KR101440822B1 - Chuck for fastening pull-stud bolt and method for manufacturing the same - Google Patents

Abstract

The present invention provides a chuck for a pull-stud bolt, which is designed to be combined compatibly to a standard pull-stud bolt having a screw unit, a flange unit, and a connection unit connecting the screw unit and the flange unit. The chuck comprises a tooling member to which a cutting tool is combined, and a shank member. The shank member comprises a body extending from the tooling member and having a hollow hole; and a sealing unit which is manufactured in a hard turning manner inside the hollow hole and designed to have an inner radius of the same size with that of the connection unit along the longitudinal direction of the connection unit to be in contact with the entire surface of the outer circumference of the connection unit along the longitudinal direction.

Description

TECHNICAL FIELD [0001] The present invention relates to a chuck fastening bolt fastening chuck,

The present invention relates to a chuck to which a full stud bolt is fastened and a method for manufacturing the same.

Generally, a machine tool refers to a device for machining a workpiece using a cutting tool. The main spindle of the machine tool may be provided with a chuck, and the cutting tool may be connected to the main spindle of the machine tool through the chuck.

Such a chuck may generally have a tooling member and a shank member. Specifically, the tooling member is fastened to the cutting tool, and the shank member can be connected to the main shaft of the machine tool. Here, the shank member can be connected to the main shaft of the machine tool by fastening it with the full stud bolt.

Such a full stud bolt may have an inlet hole to allow coolant to enter. The cutting oil flows into the inside of the chuck through the inlet holes and is sprayed on the workpiece, thereby improving the machinability during machining. In recent years, a method of spraying coolant at a high pressure has been increasingly used to prevent machining failures due to heat generation. Thus, when the cutting oil is sprayed at a high pressure, the shank member or the like can not sustain the internal pressure of the cutting oil, and the cutting oil leaks through a gap between the shank member and the full stud bolt.

An object of the present invention is to provide a chuck for fastening a full stud bolt, which can be used in a cutting operation in which leakage of cutting oil is prevented and high-pressure injection of cutting oil is required, and a manufacturing method thereof.

A full stud bolt fastening chuck according to one embodiment of the present invention for realizing the above object is provided with a threaded portion, a flange portion, a standard full bolt bolt having a connecting portion for interconnecting the threaded portion and the flange portion, A chuck formed to be interchangeably engaged, comprising: a tooling member configured to engage a cutting tool; And a body portion having a hollow hole extending from the tooling member and having an inner diameter that is formed by machining by a hard turning method on the inner surface of the hollow hole and has the same size as the outer diameter of the connecting portion along the longitudinal direction of the connecting portion And a shank member having a sealing portion formed to be in surface contact with the outer peripheral surface of the connecting portion over the entire length along the longitudinal direction.

Here, the sealing portion may be formed to have an inner diameter sized to press-fit the connection portion.

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Here, the shank member may include: a concave groove formed in the sealing portion along the inner periphery thereof; And a sealing ring formed on the concave groove.

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Here, the concave groove may be formed to have a depth larger than the radius of the cross-section of the sealing ring and a depth smaller than the diameter of the cross-section of the sealing ring.

Here, the full stud bolt may be a standard full stud bolt used in a BT type shank according to Japanese Industrial Standard JIS B 6339, a standard full stud bolt used in a shank according to the Russian Federation national standard GOST 25827-93, It may be any of the standard full stud bolts used in SK type shank or CAT type shank according to ISO 7388-1 and conforming to the international standard ISO 7388-2.

A method of manufacturing a full-stud bolt fastening chuck according to still another embodiment of the present invention is a method of manufacturing a full stud bolt fastening chuck, which is compatible with a standard full bolt bolt having a threaded portion, a flange portion, and a connecting portion connecting the threaded portion and the flange portion A method for manufacturing a chuck to be fastened, the method comprising the steps of: machining a base material to form an outer surface of a body portion of a shank member; Operating a drilling tool of a machine tool to form a hollow hole in the body part; Operating a boring tool of a machine tool to form a sealing portion having an inner diameter equal to the outer diameter of the connecting portion along the longitudinal direction of the connecting portion by machining the inner surface of the hollow hole by a hard turning method; And a step of moving the boring tool along the central axis direction of the body so that the sealing portion has a length longer than the length of the connecting portion so that the sealing portion is brought into surface contact with the outer peripheral surface of the connecting portion along the longitudinal direction, .

