KR102094909B1 - Tool Holder For Machine Tools - Google Patents

Abstract

The present invention relates to a tool holder for a machine tool, the through-hole is formed through both ends in the longitudinal direction, the main body is formed at one end of the through-hole with a larger diameter larger than the inner diameter of the through-hole, and one end of the through-hole One end is inserted into the other end of the through-hole, and one end protrudes, and the sleeve is formed on the outer circumference of the other end so that the other end is caught in the large diameter portion. It is characterized in that it comprises an elastic body support member fitted to the elastic body to prevent separation. Therefore, the elastic body fitted to the inner periphery of the through hole is supported so that the sleeve stably flows due to external force, thereby preventing the thread from being damaged when forming the sleeve and the thread.

Description

Tool holder for machine tools {Tool Holder For Machine Tools}

The present invention relates to a tool holder for a machine tool, and more particularly, to a tool holder for a machine tool that can be mounted on a machine tool for automatically processing an object by combining tools.

In general, a machine tool refers to a machine that forms a necessary shape by processing a material such as metal while cutting chips, such as cutting and grinding, which are the basis of a machine tool by mounting a tool.

The tool used in the machine tool is mounted by a chuck so that it can be mounted on a spindle. To mount the tool on the chuck, a tool holder for mounting various tools is provided.

The tool holder has various shapes / forms according to the shape or mounting method of the chuck, and various structures have been developed to mount the tool robustly and conveniently.

On the other hand, in order to form a thread in the hole formed in the workpiece, a tap (tool) is coupled to the tool holder, and after installing the chuck in which the tool holder is coupled to the spindle of the machine tool, the tab is rotated to form a thread in the hole of the workpiece. .

Here, in the process of separating the tool from the object after the formation of the thread is completed, the rotational speed of the spindle and the reverse value of the Z axis are interlocked so that the thread is not damaged.

However, due to the synchronization error of the machine tool, the spindle may not be rotated for more than a certain time. At this time, a stress is generated between the tab and the thread, and a load is applied to the tab and the thread, resulting in a problem that the thread is broken. In addition, if this happens continuously, there is a problem in that the tap is also damaged, resulting in a decrease in precision during machining of the thread.

In order to solve this problem, a function for compensating for a synchronizing error has been added to a chuck for mounting a tool holder to which a tool (tap) is coupled, and this is called a synchro tap chuck.

However, as described above, a general chuck without a function for compensating for the synchronization error is still in use in industrial fields. As described above, a function for compensating for the synchronization error was also required for a tool holder mounted and used on a general chuck without a function for compensating for the synchronization error.

Republic of Korea Patent Publication 10-2013-0110449 (2013.10.10.) Republic of Korea Patent Publication No. 10-2005-0034697 (2005.04.14.)

The present invention, by adding a function for compensating the synchronous error in the general chuck, can prevent the thread from being broken when machining the thread in the hole of the object, and prevent the damage of the tool to extend the life of the machine tool The purpose is to provide a holder.

In addition, it is an object to provide a tool holder for a machine tool to support the elastic body when excessive external force occurs so that the sleeve can stably flow.

The present invention for achieving the above object is formed with a through hole penetrating both ends in the longitudinal direction, the main body is formed at one end of the through hole with a larger diameter larger than the inner diameter of the through hole, and one end of the through hole One end is inserted into the other end of the through-hole, and one end protrudes, and the sleeve is formed on the outer periphery of the other end so that the other end is caught in the large diameter part. It is characterized by comprising at least one elastic body that absorbs and reduces the load, and an elastic body support member coupled to one end of the through-hole to pressurize and support the elastic body to adjust the elasticity of the elastic body.

In addition, the elastic body support member includes a ring-shaped coupling portion that is screwed to the inner circumference of one end of the through hole in which the enlarged portion is formed, and a protrusion that protrudes from the coupling portion to the inside of the through hole to support the elastic body. Can be configured.

