JP2010274410A - Cutter grinding indexing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cutter grinding indexing device which allows a user, in cutter grinding, to determine an angle by using a scale without visual estimation for angle adjustment, and thereby to accurately set the angle in a short period of time. <P>SOLUTION: For angle adjustment of a cutting edge surface, disc springs 53, 58, a bearing 52, and the like for mitigating abnormal friction, and other associated components as well are provided on the vertical surfaces of a cutter grinding mounting section 5 and a perpendicular block 8. For angle adjustment of a blade outside diameter surface, a disc spring for mitigating contact surface friction between a top face of a base block 9 and a bottom face of the perpendicular block 8 minimally lifts upper attached components including the perpendicular block 8 along a base shaft to form a gap therebetween. In actual work, angle adjustment is made by a knob handle and an adjusting handle at the same time. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

Detailed description of the invention

(Subject of invention and field of industrial use)
The present invention is used in the field of blade grinding.
The present invention relates to blade grinding.
(Conventional technology and its problems)
The angle of the tool attachment to the hard chuck of the tool grinding attachment part, the cutting edge surface, and the outer shape of the blade are visually measured, and the horizontal axis tilt angle and the horizontal plane twist angle are adjusted, but it is difficult to make fine adjustments in several times.
(Object of the present invention)
(A) The angle of the grinding tool is measured with a measuring instrument in advance, and the angle is determined according to the scale, instead of adjusting the angle for measuring the scale.
(B) An accurate angle is set in a short time.
It is an object of the present invention to provide a blade grinding and indexing device that enables the above.
Configuration of the Present Invention Although the present invention is the blade grinding attachment portion 5, first, the entire blade grinding machine will be described.
FIG. 1 is an overall view of a cutter grinder.
(1) The key 47 located at the bottom of the blade grinding attachment portion 5 is aligned with the X-axis table T groove, fixed with the T bolt 14, the hard chuck 152 is inserted into the rotary shaft 151, and the grinding blade 153 is tightened at the tip. The plane twist angle is obtained by rotating the right-angle block 8 with the indexing handle 70. The inclination angle of the horizontal axis is determined by the knob handle 89 of the arc feeding device 15 ′ fixed by the T bolt 21 located above the workpiece attachment portion 5.
(2) A grinding wheel 154.156 is installed at both ends of the grinding motor 155 axis, a gradient ring 157 is superimposed on the upper surface of the Z-axis saddle 158, and the motor 155 can be installed and rotated on the gradient ring 157. If the gradient ring 157 is rotated to an appropriate position, the motor 155 can set an inclination angle with respect to the horizontal axis.
(3) An X-axis movement handle 163 and a Y-axis longitudinal movement handle 162 for moving the X-axis table are installed on the entire surface of the main body 159, and a Z-axis vertical handle 160 is installed on the right side surface. Move each Z axis.
FIG. 2 is a diagram in which the grinding blade is fastened to FIG.
The blade grinding attachment portion 5 has a rotating shaft 151, and the hard chuck 152 is pulled and fixed by a stat bolt 153. A grinding blade 153 is fastened and fixed to the hard chuck 152.

