JP3967197B2 - Position adjustment mechanism - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a position adjusting mechanism capable of adjusting an axial insertion position (insertion depth) of a mounting body mounted in an insertion hole of a holder body in a state where the mounting body is mounted on the holder body.
[0002]
[Prior art]
Conventionally, for example, a tool that is mounted (obtained) on a tool holder such as a side lock holder, a milling chuck, or a collet needs to set the length (projection amount) extended from the tool holder for each tool. is there. The protrusion amount of the tool is an important setting item when the tool is attached to the tool holder because it affects the interference between the tool and a workpiece processed by the tool, cutting conditions, and the like.
[0003]
Therefore, as a conventional technique that can easily adjust the amount of protrusion of the tool by adjusting the mounting position of the tool with respect to the tool holder, there is one described in Japanese Utility Model Publication No. 7-18482, for example.
[0004]
The straight collet described in this publication has a configuration in which a tool positioning screw shaft for receiving a tool rear end is screwed and penetrated into a through screw hole of a stopper screwed and attached to the rear end of the collet body. The stopper is made of synthetic resin, and the internal thread of a part in the axial direction of the through screw hole of the stopper is deformed so that the frictional resistance to the male thread of the screw shaft is larger than the other part. Yes. Since this straight collet can increase the rotational resistance of the screw shaft appropriately by utilizing the elasticity resulting from the material of the female screw, a side lock screw, a cap nut or the like is used as a means for preventing the screw shaft from rotating. Therefore, it is possible to reliably prevent the screw shaft from rotating unexpectedly due to vibration or the like during processing.
[0005]
However, the straight collet described in Japanese Utility Model Publication No. 7-18482 cannot adjust the amount of protrusion of the tool while the tool is mounted on the collet body.
[0006]
Therefore, a tool of a normal straight shank can be used, and a tool holder capable of adjusting the protruding amount of the tool while the tool is mounted on the tool holder body is described in, for example, Japanese Patent Application Laid-Open No. 11-197918. There is something.
[0007]
The tool holder described in this publication or the like includes a tool base end positioning member that is in contact with a base end face of a tool inserted into the tool holder main body and has a rack formed along the longitudinal direction of the tool holder main body. The pinion shaft that engages with the rack of the tool base end positioning member is supported inside the tool holder body, and the pinion shaft is rotated from the side surface side of the tool holder body. Therefore, the tool base end positioning member is moved and adjusted in the axial direction.
[0008]
[Problems to be solved by the invention]
However, in the tool holder described in JP-A-11-197918, the entire tool base end positioning member is disposed on the base end side of the tool. Since a space for disposing the base end positioning member is required, it is difficult to reduce the size of the tool holder.
[0009]
An object of the present invention is to solve such a conventional problem, and the insertion position of the mounting body relative to the holder body can be adjusted in a state where the mounting body is mounted on the holder body. It is an object of the present invention to provide a position adjustment mechanism that can suppress the space for installation to the minimum necessary and can easily adjust the amount of protrusion of the mounting body from the holder body.
[0010]
[Means for Solving the Problems]
In order to achieve this object, the present invention provides a position adjusting mechanism for adjusting the insertion position of a mounting body that is removably attached to an insertion hole of a holder body, and is formed on the holder body. A through hole that is arranged in parallel and penetrates at least one end surface of the holder body, a slit that is formed in the holder body, communicates with the through hole and penetrates the insertion hole, and is formed on the inner peripheral surface of the through hole. An internal female screw, a moving member that is disposed in the through-hole and moves by being screwed into the female screw and rotating, and extends into the insertion hole through the through-hole and slit, and Provided is a position adjustment mechanism comprising: a position regulating member that is movable in a substantially inserting / removing direction of the mounting body according to the movement of the moving member, and that contacts the mounting body and determines an insertion position of the mounting body. To do.
