KR101849333B1 - Holder for fastening cutting tool - Google Patents

Abstract

The present invention relates to a holder for coupling a cutting tool capable of allowing a user to mount a driving screw gear and a spindle using a single holder without split of a holder body so that verticality of the holder is not changed even if the driving screw gear and the spindle are replaced as occasion demands. The holder for coupling a cutting tool comprises: an integrated holder body (30) having a tapered shank part (31) formed at an upper portion, an adapter (32) having a tapered part (32a), a mounting hole (34) formed in a vertical direction, a flange part (33) formed at a boundary part of the shank part (31) and the adapter (32), an insertion hole (35) formed in the flange part (33) to be at right angles to the mounting hole (34), and a rotation preventing member coupling hole (38) formed in the adapter (32); a spindle (40) having a first male screw part (41) screw-coupled with the inside of the shank part (31), a second male screw part (42) having a screw thread formed in the opposite direction to a screw thread of the first male screw part (41), and a slave screw gear (43) formed integrally between the first and second male screw parts (41)(42); a driving screw gear (50) geared with the slave screw gear (43); a cap (60) screw-coupled with the insertion hole (35) of the holder body (30) and having a tool insertion hole (61); a slider (70) having a first female screw part (71) screw-coupled with the second male screw part (42) and an elongated hole (72) formed vertically; a rotation preventing member (80) for restraining rotation of the slider (70) to make the slider (70) ascend and descend; and a collet (90) screw-coupled with the slider (70).

Description

[0001] HOLDER FOR FASTENING CUTTING TOOL [0002]

The present invention relates to a cutting tool fastening device for fastening a cutting tool such as a drill or an end mill or a side milling cutter to a head portion of a machine tool when performing reamer machining or milling machining in a machining center or the like More specifically, it is possible to install a drive screw gear and a spindle inside a holder of a single shape without dividing the holder main body, so that even if the drive screw gear and the spindle are replaced as needed, So that the vertical degree is not changed.

Generally, a milling chuck is applied to a machine tool such as a machining center or a milling machine, and serves as a kind of adapter for mounting a cutting tool.

FIG. 1 is a longitudinal sectional view of a conventional holder for fastening a cutting tool, and FIG. 2 is a cross-sectional view taken along the line A-A of FIG. 1. In the conventional holder for fastening a cutting tool 10, The adapter 13, the tapered collet 14, the bevel pinion 15 for driving, the bevel gear 16, the cutting fluid circulation channel 14, A member 17, a full stud 18, and the like.

1, the holder main body 12 includes a tapered shank portion 121, a flange portion 122 formed at one end of the shank portion 121, a shank portion 121 of the flange portion 122, A first cylindrical hole 123a for coupling the adapter 13 and a second cylindrical hole 123b for coupling the adapter 13 and the bevel gear 16 are rotatably mounted on a lower portion of the adapter coupling portion 123, The second cylindrical hole 123b is formed concentrically.

A through hole 12a extending from the rear end of the shank portion 121 to the second cylindrical hole 123b is formed in the axial center portion of the holder main body 12 and an inner peripheral surface of the through hole 12a is formed with the full stud 18 And the like are formed over a predetermined section.

The adapter 13 accommodates the tapered collet 14 as shown in FIGS. 1 and 2, and has a length corresponding to the length of the tapered collet 14.

A collet holding hole 131 is formed in the axial center of the adapter 13 in which the tapered collet 14 is inserted. The collet holding hole 131 is formed to correspond to the outer shape of the tapered collet 14 The tapered portion 131a, the evacuation portion 131b and the straight portion 131c are formed in order from the front end to the rear end of the adapter 13 in this order.

The adapter 13 is provided at its one end with a stopping portion 132 having a diameter corresponding to the adapter engaging portion 123 and is fixed to the front end surface of the adapter engaging portion 123 by a plurality of bolts 19. [ And a cylindrical portion 133 to be assembled to the first cylindrical hole 123a of the adapter engaging portion 123 is formed on the upper side of the adapter 13. [

The tapered collet 14 is detachably inserted into the collet holding hole 131 of the adapter 13 while holding the tool 11 so that the shaper portion 11a The tapered portion 131a of the collet holding hole 131 and the tapered portion 14a of the collet holding hole 131 engage with the straight portion 131c of the collet holding hole 131. The shank insertion hole 141 is formed in the shaft portion, And a male screw portion 142 screwed to the female screw portion 162 of the bevel gear 16 is formed on the outer peripheral surface of the upper portion of the straight portion 14b.

