JP3220450U - Chucking device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To perform work attachment work without causing the work to interfere with a bolt hole of a raw claw, to improve work machining accuracy, and to easily perform work attachment and alignment work on a rotating disk surface. A chucking device is provided.
SOLUTION: A raw claw, a raw claw mounting base, a T-nut, and two bolts that integrate the raw claw, the raw claw mounting base and the T-nut, and the raw claw has bolt insertion holes in two places. The raw claw mounting base 1 includes bolt through holes 3a, 3b, and 3c at three locations, and the T-nut includes screw holes that are screwed with the bolts at three locations.
[Selection] Figure 2

Description

  The present invention relates to a chucking device that is attached to a spindle device of a machine tool to hold a workpiece (workpiece).

  2. Description of the Related Art Conventionally, a chucking device is known in which a replacement claw portion in which a workpiece gripping portion is formed is detachably provided on a base portion (Patent Document 1). In the chucking device described in Patent Document 1, the replacement claw portion and the base portion are unevenly fitted on the mating surface, and two mounting bolts penetrating the replacement claw portion and the base portion are assembled on the chuck body side. It is set as the structure engaged with the internal thread part of the sliding attachment piece (T nut) engaged with the inserted nail | claw stand.

Japanese Utility Model Publication No. 2-66910

  However, in the chucking device described in Patent Document 1, the bolt insertion hole formed in the replacement claw portion through which the two mounting bolts are inserted is performed at the time of forming the replacement claw portion according to the diameter of the workpiece. In order to avoid interference, it has been necessary to move the replacement claw portion, the base portion, and the sliding mounting piece greatly in the diameter increasing direction to grip the workpiece.

  In addition, the chucking device is attached to each of three equally divided portions on the surface of the turntable, but when the three replacement claw portions and the three base portions are respectively fitted, the workpiece is processed. In order to improve accuracy, it is necessary to make the replacement claw portion and the base portion to be fitted each time the same, and the number corresponding to each of the three replacement claw portions and the three base portions is engraved. Therefore, it was necessary for the operator to confirm the number and fit it.

  The present invention has been made to solve the above-described problems, and allows the work to be attached without causing the work to interfere with the bolt holes of the raw claws. It is an object of the present invention to provide a chucking device that can be easily attached and aligned.

  The invention of claim 1 is a chucking device that holds a workpiece by sliding radially toward the center of the spindle in a spindle device of a machine tool, which is mounted radially on a rotating disk surface that rotates together with the spindle. Sometimes, a raw claw that contacts the workpiece, a raw claw mounting base that is non-contact with the workpiece during processing, and is fixed while contacting the rotating disk surface side, and a raw claw mounting base that is fixed during processing. A T-nut that is positioned below and is inserted into a groove provided on the surface of the turntable, and two bolts that integrate the raw claw, the raw claw mounting base, and the T-nut, The raw claws are provided with bolt insertion holes at two locations, the raw claw mounting base is provided with bolt through holes at three locations, and the T-nuts are provided with screw holes that are screwed with the bolts at three locations. That It is a symptom.

  The invention of the chucking device according to claim 1 is provided with three bolt through holes in the raw claw mounting base and three screw holes in the T-nut, so that bolts are made corresponding to the diameter of the workpiece to be processed. If you prepare three kinds of raw claws with different positions where the insertion holes are formed, the raw claws, the raw claw mounting base and the T nut can be integrated with two bolts. The workpiece can be attached without causing the workpiece to interfere, and the workpiece machining accuracy can be increased.

  The invention of claim 2 is the invention of claim 1, wherein each of the nail, the nail attachment base, and the T-nut has three pieces, and the raw nail attachment base has a convex portion, The projections of the raw claw mounting base have fitting grooves, and the widths of the convex parts of the three raw claw mounting bases are different from each other. The width of the joint groove is different from each other so as to be fitted to the convex portion of the raw claw mounting base. Therefore, the operation | work which combines a raw nail and a raw nail attachment stand can be performed easily, and the mistake of a combination can be prevented.

  The invention of claim 3 is characterized in that, in the invention of claim 1 or 2, the raw claw mounting base is formed with serrations on a surface facing the rotating disk surface. Therefore, the chucking device can be accurately attached to the rotating disk surface by serration.

