JP6744465B1 - Tool holder cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique for cleaning a flanged taper shank portion of a tool holder. A tool holder cleaner includes a flange polishing member 31 that contacts a flat flange surface 113 of a flanged tapered shank portion 110, a taper polishing member 41 that contacts a tapered surface 114 of a flanged tapered shank portion 110, and a flat flange member. The flange adjusting portion 38 for adjusting the relative position of the flange polishing member 31 with respect to the surface 113, the taper adjusting portion 48 for adjusting the relative position of the taper polishing member 41 with respect to the tapered surface 114, and the flange polishing member 31 with the flange flat surface 113. The flange pressing portion 36 that presses the tapered polishing member 41 against the tapered surface 114, the tool holder holding portion 21 that rotatably holds the tool holder 100, and the tapered polishing member 41 that contacts the tapered surface 114. And a taper moving portion 49 that moves while being corroded. [Selection diagram] Figure 1

Description

The present invention relates to a device for servicing a tool holder.

Conventionally, a tool holder described in Patent Document 1 is known as a tool holder. The tool holder includes a standardized tapered shank portion with a flange (shortened to simply a shank portion) at its end. The shank portion is drawn into a standardized tapered hole of a main shaft (not shown) and chucked. In chucking, the tapered surface of the shank portion abuts on the wall surface of the tapered hole of the spindle, and the tool holder is positioned coaxially with the spindle. At the same time, the flat surface of the flange of the shank portion comes into surface contact with the tip end surface of the spindle, whereby the tool holder is constrained on the spindle by two surfaces and stably fixed.

Japanese Patent Laid-Open No. 05-285715

Since the tool holder is made of metal, rust may occur on the tapered surface of the shank or the flat surface of the flange. In addition, dirt may firmly adhere to the tapered surface or the flat surface of the flange. Then, when the shank portion is pulled into the spindle, the tool holder is tilted and fixed, which may adversely affect the precision.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a technique for cleaning a tapered shank portion with a flange of a tool holder.

For this purpose, a tool holder cleaner according to the present invention is an instrument for cleaning a flanged taper shank portion provided in an end region of a tool holder, and a flange polishing member that comes into contact with a flange flat surface of the flanged taper shank portion, A taper polishing member that contacts the tapered surface of the tapered shank portion with a flange, a flange adjustment unit that adjusts the relative position of the flange polishing member to the flat surface of the flange, and a taper adjustment that adjusts the relative position of the taper polishing member to the tapered surface. Section, a flange pressing portion that presses the flange polishing member against the flat surface of the flange, a taper pressing portion that presses the taper polishing member against the tapered surface, and a tool holder holding portion that holds the tool holder rotatably around the axis of the tool holder. And a taper moving portion for relatively moving the taper polishing member while corroding the taper surface between the root side and the end side of the taper shank portion with a flange.

According to the present invention, the tool holder holding portion rotates the tool holder, and the flange polishing member is pressed against the flat flange surface of the flanged taper shank portion. This makes it possible to remove rust and dirt attached to the flat surface of the flange. The shapes of the flange polishing member and the taper polishing member are not particularly limited. The relative position of the flange polishing member with respect to the flange flat surface includes the angle of the flange polishing member. The relative position of the tapered polishing member with respect to the tapered surface includes the angle of the tapered polishing member. The taper moving portion reciprocates the taper polishing member along the taper surface from the root to the end of the flanged taper shank portion and then from the end to the root.

Drive keyways are formed at two locations in the circumferential direction of the flange portion. Since the drive key groove is connected to the flat surface of the flange, the flat surface of the flange is cut out at two locations in the circumferential direction. As one aspect of the present invention, a flange polishing member includes a sliding contact surface that is in sliding contact with a flange flat surface with a dimension larger than a groove width of a drive key groove of a tapered shank portion with a flange, and chamfers extending on both sides of the sliding contact surface. And a department. According to this aspect, the chamfered portion of the flange polishing member contacts the drive key groove and the corner portion of the flange flat surface, so that the flange polishing member can easily get over the drive key groove and smoothly orbit the flange flat surface. You can

As one aspect of the present invention, the tool holder cleaner simultaneously presses the flange pressing portion against the flat surface of the flange polishing member and the taper pressing portion against the tapered surface of the tapered polishing member. Alternatively, as another aspect of the present invention, the tool holder cleaner performs these pressings separately.