[0011]
The position adjusting mechanism having this configuration inserts, for example, a wrench or a screwdriver into the through hole from one end surface side of the holder body, thereby allowing the male screw formed on the moving member and the female screw formed on the through hole to be inserted. By screwing and rotating the moving member with respect to the through hole, the moving member can be arbitrarily moved in the substantially inserting / removing direction of the mounting body. For this reason, the position of the said mounting body can be easily adjusted in the state which mounted | wore the holder main body with the mounting body.
[0012]
Further, the position adjusting mechanism having this configuration has a through hole formed in parallel with the insertion hole into which the mounting body is inserted, and the moving member and a part of the position regulating member are placed in the through hole. Since the arrangement is provided, the space for arranging the position adjusting mechanism can be minimized, and the holder body can be downsized. Furthermore, since the influence of the mass balance is reduced, it is possible to suitably cope with high-speed rotation.
[0013]
Here, the through hole may be formed substantially perpendicular to the insertion hole, or may be formed slightly inclined.
[0014]
The position restricting member is disposed in the through hole and is attached to the moving member so as to be rotatable relative to the moving member, and is disposed in the slit and continuously formed in the attaching portion. And an abutting portion that abuts on the mounting body.
[0015]
The female screw may be formed on the insertion port side of the mounting body, or may be formed on the side opposite to the insertion port side of the mounting body.
[0016]
The position restricting member may further include a first guide disposed in the slit and restraining the position restricting member so as not to rotate with respect to the holder body.
[0017]
The moving member may further include a second guide that restricts the attachment portion to move on the axis of the through hole.
[0018]
An example of the holder body is a tool holder body, and an example of the mounting body is a tool.
[0019]
As the slit, it is possible to use a collet slot, a milling chuck inner diameter slot, or the like.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Next, a position adjusting mechanism according to an embodiment of the present invention will be described with reference to the drawings. In the present embodiment, a collet will be described as an example of the holder body, and a tool will be described as an example of a mounting body to be mounted on the holder body.
(Embodiment 1)
1 is a partial cross-sectional view of a collet provided with a position adjusting mechanism according to the first embodiment, FIG. 2 is a side view of the collet shown in FIG. 1 as viewed from the tool insertion port side, and FIG. 4 is a partially enlarged view of the collet shown in FIG. 4, FIG. 4 is an enlarged cross-sectional view of the vicinity of the through-hole formed in the collet shown in FIG. 1, and FIG. 5 is a moving member and a position regulating member arranged in the collet shown in FIG. FIG.
[0021]
As shown in FIGS. 1 to 5, the collet 10 on which the position adjusting mechanism 1 according to the first embodiment is disposed is a straight collet, and is opened at a collet main body 11 and a substantially central portion of the collet main body 11. The tool insertion hole 12 into which 100 shanks are inserted, the slits 13A, 13B and 13C formed in the axial direction from the distal end side of the collet body 11, and the base end sides of the slits 13A, 13B and 13C are formed respectively. Hole 14.
[0022]
The slits 13A, 13B, and 13C are formed so as to penetrate the tool insertion hole 12 from the outer peripheral surface of the collet body 11, and a total of three are formed at an equal angle (120 degrees in the first embodiment). ing. The collet 10 in which the slits 13A, 13B, and 13C are formed can release or grip the shank of the tool by expansion / contraction of the diameter accompanied by elastic deformation.
[0023]
The hole 14 communicates with the slits 13A, 13B, and 13C on the base end side of all the slits 13A, 13B, and 13C, and is opened in the radial direction of the collet body 11. The hole 14 is usually formed to relieve stress or the like applied when the diameter of the collet 10 expands or contracts.
[0024]
Further, a through hole 21 substantially parallel to the tool insertion hole 12 is formed in the radial center portion of the slit 13A formed in the collet body 11 in the radial direction. As shown in FIG. 2 in particular, the through-hole 21 has a slightly larger diameter than the width of the slit 13A (the length corresponding to the circumferential direction of the collet body 11), and along the slit 13A, The collet body 11 is opened to the end surface on the tool insertion port side (hereinafter, this side is referred to as “tip side”). A female screw 22 is formed on the inner peripheral surface on the front end side of the through hole 21.
