JP2015054380A - Rotary cutting tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To surely prevent scattering by centrifugal force of a component of an edge position adjustment mechanism, in a rotary cutting tool having the edge position adjustment mechanism for executing adjustment operation from the outer peripheral side of a tool body.SOLUTION: The tool body having a guide hole and a pinhole opened toward the central direction from the outer peripheral side, is provided with the edge position adjustment mechanism having an adjustment screw, an adjuster for propelling in the guide hole by using its adjustment screw and an operation pin inserted into the pinhole and interposed between the adjuster and a cutting insert, and the adjuster has on the outer periphery a taper surface inclined in the direction for separating a part existing on the central side of the tool body from the pinhole, and also has a projection part pushed out to the pinhole side more than a maximally separated position of the taper surface from the pinhole to the central side of the tool body more than its taper surface, and the operation pin enters the guide hole, and contacts with the taper surface.

Description

  The present invention relates to a rotary cutting tool that has a blade edge position adjustment mechanism and the adjustment mechanism is operated from the outer periphery of a tool body.

  As a rotary cutting tool provided with a blade edge position adjusting mechanism, for example, one described in Patent Document 1 below is known.

  The cutting tool disclosed in the same document is a milling cutter, and prevents the cutting insert from being scattered by centrifugal force during processing by limiting the movement of the cutting insert in the cutter outer diameter direction by the tool body. .

  The blade edge position adjusting mechanism provided in the milling cutter propels the adjustment piece having the wedge surface with a screw, and changes the blade edge position of the cutting insert using the displacement of the wedge surface of the adjustment piece at this time. . The screw for propelling the adjustment piece is screwed into the tool body from the outer periphery toward the center, and the adjustment piece is structured to be propelled in the cutter radial direction.

Japanese Patent Laid-Open No. 5-138423

  In a rotary cutting tool, as a measure for preventing scattering of a cutting insert due to high-speed rotation of the tool, movement limitation of the cutting insert has been performed on the tool body.

  However, due to the recent increase in speed of cutting, the radial movement due to the centrifugal force of other members attached to the tool body has become non-negligible.

  It is preferable that the components of the blade edge position adjusting mechanism described above, for example, a wedge member for displacing the cutting insert, also take measures to prevent scattering due to centrifugal force.

  In view of this, the present invention relates to a rotary cutting tool having a cutting edge position adjusting mechanism in which the adjusting operation is performed from the outer peripheral side of the tool body, so that scattering due to centrifugal force of components of the cutting edge position adjusting mechanism is reliably prevented. The challenge is to do.

In order to solve the above problems, the present invention provides the following rotary cutting tool.
The rotary cutting tool includes a seating surface, a guide hole opened toward the center from the outer peripheral side of the tool body, a screw hole opened at the bottom of the guide hole, and a seating surface installation portion to the guide hole. A tool body having a leading pin hole, a cutting insert mounted on the seat surface, a blade edge position adjusting mechanism for adjusting a blade edge position of the cutting insert, and a clamp mechanism for fixing the cutting insert whose blade edge position is adjusted ing.

  The blade edge position adjusting mechanism includes an adjustment screw screwed into the screw hole, an adjuster propelled in the guide hole as the adjustment screw is screwed into the screw hole, and a pin hole inserted into the pin hole. An operating pin having a length interposed between the adjuster and the cutting insert is longer than an entire length of the pin hole.

  Further, the adjuster has a tapered surface on the outer periphery of a portion on the center side of the tool body inclined in a direction away from the pin hole, and further, the tapered surface is closer to the center side of the tool body than the tapered surface. Has a protrusion protruding to the pin hole side from the position farthest away from the pin hole, and the operating pin enters the guide hole and is in contact with the tapered surface.

  In the rotary cutting tool of the present invention, scattering due to the centrifugal force of the adjuster does not occur.