In addition, at least two or more fitting grooves into which a tool for rotating the elastic support member is fitted may be formed on the surface facing outward from the coupling part for screwing the elastic support member.

In addition, at least one or more engaging grooves are formed on the inner circumferential surface of the through-hole of the main body and the outer circumferential surface of the sleeve so as to face each other, and at least one engaging member is accommodated in the engaging space, and the sleeve at the through hole of the main body It can be configured to prevent the rotation.

In addition, the one end of the sleeve protruding to the other end of the main body is detachably coupled by an adapter coupling means and may further include an adapter for coupling a tool.

In addition, the adapter coupling means, the adapter coupling portion formed with a step smaller than the outer diameter of the sleeve so that the adapter is fitted to the protruding end of the sleeve and the adapter coupling portion of the sleeve is formed on one end of the adapter to fit A coupling groove for the sleeve, a coupling groove formed on the outer circumference of the adapter coupling portion, a coupling hole communicating with the coupling hole for the sleeve at the outer circumference of the adapter, and a coupling hole communicating with the coupling groove, and a coupling hole and a coupling groove It may be configured to include a member.

In addition, the sleeve is configured to be divided into two parts based on the protrusion, and is formed in a pipe shape, one end of which penetrates through the through hole and protrudes to one end of the main body, and the other end of the sleeve is a first body accommodated in the through hole, A coupling protrusion that is screwed to the inside of the other end of the sleeve first body may be formed to extend from one end in the longitudinal direction, and may include a sleeve second body where the protrusion is formed on one outer circumference.

In addition, the sleeve is configured to be divided into two parts based on the protrusion, but one end of the pipe is penetrated through the through-hole to protrude to one end of the main body, and the other end is accommodated in the through-hole, but the outer diameter of the sleeve is smaller than the outer diameter of the sleeve. It may be configured to include a sleeve first body is formed of the connecting groove of the sleeve, the sleeve is coupled to the outer circumference of the connecting groove of the first body, the sleeve is formed on the outer circumference of the second body.

According to the present invention, by providing an elastic body support member at the end of the through-hole on the side where the elastic body is fitted, the elastic body is deformed due to impact so that the flow of the sleeve can be stably made so that the thread is not damaged during machining of the thread. can do.

In addition, by constructing a sleeve composed of one component into two components, defects can be reduced during production, thereby reducing costs and facilitating assembly of the elastic body.

1 is an exploded perspective view showing a tool holder for a machine tool according to a first embodiment of the present invention.
Figure 2 is a cross-sectional view showing the tool holder for the machine tool of Figure 1;
3 is a cross-sectional view showing a state in which a gap is generated between the ball stopper and the adapter before use of the tool in the tool holder of FIG. 1, before deformation of the elastic body.
4 is a cross-sectional view showing a state in which there is no gap between the ball stopper and the adapter during use of the tool in the tool holder of FIG. 1, and the elastic body is deformed.
5 is a cross-sectional view of a main portion showing a state before and after deformation of the elastic body in FIGS. 3 and 4.
Figure 6 is a perspective view showing another form of the sleeve in the tool holder for a machine tool according to an embodiment of the present invention.
7 is a perspective view showing another form of a sleeve in a tool holder for a machine tool according to an embodiment of the present invention.

The terms or words used in the specification and claims are not to be construed as being limited to a conventional or lexical meaning, but the inventors may properly define the concept of terms in order to best describe their own invention in the best way. It can be interpreted as meaning and concept in accordance with the technical idea of the present invention based on the principle of 'can be.'

In addition, the configuration shown in the embodiments and drawings described in this specification are only exemplary embodiments of the present invention, and do not represent all of the technical spirit of the present invention, and can replace them at the time of application. It should be understood that there may be various equivalents and variations.