[0025]
The position adjusting mechanism 1 is disposed in the slit 13 </ b> A, a through hole 21 formed in communication with the slit 13 </ b> A, a female screw 22 formed on the inner peripheral surface of the front end side of the through hole 21, and the through hole 21. And a moving member 23 that moves by being screwed into the female screw 22 and rotating, and extends into the tool insertion hole 12 through the through hole 21 and the slit 13A, and the tool 100 according to the movement of the moving member 23. And a position restricting member 24 that abuts against the tool 100 and determines the insertion position of the tool 100.
[0026]
The moving member 23 has a male screw 25 that is screwed with a female screw 22 formed on the inner peripheral surface of the through hole 21 on the outer peripheral surface thereof. The moving member 23 moves in the insertion / removal direction of the tool 100 while screwing the male screw 25 into the female screw 22 and rotating in the through hole 21. An insertion hole 26 into which the distal end of the position regulating member 24 is inserted is located at the end of the moving member 23 opposite to the tool insertion port side of the collet body 11 (hereinafter, this side is referred to as “base end side”). Is formed. On the base end side of the insertion hole 26, a guide 27 is provided that restricts the mounting portion 31 of the position restricting member 24, which will be described in detail later, to move on the axis of the through hole 21. The guide 27 is disposed with a slight gap between the guide 27 and the mounting portion 31 of the position restricting member 24, and the tip side has a shape complementary to the shape of the convex body 33 described in detail later. Yes. Further, an engaging portion (not shown) that engages with, for example, a hexagon wrench or a driver is formed on the distal end side of the moving member 23. The moving member 23 can be rotated by engaging and rotating a hexagon wrench, a driver, or the like inserted from the through hole 21 with the engaging portion.
[0027]
The position regulating member 24 is formed continuously from the mounting portion 31 inserted into the insertion hole 26 of the moving member 23 and attached to the moving member 23, and at an angle of approximately 90 degrees with respect to the mounting portion 31. And a contact portion 32 that is bent and can contact the base end surface of the tool 100 inserted into the tool insertion hole 12 through the through hole 21 and the slit 13A. The position restricting member 24 is rotatable relative to the moving member 23. That is, when the moving member 23 moves in the through hole 21 while rotating in the through hole 21, the removal direction of the tool 100 according to the movement of the moving member 23 without rotating with respect to the holder body 11. In other words, it is configured to move linearly (that is, in the axial direction of the collet body 11).
[0028]
The attachment portion 31 is provided with a convex body 33 having a slightly larger diameter than the attachment portion 31 at the tip thereof. When the position restricting member 24 is attached to the moving member 23, the convex body 33 is prevented from moving in the axial direction by the guide 27, and prevents the position restricting member 24 from falling off the moving member 23. In addition, a predetermined interval is provided between the portion of the mounting portion 31 other than the convex body 33 and the guide 27, and the convex body 33 comes into contact with the insertion hole 26 of the moving member 23. Therefore, when the moving member 23 rotates in the through-hole 21, the friction coefficient generated between the moving member 23 and the attachment portion 31 can be reduced.
[0029]
The moving member 23 to which the position restricting member 24 is attached is inserted into the through hole 21 and the slit 13A from the distal end surface side of the collet body 11. In the first embodiment, a sphere is adopted as the convex body 33.
[0030]
As described above, the position adjusting mechanism 1 according to the first embodiment forms the through-hole 21 into which the mounting portion 31 of the moving member 23 and the position restricting member 24 is inserted and moves substantially in parallel with the tool insertion hole 12, thereby restricting the position. Since the slit 13A of the collet 10 is used as the slit in which the contact portion 32 of the member 24 is disposed, the configuration is simple. In addition, it is possible to minimize the space required for disposing the position adjusting mechanism 1. Therefore, it is possible to prevent the collet 10 provided with the position adjusting mechanism 1 from being unnecessarily enlarged.
