JP2021070094A - Cutting tool - Google Patents

Abstract

To provide a cutting tool which can reduce a movable range of a movable blade.SOLUTION: A cutting tool 1 comprises a pair of cutting blades 60 and a tool main body 7. The pair of cutting blades 60 have stationary blade parts and movable blade parts. The tool main body 7 cuts a lengthy object 9 with the movable blade part of a movable blade 60A and the stationary blade part of a stationary blade 60B, by moving the movable blade 60A with respect to the stationary blade 60B, where one of the pair of cutting blades 60 is set as the stationary blade 60B and the other is set as the movable blade 60A. The stationary blade part has a stationary recessed part 63 that holds the lengthy object 9 when the cutting blade 60 is used as the stationary blade 60B. The movable blade part has a movable recessed part 62 that holds the lengthy object 9 when the cutting blade 60 is used as the movable blade 60A. At least either the stationary recessed part 63 or the movable recessed part 62 has a circular arc-shape in which a depth thereof is less than a radius of the lengthy object 9.SELECTED DRAWING: Figure 7

Description

The present disclosure relates to cutting tools. More specifically, the present disclosure relates to a cutting tool with a pair of cutting blades.

As a conventional example of a cutting tool using a pair of cutting blades, the rod-shaped body cutting machine described in Patent Document 1 will be illustrated. The rod-shaped body cutting machine described in Patent Document 1 has a fixed blade (cutting blade) and a movable blade (cutting blade) that is brought into contact with and separated from the fixed blade and cuts the rod-shaped body (cutting object) by a shearing action. I have. This rod-shaped body cutting machine cuts an object to be cut by crossing a fixed blade and a movable blade. Both the fixed blade and the movable blade have a semicircular recess having the same depth as the radius of the rod-shaped body.

Japanese Unexamined Patent Publication No. 2005-238432

In the rod-shaped body cutting machine described in Patent Document 1, the moving range (also referred to as the stroke amount) of the movable blade is the depth of the recess of the fixed blade, the depth of the recess of the movable blade, and the movable range for inserting the rod-shaped body. It is the total length of the distance between the blade and the fixed blade (that is, the diameter of the rod-shaped body). However, the depth of each recess of the fixed blade and the movable blade is the same as the radius of the rod-shaped body. Therefore, the moving range of the movable blade becomes large, and the rod-shaped body cutting machine becomes large.

An object of the present invention is to provide a cutting tool capable of reducing the moving range of a movable blade.

The cutting tool of one aspect of the present disclosure includes a pair of cutting blades and a tool body. The pair of cutting blades have a fixed blade portion and a movable blade portion, respectively. The tool body has one of the pair of cutting blades as a fixed blade and the other as a movable blade, and by moving the movable blade with respect to the fixed blade, the movable blade portion of the movable blade and the said. The fixed blade portion of the fixed blade cuts a long object in a plane intersecting the long axis of the long object. The fixed blade portion has a fixing recess for holding the long object when the cutting blade is used as the fixed blade. The movable blade portion has a movable recess for holding the long object when the cutting blade is used as the movable blade. At least one of the fixed recess and the movable recess has an arc shape whose depth is less than the radius of the long object.

According to the present disclosure, there is an advantage that a cutting tool capable of reducing the moving range of the movable blade can be provided.

FIG. 1 is a front view of the cutting tool according to the embodiment. FIG. 2 is a perspective view of the cutting tool of the same as above. FIG. 3 is a perspective view of a cutting blade for a quadrant screw. FIG. 4A is a plan view of the cutting blade for the quadrant screw of the same as above. FIG. 4B is a side view of the cutting blade for the quadrant screw of the same as above. FIG. 5A is a plan view of a cutting blade for a three-minute screw. FIG. 5B is a side view of a cutting blade for a three-minute screw. FIG. 6 is a perspective view of the fixed arm with the fixed blade removed. FIG. 7 is a plan view of the fixed arm and the movable arm. FIG. 8 is a perspective view of a fixing arm in a state where a fixing blade for a three-minute screw is attached via a spacer. FIG. 9 is a perspective view of the spacer as above. FIG. 10 is an explanatory diagram illustrating the operation of the cutting tool of the comparative example when the quadrant screw of the comparative example is used. FIG. 11 is an explanatory diagram illustrating the operation of the cutting tool of the comparative example when the three-minute screw of the embodiment is used. FIG. 12 is an explanatory diagram illustrating the operation of the cutting tool of the embodiment when the quadrant screw of the embodiment is used. FIG. 13 is an explanatory diagram illustrating the operation of the cutting tool of the embodiment when the three-minute screw of the embodiment is used. 14A and 14B are explanatory views for explaining how the screw is cut when the cutting blade of the embodiment is used. FIG. 15 is an explanatory diagram showing an example of the moving speed of the cutting blade of the embodiment.