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Here, the step of operating the machine tool may further include the step of forming a concave groove along the inner circumference of the sealing portion.

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According to the present invention, there is provided a chuck for clamping a full stud bolt and a method of manufacturing the same, which can prevent the leakage of cutting oil and can be used in a cutting operation requiring high-pressure injection of cutting oil. In addition, a full stud bolt conforming to the standard can be used as it is, and its usability is excellent.

1 is a perspective view showing a full stud bolt fastening chuck 100 according to an embodiment of the present invention and a full stud bolt P fastened thereto.
Fig. 2 is a cross-sectional view showing the full stud bolt fastening chuck 100 of Fig. 1 and the full stud bolt P fastened thereto.
3 is a cross-sectional view specifically showing a full stud bolt fastening chuck 100 of FIG. 1 and a full stud bolt P fastened thereto.
4 is a cross-sectional view showing a full-stud bolt fastening chuck 100 'according to another embodiment of the present invention.
5 is a flowchart illustrating a method of manufacturing a full-stud bolt fastening chuck according to another embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION A full-stud bolt fastening chuck and a method of manufacturing the same according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the present specification, the same or similar reference numerals are given to different embodiments in the same or similar configurations.

1 is a perspective view showing a full stud bolt fastening chuck 100 according to an embodiment of the present invention and a full stud bolt P fastened thereto.

Referring to the drawings, a full stud bolt fastening chuck 100 may include a tooling member 110 and a shank member 120. [ The tooling member 110 can be fastened to the cutting tool, and the shank member 120 can be connected to the main shaft of the machine tool. In addition, the shank member 120 may have a body portion 121 extending from the tooling member 110. A hollow hole 123 may be formed in the center of the body part 121.

The full stud bolt P may include a threaded portion PS, a connecting portion PL, a flange portion PF, a clamping portion PC, and an inlet hole PH. The threaded portion PS is formed of a male thread and the connecting portion PL may be formed to connect the threaded portion PS with the flange portion PF. Two flat portions (PE) may be disposed on opposite sides of the flange portion PF. The clamping part PC may have a convex shape so as to be fastened to the main shaft of the machine tool. An inflow hole PH is opened at the center of the clamping portion PC and the inflow hole PH may be formed to penetrate from the clamping portion PC to the end of the threaded portion PS.

The full stud bolt P thus constructed can be fastened to the full stud bolt fastening chuck 100 in such a manner that the threaded portion PS and the connecting portion PL are inserted into the hollow hole 123. The full stud bolt fastening chuck 100 can also be used to machine the workpiece by clamping the shank 120 and the clamping part PC of the full stud bolt P with the main shaft of the machine tool.

Fig. 2 is a cross-sectional view showing the full stud bolt fastening chuck 100 of Fig. 1 and the full stud bolt P fastened thereto. Referring to the drawings, a full stud bolt fastening chuck 100 may include a tooling member 110, and a shank member 120.

The tooling member 110 can be fastened with a cutting tool. Here, the cutting tool may be a tool such as an end mill, a tap, or a drill. These cutting tools can be fastened to the tooling member 110 through a collet C or the like.

The shank member 120 is an element connected to the main shaft of the machine tool. The shank member 120 may include a body portion 121, a female screw portion 125, and a sealing portion 127.

The body portion 121 may extend along the central axis X of the tooling member 110. The body portion 121 may be tapered to have the shape of a conical pillar as a whole. A hollow hole 123 may be formed in the body 121.

The hollow hole 123 may be formed along the center axis X in the body part 121. Specifically, the hollow hole 123 may be formed so as to open from the end of the body portion 121 to the end of the tooling member 110.

The female threaded portion 125 is an element to which the threaded portion PS of the full stud bolt P is fastened. The female threaded portion 125 is formed on the inner surface of the hollow hole 123 and can be formed to have the same pitch as the threaded portion PS of the full stud bolt P. [

The sealing portion 127 is an element for preventing the leakage of the cutting oil. The sealing portion 127 may be formed on the inner surface of the hollow hole 123. The sealing portion 127 will be described later with reference to Fig.