  The invention of claim 4 is the invention of claim 2 or 3, wherein the surface of the raw claw mounting base and the surface of the fitting part of the raw claw contacting the raw claw mounting base are subjected to quenching polishing treatment. It is characterized by. Therefore, the surface of the raw claw mounting base and the surface of the fitting portion of the raw claw can be protected from scratches, and the chucking device can be attached to the turntable surface with high accuracy.

  The invention of claim 5 is the invention according to any one of claims 1 to 4, wherein the raw claw mounting base has an insertion groove into which the T-nut is inserted, and one end portion in the longitudinal direction of the insertion groove. Is characterized by being blocked by a wall. Therefore, the wall formed at one end in the longitudinal direction of the insertion groove can reduce the chip pocket into which chips (chips) generated during the cutting process enter, thereby reducing trouble caused by the chips. it can.

  According to the first aspect of the present invention, the work can be attached without causing the work to interfere with the bolt hole of the raw claw of the chucking device, and the work accuracy of the work can be increased. In addition, the invention of claim 2 can easily perform the work of combining the raw nail and the raw nail mounting base, and can prevent an error in the combination. Further, according to the third and fourth aspects of the present invention, the chucking device can be accurately attached to the rotating disk surface.

  Moreover, since the chip pocket which the chip | tip (chip) which generate | occur | produces at the time of cutting enters can be made small, the device of Claim 5 can reduce the trouble by a chip.

(A) Perspective view of raw nail mounting base constituting the present invention (b) Enlarged view of the same part (A) Plan view of raw nail mounting base constituting the present invention (b) Front view (c) Right side view (A) Top view of T-nut constituting the present invention (b) Front view (c) Right side view (A) Plan view showing the first embodiment before forming the nail constituting the present invention (b) Front view (c) Right side view (A) Plan view showing a first embodiment after forming a nail constituting the present invention (b) Front view (c) Right side view (A) The top view which shows 2nd Embodiment before shaping | molding of the nail | claw which comprises this invention (b) The front view (c) The right view (A) Plan view showing a second embodiment after forming a nail constituting the present invention (b) Front view (c) Right side view (A) Plan view showing a third embodiment of the present invention before forming a nail (b) Front view (c) Right side view (A) The top view which shows 3rd Embodiment after shaping | molding of the raw nail which comprises this invention (b) The front view (c) The right view Perspective view showing the surface of a turntable The perspective view which shows the state by which the chucking apparatus was attached to the turntable surface

  Next, an embodiment of the present invention will be described based on the drawings. Fig.1 (a) is a perspective view of the raw nail attachment base which comprises this invention, FIG.1 (b) is a partially expanded view of Fig.1 (a). Moreover, Fig.2 (a) is a top view of a raw nail attachment stand, FIG.2 (b) is the same front view, FIG.2 (c) is the right side view. The raw claw mount will be described with reference to these drawings.

  The raw claw mounting base 1 has a base 1a and a convex portion 1b integrally formed on the upper surface side of the base 1a. The width of the fitting groove and the width of the protrusion 1b are determined so that the protrusion 1b is fitted in a fitting groove formed in a raw claw described later. Accordingly, the widths of the projections of the three raw claw mounting bases installed on the rotating disk surface are formed to be different from each other, and the widths of the corresponding fitting grooves of the three raw claws are set to be different from each other. If they are formed so as to have different widths so as to be fitted to the parts, it is possible to easily perform the operation of combining the raw nail and the raw nail mounting base, and to prevent a combination error. Although omitted in FIG. 1 (a), as shown in FIG. 1 (b), serrations 6 are formed on the lower surface side of the base 1a, that is, on the surface facing the rotating disk surface. With this serration 6, the chucking device can be attached to the rotating disk surface with high accuracy.

  On the lower surface side of the base 1a of the raw claw mounting base 1, a fitting groove 2 is formed so that a part of a T-nut described later is fitted. And the bolt through-holes 3a, 3b, and 3c are formed so that it may reach the fitting groove 2 from the upper surface side of the convex part 1b. The straight line connecting the centers of the bolt through holes 3a, 3b, and 3c is formed to be a straight line that passes through the center of the main shaft when the raw claw mounting base 1 is installed on the rotating disk surface, and the bolt through hole 3a is the main shaft. The side closer to the center.