Hereinafter, the cutting tool according to the embodiment will be described with reference to the drawings. However, the following embodiments are only one of the various embodiments of the present disclosure. The following embodiments can be variously modified according to the design and the like as long as the object of the present disclosure can be achieved. Further, each figure described in the following embodiment is a schematic view, and the ratio of the size and the thickness of each component in the figure does not necessarily reflect the actual dimensional ratio. ..

(1) Outline As shown in FIG. 1, the cutting tool 1 of the present embodiment includes a pair of cutting blades 6 and a tool body 7. The cutting tool 1 is, for example, a hand-held power tool, which is a power tool that cuts an object to be cut by a pair of cutting blades 6. The hand-held type means that the size and weight are such that a person can pick it up and carry it around.

The object to be cut is, for example, a long object 9. The long object 9 may be a part of a predetermined member or the entire predetermined member. In the present disclosure, the long object means a portion whose length in the longitudinal direction is at least twice the length in each direction orthogonal to the longitudinal direction. More preferably, in a long object, the length in the longitudinal direction is five times or more the length in each direction orthogonal to the longitudinal direction. More preferably, in a long object, the length in the longitudinal direction is 10 times or more the length in each direction orthogonal to the longitudinal direction. The longitudinal direction of the long object 9 of the present embodiment is the vertical direction of the paper surface in FIG.

A specific example of a predetermined member having the long object 9 is a full screw, a screw other than the full screw, a bolt, a reinforcing bar, a pipe, or a square or columnar member made of wood, metal, or the like. In the present embodiment, the predetermined member is a total screw, and the long object 9 is a total of all screws. In this embodiment, a cutting tool 1 for cutting all screws will be described. More specifically, the cutting tool 1 cuts a long object 9 (all screws) protruding vertically downward from a structure such as a ceiling. One end (upper end) of the long object 9 is fixed to the ceiling or the like. More specifically, the long object 9 (all threads) has a 3/4 thread (a first long object having a first diameter) and a quadruple thread (a second diameter larger than the first diameter). The second long object) is the object to be cut. A three-minute screw is a screw with a diameter of 3/8 inch. A quadrant is a 4/8 inch diameter thread. Therefore, a 3/4 screw is a screw having a smaller diameter than a quadrant screw.

In the present embodiment, as the pair of cutting blades 6, a pair of cutting blades for quadrant screws and a pair of cutting blades for 3/4 screws are prepared. The cutting tool 1 can replace the pair of cutting blades 6 with a pair of cutting blades for quadrant screws or a pair of cutting blades for 3/4 screws. That is, when the cutting tool 1 cuts a quadrant screw, a pair of cutting blades for the quadrant screw are attached as the pair of cutting blades 6. Further, in the cutting tool 1, when cutting a three-minute screw, a pair of cutting blades for the three-minute screw is attached as a pair of cutting blades.

(2) Tool body As shown in FIG. 2, the tool body 7 is movable with a handle 71, an auxiliary handle 72, a trigger switch 73 (operation unit), a housing 74, a mounting unit 75, and a fixed arm 81. Includes arm 82 and.

Inside the handle 71, the auxiliary handle 72, and the housing 74, the motor included in the tool body 7, the drive circuit of the motor, and the like are housed. The housing 74 has a cylindrical tubular portion and a base portion 742 connected to the axial tip of the tubular portion 741. Of the base portion 742, the surface 7421 on the side opposite to the tubular portion 741 side is flat. The handle 71 projects from the side surface of the tubular portion 741. A trigger switch 73 is provided outside the handle 71. The auxiliary handle 72 protrudes from the base portion 742. The protruding direction of the auxiliary handle 72 is along the protruding direction of the handle 71. The handle 71 and the auxiliary handle 72 are connected to the mounting portion 75 on the tip side in each protruding direction. A battery pack 76 containing a battery (secondary battery) is attached to the mounting portion 75. In the present embodiment, the battery pack 76 is not included in the configuration of the cutting tool 1, but the battery pack 76 may be included in the configuration of the cutting tool 1.

The fixed arm 81 and the movable arm 82 project from the outer surface of the base portion 742 of the housing 74. The fixed arm 81 and the movable arm 82 are provided on the side opposite to the auxiliary handle 72 with the base portion 742 interposed therebetween. The movable arm 82 is positioned so as to deviate from the fixed arm 81 in the axial direction of the tubular portion 741 (the left-right direction of the paper surface in FIG. 2).

The pair of cutting blades 6 have the same shape and the same size as each other. Of the pair of cutting blades 6, one cutting blade 6 is attached to the fixed arm 81 as a fixed blade, and the other cutting blade 6 is attached to the movable arm 82 as a movable blade. The shape of the cutting blade 6 will be described in detail later.

More specifically, the bolt B1 passed through the through hole 810 formed in the fixed arm 81 is screwed into the mounting hole 6b formed in the cutting blade 6, so that one cutting blade 6 is screwed into the fixed arm 81. Is attached. Further, the bolt B1 passed through the through hole 820 formed in the movable arm 82 is screwed into the mounting hole 6b formed in the cutting blade 6, so that the other cutting blade 6 is attached to the movable arm 82. .. In this way, the tool body 7 holds the pair of cutting blades 6.