Hereinafter, the cutting oil injection method of the full-stud bolt fastening chuck 100 will be described with reference to FIG. The full stud bolt P can be fixed to the full stud bolt tightening chuck 100 by fastening the threaded portion PS formed of male thread to the female threaded portion 125. [ When the full stud bolt P is fixed to the full stud bolt fastening chuck 100, the coolant can be introduced through the inlet hole PH formed inside the full stud bolt P.

The cutting oil introduced through the inlet hole PH may be discharged to the end side of the tooling member 110 through the hollow hole 123 formed in the inside of the full stud bolt fastening chuck 100. Thereafter, the cutting oil is injected between the cutting tool and the workpiece to perform a cooling function and a lubricating function. Specifically, such a cutting oil can reduce the cutting resistance, thereby improving the machining efficiency and reducing the amount of wear of the cutting tool. The configuration and function of the sealing portion 127 of the full stud bolt fastening chuck 100 will be described below with reference to Fig.

3 is a cross-sectional view specifically showing a full stud bolt fastening chuck 100 of FIG. 1 and a full stud bolt P fastened thereto.

Referring to this figure, the shank member 120 of the full stud bolt tightening chuck 100 may include a sealing portion 127 as described above. The sealing portion 127 may be formed on the inner surface of the hollow hole 123. The sealing portion 127 may be formed to be in surface contact with the outer circumferential surface of the connection portion PL of the full stud bolt P along the circumferential direction thereof.

This surface contact of the sealing portion 127 may be made over the entire length L of the connecting portion PL along the longitudinal direction A of the connecting portion PL. The sealing portion 127 may have an inner diameter sized to press fit the connection portion PL and may extend along the longitudinal direction A of the connection portion PL and extend through the connection portion PL ) Having the same size as the outer diameter of the outer ring. For this, the sealing portion 127 may be formed to have a length longer than the length of the connection portion PL. The sealing portion 127 can be obtained through a single boring process by machining the inner surface of the hollow hole 123 by a hard turning method.

Hereinafter, the operation of the full-stud bolt fastening chuck 100 will be described. The full stud bolt P may have a threaded portion PS and a connecting portion PL as described above. Specifically, the threaded portion PS may include a body portion and a male thread portion formed on an outer surface of the body portion. Here, male threads may not be formed on the body portion connected to the connection portion PL.

Further, the connecting portion PL may have the same outer diameter along the longitudinal direction A thereof. The full stud bolt P can be fixed to the full stud bolt tightening chuck 100 in such a manner that the threaded portion PS is fastened to the female screw portion 125 and the connecting portion PL is in surface contact with the sealing portion 127 have.

Here, the sealing portion 127 can be easily obtained by a single turning process without a separate grinding process through a hard turning process. According to this method, a separate groove need not be formed at the position of the sealing portion 127.

Specifically, such a groove is a circular groove formed in the position of the sealing portion 127 so as to have a larger inner diameter than the sealing portion 127 in order to prevent breakage of the grindstone during grinding. According to the hard turning machining method, since no separate grinding process is required, this groove does not need to be separately formed in the sealing portion 127. Therefore, the sealing portion 127 can be formed to have the same inner diameter along the longitudinal direction A thereof. The sealing portion 127 can be in surface contact with the connection portion PL over the whole area L so that the cutting oil leaks into the gap between the sealing portion 127 and the connection portion PL .

In this embodiment, the full stud bolt P fastened to the full stud bolt fastening chuck 100 may be a standard full stud bolt (P) according to the international standard ISO 7388-2. Specifically, this standard full stud bolt (P) may be one used for SK type shank or CAT type shank according to the international standard ISO 7388-1. In addition, the full stud bolt P fastened to the full stud bolt fastening chuck 100 according to the present embodiment is a standard full stud bolt (P) used for shank according to the Russian Federation national standard GOST 25827-93, or It may be a standard full stud bolt used in a BT type shank according to Japanese Industrial Standard JIS B 6339 (MAS 403).