1 is an exploded perspective view showing a tool holder for a machine tool according to a first embodiment of the present invention, FIG. 2 is a sectional view showing a tool holder for a machine tool in FIG. 1, and FIG. 3 is a tool holder in FIG. 1 Before use of the tool, a gap is generated between the ball stopper and the adapter, and is a cross-sectional view showing the state before deformation of the elastic body. 4 is a cross-sectional view showing a state in which there is no gap between the ball stopper and the adapter during use of the tool in the tool holder of FIG. 1, and the elastic body is deformed, and FIG. 5 is a state before and after deformation of the elastic body in FIGS. 3 and 4 It is a sectional view of the principal parts showing in detail.

1 to 5, the tool holder for a machine tool according to an embodiment of the present invention is sandwiched between the main body 110 and the through hole 111 in which the through hole 111 is formed in the longitudinal direction. It comprises a sleeve 120 protruding to one end, an elastic body 130 fitted to the sleeve 120, and an elastic body support member 140 fitted to the through-hole 111 to support the elastic body 130.

The main body 110 is formed in a pipe shape, and through holes are formed through both ends in the longitudinal direction. At one end of the through-hole 111, a large-diameter portion 112 formed with an inner diameter larger than the inner diameter of the through-hole 111 is provided. Therefore, a locking jaw is provided at one end of the through hole 111 of the main body 110 by the large diameter portion 112. The main body 110 is configured to have a smaller outer diameter from one end to the other, as shown in the figure. Hereinafter, in the drawings, one end of each component and one side are referred to as being on the right side in the drawing, and the other end and the other side are referred to as being on the left side in the drawing.

The sleeve 120 may be formed in a pipe shape so that a tool (not shown) can be directly coupled or a tool can be coupled through a separate adapter 170 described later. The sleeve 120 is fitted through the through-hole 111 of the main body 110. Specifically, one end of the sleeve 120 is inserted into the other end of the through-hole 111 and protrudes through one end of the through-hole 111.

The outer circumference of the other end of the sleeve 120 is fitted to the large-diameter portion 112 of the through-hole 111, but a protrusion 121 is formed on the locking jaw so as not to fit into the through-hole 111. As a result, the other end of the sleeve 120 is located in the large diameter portion 112 of the through hole 111. The protruding portion 121 may be formed in one of semi-circular, triangular, and trapezoidal shapes.

On the other end of the sleeve 120, a support part protrudes from a part spaced apart from the protruding part 121. The support portion prevents the elastic body 130 to be described later surrounding one side (right side) of the protruding portion 121 from being moved toward one end of the sleeve 120.

One end portion of the sleeve 120 is formed with a coupling portion 125 to which the adapter 170 for fixing the tool is separately coupled. The coupling portion 125 of the sleeve 120 may be formed with a diameter smaller than the outer diameter of the sleeve 120.

The elastic body 130 is for absorbing and reducing the load generated between the tool and the object (the object to be processed), and is provided with at least one or more, but in one embodiment of the present invention, is composed of two to surround both sides of the protrusion.

The elastic body 130 is fitted into the sleeve 120 and coupled, and is provided on both sides of the protrusion 121. Accordingly, the elastic body 130 has an external impact between the locking jaw of the through-hole 111 and the protrusion 121 of the sleeve 120 and between the protrusion 121 of the sleeve 120 and the elastic support member 140 to be described later. When acting, it can be absorbed and buffered. That is, the elastic body 130 is deformed as shown in the lower figure of FIG. 5 when an external force acts on the sleeve 120, and is restored to its original state when the external force is removed.

That is, the elastic body 130 is configured such that the sleeve 120 is moved in the axial direction by an external force in the through hole 111 of the main body 110 while the object is being processed with the tool. Thread) to absorb and reduce the load.

Looking at this in more detail, when a load is generated between the tool and the thread (object), the elastic body 130 absorbs the load when the sleeve 120 is moved finely along the axial direction of the main body 110, thereby And the load between the threads can be reduced. Due to this, it is possible not only to prevent damage to the threads formed in the holes of the object, but also to reduce the life of the tool.