The movable arm 82 is rotatably supported around a predetermined rotation axis on the base portion 742 of the tool body 7. The movable arm 82 can be displaced in the direction indicated by the arrow A1 in FIG. 1 by rotating around the predetermined rotation axis. That is, the movable arm 82 can be displaced so as to approach or separate from the fixed arm 81 along a plane orthogonal to the thickness direction of the cutting blade 6.

When the trigger switch 73 is pushed while the long object 9 is in contact with the cutting blade 6 attached to the fixed arm 81, the movable arm 82 is fixed by the driving force of the motor housed in the housing 74. Move closer to 81. As a result, the long object 9 is sandwiched between the cutting blade 6 attached to the movable arm 82 and the cutting blade 6 attached to the fixed arm 81, and the long object 9 is sheared (cut). In the present embodiment, when the trigger switch 73 is continuously pushed, the movable arm 82 automatically returns to the original position (that is, the position where the distance between the movable blade and the fixed blade becomes fully open) after cutting the long object 9. Is returned.

In the present embodiment, the tool body 7 has a cutting tool cover 2, and the fragment 91 separated from the long object 9 by the pair of cutting blades 6 is formed from the opening 21 of the cutting tool cover 2. It is housed inside the cutting tool cover 2.

(3) Cutting Blade As described above, the cutting blade 6 includes a cutting blade 60 for a 4-minute screw (second cutting blade) and a cutting blade 50 for a 3-minute screw (first cutting blade). First, the cutting blade 60 for a quadrant screw will be described with reference to FIGS. 3, 4A and 4B.

As shown in FIGS. 3, 4A and 4B, the cutting blade 60 for a quadrant screw has a base material 61, two recesses 62 and 63, and a mounting hole 64 (mounting portion). In the following description, as shown in FIG. 3, the width direction H1, the length direction H2, the thickness direction H3, and the axis H4 of the base material 61 are set, and each of these directions H1 to H3 functions as a cutting blade 60. And usage is not limited. The axis H4 is a virtual axis and is parallel to the thickness direction H3.

The base material 61 has, for example, a plate shape having a substantially rectangular shape in a plan view. The planar shape of the base material 61 is a substantially rectangular shape having predetermined dimensions so as to fit into the attachment points of the fixed arm 81 and the movable arm 82. The base material 61 has main surfaces 61a and 61b on both sides in the thickness direction H3 and end surfaces 61c and 61d on both sides in the length direction H2. In the present embodiment, of the four corners of the main surface 61a of the base material 61, two corners are chamfered, but may not be chamfered.

The two recesses 62 and 63 are portions that hold the quadrant screw, which is the object to be cut. When the quadrant screw (long object 9) is held in the recesses 62 and 63, the axis H4 of the base material 61 is parallel to the major axis of the quadrant screw. The two recesses 62 and 63 are provided on both end faces 61c and 61d of the base material 61. The two recesses 62 and 63 are provided at the center of the width direction H1 of both end faces 61c and 61d (more specifically, at a position slightly biased to one side of the width direction H1), and face the center of the base material 61. It is dented in an arc shape. The two recesses 62 and 63 are arc-shaped openings on the main surfaces 61a and 61b on both sides of the base material 61.

More specifically, one of the recesses 62 has a diameter R1 (length in the width direction H1) substantially the same as the diameter of the quadrant screw (a diameter slightly smaller than the diameter of the quadrant screw) and a depth R2 (a diameter slightly smaller than the diameter of the quadrant screw). The length in the length direction H2) is a substantially semicircular shape (arc shape) having a size less than the radius of the quadrant screw. The other recess 63 has a diameter R3 having the same diameter as the diameter of the quadrant screw and a depth R4 having the same size as the radius of the quadrant screw. That is, the depths R2 and R4 of the two recesses 62 and 63 are different from each other, and the recess 62 is shallower than the recess 63. Further, the diameter R1 is smaller than the diameter R3 (R1 <R3).

The diameter (diameter) R1 and depth (radius) R2 of the recess 62, and the diameter and radius of the thread valley of the screw groove 62a described later in the recess 62. Similarly, the diameter (diameter) R3 and the depth (radius) R4 of the recess 63 are the diameter and radius of the thread valley of the thread groove 63a described later in the recess 63. Threaded grooves 62a, 63a are formed on the inner side surfaces 62a, 63a of the recesses 62, 63. The thread grooves 62a and 63a are formed so as to fit into the threads of the quadrant screw held in the recesses 62 and 63. That is, the screw grooves 62a and 63a are provided so as to be inclined with respect to the axis H4 when viewed from the length direction H2 (see FIG. 4B).