[0031]
Next, in the position adjustment mechanism 1 according to the first embodiment, the base end position of the tool 100 inserted into the tool insertion hole 12 of the collet 10 mounted on a desired milling chuck (not shown) is adjusted, that is, determined. In order to adjust and determine the amount of protrusion of the tool 100 from the collet body 11, first, for example, a hexagon wrench or a screwdriver is inserted into the through hole 21 from the tip surface of the collet body 11, and the tip surface of the moving member 23. It engages with an engaging part (not shown) formed in the above.
[0032]
Next, when a hexagon wrench, a driver, or the like is rotated in this state, the male screw 25 formed on the moving member 23 is screwed into the female screw 22 formed on the through hole 21, and the moving member 23 rotates. By this rotation, the moving member 23 is appropriately moved in the axial direction of the collet body 11, and the position restricting member 24 is also appropriately moved in the axial direction of the collet body 11. At this time, since the attachment portion 31 of the position restricting member 24 is restricted by the guide 27 to move in the axial direction, the position restricting member 24 can stably perform the movement.
[0033]
As described above, according to the position adjusting mechanism 1 according to the first embodiment, the position of the base end surface of the tool 100 can be easily adjusted in a state where the tool 100 is inserted into the tool insertion hole 12 by the movement of the position regulating member 24. Can be determined. Furthermore, since the influence of the mass balance of the position adjusting mechanism 1 is small, it is possible to suitably cope with high-speed rotation.
[0034]
In the first embodiment, the through-hole 21 is formed in a substantially central portion in the radial direction of the collet body 11 of the slit 13A substantially in parallel with the tool insertion hole 12, and the slit 13A is used as a slit in the present application. However, the present invention is not limited to this. For example, as shown in FIG. 6, the through hole 21 is formed in the side wall portion where the slit of the collet body 11 is not formed, and the tool insertion hole 12 side is formed from the through hole 21. A slit 34 communicating with the through hole 21 and penetrating the tool insertion hole 12 may be provided.
[0035]
Similarly, in the case of a holder body in which no slit is formed, a through hole is formed in the side wall of the holder body in accordance with the configuration shown in FIG. It is also possible to provide a slit that communicates with the hole and penetrates the mounting body insertion hole. In the case of this configuration, the contact portion 32 of the position regulating member 24 is disposed in the slit 34. In the case of this configuration, the slit 34 may be formed from the distal end side to the proximal end side of the through hole 21, or may be formed only in the region where the contact portion 32 moves.
[0036]
In the first embodiment, the case where the female screw 22 is formed on the inner peripheral surface of the distal end of the through hole 21 has been described. However, the present invention is not limited to this, and the female screw 22 extends from the distal end side of the through hole 21 to the proximal end side. You may form over.
[0037]
In the first embodiment, the case where the through hole 21 is formed by penetrating the distal end surface and the proximal end surface of the collet body 11 has been described. However, the present invention is not limited to this, and in the case of the configuration of the first embodiment, the through hole 21 is penetrated. The hole 21 may penetrate only the tip surface side of the collet body 11.
(Embodiment 2)
Next, a position adjusting mechanism according to a second embodiment of the present invention will be described with reference to the drawings.
[0038]
7 is a partial cross-sectional view of a collet provided with the position adjusting mechanism according to the second embodiment, FIG. 8 is a side view of the collet shown in FIG. 7 as viewed from the tool insertion port side, and FIG. It is an expanded sectional view near the through-hole formed in the collet shown in FIG.
[0039]
In the second embodiment, members similar to those of the collet 10 and the position adjusting mechanism 1 described in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.