As one aspect of the present invention, the tool holder cleaner simultaneously executes the rotation of the tool holder by the tool holder holding portion and the relative movement of the taper polishing member by the taper moving portion. Alternatively, as another aspect of the present invention, the tool holder cleaner separately performs these relative movements.

As one aspect of the present invention, the tool holder holding portion holds the tool holder by at least one of a draw bolt hole formed at an end of the flanged taper shank portion and a tool holding portion provided at a tip of the tool holder. Alternatively, as another aspect of the present invention, the tool holder cleaner holds the tool holder only by one of the draw bolt hole and the tool grip.

The flange polishing member slides on the flat surface of the flange while relatively rotating around the axis of the tool shank and rides over the drive key groove. At this time, one end of the flange polishing member in the circumferential direction is not in contact with the flange flat surface, enters the drive key groove, and the flange polishing member is tilted. May collide with. Therefore, as a preferable aspect of the present invention, the flange pressing portion includes a parallel holding mechanism that holds the flange polishing member in a posture parallel to the flat surface of the flange. According to this aspect, the flange polishing member does not tilt when overriding the drive key groove. Therefore, the flange polishing member can ride over the drive key groove while being held in a parallel posture and transfer to the next flat flange surface in the circumferential direction.

As one aspect of the present invention, the flange pressing portion is inserted into a bracket arranged in parallel with the flat surface of the flange, the tip thereof is connected in parallel with the rear surface of the flange polishing member, and the central region is inserted into a through hole provided in the bracket. A plurality of rods having ends projecting from the through holes, a plurality of first springs arranged along the tip end regions of the rods and contracted between the flange polishing member and the bracket, and a rear end region of each rod. It has a plurality of second springs respectively arranged and contracted between the rear end of the rod and the bracket. According to this aspect, the plurality of rods are equally projected from the bracket due to the balance between the first spring that presses the flange polishing member against the flat surface of the flange and the second spring that biases the flange polishing member in the direction away from the flat surface of the flange. The flange polishing member is maintained in a posture parallel to the flat surface of the flange. Further, even if the protrusion amount of one rod increases more than the other rods and the flange polishing member tilts, the pushing force of the first spring provided on the rod with the increased protrusion amount is weakened and the returning force of the second spring is reduced. growing. Therefore, the protruding amounts of the plurality of rods are returned to their original values, and the flange polishing member returns to the parallel posture.

As described above, according to the present invention, the flanged taper shank portion can be cleaned by polishing. Therefore, the tool holder can be properly maintained.

It is a typical side view showing signs that a taper shank part with a flange is cleaned with a tool holder cleaner which becomes one embodiment of the present invention. It is a typical side view showing signs that a tool holder cleaner of the embodiment gets over a drive key slot. It is a front view which shows the specific example of the flange pressing part of this invention. FIG. 6 is a virtual view showing a state where the flange polishing member of the specific example is inclined. It is a front view showing the state where the flange grinding member of the example is held in parallel.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic side view showing a manner of cleaning a flanged taper shank portion of a tool holder with a tool holder cleaner according to an embodiment of the present invention. First, the tool holder 100 to be cleaned will be described. The tool holder 100 is a well-known tool holder including a tool grip portion 101 on the tip side and a taper shank portion 110 with a flange on the end side. The tool gripper 101 detachably grips a tool (mainly a blade) not shown. The flanged taper shank portion 110 is mounted on a spindle of a machine tool (not shown). The tool gripper 101 is variously arranged according to the tool to be gripped. On the other hand, the flanged taper shank portion 110 is standardized and is a well-known one having a common shape and size.

The flanged taper shank portion 110 has an annular flange portion 111 that projects to the outer diameter side of the tool holder 100, and a taper portion 112 that tapers from the center of the flange portion 111 toward the end.

The flanged taper shank portion 110 of the tool holder 100 is mounted on a spindle (not shown) of a machine tool. In such mounting, the tapered portion 112 is drawn into the tapered hole of the spindle (not shown) of the machine tool, the inner peripheral surface of the tapered hole contacts the tapered surface of the tapered portion 112, and the flange on the end side of the flange portion 111 It is realized by the flat surface 113 coming into surface contact with the tip end surface of the spindle.

Drive key grooves 115 are formed at two locations in the circumferential direction of the flange portion 111. Since the drive key groove 115 is connected to the flange flat surface 113, the flange flat surface 113 is cut out at two locations in the circumferential direction. Further, a V-shaped groove 117 is formed on the flange portion 111 over the entire circumference. The V-shaped groove 117 is connected to the drive key groove 115. The drive key groove 115 and the V-shaped groove 117 are also the flanged taper shank portion 110, and are formed to have standardized dimensions.