  A screw hole 4a is formed between the bolt through hole 3a and the bolt through hole 3b of the raw claw mount 1 so as to reach the fitting groove 2 from the upper surface side of the convex portion 1b. A screw hole 4b is formed between the bolt through hole 3b and the bolt through hole 3c so as to reach the fitting groove 2 from the upper surface side of the convex portion 1b. The diameter of the screw hole 4a is large on the upper surface side of the convex portion 1b and small on the fitting groove 2 side, and a screw head of a screw inserted from the upper surface side of the convex portion 1b is located at an intermediate position of the convex portion 1b. A stepped portion 5a to be locked is formed. The diameter of the screw hole 4b is small on the upper surface side of the convex portion 1b and large on the fitting groove 2 side, and the screw head of the screw inserted from the fitting groove 2 side is located at the middle position of the convex portion 1b. A stepped portion 5b is formed to be locked.

  The screw hole 4a is used as a screw insertion hole when a method of use in which only the raw claw is replaced while the raw claw mounting base 1 is fixed to the turntable surface side during workpiece processing is adopted. Moreover, the screw hole 4b is the same as that at the time of processing the conventional workpiece, and is used as a screw insertion hole when the raw claw mounting base 1 and the raw claw are fixed in advance. The surface of the raw claw mount 1 and the surface of the fitting portion of the raw claw that comes into contact with the raw claw mount 1 can be quenched and polished. Here, the quenching polishing process is a process of polishing the part with a grindstone after quenching, and can protect the surface of the raw nail mount 1 and the surface of the fitting part of the raw nail from scratches. The chucking device can be attached to the turntable surface with high accuracy.

  3A is a plan view of the T nut, FIG. 3B is a front view thereof, and FIG. 3C is a right side view thereof. The T nut will be described with reference to these drawings.

  The T-nut 7 is formed with screw holes 7a, 7b, 7c that are screwed with bolts at three locations. A screw hole 7d is formed between the screw holes 7a and 7b. Sliding rails 7e and 7e are formed in the longitudinal direction of the lower portion of the T nut 7.

  The upper portion of the T-nut 7 and the fitting groove 2 of the raw claw mount 1 are fitted, and the screw hole 4a and the screw hole 7d are aligned and communicated with each other. The raw nail mount 1 is fixed to the upper part. In this state, the bolt through hole 3a of the raw claw mounting base 1 and the screw hole 7a of the T nut 7 are aligned and communicated. Similarly, the bolt through hole 3b and the screw hole 7b are aligned and communicated, and the bolt through hole 3c and the screw hole 7c are aligned and communicated.

  FIG. 4A is a plan view showing the first embodiment before forming a raw nail constituting the present invention, FIG. 4B is a front view thereof, and FIG. 4C is a right side view thereof. It is. Moreover, Fig.5 (a) is a top view which shows 1st Embodiment after shaping | molding of a raw nail, FIG.5 (b) is the same front view, FIG.5 (c) is the right side view. 1st Embodiment of the raw nail which comprises this invention is described using these figures.

  In the raw claw 8 of the first embodiment, bolt insertion holes 8b and 8c are formed at two locations. Further, on the lower surface side of the raw claw 8, a fitting groove 9 into which the convex portion 1b of the raw claw mounting base 1 is fitted is formed. The bolt insertion holes 8b and 8c are formed so as to reach the fitting groove 9 from the upper surface side, and a stage where a head of a bolt (not shown) to be inserted comes into contact with the side close to the fitting groove 9. Portions 10b and 10c are formed.

  Between the bolt insertion holes 8b and 8c, a screw hole 11 is formed from the side of the fitting groove 9, and the raw claw mounting base 1 is used as a screw insertion hole when the raw claw mounting base 1 and the raw claw are fixed in advance. After the screw holes 4b are formed so as to coincide with and communicate with each other, a screw (not shown) is inserted and screwed together so that the raw claw 8 and the raw claw mounting base 1 are integrated.