[0040]
7 to 9, the collet 20 and the position adjusting mechanism 2 according to the second embodiment are different from the collet 10 and the position adjusting mechanism 1 according to the first embodiment in that four slits 13A, 13B, 13C and 13D are formed, and the distal end side of the through hole 41 is inclined at a slight angle so as to be disposed on the outer peripheral side of the collet body 42. And a female screw 22 is formed on the inner wall on the proximal end side of the through hole 41.
[0041]
That is, the collet 20 provided with the position adjusting mechanism 2 according to the second embodiment is a straight collet, and the collet main body 42 has a total of four at an equal angle (90 degrees in the second embodiment). The slits 13A, 13B, 13C and 13D are formed so as to penetrate the tool insertion hole 12 from the outer peripheral surface of the collet body 42.
[0042]
The position adjusting mechanism 2 is formed with a slit 13A and a small angle α (see FIG. 9) so as to be communicated with the slot 13A and disposed on the outer peripheral side of the collet body 42 from the proximal end side to the distal end side. A through hole 41 formed with an inclination, a female screw 22 formed on the inner peripheral surface of the base end side of the through hole 41, and disposed in the through hole 41 and screwed with the female screw 22 to rotate. The movable member 23 is moved into the tool insertion hole 12 through the through hole 41 and the slit 13A, and can be moved in the insertion / removal direction of the tool 100 according to the movement of the movable member 23. And a position restricting member 24 that determines the insertion position of the tool 100 in contact with the tool 100.
[0043]
The moving member 23 to which the position restricting member 24 is attached is inserted into the through hole 41 and the slit 13A from the base end face side of the collet body 42.
[0044]
Further, the position adjustment mechanism 2 according to the second embodiment is also formed in the tool insertion hole 12 in a state where the through hole 41 is inclined at an angle α with respect to the tool insertion hole 12 as in the position adjustment mechanism 1 according to the first embodiment. Since the slit 13A of the collet 20 is used as a slit that is arranged in parallel and in which the contact portion 32 of the position regulating member 24 is disposed, the configuration is simple. In addition, it is possible to minimize the space required for disposing the position adjusting mechanism 2. Therefore, it is possible to prevent the collet 20 provided with the position adjusting mechanism 2 from being unnecessarily enlarged.
[0045]
Furthermore, since the through hole 41 is inclined at a slight angle α so that the distal end side is disposed on the outer peripheral side of the collet body 42 from the base end side, the through hole 41 can be processed more easily. It becomes easier to form the female screw 22 on the base end side of the through hole 41.
[0046]
In the second embodiment, the female screw 22 is formed on the proximal end side of the through hole 41, and the female screw 22 does not exist on the distal end side. Therefore, compared to the through hole 21 described in the first embodiment, the opening on the front end side of the through hole 41 can be made smaller because the female screw 22 does not exist on the front end side. For this reason, there also exists an advantage that dust (dust) etc. become difficult to penetrate | invade into the collet main body 42 from the through-hole 41 further.
[0047]
Next, in the position adjusting mechanism 2 according to the second embodiment, in order to adjust and determine the base end position of the tool 100 inserted into the tool insertion hole 12 of the collet 20 mounted on a desired milling chuck (not shown), Similarly to the first embodiment, for example, a hexagon wrench or a screwdriver may be inserted into the through hole 41 from the front end surface of the collet body 42 and the moving member 23 may be rotated.
[0048]
As described above, the position adjustment mechanism 2 according to the second embodiment can be easily installed in the state where the tool 100 is inserted into the tool insertion hole 12 by the movement of the position restricting member 24 as in the first embodiment. The position of the proximal face can be determined. In addition, since the influence of the mass balance of the position adjusting mechanism 2 is small, it is possible to suitably cope with high-speed rotation.
[0049]
In the second embodiment, since the female screw 22 is formed on the proximal end side of the through hole 41, the position regulating member 24 is attached to the distal end side of the moving member 23. It is also possible to adjust the base end position of the tool 100 inserted into the tool insertion hole 12 by inserting and the like and rotating the moving member 23. In this case, as long as the through hole 41 penetrates the base end face of the collet body 42, it does not have to penetrate the distal end face.