It is a perspective view showing the whole example of a cutting tool of this invention. It is sectional drawing which shows the principal part of a blade-tip position adjustment mechanism. It is a figure seen and seen in the direction of an axis of an operation pin which shows a positional relation of a cutting insert, an operation pin of a blade edge position adjustment mechanism, and a stopper which controls movement of the operation pin. It is a figure which shows the positional relationship of the cutting insert, the clamp mechanism which fixes it, and the blade edge position adjustment mechanism from the front of a tool. It is a figure which shows the positional relationship of the cutting insert, the clamp mechanism which fixes it, a blade edge | tip position adjustment mechanism, and the stopper which controls the movement of the operating pin of the mechanism seeing from the rotation direction front side of a tool. It is a figure which shows the positional relationship of the cutting insert, the clamp mechanism which fixes it, a blade edge | tip position adjustment mechanism, and the stopper which controls the movement of the operating pin of the mechanism seeing from the outer peripheral side of a tool. It is a perspective view which shows the modification of the regulator of a blade edge | tip position adjustment mechanism, and an adjustment screw. It is a perspective view which shows the other modification of the adjuster and adjustment screw of a blade-tip position adjustment mechanism.

  Embodiments of a rotary cutting tool according to the present invention will be described below with reference to FIGS. The illustrated rotary cutting tool is an application of the present invention to a face milling cutter.

  A rotary cutting tool 1 shown in FIG. 1 includes a tool body 2, a cutting insert 4 that is mounted on the tool body to form a cutting edge 3, a blade edge position adjusting mechanism 5 that adjusts the blade edge position of the cutting insert, It has a clamp mechanism 6 that fixes the cutting insert 4 to the adjustment point of the blade edge position.

  The tool body 2 has a seat surface 7 on which the cutting insert 4 is seated on the outer periphery of the tip. Further, as shown in FIG. 2, the guide hole 8 opened from the outer peripheral side toward the center, the screw hole 9 opened at the bottom of the guide hole, and the installation portion of the seat surface 7 from the installation portion to the guide hole 8. It has the pin hole 10 to reach and the piece insertion groove 11 corresponding to the seating surface 7. The pin hole 10 of the illustrated tool is a hole orthogonal to the guide hole 8.

  The seat surface 7 shown in FIG. 1 has a main seat surface 7 a that supports the back surface of the cutting insert 4 and a seat side surface 7 b that restrains the radially inner side surface. Is attached so that the blade edge position can be adjusted.

  As shown in FIG. 2, the blade edge position adjusting mechanism 5 includes an adjustment screw 12 screwed into the screw hole 9, an adjuster 13 that is propelled in the guide hole 8 as the adjustment screw is screwed into the screw hole 9, and An operating pin 14 inserted into the pin hole 10 and interposed between the adjuster 13 and the cutting insert 4 is combined.

  The adjuster 13 has a taper surface 13a on the outer periphery thereof that is inclined in a direction in which a portion on the center side of the tool main body is separated from the pin hole 10. Further, the taper surface 13 a has a convex portion 13 b protruding toward the pin hole side from the position where the taper surface 13 a is farthest away from the pin hole 10 on the center side of the tool body 2 than the taper surface 13 a.

  In the illustrated rotary cutting tool, the adjusting screw 12 and the adjuster 13 are integrally formed, and the tapered surface 13a is created by using a portion of the adjuster 13 excluding both axial ends as a conical tapered shaft.

  As shown in FIG. 2, the operating pin 14 is longer than the entire length of the pin hole 10, and the end on the guide hole 8 side always protrudes from the pin hole 10 and enters the guide hole 8.

  The entering portion functions as a stopper. When the convex portion 13b of the adjuster is caught by the stopper (entrance portion), the adjuster 13 and the adjusting screw 12 integrated with the adjuster 13 are surely scattered by centrifugal force during use of the tool or naturally come out from the guide hole. To be prevented.