The elastic body 130 is formed into an O-ring so as to fit and fit on the outer circumference of the cylindrical sleeve 120. Here, the elastic body is shown as an example using a circular cross-section as shown in the drawing, it can be used to form a variety of shapes, such as square, pentagonal, triangular, 'c' shape.

The elastic body support member 140 is screwed to one end of the through hole 111. The elastic body support member 140 supports the elastic body 130 fitted in the sleeve 120 to adjust the elastic force of the elastic body 130.

The elastic body support member 140 is a ring-shaped coupling portion 141 screwed to the inner circumference of the other end of the through hole 111 in which the large diameter portion 112 is formed, and from the coupling portion 141 to the inside of the through hole 111 It is formed to protrude and comprises a support protrusion 142 for supporting the elastic body 130.

That is, a thread is formed at the other end of the through-hole 111, and a thread is formed at the outer circumference of the coupling portion 141 so that the coupling portion 141 is fixed to the other end of the through-hole 111 by screwing.

Thus, the coupling portion 141 can adjust the elastic force of the elastic body 130 supported by the support protrusion 142 by adjusting the amount of rotation of the coupling portion 141 when screwed to the inner circumferential surface of the through hole 111. It is.

That is, after the coupling portion 141 is screwed to the through-hole 111 of the main body 110, the coupling portion 141 is elastic in size (length) protruding outward from the end of the main body 110 ( It can be seen the elastic force of 130).

Here, when screwing the elastic support member 140 to the through hole 111, the length at which the engaging portion 141 protrudes to the end of the main body 110 may be applied differently depending on the tool mounted on the tool holder. You can. That is, when the elastic support member 140 is coupled to the through-hole 111 according to the tool mounted on the tool holder, the optimum length of the engaging portion 141 protruding to the end of the main body 110 is determined by many experiments. It is desirable to decide.

The elastic body support member 140 needs to use a separate tool to be coupled so that the engaging portion 141 does not protrude outward and is completely fitted into the through hole 111. That is, a plurality of fitting grooves 141a may be formed on the outer surface of the engaging portion 141, and a separate tool may be temporarily inserted into the fitting groove 141a to rotate the elastic support member 140.

The support protrusion 142 is fitted between the inner circumferential surface of the large diameter portion 112 of the main body 110 and the outer circumferential surface of the sleeve 120 to fit the outer circumferential surface of the sleeve 120 and supports the elastic body 130 surrounding the protrusion 121. .

Meanwhile, an anti-rotation means is provided between the main body 110 and the sleeve 120 to prevent the sleeve 120 fitted in the through hole 111 from rotating.

The rotation preventing means includes at least one locking groove 122 formed on the outer circumference of the sleeve 120 and another locking groove 122 formed on the inner circumferential surface of the through hole 111 but facing the locking groove 122. , It comprises a locking groove 122 of the sleeve 120 and at least one locking member 150 is fitted to the locking groove 122 of the through-hole 111.

The locking grooves 122 are formed on the outer circumferential surface of the sleeve 120 and the inner circumferential surface of the through hole 111, respectively, and are formed to face each other to form a locking space accommodating the locking member 150. The locking groove 122 may be formed in one or more along the outer circumference of the sleeve 120. The locking groove 122 formed on the inner circumferential surface of the through hole 111 may also be formed in one or more along the inner circumference of the through hole 111, and may be formed in the same number as the locking groove 122 of the sleeve 120. have. Therefore, the locking space in which the locking member 150 is accommodated is also composed of one or more, and may be formed in the same number as the locking groove 122.

The locking member 150 is composed of at least one so as to be accommodated in the locking space. Therefore, when a plurality of locking spaces are formed, the locking member 150 may be configured in multiple numbers. The locking member 150 is formed of a ball member (steel ball) so that it can be easily moved in the locking space.