[0050]
Further, as shown in FIG. 10, the through hole 41 is formed in the side wall portion where the slit of the collet body 42 is not formed, the tool insertion hole 12 side is communicated with the through hole 41 from the through hole 41, and the tool A slit 34 penetrating the insertion hole 12 may be provided. Similarly, in the case of the holder main body in which no slit is formed, a through hole is formed in the side wall of the holder main body in accordance with the configuration shown in FIG. It is also possible to provide a slit that communicates with the hole and penetrates the mounting body insertion hole. In the case of this configuration, the contact portion 32 of the position regulating member 24 is disposed in the slit 34.
(Embodiment 3)
Next, a position adjusting mechanism according to a third embodiment of the present invention will be described with reference to the drawings.
[0051]
11 is a partial cross-sectional view of a collet provided with the position adjusting mechanism according to the third embodiment, FIG. 12 is an enlarged cross-sectional view of the vicinity of the through-hole formed in the collet shown in FIG. 11, and FIG. It is a partially expanded view of the collet shown in FIG.
[0052]
In the third embodiment, members similar to those of the collet 10 and the position adjusting mechanism 1 described in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.
[0053]
As shown in FIGS. 11 to 13, the collet 30 and the position adjusting mechanism 3 according to the third embodiment are different from the collet 10 and the position adjusting mechanism 1 according to the first embodiment in the base end side of the through hole 21. And the shape of the position restricting member 44, the guide 27, and the convex body 33.
[0054]
That is, the position adjusting mechanism 3 according to the third embodiment includes a slot 13A, a through hole 21 formed in communication with the slot 13A, and a female screw 22 formed on the inner peripheral surface of the base end side of the through hole 21. A moving member 23 that is disposed in the through hole 21 and moves by being engaged with the female screw 22 and rotating, and extends through the through hole 21 and the slit 13A into the tool insertion hole 12 and moves. A position restricting member 44 that is movable in the insertion / removal direction of the tool 100 in accordance with the movement of the member 23 and determines the insertion position of the tool 100 by contacting the tool 100 is provided.
[0055]
The position restricting member 44 is formed continuously from the mounting portion 45 inserted into the insertion hole 26 of the moving member 23 and attached to the moving member 23, and at an angle of approximately 90 degrees with respect to the mounting portion 45. And an abutting portion 46 that is bent and can abut against the base end surface of the tool 100 inserted into the tool insertion hole 12. The position restricting member 44 is rotatable relative to the moving member 23.
[0056]
The attachment portion 45 includes an insertion portion 47 that is inserted into the insertion hole 26 of the moving member 23, and a guide plate 48 that is continuously formed on the proximal end side of the insertion portion 47 and is disposed across the through hole 21 and the slit 13 </ b> A. It is equipped with. A convex body 33 having a diameter slightly larger than that of the insertion portion 47 is provided at the distal end of the insertion portion 47. Similarly to the first embodiment described above, the guide 27 prevents movement in the axial direction, and the position regulating member. 44 is prevented from falling off.
[0057]
A predetermined interval is provided between the insertion portion 47 and the guide 27, and the convex body 33 comes into contact with the moving member 23. Therefore, when the moving member 23 rotates in the through hole 21, the friction coefficient generated between the moving member 23 and the insertion portion 47 can be reduced. In the third embodiment, a cylindrical body is employed as the convex body 33. Further, the distal end side of the guide 27 has a shape complementary to the proximal end surface of the cylindrical body.
[0058]
The guide plate 48 has a plate shape with a thickness smaller than the width of the slit 13A, and is regulated to move in the axial direction by contacting the side wall of the slot 13A. As a result, the guide plate 48 restrains the position restricting member 44 from rotating relative to the collet body 52.
