece shaft 63 and a workpiece carriage 64, wherein the workpiece shaft 63 penetrates through the workpiece box 61, one end of the workpiece shaft 63 is connected with the workpiece chuck 62, the other end of the workpiece shaft is connected with a third servo motor 10, the third servo motor 10 is used as a power device for rotating the workpiece shaft 63, the third servo motor 10 is connected with a speed reducing motor 11, and the workpiece box 61 is connected with the guide rail 2 through the workpiece carriage 64.

One side of the guide rail 2 is provided with a second servo motor 9, and the second servo motor 9 is used for driving the guide rail 2 to move.

One side of the grinding carriage planker 3 is provided with a linear grating 12, and the linear grating 12 is used for accurately positioning the rotation of a workpiece.

The electric spindle adjusting seat 4 comprises an electric spindle base 41, an electric spindle seat 42, an electric spindle 43 and a base sliding plate 44, wherein the electric spindle base 41 is provided with the base sliding plate 44, the base sliding plate 44 is provided with the electric spindle seat 42, the electric spindle seat 42 is provided with the electric spindle 43, and the base sliding plate 44 moves in a sliding groove in the electric spindle base 41 and is used for adjusting the center height of the electric spindle 43.

The roller adjusting seat 7 comprises a roller seat 71, a roller shaft 72, a diamond roller 73, a roller seat bottom plate 74, a roller seat adjusting plate 75, a roller seat bottom plate 74 is arranged on the roller seat adjusting plate 75, a roller seat 71 is arranged on the roller seat bottom plate 74, a roller shaft 72 is arranged on the roller seat 71, a diamond roller 73 is arranged on the roller shaft 72, the roller seat bottom plate 74 is arranged in a chute of the roller seat adjusting plate 75 and used for adjusting the center height of the roller shaft 72.

The rotation centers of the electric spindle 43, the workpiece shaft 63 and the roller shaft 72 are consistent in height.

The working process is as follows: a nut seat 31 is arranged on the reverse side of the grinding frame dragging plate 3, a ball screw 32 is arranged in the middle of the nut seat 31, and the other end of the ball screw 32 is driven by a first servo motor 8. A guide rail 2 is arranged between the grinding carriage planker 3 and the lathe bed 1. The first servo motor 8 drives the grinding carriage planker 3 to move. An electric spindle adjusting seat 4 is arranged on the grinding carriage dragging plate 3, an electric spindle seat 42 is arranged on the electric spindle base 41, the electric spindle seat and the electric spindle have a rotation center, and the electric spindle 43 can be adjusted to a required angle according to the rotation center through an adjusting mechanism 5 on the electric spindle seat. The die carrier dragging plate 3 is provided with a workpiece box 61, the side surface of the workpiece box 61 is provided with a roller seat adjusting plate 75 and a roller seat bottom plate 74, the roller seat bottom plate 74 and the roller seat adjusting plate 75 also have a rotation center, and the rotation center is equal to the rotation center of the electric spindle 43 and the center of the workpiece shaft 63 in height, so that the three are always on the same equal height line when the angle of the diamond roller 83 is adjusted, the design is very efficient when the angle is adjusted, and high precision can be ensured. A workpiece shaft 63 is arranged in the workpiece box 61, the workpiece shaft 63 is driven by a third servo motor 10 behind the shaft, and a speed reducing motor 11 is arranged between the workpiece shaft 63 and the third servo motor 10, so that the workpiece shaft 63 is more stable at a low rotating speed.