The tool holder cleaner according to the present embodiment includes a base portion 11, tool holder holding portions 21a and 21b, a flange polishing member 31, a flange pressing portion 36, a flange adjusting portion 38, a taper polishing member 41, and a taper pressing portion 46. A taper adjusting part 48 and a taper moving part 49. Further, the tool holder cleaner has means for rotating the tool holder 100 with respect to the flange polishing member 31 and/or the taper polishing member 41, and means for moving the taper polishing member 41 along the tapered surface 114.

The tool holder holding portions 21a and 21b are supported by the base portion 11 and support the tool holder 100. The tool holder holding portion 21a is connected to the tool holder 100 by using a tool holding hole formed at the center of the tip of the tool gripping portion 101. The tool holder holding portion 21b is a bolt-shaped connecting pull bolt, and is connected to the tool holder 100 by being screwed into a draw bolt hole 118 extending from the end of the flanged taper shank portion 110 toward the root.

Further, the tool holder holding portion 21b is driven by a rotation mechanism (not shown), and the tool holder 100 can be rotated about the axis O of the tool holder 100. That is, the tool holder holding portion 21b is means for rotating the tool holder 100 with respect to the flange polishing member 31 and/or the taper polishing member 41, and holds the tool holder 100 rotatably about the axis O. ..

In addition, the tool holder cleaner may further include a tool holder support portion between the tool holder holding portions 21a and 21b as a modification not shown. When the tool gripping portion 101 is several times longer than the flanged taper shank portion 110, that is, when the axial length of the tool holder 100 is longer than usual, the tool holder supporting portion allows the tool gripping portion 101 to rotate while allowing the tool to be rotated. The grip 101 is supported from below. This prevents the tool holder 100 from hanging between the tip and the end. The tool holder support is, for example, a support having one or more rollers.

Alternatively, as a modified example not shown, the tool holder cleaner may not include the tool holder holding portion 21a, but may include only the tool holder holding portion 21b. When the tool gripping portion 101 is shorter than the flanged taper shank portion 110, that is, when the axial length of the tool holder 100 is shorter than usual, the tool holder 100 is held only by the tool holder holding portion 21b (connecting pull bolt).

The flange polishing member 31 is arranged on the distal side of the flange portion 111 of the flanged taper shank portion 110, and contacts the annular flange flat surface 113 of the flange portion 111. The front end sliding contact surface 31p of the flange polishing member 31 may be a flat surface as shown in FIG. 1, or may be a curved surface or an uneven surface.

The flange pressing portion 36 is provided on the flange adjusting portion 38 and supports the flange polishing member 31. Further, the flange pressing portion 36 is expandable and contractable, and presses the flange polishing member 31 against the flange flat surface 113 as shown by an arrow in FIG. The pressing direction is, for example, perpendicular to the flat surface 113 of the flange, that is, parallel to the axis O. The pushing force is output by an elastic body such as a spring.

The flange adjusting unit 38 is supported by the base 11 and adjusts the position and/or angle of the flange polishing member 31 with respect to the flange flat surface 113. The position adjustment is to adjust the relative positions of the flange flat surface 113 and the flange polishing member 31, and is realized by sliding between the flange adjustment portion 38 and the base portion 11. The angle adjustment is also for adjusting the relative angle between the flange flat surface 113 and the flange polishing member 31, and is realized by rotating either one of the flange adjusting portion 38 and the tool holder 100 with respect to the other. It These position adjustment and angle adjustment are realized by, for example, a rail, a slide member that slides on the rail, and a rotating shaft.

The taper polishing member 41 is arranged on the outer diameter side of the taper portion 112 of the flanged taper shank portion 110, and contacts the taper surface 114 of the taper portion 112. The tip sliding contact surface 41p of the taper polishing member 41 may be a flat surface as shown in FIG. 1, or a concave curved surface corresponding to the tapered surface 114, or a convex curved surface or an uneven surface. It may be.

The taper pressing portion 46 is provided on the taper adjusting portion 48 and supports the taper polishing member 41. Further, the taper pressing portion 46 is expandable/contractible in a direction orthogonal to the taper surface 114 on a plane including the axis O as shown in FIG. 1, and the taper polishing member 41 is formed on the taper surface 114 as shown by an arrow in FIG. Press down. The pressing direction is, for example, perpendicular to the tapered surface 114. The pushing force is output by an elastic body such as a spring.