The driving bevel pinion 15 is for holding the tool 11 or releasing the holding state by moving the taper collet 14 in the axial direction of the adapter 13 as shown in Figs. 1 and 2, The driving bevel pinion 15 is rotatably mounted on an insertion hole 20 formed to penetrate from the outer peripheral surface of the flange portion 122 formed in the holder main body 12. [

The bevel gear 16 converts the rotary motion of the driving bevel pinion 15 into linear motion in the axial direction of the tapered collet 14. The bevel gear 16 is connected to the bevel pinion 15 for driving, And is rotatably mounted to the second cylindrical hole 123b of the adapter 13 so as to be meshed.

A sealing member 21 is provided on the outer circumferential surface of the cylindrical boss portion 161 formed in the bevel gear 16 so as to be connected to the cylindrical portion 133 of the adapter 13. On the inner peripheral surface of the boss portion 161, And a female screw portion 162 screwed with the male screw portion 142 of the male screw portion 14 is formed.

A through hole 163 communicating with the boss portion 161 is formed in the axial center of the bevel gear 16 and a latching jaw portion 164 is formed on the inner circumferential surface of the through hole 163.

A position regulating stopper 165 for suppressing the movement of the bevel gear 16 in the axial direction is formed at a portion connected to the boss 161 formed in the bevel gear 16, 165 are configured to be sandwiched by the tip end face of the cylindrical portion 133 and the end portion 123c formed between the second cylindrical hole 123b and the first cylindrical hole 123a opposed thereto.

The cutting fluid circulating member 17 guides the cutting fluid supplied from the rear end of the holder main body 12 through the inside of the holder main body 12 to the side of the taper collet 14, The sealing member 22 is installed in the through hole 163 so as to be pressed by the engaging protrusion 164 of the bevel gear 16 and the cutting fluid flow member 17 And another sealing member 23 is provided between the first cylindrical portion 171 and the second cylindrical portion 172 so that the cutting fluid does not flow out toward the bevel pinion 15 for driving and the bevel gear 16 side And is connected to the through hole 12a of the holder main body 12. [

The full stud 18 is for mounting the shank portion 121 of the holder main body 12 to the tapered hole 9A of the head portion 9 and screwed to the female screw portion 12b of the holder main body 12 A hooking protrusion 182 having a larger diameter than the rear end diameter of the shank 121 at the rear end of the male threaded portion 181 and a hooking protrusion 182 having a larger diameter than the rear end diameter of the shank portion 121, And a flange-shaped engaging portion 184 provided at the rear end of the shaft portion 183. The center of the full stud 18 is provided with a cutting fluid A supply passage 185 is formed.

Therefore, in order to hold the tool 11 in the holder 10, the shank portion 11a of the tool 11 must be pushed into the shank insertion hole 141 of the taper collet 14. At this time, the taper collet 14 ) Of the tapered collet 14 which is pulled downward from the adapter 13 and cut out in the vertical direction by a plurality (about 3 to 4) of the tapered collets 14 is expanded by the self-elastic force.

In this state, the shank portion 11a of the tool 11 is pushed as far as possible into the shank insertion hole 141 of the taper collet 14, and then the driving bevel pinion 15 is moved in the direction in which the tapered collet 14 is lifted .

When the driving bevel pinion 15 is rotated as described above, the driving bevel pinion 15 is engaged with the bevel gear 16 so as to rotate the bevel gear 16. The bevel portion 161 of the bevel gear 16 The tapered collet 14 is moved into the collet holding hole 131 of the adapter 13. The tapered collet 14 is screwed into the male screw portion 142 of the tapered collet 14,

The tapered portion 14a of the tapered collet 14 is compressed by the tapered portion 131a formed in the adapter 13 and the shank 11a of the tool 11 is tightened, The holding of the tool 11 is completed.

On the other hand, when holding the tool 11 on the tapered collet 14 and performing the machining, if the holding state of the tool 11 is to be released from the tapered collet 14 in order to replace the tool as necessary, The driving bevel pinion 15 is rotated.

When the driving bevel pinion 15 is rotated in a direction opposite to the above-described direction, the bevel gear 16 engaged with the driving bevel pinion 15 is rotated, whereby the boss portion 16 of the bevel gear 16 The tapered collet 14 threadedly engaged with the tapered collet 14 is pulled out to the lower portion of the adapter 13 so that the tapered collet 14 is opened by the self-elastic force to expand the shank insertion hole 141, ) Can be removed.

(Prior art document)

(Patent Document 0001) Japanese Patent Publication No. 03285809

(Patent Document 0002) Japanese Patent Publication No. 04157420 (Registered on July 18, 2008)

However, the conventional holder for fastening a cutting tool has various problems as follows.