[0059]
The moving member 23 to which the position restricting member 44 is attached is inserted into the through hole 21 and the slit 13A from the base end face side of the collet body 52.
[0060]
The position adjustment mechanism 3 according to the third embodiment is also simple in configuration for the same reason as the position adjustment mechanism 1 according to the first embodiment. In addition, it is possible to minimize the space required for disposing the position adjustment mechanism 3. Therefore, it is possible to prevent the collet 30 provided with the position adjusting mechanism 2 from being unnecessarily enlarged.
[0061]
In the third embodiment, since the female screw 22 is formed on the base end side of the through-hole 21, the opening on the distal end side of the through-hole 21 can be reduced as in the second embodiment. There is also an advantage that dust (dust) or the like is less likely to enter 52.
[0062]
Next, in the position adjusting mechanism 3 according to the third embodiment, in order to adjust and determine the base end position of the tool 100 inserted into the tool insertion hole 12 of the collet 30 mounted on a desired milling chuck (not shown), Similarly to the first embodiment, for example, a hexagon wrench or a screwdriver may be inserted into the through hole 21 from the front end surface of the collet body 52 and the moving member 23 may be rotated. At this time, the mounting portion 47 of the position restricting member 44 is restricted to move in the axial direction by the guide 27 and the guide plate 48, so that the position restricting member 44 can move more stably.
[0063]
As described above, the position adjusting mechanism 3 according to the third embodiment can be easily installed in the tool 100 in the state in which the tool 100 is inserted into the tool insertion hole 12 by the movement of the position restricting member 44 as in the first embodiment. The position of the proximal face can be determined. In addition, since the influence of the mass balance of the position adjusting mechanism 3 is small, it is possible to cope with high-speed rotation suitably.
[0064]
Note that the position regulating member 44 according to the third embodiment may be applied to the position adjusting mechanism 1 according to the first embodiment.
[0065]
In the third embodiment, since the female screw 22 is formed on the proximal end side of the through-hole 21, the position regulating member 44 is attached to the distal end side of the moving member 23. It is also possible to adjust the base end position of the tool 100 inserted into the tool insertion hole 12 by inserting and the like and rotating the moving member 23. In this case, as long as the through hole 21 penetrates the base end face of the collet body 52, it does not have to penetrate the distal end face.
[0066]
Further, similarly to the first and second embodiments described above, the through hole 21 is formed in the side wall portion where the slit of the collet main body 52 is not formed, and the through hole 21 is formed closer to the tool insertion hole 12 than the through hole 21. A slit that communicates with 21 and penetrates the tool insertion hole 12 may be provided. Further, the case of the holder main body in which no slit is formed can be dealt with in the same manner as in the first and second embodiments.
[0067]
Furthermore, in Embodiments 1 to 3, the case where the collet is used as the holder main body has been described. However, the present invention is not limited to this, and the holder main body is inserted into the insertion hole so as to be removably inserted. If it is necessary to adjust, there is no particular limitation.
[0068]
Further, the convex body 33 formed at the tips of the mounting portions 31 and 45 of the position restricting members 24 and 44 described in the first to third embodiments is not limited to a sphere or a cylindrical body, and the position restricting members 24 and 44 are moved. What is necessary is just to have the shape where the movement of an axial direction is prevented by the guide 27, when it attaches to the member 23. FIG.
[0069]
For example, when a milling chuck is applied as the holder body, the slit of the gripping portion inner diameter of the milling chuck can be applied as the slit.
[0070]
Moreover, although Embodiment 1-3 demonstrated the case where a tool was used as a mounting body, as long as a mounting body is detachably mounted in the insertion hole of a holder main body, it is not restricted to this. There is no particular limitation.
[0071]
【The invention's effect】
As described above, the position adjusting mechanism according to the present invention can easily adjust the position of the mounting body with the mounting body mounted on the holder body. In the position adjustment mechanism according to the present invention, a through hole is formed so as to be juxtaposed with the insertion hole into which the mounting body is inserted, and the moving member and a part of the position regulating member are arranged in the through hole. Since the provided configuration is provided, the space for disposing the position adjusting mechanism can be minimized, and the holder body can be downsized. Furthermore, since the influence of the mass balance is small, it is possible to suitably cope with high-speed rotation.