The mounting hole 64 is a hole for mounting the cutting blade 60 to the fixed arm 81 or the movable arm 82. In this embodiment, the mounting holes 64 constitute the mounting holes 6b (see FIG. 2) described above. The mounting hole 64 penetrates the base material 61 in the thickness direction H3. The mounting hole 64 is provided on the main surface 61a of the base material 61 at a position slightly deviated from the center of the width direction H1 in the width direction H1 and slightly deviated from the center of the length direction H2 toward the recess 62 side. ing. In the present embodiment, the center P1 of the mounting hole 64 and the center of the two recesses 62 and 63 in the width direction H1 are aligned on the virtual line M1 parallel to the length direction H2. Assuming that the distance between the center P1 of the mounting hole 64 and the end face 61c is the first distance L1 and the distance between the center P1 of the mounting hole 64 and the end face 61d is the second distance L2, the first distance L1 is the second. Is smaller than the distance L2. That is, of the two recesses 62 and 63, the recess 62 closer to the mounting hole 64 is shallower than the recess 63 farther from the mounting hole 64. In this way, the mounting holes 64 are arranged so as to be offset from the center of the main surface 61a of the base material 61. Thereby, as described later, when the cutting blade 60 is attached to the attachment position of the fixed arm 81 or the movable arm 82, it is possible to prevent the cutting blade 60 from being mistaken for the front and back and the direction of the cutting blade 60 to be mistaken.

One main surface 61b of the base material 61 is orthogonal to the axis H4 of the base material 61. Further, the other main surface 61a of the base material 61 is inclined with respect to the axis H4 when viewed from the length direction H2 (see FIG. 4B). The shaft H4 is parallel to the long shaft of the long object 9 held in the recesses 62 and 63. Therefore, the main surface 61a is inclined to the long axis of the long object 9 held in the recesses 62 and 63 when viewed from the length direction H2. In other words, the main surface 61a is inclined with respect to the main surface 61b. More specifically, the main surface 61a is inclined so that the thickness of the base material 61 decreases from one side to the other side in the width direction H1 when viewed from the length direction H2. It is desirable that this inclination is the same as the inclination angle of the screw grooves provided in the recesses 62 and 63. As a result, when a screw is cut with the cutting blade 60, it is possible to prevent burrs from being generated on the cut surface of the screw.

In the cutting blade 60, the two corners formed with the inclined main surface 61a and the inner peripheral surfaces of the two recesses 62 and 63 are the blade edges 65 and 66, respectively. In the present embodiment, as an example, of the two cutting edges 65 and 66, the cutting edge 65 of the shallow recess 62 is used as the cutting edge of the movable blade, and the cutting edge 66 of the deep recess 63 is used as the cutting edge of the fixed blade. .. Hereinafter, the concave portion 62 on the movable blade side is also referred to as a movable concave portion 62, and the concave portion 63 on the fixed blade side is also referred to as a fixed concave portion 63. The fixing recess 63 holds the long object 9 when the long object 9 (quarter screw) is cut when the cutting blade 60 is used as the fixed blade. The movable recess 62 holds the long object 9 when the long object 9 (quarter screw) is cut when the cutting blade 60 is used as the movable blade. Further, the main surface (inclined surface) 61a of the cutting blade 60 is also described as a blade surface 61a, and the main surface 61b of the cutting blade 60 is also described as a back surface 61b.

The cutting blade 60 has a movable blade portion 600 and a fixed blade portion 610.

The movable blade portion 600 is a rectangular plate-shaped portion of the cutting blade 60 including a movable recess 62 and a mounting hole 64. The fixed blade portion 610 is a rectangular plate-shaped portion of the cutting blade 60 including the fixing recess 63 and the mounting hole 64. In other words, the movable blade portion 600 is a portion of the cutting blade 60 having a constant length from one end face 61c toward the other end face 61d. The fixed blade portion 610 is a portion of the cutting blade 60 having a constant length (the same length as the above-mentioned constant length) from the other end surface 61d toward one end surface 61c.

The movable blade portion 600 and the fixed blade portion 610 have different shapes when viewed from the direction (in the axis H4 direction) intersecting the main surface 61a of the base material 61 (that is, the plane intersecting the long axis of the long object 9). doing. Specifically, the movable blade portion 600 and the fixed blade portion 610 have different depths of the movable recess 62 and the fixed recess 63. More specifically, the movable recess 62 is shallower than the fixed recess 63. Further, the first distance L1 and the second distance L2 are different. More specifically, the first distance L1 is smaller than the second distance L2.

The movable blade portion 600 and the fixed blade portion 610 are provided on both sides of the cutting blade 60 in the length direction H2. Here, the length direction H2 is the direction in which the movable blade moves with respect to the fixed blade when one of the pair of cutting blades 60 is used as the movable blade and the other is used as the fixed blade.

In the present embodiment, of the pair of cutting blades 60, one is used as a fixed blade (second fixed blade) and the other is used as a movable blade (second movable blade). Then, when the movable blade is moved with respect to the fixed blade, the quadrant screw becomes the long axis of the quadrant screw by the cutting edge 65 of the movable recess 62 of the movable blade and the cutting edge 66 of the fixed recess 63 of the fixed blade. It is cut at the intersecting planes (blade surface 61a). When the cutting blade 60 is attached to the movable arm 82 as a movable blade, the cutting blade 60 moves (forwards or backwards) along the length direction H2 of the cutting blade 60.