First, the holder 10 is divided into the holder body 12 and the adapter 13 so as to install the driving bevel pinion 15, the bevel gear 16 and the cutting fluid flow member 17 in the holder And the bolts 19 are integrated with each other, resulting in an increase in the number of components and a decrease in productivity.

Secondly, since the holder body 12 and the adapter 13 are integrated with the bolts 19 and then subjected to a separate polishing process to remove the interface therebetween, the production cost is increased.

Third, when the gear portions of the driving bevel pinion 15 and the bevel gear 16 are worn out due to repeated use, the machining accuracy of the workpiece is lowered, and therefore, these parts must be periodically replaced.

To accomplish this, the bolt (19) fixing the holder body (12) and the adapter (13) is loosened to replace the parts. After the parts replacement operation is completed, the bolts (19) When the adapter 13 is assembled, there is a limit in matching the verticality of the center of the holder body 12 with that of the adapter 13, and there is a fatal defect which lowers the machining accuracy of the workpiece.

SUMMARY OF THE INVENTION The present invention has been devised to solve such problems in the prior art, and it is an object of the present invention to provide a holder having a single shape without dividing the holder main body so that a drive screw gear and a spindle can be installed therein, So that the verticality, which is the center of the holder, is not changed.

According to an aspect of the present invention, there is provided an adapter having a tapered shank portion at an upper portion thereof and a tapered portion corresponding to a tapered portion of a collet at a lower portion thereof, And a flange portion abutting the bottom surface of the head portion is formed at a boundary portion between the shank portion and the adapter so that the insertion hole communicating with the mounting hole of the flange portion is formed orthogonally, A first male screw portion formed through a mounting hole formed at the center of the holder body and screwed into the shank portion is formed at one end and a second male screw portion is formed at the other end opposite to the first male screw portion, A spindle in which a driven screw gear is integrally formed between the two male screws, A driving screw gear installed through the insertion hole of the formed flange portion to be engaged with the driven screw gear of the spindle and a driving screw gear which is screwed to the insertion hole formed in the holder body to close the insertion portion of the driving screw gear, A slider having a cap and a first female thread portion inserted through a lower portion of the adapter and screwed to the second male thread portion of the spindle and having an elongated long hole penetrated therethrough; The collet is inserted through the collet holding hole of the adapter to be screwed to the slider. The collet is inserted into the collet holding hole of the collet holding hole of the adapter to allow the slider to move up and down by restricting the rotation of the slider. And a holder for fastening a cutting tool is provided.

The present invention has the following advantages in comparison with the conventional holder for fastening a cutting tool.

First, since the holder main body is integrally formed, it is possible to prevent the vertical degree from being changed even if the parts are replaced, so that the precision of the holder main body can be always kept constant.

Second, the configuration of the holder is simplified, and the number of parts can be reduced, thereby reducing the production cost.

Third, since the holder main body is integrally formed, it is possible to omit a separate polishing process, thereby improving the productivity.

1 is a longitudinal sectional view of a conventional holder for fastening a cutting tool
2 is a sectional view taken along the line A-A in Fig. 1
3 is a perspective view showing an embodiment of the present invention.
4 is a perspective view of an embodiment of the present invention,
5 is an exploded perspective view showing a main part of the present invention.
Fig. 6 is a perspective view of the assembled state of Fig.
7 is a plan view showing a state in which a driven screw gear is meshed with a driven screw gear of a spindle in the present invention
Figs. 8A and 8B are longitudinal sectional views of Fig. 3 for explaining an operating state of the present invention,
8A shows a state in which the slider is positioned at the bottom dead center and the shank insertion hole of the collet is opened and the holding state of the tool is released
8B shows a state in which the slider is located at the top dead center and the shank insertion hole of the collet is caught and the tool is held
9 is a plan view showing another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. The drawings are schematic and illustrate that they are not drawn to scale. The relative dimensions and ratios of the parts in the figures are exaggerated or reduced in size for clarity and convenience in the figures, and any dimensions are merely illustrative and not restrictive. And to the same structure, element or component appearing in more than one drawing, the same reference numerals are used to denote similar features.

FIG. 4 is a perspective view showing a part of an embodiment of the present invention, FIG. 5 is an exploded perspective view showing a main part of the present invention, FIGS. 8a and 8b are longitudinal sectional views of FIG. 3 for explaining an operating state of the present invention, A driving screw gear 50 for rotating the spindle 40; a drive screw gear 50 for driving the holder main body 30; A slider 70 fixed to the spindle 40 to be lifted and lowered, a rotation preventing member 80 for preventing the slider from rotating and a cap 60 fixed to the slider 70, And a collet 90 for holding an abutment (not shown).