The present invention will be described in detail based on an embodiment shown in the drawings.
FIG. 3 is a front view of the blade grinding attachment portion 5.
The base block 43 is inoculated into the base block 9 and fixed with the nut 44.
Further, an indexing handle 70 for the worm gear for adjusting the horizontal twist angle is installed.
The right-angle block 8 has a bracket 8 ′ at the top, passes through the base shaft 42, can be rotated without shaking, and is clamped and fixed with a clamp nut 44.
FIG. 4 is a top view of the blade grinding attachment portion 5. The blade grinding attachment portion 5 allows adjustment of the inclination of the rotation shaft 151 attached to the vertical surface of the right angle block 8.
The inclination of the horizontal axis of the rotating shaft 151 is adjusted by the circular arc feeding portion 11 in FIG.
FIG. 5 is a right side view of the blade grinding attachment portion 5.
FIG. 6 is a left side view of the blade grinding attachment portion 5.
The base block 9 is fixed to the side surface of the X-axis table 6 by using the butterfly bolt 16 with the holding plate 15. The cap screw 48 is for tightening the key 47.
FIG. 7 is a detailed sectional view taken on line AA of FIG.
A base shaft 43 is fixed to the center of the bottom portion of the base block 9 with a nut 43, and an O-ring 23 is attached to the base block 9 in order to put lubricating oil for the worm device.
The lower lid 24 and the bearing 25 are accommodated on the lower surface of the worm wheel 26, and the upper lid 28 is attached to the upper side. The integrated parts are rotatable with the fixed bush 27 as a core.
The connecting pin 33 is fixed to the worm foil upper cover 28 and is inserted into the bush 32 for rotating the right angle block 8 in an interlocking manner.
The upper part of the scale ring 31 is fixed to the right-angle block 8, and the lower part is loosely fitted to the upper part of the base block 9.
By means of the disc spring 29, the mounting component including the upper right-angle block 8 from the base block 9 can be minimally lifted.
It is housed in the lower part of the right-angle block 8 such as the two dollar thrust bearing 30, the bearing 34, and the oil seal 35.
At the upper part of the right-angle block 8, there is a one-piece protruding bracket 8 ', and a bearing 36, an oil seal 37, a dust seal 38, a washer 40, a thrust bearing 41, an end cover 42, etc. are installed and fixed with a lock nut 44 To do.
FIG. 8 is a cross-sectional view of FIG. 3 B-B-B. The vertical surface of the right-angle block 8 and the vertical surface of the blade grinding attachment portion 5 are fixed with the lock nut 22 at the tip of the stat bolt 50.
The two-dollar bearing 51 and the thrust bearing 52 are provided, and the two-dollar thrust bearing 60 reduces the tightening friction and improves the accuracy of adjusting the tilt angle of the horizontal axis. The end cover 61, the dust seal 56, the dust seal 55, and the like are for dust prevention.
In addition, a disc spring 53 and a disc spring 58 are provided to reduce the variable load applied to the vertical surface of the right-angle block 8, and adjustment bolts 54 and 57 are installed on each of them and received by the thrust bearing 52. When adjusting the horizontal axis tilt angle To improve the accuracy of the set angle.
FIG. 9 is a detailed view of the CC section of FIG.
FIG. 10 is a cross-sectional detail view of FIG. 9 CC section showing the equipment components in the base block 9 in a cross-sectional view.
The worm wheel 26, the fixed bush 27, the worm wheel upper cover 28, the connecting pin 33, the cap screw 46, and the like.
A detailed description will be given of the worm gear case 10.
An indexing handle 70 is fixed to one shaft side of the worm gear 79 with a set screw 71, and an indexing scale 65 is marked on the indexing handle 70.
A scale scale 66 is engraved on the scale ring 72 and is fixed to the worm gear case 10 with a cap screw 73. Next, 75 plate springs are stored in the screw cover 74 and the spacer 67.
An O-ring 76 and an oil seal 77 are accommodated in the seal case 68, and a bearing 78 and the like are installed.
In addition, a bearing 78 is installed on the other side of the worm gear 79 axis, an O-ring 76 is attached to the spacer 80, and the worm gear 79 is pushed in the direction of the arrow by the adjusting screw 82 to adjust the clearance of the worm gear (return lead type). Is possible.
The disc spring 75 can absorb the movement distance of the worm gear 79 in the direction of the arrow, and is fixed by the lock nut 81.
FIG. 11 shows an arc feeder 15 '.
(Including the arc feed guide portion 7 and the arc feed portion 11)
The arc feed guide portion 7 is provided with an R-shaped engraved groove recess, and the R projection of the arc feed portion 11 is inserted into the groove recess so as to be slidable.
A guide cover 109 is fastened to the end surface of the arc feed guide portion 7 with a flat head screw 110.
A trapezoidal leaf spring 108 shown in the DD cross section is provided between the guide cover 109 and the arc feed portion 11 to eliminate the clearance on the side surface.
The arc feeding device 15 ′ is attached with a key groove on the upper surface of the blade grinding attachment portion 5, and a key protrusion at the bottom of the arc feeding guide portion 7 is inserted and fixed with a bolt 21.
FIG. 12 is a detailed sectional view taken along the line EE of FIG.
A knob handle 89 (with a scale 92) is fixed to one side of the adjustment feed screw 90 with a cap screw 88, with a hole and a split groove, and a taper nut 93 (with a taper round part and a taper screw machined on the outside). The circular arc feeder 11 is moved by the rotation of the handle 89.
Although the angle is read by the base line 85 and the scale line 92 of the reference line plate 91, the angle error due to the change in the inclination of the adjustment feed screw 90 can be ignored because the moving distance is small.
The taper nut 93 is fixed by a lock nut 94 on the end face of the feed ball 86. A ball cover 96 for protecting the feeding ball 86 is fixed with a countersunk screw 95, and a spring 97 for adjusting the clearance is provided between them.
Stop the rotation of the feed ball 86 with the rotation stop 98.
On the side of the arc feed guide 7, a collar 99, a disc spring 101, a washer 101, a thrust bearing 102, a needle bearing 104, a collar 105, a needle bearing 104, a thrust bearing 102, etc. are installed on an adjusting feed screw 90. Then, it is stopped by a lock nut 106 for adjusting the pressure of the disc spring 100. A guide ball 103 is accommodated in the arc feed guide 7.
FIG. 15 shows the arc feed section 11.
Stopper pin 120, bush 121, stopper pin 120 holding spring 122, lift pin 123, bush 124, etc. are installed, knob 125 is provided at the upper end, stopper pin 120 is lifted and rotated 90 degrees, to lift groove 126, If the lift pin 123 is fitted, the index plate 49 will be in a free state.
The indexing plate 49 is indexed only for one pitch, and a small amount within one pitch is set by the arc feeder 15 '.
Effect (Horizontal axis tilt angle adjustment method)
The blade grinding attachment portion 5 is slid by inserting an arc feed portion 11R convex portion into an arc feed guide portion 7R engraved groove concave portion with an inclination angle of the horizontal axis. Adapt to the movement.
The feed ball 86 passes through the taper nut 93 and moves the arc feed portion 11 by turning a knob handle 89 attached to one side of the adjustment feed screw 90. On the other side, there is a ball tray (an arc feed guide portion 7) covering the arc feed guide portion 7 and the unitary guide ball 103 through the feed adjustment screw 90, and the position of the adjustment feed screw 90 is fixed.
(Horizontal twist angle adjustment method)
The base block 9 has one worm case, and the worm gear (retracted lead type) adjusts the backlash with the adjusting screw 82 by the disc spring 75 for adjusting the backlash. The index handle 70 is engraved. The index scale 65 and the scale ring 72 are engraved with a scale scale 66, which performs high-precision indexing according to the scale alignment.
Further, the base shaft 43 fixed to the base block 9 passes through the bottom plate portion of the right-angle block 8 and the one-piece bracket 8 ', and depending on the disc spring 29, if the lock nut 44 is loosened slightly, Since there is a gap on the bottom of the right-angle block 8 and lightly rotates, high-precision indexing can be performed.
Advantages of the Invention (1) The contact surface friction between the base block 9 and the right-angle block 8 horizontal plane and the vertical surfaces such as the blade grinding attachment portion 5 is minimized.
(2) The torsion angle of the horizontal plane and the inclination angle of the horizontal axis can be adjusted simultaneously with the index handle 70 and the knob handle 89, respectively.
(3) Rapid and highly accurate indexing is possible based on the effects of (1) and (2).