The locking groove 122 is formed as a long groove in the longitudinal direction of the main body 110. 4 and 5, when the sleeve 120 is moved from the through-hole 111 to the opposite side of the adapter 170, the locking member 150 also moves from the locking groove 122. It is to make it possible. That is, the length of the engaging groove 122 may be formed larger than the diameter of the engaging member 150 so that the engaging member 150 can be moved in the engaging groove 122. In addition, when the plurality of engaging members 150 are accommodated in one engaging groove 122, the length of the engaging groove 122 may be formed larger than the length of the plurality of engaging members 150 combined.

The rotation preventing means further includes a ball stopper 160 that is inserted into and coupled to the through hole 111 to prevent the locking member 150 fitted in the locking space from falling out.

On the other hand, the tool holder according to an embodiment of the present invention is configured to further include an adapter 170 that is detachably coupled to the end of the sleeve 120 in order to indirectly couple the tool to the sleeve 120 instead of directly. .

Adapter 170 is detachably coupled to the end of the sleeve 120 protruding to one end of the main body 110. That is, the adapter 170 is arranged in the same direction as the longitudinal direction of the main body 110 in a bar shape and is coupled to the protruding end of the sleeve 120.

The adapter 170 can be coupled to the sleeve 120 while being detachably coupled to the tool. Therefore, a sleeve engaging groove 171 is formed at the other end (sleeve side) of the adapter 170 so that the protruding end of the sleeve 120 is detachably coupled. A tool engaging groove 172 for engaging a tool is formed at one end (opposite the sleeve) of the adapter 170.

On the protruding end (one end) of the sleeve 120, an adapter coupling portion 125 to which the adapter 170 is coupled is formed. Adapter coupling portion 125 is formed to a diameter smaller than the outer diameter of the sleeve 120 to form a step (126). That is, when the adapter 170 is coupled to the sleeve 120, the end of the adapter 170 is caught in the step 126 so that the sleeve 120 is inserted into the sleeve coupling groove 171 of the adapter 170 to a predetermined depth or more. Prevents losing.

It comprises an adapter coupling means for coupling the adapter 170 to the protruding end of the sleeve 120.

The adapter coupling means includes a fastening groove 127 formed in the outer periphery of the protruding end of the sleeve 120, a fastening hole 173 formed through the sleeve 170 in the outer periphery of the adapter 170, and a fastening hole ( 173) and a fastening member 180 fastened to the fastening groove 127. The fastening hole 173, the fastening groove 127, and the fastening member 180 may be composed of at least one or more.

The distance from the step 126 of the sleeve 120 to the fastening groove 127 is formed equal to the distance from the end of the adapter 170 to the fastening hole 173. That is, when the adapter coupling portion 125 of the sleeve 120 is fitted into the sleeve coupling groove 171 of the adapter 170, and the end of the adapter 170 is caught in the step 126, the fastening hole 173 and the fastening groove This is to allow 127 to communicate with each other.

The fastening member 180 is formed with a screw thread so as to be screwed to the fastening hole 173 and the fastening groove 127 on the outer circumferential surface, and a tool groove to which a tool is coupled is formed on the upper surface.

The adapter 170 includes a tool locking means that fits into the tool engagement groove 172 and locks the tool to be coupled so that it does not fall out.

The tool locking means comprises a locking hole formed through the outer periphery of the adapter 170 to the tool engaging groove 172 and a locking member fastened to the locking hole and fixing a tool fitted into the tool engaging groove 172. do. Since the thread is formed on the inner circumference of the locking hole, it can be configured to fix the locking member by screwing.

6 is a perspective view showing another form of a sleeve in a tool holder for a machine tool according to an embodiment of the present invention.

Another type of sleeve 120-1 shown in FIG. 6 consists of a sleeve 120-1 of two parts by separating the sleeve 120 of one part, and the sleeve first body 120-1a ), And the sleeve second body 120-1b.

Here, when separating the sleeve 120 of one component into the sleeve 120-1 of the two components, the sleeve 120 of the above-described sleeve 120 is separated based on the protrusion 121. This is to allow the elastic body 130 to be easily fitted without being caught by the protruding portion 121 when fitted to the outer circumference of the sleeve 120.