Next, the cutting blade 50 for a three-minute screw will be described with reference to FIGS. 5A and 5B.

In the following description, as shown in FIGS. 5A and 5B, the width direction H5, the length direction H6, the thickness direction H7, and the axis H8 of the base material 51 are set, and each of these directions H5 to H7 has a cutting blade 50. It does not limit the function or usage of. The axis H8 is a virtual axis and is parallel to the thickness direction H7.

As shown in FIGS. 5A and 5B, the cutting blade 50 has a base material 51, two recesses 52 and 53, and a mounting hole 54 (mounting portion), similarly to the cutting blade 60. The mounting hole 54 constitutes the above-mentioned mounting hole 6b (see FIG. 2).

Each component of the cutting blade 50 (base material 51, two recesses 52, 53 and a mounting hole 54) and each component of the cutting blade 60 (base material 61, two recesses 62, 63 and a mounting hole 64) Correspondingly, it has the same function as the corresponding component of the cutting blade 60. Like the base material 61, the base material 51 has main surfaces 51a and 51b on both sides in the thickness direction H7 and end surfaces 51c and 51d on both sides in the length direction H6.

The cutting blade 50 is formed in the same manner as the cutting blade 60, except that the dimensions of the two recesses 52 and 53 and the thickness of the base material 51 are different.

Specifically, both of the two recesses 52 and 53 have a diameter R5 (length in the width direction H5) having the same diameter as the diameter of the 3/4 screw, and a depth R6 (length in the length direction H2). It is a semicircle with the same size as the radius of the 3/4 screw. That is, the two recesses 52 and 53 have a smaller size of the recesses 52 and 53 than the two recesses 62 and 63, and the depths R5 of the recesses 52 and 53 are the same as each other.

The diameter (diameter) R5 and depth (radius) R6 of the recesses 52 and 53 are the diameters and radii of the screw valleys of the screw grooves 52a and 53a described later in the recess 52.

Further, the two recesses 52 and 53 are arranged slightly deviated from the center of the width direction H5 to one side of the width direction H5 on both end faces 51c and 51d of the base material 51, similarly to the two recesses 62 and 63. There is. Similar to the two recesses 62 and 63, screw grooves 52a and 53a are formed on the inner peripheral surfaces of the two recesses 52 and 53. However, the thread grooves 52a and 53a of the two recesses 52 and 53 are formed so as to fit into the threads of the 3/4 screw.

Further, the thickness of the base material 51 of the cutting blade 50 (the length in the thickness direction H7) is smaller than the thickness of the base material 61 of the cutting blade 60 (the length in the thickness direction H3). This is because the cutting blade 50 cuts a 3/4 screw thinner than the quadrant screw, and therefore does not require as much strength as the cutting blade 60.

The plane shape of the base material 51 of the cutting blade 50 is the same as the plane shape (substantially rectangular shape) of the base material 61 of the cutting blade 60. Further, one main surface 61a of the base material 51 is inclined with respect to the other main surface 51b, similarly to the base material 61. Further, the mounting hole 54 of the base material 51 is provided at a position slightly deviated from the center of the width direction H5 to the width direction H5 on the main surface 51a of the base material 51, similarly to the mounting hole 64 of the base material 61, and has a length. It is provided at a position slightly biased toward the recess 32 side from the center of the longitudinal direction H6. Further, assuming that the distance between the center P2 of the mounting hole 54 and the end face 51c is the third distance L3 and the distance between the center P2 of the mounting hole 54 and the end face 51c is the fourth distance L4, the same as in the case of the base material 61. In addition, the third distance L3 is smaller than the fourth distance L4.

In the cutting blade 50, the two corners formed by the inclined main surface 51a and the inner peripheral surfaces of the two recesses 52 and 53 are the blade tips 55 and 56, respectively. In the cutting blade 50, of the two cutting edges 55 and 56, for example, the cutting edge 55 of one recess 52 is used as the cutting edge of the movable blade, and the cutting edge 56 of the other recess 53 is used as the cutting edge of the fixed blade. Hereinafter, the recess 52 on the movable blade side will also be referred to as a movable recess 52, and the recess 53 on the fixed blade side will also be referred to as a fixed recess 53. Further, the main surface (inclined surface) 51a of the cutting blade 50 is also described as the blade surface 51a, and the main surface 51b of the cutting blade 50 is also described as the back surface 51b.