The taper adjuster 48 is supported by the base 11 and adjusts the position and/or angle of the taper polishing member 41 with respect to the taper surface 114. The position adjustment is to adjust the relative positions of the tapered surface 114 and the taper polishing member 41, and is realized by sliding between the taper adjusting portion 48 and the base 11. The angle adjustment is also to adjust the relative angle between the taper surface 114 and the taper polishing member 41, and is realized by rotating one of the taper adjusting portion 48 and the tool holder 100 with respect to the other. ..

A taper moving portion 49 is provided in the taper adjusting portion 48 and/or the base 11. The taper moving portion 49 is a guide member such as a linear rail or a groove, and is adjusted so as to extend from the root of the taper surface 114 to the end thereof in parallel with the generatrix of the taper surface 114. That is, the taper moving portion 49 is means for moving the taper polishing member 41 along the taper surface 114, and the root and the end of the flanged taper shank portion 110 while the taper polishing member 41 is corroded to the taper surface 114. Between them is relatively moved in the generatrix direction of the tapered surface 114.

The flange polishing member 31 and the taper polishing member 41 are pressed at right angles to the surface to be cleaned by the flange pressing portion 36 and the taper pressing portion 46, respectively. The materials of the flange polishing member 31 and the taper polishing member 41 are appropriately selected so as to remove rust and dirt but not damage the flanged taper shank portion 110. As a specific example, such a material is rubber including abrasive grains and having elasticity, and is gradually worn by sliding contact with the surface to be cleaned.

Referring to FIG. 2, chamfered portions 31q and 31q are formed on both of the flange polishing member 31 with respect to one and the other in the circumferential direction of the flange portion 111. The chamfered portions 31q, 31q are respectively continuous with the tip sliding contact surface 31p occupying the central portion.

The operation of this embodiment will be described.

The position of the axis O is defined by the tool holder holding portions 21a and 21b that support the tool holder 100. The flange adjuster 38 and the taper adjuster 48 properly adjust the arrangement of the flange polishing member 31 and the taper polishing member 41 with respect to the tool holder 100.

When the tool holder 100 is rotated by the tool holder holding portion 21b, the flange polishing member 31 and the taper polishing member 41 repeatedly come into sliding contact with the flange flat surface 113 and the taper surface 114, respectively, and polish the flange flat surface 113 and the taper surface 114, respectively. Dirt such as rust adhering to the flat surface 113 of the flange and the tapered surface 114 are removed. This cleans the surface of the flanged taper shank portion 110.

The taper moving portion 49 is adjusted so as to extend in conformity with the inclination angle of the taper surface 114. By the taper moving part 49, the taper polishing member 41 makes uniform contact from the root to the end of the taper part 112 and reciprocates. As a result, the entire tapered surface 114 is polished.

The circumferential dimension of the tip sliding contact surface 31p is larger than the groove width of the drive key groove 115. As a result, the flange polishing member 31 can stably climb over the drive key groove 115. Further, as shown in FIG. 2, even if the flange polishing member 31 is temporarily inclined when passing through the drive key groove 115, the chamfered portion 31q comes into contact with the corners of the drive key groove 115 and the flange flat surface 113, The flange polishing member 31 can easily get over the drive key groove 115.

The tool holder cleaner of the present embodiment is an instrument for cleaning the flanged taper shank portion 110 of the tool holder 100, and includes a flange polishing member 31 that comes into contact with the flange flat surface 113 of the flanged taper shank portion 110, and a flanged taper taper. A taper polishing member 41 that contacts the tapered surface 114 of the shank portion 110, a flange pressing portion 36 that presses the flange polishing member 31 against the flange flat surface 113, a taper pressing portion 46 that presses the taper polishing member 41 against the tapered surface 114, and a tool. Tool holder holding portions 21a and 21b that hold the holder 100 rotatably around the axis O of the tool holder. As a result, rust and the like adhering to the flange flat surface 113 is removed, and the flanged tapered shank portion 110 is accurately mounted on the spindle of the machine tool. The same applies to the tapered surface 114.

Further, as shown in FIG. 2, the flange polishing member 31 of the present embodiment has a sliding contact surface 31p which is in sliding contact with the flange flat surface 113 and has a size larger than the groove width of the drive key groove 115 of the tapered shank portion 110 with a flange. It has chamfered portions 31q and 31q extending on both sides of the contact surface 31p. As a result, the flange polishing member 31 can easily get over the drive key groove 115 during polishing of the flange flat surface 113.