FIG. 1 is an overall view of a cutter grinder. FIG. 2 is a diagram in which the grinding tool is fastened to the tool grinding attachment portion 5. FIG. 3 is a front view of the blade grinding attachment portion 5. FIG. 4 is a top view of the blade grinding attachment portion 5. FIG. 5 is a right side view of the blade grinding attachment portion 5. FIG. 6 is a left side view of the blade grinding attachment portion 5. FIG. 7 is a detailed sectional view taken on line AA of FIG. FIG. 8 is a sectional view taken along the line B-B-B in FIG. FIG. 9 is a detailed view of the CC section of FIG. FIG. 10 is a ninth CC sectional view. FIG. 11 shows an arc feeding device 15 ′ (including an arc feeding guide portion 7 and an arc feeding portion 11). FIG. 12 is a cross-sectional view taken along line EE of FIG. FIG. 13 is a detailed sectional view of FIG. 12 KK. FIG. 14 shows the arc feed guide portion 7. FIG. 15 shows the arc feeding portion 11.

Claims (2)

  The base shaft (43) is installed from the base block (9), the worm wheel (26) and the ohm gear (79) are installed, and the disc spring (29) is mounted on the boundary surface between the base block 9 and the right angle block (8) To do. On the vertical surface of the right-angle block (8), a large disk spring (53), a small disk spring (58), a thrust bearing (52), etc. are installed, an indexing handle (70) is provided, and other related parts are attached.   A knob handle (89) and other related parts are attached to the arc feed guide (7) and the arc feed (11).

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