In the present embodiment, of the pair of cutting blades 60, one is used as a fixed blade (first fixed blade) and the other is used as a movable blade (first movable blade). Then, when the movable blade is moved with respect to the fixed blade, the 3/4 screw becomes the long axis of the 3/4 screw by the cutting edge 65 of the movable recess 52 of the movable blade and the cutting edge 66 of the fixed recess 53 of the fixed blade. It is cut at the intersecting planes (blade surface 51a). When the cutting blade 50 is attached to the movable arm 82 as a movable blade, the cutting blade 50 moves (forwards or backwards) along the length direction H6 of the cutting blade 50.

(4) How to Attach the Cutting Blade Next, how to attach the cutting blade 6 to the fixed arm 81 will be described with reference to FIGS. 6 to 9.

First, how to attach the cutting blade 60 for the 4-minute screw will be described. As shown in FIG. 6, the fixed arm 81 has a mounting recess (mounting location) 811. The mounting recess 811 is formed so as to be recessed in the thickness direction of the fixed arm 81 on the mounting surface (for example, the upper surface) 81a of the fixed arm 81. The mounting surface 81a of the fixed arm 81 is a surface (opposing surface) facing the lower surface of the movable arm 82 when the long object 9 is cut. The mounting recess 811 has a bottom surface having substantially the same shape and size as the planar shape of the cutting blade 60. The inner surface 811a of one of the four inner surfaces 811a, 811b, 811c, 811d of the mounting recess 811 is open on the side surface of the fixing arm 81. Hereinafter, the opened side surface 811a will also be referred to as an opening side surface 811a. The opening side surface 811a of the fixed arm 81 is a side surface on the side where the movable arm 82 approaches when the long object 9 is cut. The cutting edge 66 of the cutting blade 60 is arranged on the opening side surface 811a of the fixed arm 81.

The inner side surface 811d of the mounting recess 811 is provided with a positioning recess 811e for positioning the spacer 40, which will be described later. The positioning recess 811e is provided, for example, substantially in the center of the inner side surface 811d. The positioning recess 811e is recessed so as to project from the inner side surface 811d toward the outer peripheral side of the mounting recess 811 and is opened by the mounting surface (for example, the upper surface) 81a of the fixed arm 81. The planar shape of the positioning recess 811e is, for example, a semicircle.

Further, a recess 811g on which the long object 9 is arranged is provided on the end surface 811f of the bottom portion 811h of the mounting recess 811 on the side opening 811a side. The recess 811g is recessed in a semicircular shape from the end surface 811f toward the center of the bottom 811h. The recess 811g penetrates the bottom 811h in the thickness direction. The planar shape of the recess 811g is, for example, a semicircle with a radius larger than the radius of the quadrant screw (long object 9). A through hole 811i is provided in the bottom portion 811h of the mounting recess 811. The through hole 811i constitutes the above-mentioned through hole 810 (see FIG. 2).

When the cutting blade 60 is attached to the mounting recess 811 of the fixed arm 81, the cutting blade 60 is fitted and arranged in the mounting recess 811 as shown in FIG. In this arrangement state, the back surface 61b of the cutting blade 60 faces the bottom 811h of the mounting recess 811, the blade surface 61a of the cutting blade 60 faces the upper surface opening side of the mounting recess 811, and the fixing recess 63 of the cutting blade 60 , It overlaps with the recess 811g of the mounting recess 811, and the mounting hole 64 of the cutting blade 60 concentrically overlaps with the through hole 811i (810) of the mounting recess 811. Further, the end surface 61d of the cutting blade 60 is flush with the opening side surface 811a of the fixed arm 81, and the cutting edge 66 of the fixing recess 63 is arranged on the opening side surface 811a of the fixed arm 81. In this state, the bolt B1 is screwed into the mounting hole 64 (6b) of the cutting blade 60 through the through hole 811i (810). As a result, the cutting blade 60 is attached to the attachment recess 811 of the fixed arm 81. In this case, the cutting blade 60 is used as a fixed blade, and the cutting edge 66 of the fixing recess 63 becomes the cutting edge of the fixed blade.

The cutting blade 60 is attached to the movable arm 82 by the bolt B1 as in the case of the fixed arm 81 (see FIG. 7). More specifically, the mounting surface (lower surface) 82a of the movable arm 82 is provided with a mounting recess 821, similarly to the fixed arm 81. The mounting recess 821 has a recess 821g, a mounting hole 821i, and a positioning recess 821e, similarly to the mounting recess 811 of the fixed arm 81. The mounting hole 821i constitutes the above-mentioned through hole 820 (see FIG. 2).

Further, the mounting recess 821 of the movable arm 82 further has a positioning protrusion 821f. The positioning protrusion 821f projects from the inner side surface 821c of the mounting recess 821 toward the inside of the mounting recess 821 (see FIG. 7). The positioning protrusion 821 together with the positioning protrusion 821 positions the spacer 40 described later.

In the state where the cutting blade 60 is attached to the mounting recess 821, the blade surface 61a of the cutting blade 60 faces the lower surface opening side of the mounting recess 821, the movable recess 62 of the cutting blade 60 overlaps the recess 821g, and the end surface of the cutting blade 60. The 61c is flush with the opening side surface 821a of the movable arm 82, and the blade edge 65 of the movable recess 62 is arranged on the opening side surface 821a of the movable arm 82. In this case, the cutting blade 60 is used as a movable blade, and the cutting edge 65 of the movable recess 62 becomes the cutting edge of the movable blade.