Next, a specific example of the flange pressing portion of the present invention will be described with reference to the drawings. FIG. 3 is a front view showing a specific example of the flange pressing portion. FIG. 4 is a virtual view showing a state where the flange polishing member of the specific example is inclined. FIG. 5 is a front view showing a state in which the flange polishing member of the specific example is held in a parallel state. The flange pressing portion 36 includes a parallel holding mechanism 37 that holds the flange polishing member in a posture parallel to the flat surface of the flange.

The flange pressing portion 36 including the parallel holding mechanism 37 is arranged along the bracket 51 arranged in parallel with the flange flat surface 113, the plurality of rods 52 arranged in parallel, and the tip regions of the rods 52, respectively. The plurality of first springs 53 and the plurality of second springs 54 arranged along the rear end region of each rod 52 are provided.

The bracket 51 is, for example, a plate material such as a strip plate, and is arranged on the back surface side of the flange polishing member 31. The base portion 51n of the bracket 51 is supported by the flange adjusting portion 38. A plurality of through holes 55 are formed in the tip region of the bracket 51. The through hole 55 penetrates the bracket 51 and extends in a direction perpendicular to the flange flat surface 113.

The plurality of rods 52 are arranged at intervals in the circumferential direction of the flange flat surface 113 and extend in the direction perpendicular to the flange flat surface 113. This specific example includes two rods 52, 52. The tip 52t of each rod 52 is coupled to a washer 32 provided on the back surface of the flange polishing member 31. The central region of each rod 52 is inserted into a through hole 55 provided in the bracket 51. A large diameter portion 56 is provided at the rear end of the rod 52 protruding rearward (on the side opposite to the flange polishing member 31) from the through hole 55. All rods 52 are the same length.

The large diameter portion 56 and the rod 52 are, for example, a head portion and a shaft portion of a bolt. The tip 52t of the rod 52 projects forward (from the flange polishing member 31 side) from the through hole 55. Then, a male screw formed on the outer periphery of the tip end portion of the rod 52 is screwed into a female screw hole provided in the washer 32, and each rod 52 is fixed to the washer 32. Alternatively, each rod 52 is directionally connected to the washer 32.

Each first spring 53 is, for example, a spring coil, and is provided between the washer 32 of the flange polishing member 31 and the bracket 51 in a contracted manner. The tip region of each rod 52 is passed through the center hole of each first spring 53. All the first springs 53 have the same length and the same spring constant.

Each second spring 54 is, for example, a spring coil, and is provided between the large diameter portion 56 at the rear end of the rod 52 and the bracket. The rear end region of each rod 52 is passed through the center hole of each second spring 54. All the second springs 54 have the same length and the same spring constant.

The first spring 53 is a pressing spring that advances the flange polishing member 31 and presses it against the flange flat surface 113. The tip region of the rod 52 and the first spring 53 are main components of the flange pressing portion 36.

The second spring 54 is a return spring that retracts the flange polishing member 31 to separate it from the flange flat surface 113. The rear end region of the rod 52 and the second spring 54 are the main parts of the parallel holding mechanism 37.

An adjusting member 57 and an adjusting screw 58 for adjusting the pushing force of the first spring 53 and the returning force of the second spring 54 are attached to the rear surface side of the bracket 51. The adjusting member 57 is, for example, a plate material such as a strip plate, and through holes 59 are formed at both ends thereof. The rod 52 is passed through each through hole 59. A female screw hole 57f is formed in the center of the adjusting member 57, and the adjusting screw 58 is screwed into the female screw hole 57f. The tip of the adjusting screw 58 contacts the back surface of the bracket 51. By tightening or loosening the adjusting screw 58, the distance between the adjusting member 57 and the bracket 51 changes. Along with this, the second spring 54 expands and contracts, and the pushing force of the first spring 53 and the returning force of the second spring 54 are adjusted.

The operation of the specific example shown in FIG. 3 will be described.

At the original position of the flange polishing member 31 shown in FIG. 3, the pressing force of the first spring 53 and the returning force of the second spring 54 forming each pair are balanced.

As shown in FIG. 5, during sliding contact with the flange flat surface 113, the flange polishing member 31 is pushed in by the flange flat surface 113, each rod 52 retracts by the same length as shown by the arrow, and all the first springs. 53 shrinks the same amount and applies a pressing force to the flange polishing member 31 evenly. At the same time, the respective second springs 54 are extended and the return force is reduced.