  In a state where the protrusion 1b of the raw claw mounting base 1 is fitted in the fitting groove 9 of the raw claw 8, the bolt insertion hole 8b of the raw claw mounting 8 is in a state of being in communication with the bolt through hole 3b of the raw claw mounting base 1, and the bolt The insertion hole 8c coincides with and communicates with the bolt through hole 3c.

  As shown in FIG. 4B, the raw nail 8 of the first embodiment can form the workpiece gripping surface 12 in the range A, and is suitable for gripping a relatively small workpiece. And since the workpiece | work holding surface 12 does not interfere with the volt | bolt penetration hole 8b, a workpiece | work attachment operation | work can be performed easily and the processing precision of a workpiece | work can be raised.

  6A is a plan view showing a second embodiment of the present invention before forming a nail, FIG. 6B is a front view thereof, and FIG. 6C is a right side view thereof. It is. Moreover, Fig.7 (a) is a top view which shows 2nd Embodiment after shaping | molding of a raw nail, FIG.7 (b) is the same front view, FIG.7 (c) is the right side view. A second embodiment of the raw nail constituting the present invention will be described with reference to these drawings.

  The raw nail 13 of the second embodiment has bolt insertion holes 13a and 13c formed at two locations. Further, on the lower surface side of the raw claw 13, a fitting groove 14 into which the convex portion 1b of the raw claw mounting base 1 is fitted is formed. The bolt insertion holes 13a and 13c are formed so as to reach the fitting groove 14 from the upper surface side, and a stage where a head of a bolt (not shown) to be inserted comes into contact with the side close to the fitting groove 14. Portions 15a and 15c are formed.

  A screw hole 16 is formed from the fitting groove 14 side in front of the bolt insertion hole 13c between the bolt insertion holes 13a and 13c, and the raw claw mounting base 1 and the raw claw are fixed in advance. After the screw holes 4b formed in the raw claw mounting base 1 are aligned and communicated with each other as screw insertion holes, a screw (not shown) is inserted and screwed into the raw claw 13 and the raw claw mounting base 1. Integrated.

  In a state where the protrusion 1b of the raw claw mounting base 1 is fitted in the fitting groove 14 of the raw claw 13, the bolt insertion hole 13a of the raw claw 13 is in a state of being in communication with the bolt through hole 3a of the raw claw mounting base 1, and the bolt The insertion hole 13c coincides with and communicates with the bolt through hole 3c.

  As shown in FIG. 6B, the raw nail 13 of the second embodiment can form the workpiece gripping surface 17 in the range B, and is suitable for gripping a relatively medium workpiece. Since the workpiece gripping surface 17 does not interfere with the bolt insertion holes 13a and 13c, the workpiece can be easily attached and the workpiece machining accuracy can be increased.

  FIG. 8A is a plan view showing a third embodiment of the present invention before forming a raw nail, FIG. 8B is a front view thereof, and FIG. 8C is a right side view thereof. It is. Moreover, Fig.9 (a) is a top view which shows 3rd Embodiment after shaping | molding of a raw nail, FIG.9 (b) is the same front view, FIG.9 (c) is the right side view. A third embodiment of the raw nail constituting the present invention will be described with reference to these drawings.

  In the raw claw 18 of the third embodiment, bolt insertion holes 18a and 18b are formed in two places. Further, on the lower surface side of the raw claw 18, a fitting groove 19 into which the convex portion 1b of the raw claw mounting base 1 is fitted is formed. The bolt insertion holes 18 a and 18 b are formed so as to reach the fitting groove 19 from the upper surface side, and a step where a head of a bolt (not shown) to be inserted comes into contact with the side close to the fitting groove 19. Portions 20a and 20b are formed.

  A screw hole 21 is formed on the rear side of the bolt insertion hole 18b from the fitting groove 19 side, and is formed in the raw nail attachment base 1 as a screw insertion hole when the raw nail attachment base 1 and the raw nail are fixed in advance. After the screw holes 4b are aligned and communicated with each other, a screw (not shown) is inserted and screwed together so that the raw claw 18 and the raw claw mounting base 1 are integrated.

  In a state where the projection 1b of the raw claw mounting base 1 is fitted in the fitting groove 19 of the raw claw 18, the bolt insertion hole 18a of the raw claw 18 is in a state of being in communication with the bolt through hole 3a of the raw claw mounting base 1, and the bolt The insertion hole 18b coincides with and communicates with the bolt through hole 3b.