That is, the sleeve on one side where the protrusion 121 is not formed is called the sleeve first body 120-1a, and the sleeve on the other side on which the protrusion 121 is formed is called the sleeve second body 120-1b.

The sleeve first body 120-1a is formed in a pipe shape having a predetermined length. An adapter 170 is fitted and coupled to one end of the sleeve first body 120-1a, and the sleeve second body 120-1b is screwed to the other end. Therefore, a thread is formed inside the other end of the sleeve first body 120-1a. At the other end of the sleeve first body 120-1a, the support part is spaced apart from the end to protrude to prevent the elastic body 130 fitted to the outer circumference from being moved toward one end.

On the outer circumference of the sleeve first body 120-1a, the same locking groove as the locking groove 122 of the sleeve 121 is formed, which is the same as the locking groove 122 of the above-mentioned sleeve 121. The description will be omitted.

The sleeve second body 120-1b is accommodated in the large diameter portion 112 when it is fitted into the through hole 111 of the main body 110 in combination with the sleeve first body 120-1a. A protrusion 121 is formed at one end of the outer periphery of the sleeve second body 120-1b. At one end of the sleeve second body 120-1b, a coupling protrusion 120-1c having an outer diameter smaller than the outer diameter is protruded. A thread is formed on the outer circumference of the coupling protrusion 120-1c, and is screwed to the thread formed inside the sleeve first body 120-1a.

7 is a perspective view showing another form of a sleeve in a tool holder for a machine tool according to an embodiment of the present invention.

Another type of sleeve 120-2 shown in FIG. 7 consists of a sleeve 120-2 of two parts by separating the sleeve 120 of one part, and the sleeve first body 120- 2a) and the sleeve second body 120-2b.

Another form of the sleeve 120-2 is composed of two parts, that is, the sleeve first body and the sleeve second body, the same as the sleeve 120-1 shown in FIG. 6, but the sleeve on which the protrusion is formed has a protrusion It is configured to be coupled to the outside of the missing sleeve. Therefore, the sleeve 120-2 is composed of a sleeve first body 120-2a and a sleeve second body 120-2b.

The sleeve first body 120-2a is formed to have the same size as the sleeve 120 of the tool holder shown in FIGS. 1 to 5, but the sleeve second body 120-2a may be coupled to the outer circumference of the other end. So that the connecting groove portion 120-2c having an outer diameter smaller than the outer diameter of the sleeve 120 is formed.

The connecting groove portion 120-2c is formed from the other end of the sleeve 120 to the protrusion portion 121, and forms a step in the portion where the protrusion portion 121 is formed.

On the outer circumference of the sleeve first body 120-2a, the same locking groove as the locking groove 122 of the sleeve 121 is formed, which is the same as the locking groove 122 of the above-mentioned sleeve 121. The description will be omitted.

The sleeve 2nd body 120-2b is fitted in a pipe shape by being fitted to the outside of the connecting groove 120-2c of the sleeve 1st body 120-2a. Therefore, the inner diameter of the sleeve second body 120-2b is formed larger than the outer diameter of the connecting groove portion 120-2c.

The outer diameter of the sleeve second body 120-2b is formed smaller than the inner diameter of the large diameter portion 112 of the through hole 111, and the protruding portion 121 is protruded at one end of the outer circumferential portion.

Sleeve second body (120-2b) is fitted to the outer periphery of the connecting groove (120-2c) of the sleeve first body (120-2a) is coupled, it can be coupled by interference fit or by an adhesive. In addition, a thread is formed inside the sleeve second body 120-2b, and a thread is formed on the outer circumference of the connecting groove 120-2c, so that the sleeve second body 120-2b is formed into a sleeve first body 120- It may be coupled to the connection groove (120-2c) of 2a by screwing.

As shown in FIGS. 6 to 7, by configuring a sleeve composed of one component as two components, defects can be reduced during production, thereby reducing cost and facilitating assembly of the elastic body.