The flange polishing member 31 is held in a parallel posture by the parallel holding mechanism 37. Even when one end 33 in the circumferential direction of the flange polishing member 31 passes through the drive key groove 115 and the other end 34 in the circumferential direction of the flange polishing member 31 contacts the flat flange surface 113, the flange polishing member 31 has the flat flange surface. Do not lean against 113.

For comparison, FIG. 4 shows a state in which the flange polishing member 31 is forcibly tilted by applying an external force. In FIG. 4, when the circumferential one end 33 of the flange polishing member 31 enters the drive key groove 115, the rod 52 coupled to the circumferential one end 33 advances, and the second spring 54 provided in the rear end region of the rod 52. Contracts and gives a restoring force to the rod 52. Therefore, the flange polishing member 31 does not tilt unless it is subjected to a non-uniform external force. At the same time, the first spring 53 extends and the pushing force decreases.

The flange polishing member 31 slides in contact with the flange flat surface 113 while relatively rotating around the axis of the flange portion 111, and rides over the drive key groove 115. At this time, as shown in FIG. 5, even if one end 33 of the flange polishing member 31 in the circumferential direction floats, the flange polishing member 31 does not tilt. Therefore, the flange polishing member 31 can ride over the drive key groove 115 while being held in a parallel posture, and transfer to the next flange flat surface 113 in the circumferential direction.

Although the embodiments of the present invention have been described with reference to the drawings, the present invention is not limited to the illustrated embodiments. Various modifications and variations can be made to the illustrated embodiment within the same or equivalent scope of the present invention. For example, a part of the configuration may be extracted from the above-described one embodiment, another part of the configuration may be extracted from the other embodiment described above, and the extracted configurations may be combined.

The present invention is advantageously used in the field of machine tools.

11 bases, 21 tool holder holding parts, 31 flange polishing members,
31p sliding contact surface, 31q chamfered portion, 36 flange pressing portion,
41 taper polishing member, 46 taper pressing part, O axis line.

Claims (7)

A device for cleaning a flanged taper shank portion provided in a distal end region of a tool holder,
A flange polishing member that contacts the flange flat surface of the flanged taper shank portion,
A taper polishing member that contacts the taper surface of the taper shank portion with the flange,
A flange adjusting portion for adjusting the relative position of the flange polishing member to the flange flat surface,
A taper adjusting portion for adjusting the relative position of the taper polishing member with respect to the taper surface,
A flange pressing portion that presses the flange polishing member against the flange flat surface,
A taper pressing portion for pressing the taper polishing member against the taper surface,
A tool holder holding unit that holds the tool holder rotatably around the axis of the tool holder,
A tool holder cleaner comprising: a taper moving portion that relatively moves the taper polishing member between the root side and the end side of the taper shank portion with a flange while being in contact with the taper surface. The flange polishing member has a sliding contact surface that is in sliding contact with the flange flat surface with a dimension larger than the groove width of the drive key groove of the flanged taper shank portion, and chamfered portions extending on both sides of the sliding contact surface. The tool holder cleaner according to claim 1, further comprising: The tool according to claim 1, wherein the pressing of the flange polishing member against the flat surface of the flange by the flange pressing portion and the pressing of the taper polishing member by the taper pressing portion against the tapered surface are simultaneously performed. Holder cleaner. The tool holder cleaner according to claim 1, wherein the rotation of the tool holder by the tool holder holding unit and the relative movement of the taper polishing member by the taper moving unit are simultaneously performed. The tool holder holding part holds the tool holder by at least one of a draw bolt hole formed at an end of the flanged taper shank part and a tool gripping part provided at a tip of the tool holder, The tool holder cleaner according to any one of 1 to 4. The tool holder cleaner according to claim 1, wherein the flange pressing portion includes a parallel holding mechanism that holds the flange polishing member in a posture parallel to the flat surface of the flange. The flange pressing portion,
A bracket arranged at a distance from the back surface of the flange polishing member,
A plurality of rods that are arranged in parallel, the tips are coupled to the back surface of the flange polishing member, the central region is inserted into the through hole provided in the bracket, and the rear end is protruded from the through hole;
A plurality of first springs that are respectively arranged along the tip region of each of the rods, and are compressed between the flange polishing member and the bracket;
7. The tool holder cleaner according to claim 6, further comprising a plurality of second springs arranged along the rear end region of each rod and contracted between the rear end of the rod and the bracket.