  The blade edge position adjusting mechanism 5 configured in this way engages a wrench with an operation hole 13c (see FIG. 6) provided on the end face of the adjuster 13, and rotates the adjusting screw 12 in the tightening direction. By the operation, the adjusting screw 12 is screwed into the screw hole 9 and the tapered surface 13a provided on the adjuster 13 is displaced.

  At this time, the operating pin 14 is pushed and moved by the action of the tapered surface 13a, and the positioning point by the operating pin 14 is changed to adjust the position of the cutting edge of the cutting insert 4 as indicated by a chain line in FIG.

  The adjustment of the blade edge position in this structure can be finely adjusted. In the adjustment mechanism of the type in which the cutting insert is directly pressed with a screw, the amount of propulsion of the screw is equal to the amount of adjustment. In the case of this structure, the amount of propulsion by one rotation of the adjusting screw 12 is reduced by the action of the tapered surface 13a. 14, the moving amount of the cutting insert can be reduced to a fraction of the propulsion amount by one rotation of the adjusting screw 12 (the specific reduction rate is determined by the inclination angle of the tapered surface 13a). It is.

  In the illustrated blade edge position adjusting mechanism 5, a part of the operating pin 14 enters the guide hole 8 (see FIG. 2), and the entering portion functions as a stopper. When the convex portion 13b of the adjuster 13 is caught by the entering portion, the adjuster 13 and the adjusting screw 12 integral with the adjuster 13 are prevented from coming off from the guide hole 8, and are scattered by centrifugal force during use of the tool or naturally from the guide hole 8. It is reliably prevented from falling off.

  1, 3, 5, and 6 is a stopper that regulates the amount of movement of the operating pin 14. A chamfered portion 14a (see FIGS. 3, 5, and 6) is provided on the outer periphery of the operating pin 14, and a stepped surface formed at the end of the chamfered portion abuts against the stopper 15 supported by the tool body at the movement restricting position. It is.

  The stopper 15 is inserted into the guide hole 8, the operating pin 14 is inserted into the pin hole 10, and then the stopper 15 is attached to the tool body 2.

  With this stopper 15, the movement of the operating pin 14 toward the seat surface forming portion can be restricted by the stopper 15 and the state where the operating pin 14 enters the guide hole 8 can be reliably maintained.

  Further, when the cutting insert 4 is removed from the seating surface 7, it is possible to prevent the operating pin 14 from coming out from the pin hole 10 to the seating surface forming portion side.

  The stopper 15 is not an essential element. The state in which the operating pin 14 enters the guide hole 8 can be known from the screwing state of the adjusting screw 12 and the cutting edge position of the cutting insert 4.

  The clamp mechanism 6 for fixing the cutting insert 4 is exemplified by a wedge-shaped clamp piece 16 inserted into the piece insertion groove 11 and a clamp screw 17 for propelling the clamp piece.

  The illustrated clamp screw 17 was twisted in the opposite direction to the outer periphery on one end side screwed into a screw hole (not shown) provided in the tool body 2 and the outer periphery on the other end side screwed into the screw hole 16a of the clamp piece 16. Although it is what is called a W screw in which a screw is formed, it is not limited to this.

  The cutting insert 4 has a groove 4a on the front surface. In the groove 4a, the depth of the side placed on the outer peripheral side of the tool body 2 is deep, and the bottom of the groove is inclined in such a direction that the side placed on the center side becomes shallow.

  A clamp piece 16 is inserted between the groove bottom and the groove surface of the piece insertion groove 11, the clamp piece 16 is drawn into the center side of the tool body 2 by a clamp screw 17, and the cutting insert 4 is an adjustment point of the cutting edge position. Fixed to.

  Since the clamp piece 16 enters the groove 4a on the front surface of the cutting insert 4, the cutting insert 4 is not scattered by the centrifugal force.