An adjusting step: firstly, the contact surface of the workpiece box 61 and the roller seat adjusting plate 75 is taken as a reference surface, and the parallelism of the workpiece box 61 and the roller seat adjusting plate and the perpendicularity of the workpiece box 61 and the guide rail 2 are ensured; when the workpiece clamping device works, a workpiece is clamped on the workpiece clamping disc 62, and the workpiece clamping disc 62 is connected with the workpiece shaft 63; then, the angle of the electric spindle 43 is adjusted to the angle required by the workpiece, and then the angle of the diamond roller 73 (the diamond roller 73 is arranged on the roller shaft 72, and the roller base bottom plate 74 is rotated to drive the roller shaft 72) is adjusted to enable the electric spindle 43 and the roller shaft 72 to be parallel; after the working mode is started, the workpiece rotates along with the workpiece shaft 63, the grinding wheel at the top end of the electric spindle 43 extends into the workpiece, the threads of the workpiece are ground by feeding of the workpiece carriage 64, one workpiece is continuously replaced after grinding is finished, and the workpiece is continuously arranged on the workpiece chuck 62; when the set number of workpieces is reached (for example, 50 workpieces are set to be ground, the grinding wheel needs to be dressed once), operating a button on a program panel, moving the workpiece carriage 64 to a certain position to dress the grinding wheel, and continuing working after finishing; the positioning of the die carrier planker 3 and the positioning of the rotation of the workpiece are controlled by the linear grating 12, so that the positioning precision is higher.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The internal thread grinding machine for numerical control machining is characterized by comprising a machine body, wherein a guide rail and a grinding frame dragging plate are respectively arranged at two ends of the upper plane of the machine body, a workpiece adjusting device is arranged on the guide rail, an electric spindle adjusting seat is arranged on the grinding frame dragging plate, an adjusting mechanism is arranged on the electric spindle adjusting seat, and one side of the workpiece adjusting device is connected with a roller adjusting seat;

the grinding frame dragging plate comprises a nut seat and a ball screw, and one end of the ball screw penetrates through the nut seat and is fixed;

the workpiece adjusting device comprises a workpiece box, a workpiece chuck, a workpiece shaft and a workpiece carriage, wherein the workpiece shaft penetrates through the workpiece box, one end of the workpiece shaft is connected with the workpiece chuck, and the workpiece box is connected with the guide rail through the workpiece carriage.

2. The internal thread grinding machine for numerical control machining according to claim 1, wherein the other end of the ball screw is connected with a first servo motor, and the first servo motor provides power for movement of a carriage planker.

3. The internal thread grinding machine for numerical control machining according to claim 1, wherein the other end of the workpiece shaft is connected to a third servo motor, the third servo motor serves as a power device for rotation of the workpiece shaft, the third servo motor is connected to a reduction motor and a linear grating, and the linear grating is used for precisely positioning rotation of the workpiece.

4. The internal thread grinding machine for numerical control machining according to claim 1, wherein a linear grating is provided on one side of the grinding carriage for accurately positioning the die carrier carriage and the workpiece.

5. The internal thread grinding machine for numerical control machining according to claim 1, wherein a second servo motor is provided on one side of the guide rail, and the second servo motor provides power for movement of the guide rail.

6. The internal thread grinding machine for numerical control machining according to claim 1, wherein the electric spindle adjusting seat comprises an electric spindle base, an electric spindle seat, an electric spindle, and a base sliding plate, wherein the electric spindle base is provided with the base sliding plate, the base sliding plate is provided with the electric spindle seat, the electric spindle seat is provided with the electric spindle, and the base sliding plate moves in a sliding groove on the electric spindle base to adjust a rotation center angle of the electric spindle.

7. The internal thread grinding machine for numerical control machining according to claim 1, wherein the roller adjustment seat includes a roller seat, a roller shaft, a diamond roller, a roller seat bottom plate, and a roller seat adjustment plate, the roller seat adjustment plate is provided with a roller seat bottom plate, the roller seat bottom plate is provided with a roller seat, the roller seat is provided with a roller shaft, the roller shaft is provided with a diamond roller, and the roller seat bottom plate moves in a sliding groove of the roller seat adjustment plate for adjusting a rotation center angle of the roller shaft.

8. The internal thread grinding machine for numerical control machining according to claim 1, wherein the rotational reference heights of the electric spindle, the workpiece shaft, and the roller shaft are uniform.

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