[Brief description of the drawings]
FIG. 1 is a partial cross-sectional view of a collet provided with a position adjusting mechanism according to a first embodiment of the present invention.
FIG. 2 is a side view of the collet shown in FIG. 1 as viewed from the tool insertion port side.
FIG. 3 is a partially enlarged view of the collet shown in FIG. 1;
4 is an enlarged cross-sectional view of the vicinity of a through hole formed in the collet shown in FIG. 1. FIG.
FIG. 5 is an enlarged perspective view of a moving member and a position restricting member disposed on the collet shown in FIG. 1;
FIG. 6 is a side view of a collet provided with a position adjusting mechanism according to another embodiment of the present invention, as viewed from the tool insertion opening side.
FIG. 7 is a partial cross-sectional view of a collet provided with a position adjusting mechanism according to a second embodiment of the present invention.
8 is a side view of the collet shown in FIG. 7 as viewed from the tool insertion opening side.
9 is an enlarged cross-sectional view of the vicinity of a through hole formed in the collet shown in FIG.
FIG. 10 is a side view of a collet provided with a position adjusting mechanism according to another embodiment of the present invention, as viewed from the tool insertion opening side.
FIG. 11 is a partial cross-sectional view of a collet provided with a position adjusting mechanism according to a third embodiment of the present invention.
12 is an enlarged cross-sectional view of the vicinity of a through hole formed in the collet shown in FIG.
13 is a partially enlarged view of the collet shown in FIG.
[Explanation of symbols]
1, 2, 3 Position adjustment mechanism
10, 20, 30 Collet
11, 42, 52 Collet body
12 Tool insertion hole
13A, 13B, 13C, 13D slot
21, 41 Through hole
22 Female thread
23 Moving member
24, 44 Position restriction member
25 Male thread
27 Guide
48 Guide plate
100 tools

Claims (9)

A position adjusting mechanism for adjusting an insertion position of a mounting body that is detachably mounted in an insertion hole of the holder body,
A through hole formed in the holder body, juxtaposed to the insertion hole and penetrating at least one end surface of the holder body;
A slit formed in the holder body, communicating with the through hole and penetrating the insertion hole;
An internal thread formed on the inner peripheral surface of the through hole;
A moving member that is disposed in the through-hole and moves by screwing with the female screw and rotating;
It extends into the insertion hole through the through hole and the slit, and is movable in the insertion / removal direction according to the movement of the moving member, and determines the insertion position of the mounting body by contacting the mounting body A position regulating member to be
Position adjustment mechanism with The position regulating member is
A mounting portion disposed in the through hole and rotatably mounted to the moving member;
A contact portion disposed in the slit and continuously formed on the mounting portion and contacting the mounting body;
The position adjusting mechanism according to claim 1, further comprising: The position adjusting mechanism according to claim 1, wherein the female screw is formed on an insertion port side of the mounting body. The position adjusting mechanism according to claim 1, wherein the female screw is formed on a side opposite to the insertion port side of the mounting body. The said position control member is arrange | positioned in the said slit, and further provided with the 1st guide which restrains this position control member so that it may not rotate with respect to the said holder main body. The position adjusting mechanism according to the item. The position adjusting mechanism according to any one of claims 2 to 5, wherein the moving member further includes a second guide for restricting the attachment portion to move on the axis of the through hole. The position adjusting mechanism according to any one of claims 1 to 6, wherein the holder body is a tool holder body, and the mounting body is a tool. The position adjusting mechanism according to claim 7, wherein the slit is a collet slit. The position adjusting mechanism according to claim 7, wherein the slit is a slit of a grip portion inner diameter of the milling chuck.

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