  The adjustment screw 12 and the adjuster 13 provided in the rotary cutting tool of the present invention are preferably integrally formed as described above, but may be separate parts as shown in FIGS. If a W screw is used as the adjustment screw 12, an independent adjuster 13 can also be drawn into the guide hole.

  As shown in FIGS. 7 and 8, a cylindrical adjuster 13 having both ends provided with screw holes 13 d into which the adjusting screw 12 (W screw) is screwed is used, and a tapered surface 13 a is provided on a part of the outer periphery of the adjuster 13. In this case or when the installation portion of the tapered surface 13a is a tapered angular axis, positioning of the adjuster 13 and rotation prevention in the guide hole 8 are performed.

  The adjuster 13 having a tapered surface 13a with a cylindrical shape at both ends in the axial direction and a conical shape excluding both ends is preferable because no measures for positioning and detents are required, but as shown in FIGS. Even the object of the invention can be achieved.

  It is preferable that the operating pin 14 included in the blade edge position adjusting mechanism 5 has a small outer diameter at a portion entering the guide hole 8.

  By doing so, since the amount of insertion of the operating pin 14 into the guide hole 8 can be increased, a higher effect can be expected with respect to prevention of scattering of the adjuster 13.

  In order to reduce the outer diameter of the portion of the operating pin 14 that enters the guide hole 8, a method of cutting the end portion obliquely, making it thin, conical or spherical can be considered.

  The shape of the portion where the outer diameter is reduced is not particularly limited. However, when the end of the operating pin 14 is cut along the tapered surface 13a of the adjuster 13 as shown in FIG. The strength of the part and the wear resistance of the contact surface with respect to the tapered surface 13a do not decrease, and the amount of entry becomes larger because the entry portion into the guide hole 8 is biased toward the center side of the tool body. Good.

DESCRIPTION OF SYMBOLS 1 Rotating cutting tool 2 Tool main body 3 Cutting blade 4 Cutting insert 4a Groove 5 Cutting edge position adjustment mechanism 6 Clamp mechanism 7 Seat surface 7a Main seat surface 7b Seat side surface 8 Guide hole 9 Screw hole 10 Pin hole 11 Piece insertion groove 12 Adjustment screw 13 Adjuster 13a Tapered surface 13b Protruding portion 13c Operation hole 13d Screw hole 14 Actuating pin 14a Chamfer 15 Stopper 16 Clamp piece 16a Screw hole 17 Clamp screw

Claims (3)

A tool having a seat surface, a guide hole opened toward the center from the outer peripheral side of the tool body, a screw hole opened at the bottom of the guide hole, and a pin hole extending from the seat surface installation portion to the guide hole A main body, a cutting insert attached to the seating surface, a blade edge position adjusting mechanism for adjusting the blade edge position of the cutting insert, and a clamp mechanism for fixing the cutting insert whose blade edge position is adjusted,
The blade edge position adjusting mechanism includes an adjustment screw that is screwed into the screw hole, an adjuster that is propelled in the guide hole as the adjustment screw is screwed into the screw hole, and the adjustment that is inserted into the pin hole. An operating pin having a length interposed between the child and the cutting insert is longer than the total length of the pin hole;
Further, the adjuster has a tapered surface on the outer periphery of a portion on the center side of the tool body inclined in a direction away from the pin hole, and further, the tapered surface is closer to the center side of the tool body than the tapered surface. The rotary cutting tool has a convex portion protruding toward the pin hole side from a position farthest from the pin hole, and the operating pin enters the guide hole and contacts the tapered surface.   The adjusting screw and the adjuster of the blade edge position adjusting mechanism are integrally formed, and a portion excluding both ends in the axial direction of the adjuster is configured as a conical tapered shaft, and the tapered surface is created by the outer surface of the tapered shaft. The rotary cutting tool according to claim 1.   The end portion on the adjuster side of the operating pin is cut obliquely along the tapered surface, and the entering portion of the operating pin into the guide hole is biased toward the center side of the tool body. The rotary cutting tool according to 1.

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