Here, a standard full stud bolt P used for a SK type shank, a CAT type shank, or a shank according to GOST 25827-93 may have two flat portions (PE) in the flange portion PF. This flat portion (PE) is formed to cross the entire flange portion (PF) unlike the flat portion (PE) of the standard full stud bolt used in the BT type shank according to Japanese Industrial Standard JIS B 6339. Therefore, there is a relatively high possibility that leakage occurs due to a gap between the end portion of the body portion 121 and the flat portion (PE).

According to the present embodiment, since the connecting portion PL can be sealed over the entire section L by the sealing portion 127, the SK type shank, the CAT type shank, Or when the standard full stud bolt (P) used for the shank according to GOST 25827-93 is fastened, it is possible to prevent leakage of the cutting oil.

The full stud bolt fastening chuck 100 according to the present embodiment can be applied to all of the standard full stud bolts P used in the above-described BT type shank, SK type shank, CAT type shank, or shank according to GOST 25827-93 ≪ / RTI > As described above, the full stud bolt fastening chuck 100 is compatible with most existing standard full stud bolts P, and thus its utilization is excellent.

When a full stud bolt (P) is separately deformed to prevent leakage of cutting oil, such a deformed full stud bolt may be less compatible depending on the type of chuck. Alternatively, the full-stud bolt fastening chuck 100 according to the present embodiment may be compatible with a standard full stud bolt P used in a conventional chuck, As shown in FIG.

4 is a cross-sectional view showing a full-stud bolt fastening chuck 100 'according to another embodiment of the present invention. Referring to this figure, the shank member 120 of the full stud bolt fastening chuck 100 'may include a concave groove 128 and a sealing ring 129.

The concave groove 128 may be formed in the sealing portion 127 along the inner periphery thereof. The recessed groove 128 may have a depth greater than the radius of the cross-section of the sealing ring 129 described below and less than its diameter. The sealing ring 129 may be in the form of an O-ring so as to be installed in the recessed groove 128.

Hereinafter, the operation of the full-stud bolt fastening chuck 100 'will be described. In the present embodiment, the full stud bolt P may be a standard full stud bolt P used for an SK type shank or a CAT type shank. Such an SK type or CAT type shank can be used for cutting work which requires high-pressure injection of cutting oil.

According to the present embodiment, the shank member 120 can further include the sealing ring 129 in addition to the sealing portion 127, so that the outer circumferential surface of the connecting portion PL is sealed by the sealing portion 127 and the sealing ring 129 at the same time So that the sealing performance can be further improved. Accordingly, even if the cutting oil is injected at a high pressure through the hollow hole 123, the cutting oil can be prevented from leaking into the gap between the connection part PL and the sealing part 127.

This sealing ring 129 can also be used for an existing chuck having a groove in the sealing portion 127. As described above, the existing chuck formed with grooves has a relatively short length of the sealing portion 127 and a relatively large clearance with the connection portion PL, which is likely to cause leakage. The sealing ring 129 is used in such an existing chuck so that leakage between the connecting portion PL and the sealing portion 127 can be prevented. Specifically, the sealing ring 129 can be installed in such a manner that the concave groove 128 is formed in the sealing portion 127 of the existing chuck and fitted in the concave groove 128. [ According to this configuration, the existing chuck can be used as it is, and the leakage of the cutting oil can be prevented.

The sealing ring 129 can protrude from the sealing portion 127 because the concave groove 128 has a depth smaller than the diameter of the cross section of the sealing ring 129. In this embodiment, Accordingly, the sealing ring 129 can press-fit the outer circumferential surface of the connecting portion PL more strongly, thereby improving airtightness. Further, since the concave groove 128 has a depth larger than the radius of the cross-section of the sealing ring 129, the sealing ring 129 can be stably fixed to the concave groove 128. Thus, even when the full stud bolt P is frequently replaced, the sealing ring 129 is not easily detached from the concave groove 128.

5 is a flowchart illustrating a method of manufacturing a full-stud bolt fastening chuck according to another embodiment of the present invention. Referring to the drawing, a method of manufacturing a full-stud bolt fastening chuck starts with forming a front surface of a body portion 121 of a shank member 120 by machining a base metal (S1). Here, the outer surface of the body portion 121 may be tapered.