  As shown in FIG. 8B, the raw nail 18 of the third embodiment can form the workpiece gripping surface 22 in the range C, and is suitable for gripping a relatively large workpiece. And since the workpiece | work holding surface 22 does not interfere with the volt | bolt penetration hole 18c, the attachment operation | work of a workpiece | work can be performed easily and the processing precision of a workpiece | work can be improved.

  FIG. 10 is a perspective view showing a turntable surface, and FIG. 11 is a perspective view showing a state where a chucking device according to the present invention is attached to the turntable surface. The circular rotating disk surface 27 is used for a spindle device of a hydraulic or pneumatic machine tool, and a pair of serrations 28 and 28 are formed in a radial direction at a position obtained by dividing the rotating disk surface 27 into three equal parts. ing. A guide groove 29 is formed in the center of the pair of serrations 28. A T-nut 31 is inserted into the guide groove 29. Then, two mounting bolts (not shown) are inserted from the raw claw 33 side, penetrate the bolt insertion hole of the raw claw 33 and the bolt through hole of the raw claw mounting base 32, and then screw into the screw hole of the T-nut 31. By combining, the raw claw 33, the raw claw mounting base 32, and the T-nut 31 are integrated, and the three chucking devices 30, 30, 30 are attached radially on the turntable surface 27. The three chucking devices 30, 30, and 30 can hold the workpiece by sliding toward the center of the main shaft. In addition, the external shape of the raw nail | claw 33, the raw claw mounting base 32, and the T nut 31 can be changed suitably.

  Here, as shown in FIG. 11, since one end in the longitudinal direction of the insertion groove into which the T-nut 31 of the raw claw mounting base 32 is inserted is closed by the wall 34, chips generated during the cutting process Since the chip pocket 35 into which (chip) enters can be made small, troubles due to cutting chips can be reduced.

  The chucking device of the present invention is used by being attached to a spindle device of a machine tool in order to grip a workpiece (workpiece).

1, 32 Raw claw mounting base 1a Base 1b Convex part 2 Fitting groove 3a, 3b, 3c Bolt through hole 4a, 4b Screw hole 5a, 5b Step part 6 Serration 7, 31 T nut 7a, 7b, 7c, 7d Screw hole 7e Slide rail 8, 33 Raw claw 8b, 8c Bolt insertion hole 9 Fitting groove 10b, 10c Step 11 Screw hole 12 Gripping surface 30 Chucking device

Claims (5)

In a spindle device of a machine tool, a chucking device that is mounted radially on a rotating disk surface that rotates together with the spindle and holds a workpiece by sliding toward the center of the spindle,
A raw nail that contacts the workpiece during processing;
A raw claw mounting base that is non-contact with the workpiece and is fixed while being in contact with the rotating disk surface side during processing,
A T-nut that is positioned below the raw claw mounting base and is inserted into a groove provided on the rotating disk surface side during processing;
Two bolts for integrating the raw claw, the raw claw mounting base and the T-nut;
The raw nail has bolt insertion holes at two locations,
The raw nail mount is provided with bolt through holes at three locations,
The chucking device, wherein the T-nut is provided with screw holes that are screwed into the bolts at three locations. Each of the nail, the nail mount and the T-nut has three pieces,
The raw claw mounting base has a convex part, and the raw claw has a fitting part with a fitting groove into which the convex part of the raw claw mounting base is fitted,
The widths of the convex portions of the three raw claw mounting bases are formed to be different from each other,
2. The chucking device according to claim 1, wherein the widths of the fitting grooves of the three raw claws are formed to be different from each other so as to be fitted to the convex portion of the raw claws mounting base.   The chucking device according to claim 1 or 2, wherein the raw claw mounting base has serrations formed on a surface facing the rotating disk surface.   The chucking device according to claim 2 or 3, wherein the surface of the raw nail attachment base and the surface of the fitting portion of the raw nail that comes into contact with the raw nail attachment base are subjected to quenching polishing. The raw claw mounting base has an insertion groove into which a T-nut is inserted, and one end in the longitudinal direction of the insertion groove is closed by a wall. The chucking device according to any one of the above.

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