An adapter 32 having a tapered shank portion 31 formed at an upper portion thereof and a tapered portion 32a corresponding to the tapered portion 91 of the collet 90 is formed at the lower portion of the holder body 30 A flange portion 33 is formed at the boundary between the shank portion 31 and the adapter 32 so as to abut the bottom surface of the head portion 9.

4 and 8A, a tapered portion 32a formed in the adapter 32 and a mounting hole 34 are vertically formed in the center of the holder main body 30, and the flange portion 33, The insertion hole 35 is formed to be orthogonal to the mounting hole 34. The adapter 32 is formed with a rotation preventing member fastening hole 38. [

At this time, a third female threaded portion 31a is formed on an upper portion of the mounting hole 34 located in the shank portion 31. [

The spindle 40 is installed through a mounting hole 34 formed in the center of the holder main body 30 and is screwed to a third female threaded portion 31a formed in the shank portion 31 at one end as shown in FIG. The first and second male threaded portions 41 and 42 are formed at opposite ends of the first male threaded portion 41 and the second male threaded portion 42, A driven screw gear 43 is integrally formed.

In the present invention, the first male screw portion 41 is a right screw and the second male screw portion 42 is a left screw.

This is for allowing the second male screw portion 42 to be locked to the first female screw portion 71 of the slider 70 by the clockwise co-rotation of the spindle 40 so that the slider 70 is raised.

 5 and 7, the driving screw gear 50 is engaged with the driven screw gear 43 of the spindle 40 to rotate the spindle 40. The flange portion 33 And is engaged with the driven screw gear 43 of the spindle 40. A tool insertion groove 51 is formed on one surface of the tool.

The cap 60 closes the inlet of the insertion hole 35 so that the driving screw gear 50 provided through the insertion hole 35 is not released. When the screw 60 is inserted into the insertion hole 35 formed in the holder body 30, And a tool insertion hole 61 for fitting a wrench (not shown) into the tool insertion groove 51 formed in the drive screw gear 50 is formed at the center as shown in FIG.

The insertion hole 35 formed to penetrate the flange portion 33 of the holder main body 30 has a large diameter portion 36 having a second internal thread portion 36a as shown in FIG. And a projecting portion 52 is formed at one side of the driving screw gear 50 so as to be assembled to the small diameter portion 37 so that the driving screw gear 50 is inserted through the large diameter portion 36, The projecting portion 52 is fitted into the small diameter portion 37 and the opening of the large diameter portion 36 is closed by the cap 60 screwed to the second female threaded portion 36a.

Only one drive screw gear 50 may be provided on the holder main body 30. However, in order to easily attach and detach a tool (not shown), the holder main body 30 is inserted into the holder main body 30 with a 180- A hole 35 is formed so that a driving screw gear 50 engaging with a driven screw gear 43 is provided in each of the insertion holes 35 and an inlet of the insertion hole 35 is closed by a cap 60 It is understandable that it can be done.

The slider 70 transfers the rotational motion of the spindle 40 to the vertical movement of the collet 90 and transmits the vertical movement to the first female screw portion 71 And an elongated elongated hole 72 is vertically formed through the side surface.

The rotation preventing member 80 prevents the rotation of the slider 70 to move up and down so that the slot 72 of the slider 70 passes through the rotation preventing member fastening hole 38 formed in the adapter 32, And the other end is inserted into an insertion groove 38a formed in the adapter 32. The rotation preventing member 80 is fixed by screwing the adapter 32 to the adapter 32 as shown in FIG.

The collet 90 is inserted through the collet holding hole 39 of the adapter 32 and is screwed to the slider 70 by holding the tool or releasing the holding state. Since the collet 90 is the same as the conventional collet, A detailed description thereof will be omitted.

Hereinafter, the operation of the present invention will be described.

8A, when the collet 90 fixed to the slider 70 is pulled out from the collet holding hole 39 of the adapter 32 as much as possible, the tapered portion 91 of the collet 90 is inserted into the adapter 32 The shank insertion hole 93 of the collet 90 having a plurality of cutouts 92 is maximally expanded by its own elastic force so that the tool can be replaced.

That is, when the spindle 40 is rotated by the counterclockwise rotation of the driving screw gear 50, the second male screw portion 42 screwed to the slider 70 is formed as a left screw opposite to the first male screw portion 41 The slider 70 moves downward with the collet 90 without being rotated by the rotation preventing member 80 because the slider 70 is pulled out of the second male screw portion 42. [

When the tool to be used is to be mounted on the collet 90 in such a state, the shank portion of the tool is pushed into the shank insertion hole 93 of the collet 90 in a state of holding the tool, The driving screw gear 50 must be rotated.