Next, how to attach the cutting blade 50 for the 3-minute screw will be described. When the cutting blade 50 is attached to the mounting recess 811 of the fixed arm 81, as shown in FIG. 8, the cutting blade 60 has a cutting blade 60 except that a spacer 40 is interposed between the back surface 51b of the cutting blade 50 and the mounting recess 811. It is the same as how to install. Since the cutting blade 50 of the 3-minute screw is thinner than the cutting blade 60 of the 4-minute screw, the blade surface 51a of the cutting blade 50 is formed by interposing a spacer 40 between the back surface 51b of the cutting blade 50 and the mounting recess 811. Is at the same height as the blade surface 61a of the cutting blade 60. When the cutting blade 50 is attached to the mounting recess 821 of the movable arm 82, it is the same as the mounting method of the cutting blade 60 except that the spacer 40 is interposed between the back surface 51b of the cutting blade 50 and the mounting recess 821. The spacer 40 when the cutting blade 50 is attached to the fixed arm 81 and the spacer 40 when the cutting blade 50 is attached to the movable arm 82 have the same shape and the same size.

The shape of the spacer 40 will be described with reference to FIG. The spacer 40 is a flat plate having a substantially rectangular shape in a plan view. The thickness of the spacer 40 is the same as the difference in thickness between the two cutting blades 60 and 50. The spacer 40 has a spacer main body 41, a through hole 42, a recess 43, and a positioning protrusion 44. The spacer body 41 is a flat plate having a substantially rectangular shape in a plan view. The through hole 42 is a hole through which the bolt B1 passes, and penetrates in the thickness direction at substantially the center of the spacer main body 41. The recess 43 is a portion that overlaps with the movable recess 52 or the fixed recess 53 of the cutting blade 50, and is recessed from the end surface of the spacer body 41 toward the center of the spacer body 41 in a substantially semicircular shape in the thickness direction of the spacer body 41. It penetrates into. The positioning protrusion 44 is a portion that is fitted into the positioning recess 811e of the fixed arm 81 or the positioning recess 821e of the movable arm 82, and projects substantially in a semicircular shape from the end surface of the spacer body 41 to the outer peripheral side of the spacer body 41. ..

As shown in FIG. 8, when the cutting blade 50 is attached to the mounting recess 811 of the fixed arm 81, the spacer 40 is interposed between the back surface 51b of the cutting blade 50 and the mounting recess 811. In this state, the positioning protrusion 44 of the spacer 40 fits into the positioning recess 811e of the mounting recess 811. As a result, the spacer 40 is positioned and arranged in the mounting recess 811. In this state, the through hole 42 and the recess 43 of the spacer 40 overlap with the through hole 811i and the recess 811g of the mounting recess 811, respectively. When the cutting blade 50 is attached to the mounting recess 821 of the movable arm 82, the spacer 40 is interposed between the back surface 51b of the cutting blade 50 and the mounting recess 821 as described above. However, in this case, in the spacer 40, the positioning protrusion 44 of the spacer 40 fits into the recess 821e of the mounting recess 821, and the side surface 45 of the spacer 40 comes into contact with the positioning protrusion 821f of the mounting recess 821. As a result, the spacer 40 is positioned and arranged in the mounting recess 821.

(5) Explanation of Operation of Cutting Tool Next, the operation of the cutting tool 1 will be described.

In the following description, the operation of the cutting tool 1 of the present embodiment and the operation of the cutting tool 1H of the comparative example will be described. In the cutting tool 1H of the comparative example, the operation when cutting the quadrant screw using the cutting blade 60H for the quadrant screw of the comparative example and the operation of cutting the quadrant screw using the cutting blade 50 for the 3/4 screw of the present embodiment for 3 minutes. The operation when cutting a screw will be described.

Further, in the cutting tool 1H of the comparative example, the same reference numerals are given to the parts functionally the same as the cutting tool 1 of the present embodiment. Further, in the cutting blade 60H of the comparative example, the same reference numerals are given to the parts functionally the same as the cutting blade 60 of the present embodiment.

The cutting tool 1H of the comparative example is the same as the cutting tool 1 of the present embodiment except that the moving range when the movable arm 82 is rotated is different. More specifically, the moving range Δα of the movable arm 82 of the cutting tool 1H of the comparative example is larger than the moving range Δβ of the movable arm 82 of the cutting tool 1 of the present embodiment.

The cutting blade 60H for the quadrant screw of the comparative example is the same as the cutting blade 60 for the quadrant screw of the present embodiment except that the depth of the movable recess 62 is different. More specifically, in the cutting blade 60 of the present embodiment, the depth of the movable recess 62 is smaller than the depth of the fixed recess 63 (the same depth as the radius of the quadrant screw), but in the cutting blade 60H of the comparative example, The depth of the movable recess 62 is the same as the depth of the fixed recess 63 (the same depth as the radius of the quadrant screw).