When the outer surface of the body part 121 is formed, a hollow hole 123 may be formed in the body part 121 by operating a drilling tool of the machine tool (S3). When the hollow hole 123 is formed, a sealing portion 127 may be formed on the inner surface of the hollow hole 123 by operating the boring tool of the machine tool (S5).

Here, the sealing portion 127 can be formed by machining the inner surface of the hollow hole 123 by a hard turning method. Such a hard turning process may be performed so that the sealing portion 127 has an inner diameter sized to press-fit the connecting portion PL of the full stud bolt P. [ When the sealing portion 127 is formed in a part of the inner surface of the hollow hole 123 as described above, the sealing portion 127 is moved in the longitudinal direction A of the body portion 121, The inner surface of the hollow hole 123 can be machined so as to have a length longer than the length (S7).

Here, the sealing portion 127 may be formed by a general grinding method other than the hard turning method described above. Specifically, the sealing portion 127 can be obtained by grinding the inner surface of the hole 123 by operating the grinding tool of the machine tool. In this case, before the grinding process is performed, a process of forming the grooves described above to prevent breakage of the grindstone at the sealing portion 127 may be preceded.

When the sealing part 127 is formed as described above, the machine tool can be operated to form the concave groove 128 along the inner circumference of the sealing part 127 (S9). When the concave groove 128 is formed, the manufacturing method of the full stud bolt fastening chuck can be ended by inserting the sealing ring 129 into the concave groove 128 (S11).

The above-described full stud bolt fastening chuck and the method of manufacturing the same are not limited to the construction and the operation manner of the above-described embodiments. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

100,100 ': Full stud bolt tightening chuck
110: tooling member 120: shank member
121: Body part 123: hollow hole
125: female thread portion 127: sealing portion
128: concave groove 129: sealing ring

Claims (11)

A chuck formed to be compatible with a standard full nut bolt having a threaded portion, a flange portion, and a connecting portion for interconnecting the threaded portion and the flange portion,
A tooling member formed to engage a cutting tool; And
A body portion extending from the tooling member and having a hollow hole formed therein and having an inner diameter equal to the outer diameter of the connecting portion formed along the longitudinal direction of the connecting portion by being formed by a hard turning method on the inner surface of the hollow hole, And a shank member having a sealing portion formed so as to be in surface contact with the outer peripheral surface of the connection portion along the longitudinal direction over the entire section.
The method according to claim 1,
The sealing portion
And is formed to have an inner diameter sized to press-fit the connecting portion.
delete The method according to claim 1,
The shank member
A concave groove formed in the sealing portion along the inner periphery thereof; And
And a sealing ring formed to be mounted on the concave groove.
delete 5. The method of claim 4,
The concave groove
Wherein the sealing ring is formed to have a depth greater than the radius of the cross-section of the sealing ring and less than the diameter of the cross-section of the sealing ring.
The method according to claim 1,
The full-
A standard full stud bolt used in a BT type shank according to Japanese Industrial Standard JIS B 6339, a standard full stud bolt used in a shank according to the Russian Federation national standard GOST 25827-93, and an SK type according to an international standard ISO 7388-1 A full stud bolt fastening chuck used for shank or CAT type shank and is one of standard full stud bolts conforming to international standard ISO 7388-2.
A method of manufacturing a chuck that is formed to be compatible with a standard full bolt bolt having a threaded portion, a flange portion, and a connecting portion connecting the threaded portion and the flange portion,
Forming an outer surface of the body portion of the shank member by machining the base material;
Operating a drilling tool of a machine tool to form a hollow hole in the body part;
Operating a boring tool of a machine tool to form a sealing portion having an inner diameter equal to the outer diameter of the connecting portion along the longitudinal direction of the connecting portion by machining the inner surface of the hollow hole by a hard turning method; And
The sealing portion is machined such that the sealing portion is longer than the length of the connecting portion so that the sealing portion is in surface contact with the outer circumferential surface of the connecting portion along the longitudinal direction over the entire section by moving the boring tool along the central axis direction of the body portion Wherein the method comprises the steps of:
delete 9. The method of claim 8,
Further comprising the step of operating the machine tool to form a recessed groove in the sealing portion along its inner periphery. delete

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