Hereinafter, a process in which the collet 90 holds the shank portion of the tool by rotating the driving screw gear 50 will be described.

The wrench is inserted into the tool insertion hole 61 of the cap 60 that has closed the entrance of the insertion hole 35 formed in the flange portion 33 and the tool insertion groove 51 formed in the drive screw gear 50, 8b, the driven screw gear 50 is engaged with the driven screw gear 43 so that the spindle 40 co-rotates.

When the spindle 40 rotates coaxially, the first male screw portion 71 formed on the slider 70 is screwed to the second male screw portion 42 of the left screw, which is opposite to the first male screw portion 41, 1 female screw portion 71 is locked with the second male screw portion 42 so that the slider 70 also moves together with the spindle 40.

At this time, the rotation preventing member 80 is fitted in the slot 72 formed in the slider 70, so that the slider 70 does not rotate and moves up along the mounting hole 34.

The tapered portion 91 formed at the lower portion of the outer circumferential surface of the collet 90 is moved upward by the tapered portion 91 of the collet 90, Is pressed by the tapered portion 32a formed on the inner surface of the adapter 32, so that the collet 90 holds the shank portion of the tool as shown in FIG. 8B.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention may be embodied with various changes and modifications without departing from the scope of the invention. will be.

It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive, the scope of the invention being described in the foregoing specification is defined by the appended claims, Ranges and equivalents thereof are to be construed as being included within the scope of the present invention.

30: holder body 31: shank portion
31a: third female thread portion 32: adapter
32a: tapered portion 33: flange portion
34: mounting hole 35: insertion hole
38: rotation preventing member fastening hole 39: collet holding hole
40: spindle 41: first male screw portion
42: second male screw portion 43: driven screw gear
50: drive screw gear 60: cap
70: Slider 72: Slot
80: anti-rotation member 90: collet
91: tapered portion 92: incision portion
93: Shank insertion hole

Claims (4)

And an adapter 32 having a tapered portion 32a corresponding to the tapered portion 91 of the collet 90 is formed at a lower portion thereof and an adapter 32 having a tapered portion 32a, A flange portion 33 is formed at a boundary between the shank portion 31 and the adapter 32 so as to abut the bottom surface of the head portion 9 so that the flange portion 33 is formed in the boundary portion between the shank portion 31 and the adapter 32, An integrally formed holder body 30 in which an insertion hole 35 communicating with the mounting hole 34 is formed at right angles to the adapter 32 and the rotation preventing member fastening hole 38 is formed in the adapter 32,
A first male screw part 41 built in through a mounting hole 34 formed in the center of the holder main body 30 and screwed into the shank part 31 is formed at one end and a first male screw part And a second male threaded portion 42 having a thread opposite to the first male threaded portion 41 and the second male threaded portion 42 is formed between the first and second male threaded portions 41 and 42. A spindle 40,
A driving screw gear 50 installed through the insertion hole 35 of the flange portion 33 formed in the holder main body 30 and engaged with the driven screw gear 43 of the spindle 40,
A cap 60 which is screwed to the insertion hole 35 formed in the holder main body 30 and closes the insertion portion of the driving screw gear 50 and has a tool insertion hole 61 formed at the center thereof,
And a first female threaded portion 71 inserted through a lower portion of the adapter 32 and screwed to the second male threaded portion 42 of the spindle 40, (70)
The slider 70 is provided so as to pass through the slot 72 of the slider 70 through the rotation preventing member fastening hole 38 formed in the adapter 32 of the holder main body 30 to suppress the rotation of the slider 70, And the collet 90 is inserted through the collet holding hole 39 of the adapter 32 and screwed to the slider 70. [ Holder for fastening.
The method according to claim 1,
The insertion hole 35 formed to penetrate the flange portion 33 of the holder main body 30 is formed of the large diameter portion 36 having the second female thread portion 36a and the small diameter portion 37, When the drive screw gear 50 is assembled through the large diameter portion 36 by forming the protrusion 52 assembled to the small diameter portion 37 on one side of the gear 50, And an inlet of the large diameter portion (36) is closed by a cap (60).
The method according to claim 1 or 2,
An insertion hole 35 is formed in the holder main body 30 so as to have a phase difference of 180 ° so that a drive screw gear 50 is fitted to each of the insertion holes 35 to engage with the driven screw gear 43, 35) is closed by a cap (60).
The method according to claim 1,
And a tool insertion groove (51) is formed on one surface of the driving screw gear (50).

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