100: tool holder
110: main body
111: through hole 112: large diameter
120, 120-1, 120-2: sleeve
120-1a, 120-2a: sleeve first body
120-1b, 120-2b: sleeve second body
120-1c: coupling protrusion
120-2c: Connection groove
121: protrusion 122: locking groove
125: adapter coupling 126: step
127: fastening groove
130: elastic body
140: elastic body support member 141: engaging portion
141a: fitting groove 142: support projection
150: locking member
160: ball stopper
170: adapter 171: sleeve coupling groove
172: tool coupling groove 173: fastening hole
180: fastening member

Claims (8)

A main body having a tapered outer circumferential surface having a through-hole through both ends in the longitudinal direction, a large-diameter portion having an inner diameter larger than the inner diameter of the through-hole formed at one end of the through-hole, and having an outer diameter smaller from one end to the other end;
A sleeve in which one end is inserted into one end of the through hole, and one end protrudes to the other end of the through hole, and the protrusion is formed on the outer circumference of the other end so that the other end is caught by the locking jaw formed by the large diameter portion;
At least one or more O-ring-shaped elastic bodies that are fitted to the outer circumference of the sleeve and are formed to surround both sides of the protrusion to absorb and reduce the load generated between the tool and the object;
It is coupled to one end of the through-hole to support the elastic body by elastic support member for adjusting the elasticity of the elastic body; includes,
On the inner circumferential surface of the through-hole of the main body and the outer circumferential surface of the sleeve, long and long engaging grooves in at least one length direction are formed to face each other to form a locking space,
A tool holder for a machine tool is configured to prevent the sleeve from being rotated in a through hole of the main body by receiving a locking member composed of at least one ball in the locking space. According to claim 1,
The elastic body support member,
A ring-shaped coupling portion screwed to an inner circumference of one end of the through hole in which the large diameter portion is formed,
A support protrusion protruding from the coupling portion to the inside of the through hole to support the elastic body;
Tool holder for a machine tool, comprising a.
According to claim 2,
A tool holder for a machine tool having at least two fitting grooves into which a tool for rotating the elastic support member is fitted in order to screw the elastic support member on the surface facing outward from the coupling part. delete According to claim 1,
A tool holder for a machine tool, which is detachably coupled to the one end of a sleeve protruding to the other end of the main body by an adapter coupling means and further comprises an adapter for coupling the tool. The method of claim 5,
Adapter coupling means,
An adapter coupling portion formed with a step with a diameter smaller than the outer diameter of the sleeve so that the adapter is fitted and coupled to the protruding end of the sleeve;
A coupling groove for a sleeve formed at one end of the adapter so that the adapter coupling portion of the sleeve is fitted;
Fastening groove formed on the outer circumference of the adapter coupling portion;
A fastening hole in the outer circumference of the adapter and communicating with the coupling hole for the sleeve, and in the fastening groove;
A fastening member fastened to the fastening hole and fastening groove;
Tool holder for a machine tool, comprising a. According to claim 1,
The sleeve,
It is configured to be separated into two based on the protrusion,
A sleeve first body formed in a pipe shape, one end penetrating through the through hole and protruding into one end of the main body, and the other end being accommodated in the through hole,
A tool holder for a machine tool, comprising a sleeve second body that is screwed to the inside of the other end of the sleeve first body and extends in a longitudinal direction from one end, and a sleeve second body that is formed on the outer circumference of one end. According to claim 1,
The sleeve,
It is configured to be separated into two based on the protrusion,
And the first body of the sleeve through the through-hole in the shape of a pipe protrudes to one end of the main body, the other end is accommodated in the through-hole, but the sleeve first body is formed on the outer circumferential connection groove of an outer diameter smaller than the outer diameter of the sleeve,
A tool holder for a machine tool, comprising a sleeve second body fitted into an outer circumference of the connecting groove portion of the sleeve first body, and the projection being formed on one end of the sleeve.

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