Further, in the following description, when the cutting blade 60 is used as a movable blade, it is also described as a movable blade 60A (second movable blade), and when it is used as a fixed blade, it is also described as a fixed blade 60B (second fixed blade). Similarly, when the cutting blade 50 is used as a movable blade, it is also described as a movable blade 50A (first movable blade), and when it is used as a fixed blade, it is also described as a fixed blade 50B (first fixed blade). Similarly, when the cutting blade 60H of the comparative example is used as a movable blade, it is also described as a movable blade 60HA, and when it is used as a fixed blade, it is also described as a fixed blade 60HB.

Further, in the following description, the position of the movable blade 60A is represented by an angle around the rotation axis Q1. In the present embodiment, the reference position of this angle is set at a position where the end surface 61c of the movable blade 60A exactly overlaps with the end surface 61d of the fixed blade 60B when viewed from the direction of the rotation axis Q1, but basically it is set arbitrarily. It is possible. The position of the movable blade 60A means, for example, the position of the end face 61c of the movable blade 60A. These points (meaning of the above-mentioned reference position of the angle and the above-mentioned position of the movable blade 60A) are the same for the movable blades 50A and 60HA.

First, with reference to FIG. 10, the operation when the cutting tool 1H of the comparative example cuts the quadrant screw 9A using the cutting blade 60H for the quadrant screw of the comparative example will be described.

In the cutting tool 100 of the comparative example, the distance between the fixed blade 60HB and the movable blade 60HA is initially fully open. The position of the movable blade 60HA at this time is at the initial position α1. This position α1 is the start position of the movement range Δα of the movable arm 82. Then, the quadrant screw 9A passes between the fixed blade 60HB and the movable blade 60HA and is held in the fixing recess 63 of the fixed blade 60HB. In this state, if the trigger switch 73 is continuously turned on, the movable arm 82 moves in the movement range Δα from the initial position α1 to the direction of the arrow Y1 about the rotation axis Q1. By this rotation, the movable blade 60HA moves in the direction of the fixed blade 60HB, and the fixed blade 60HB and the movable blade 60HA cut the quadrant screw 9A. Then, when the movable blade 60HA advances in the movement range Δα from the initial position α1, it moves backward and returns to the original initial position α1.

More specifically, the position where the movable blade 60HA advances from the initial position α1 in the direction of the arrow Y1 and the end surface 61c of the movable blade 60HA and the end surface 61d of the fixed blade 60HB exactly overlap (cutting start position) α2 (second position). When the number reaches, the movable blade 60HA and the fixed blade 60HB start cutting the quadrant screw 9A. Then, when the movable blade 60HA advances by the diameter of the quadrant screw 9A from the position α2, the quadrant screw 9A is cut. When the movable blade 60HA is advanced by the diameter of the screw 9A, even if the movable blade 60HA is advanced by a distance slightly longer than the diameter of the screw 9A in order to surely cut the screw 9A in consideration of dimensional error and the like. Good. The position of the movable blade 60HA at this time is set as the cutting end position α3. This position α3 is the end position of the movement range Δα of the movable arm 82. Then, the movable blade 60HA moves backward from the position α3 and returns to the original initial position α1. That is, the movable blade 60HA is moved backward and separated from the fixed blade 60HB. Then, when the movable blade 60HA returns to the original initial position α1, it is automatically stopped.

Next, with reference to FIG. 11, the operation when the cutting tool 1H of the comparative example cuts the 3/4 screw 9B using the cutting blade 50 for the 3/4 screw of the present embodiment will be described.

In this case, when the movable blade 50A advances from the initial position α1 in the direction of the arrow Y1 and reaches the position (cutting start position) α2 where the end surface 51c of the movable blade 50A and the end surface 51d of the fixed blade 50B exactly overlap each other. The movable blade 50A and the fixed blade 50B start cutting the three-minute screw 9B. Then, when the movable blade 50A advances by the diameter of the 3-minute screw 9B from the position α2, the 3-minute screw 9B is cut. The position of the movable blade 50A at this time is set to the cutting end position α4 (fourth position). Then, the movable blade 50A moves from the position α4 to the position α3 (the end position of the movement range Δα), then moves backward and returns to the original initial position α1.

In this operation, the diameter of the 3/4 screw 9B is smaller than the diameter of the quadrant 9A, so that the 3/4 screw 9B is cut faster than the quadrant 9A. Therefore, in the direction of arrow Y1 (the direction in which the movable blade 50A approaches the fixed blade 50B), the cutting end position α4 of the 3/4 screw 9B is from the cutting end position α3 of the quadrant screw 9A (the end position of the movable arm 82). Is also in the foreground. Therefore, the movable blade 50A advances from the position α4 to the position α3 (the end position of the movable arm 82) after cutting the three-minute screw 9B. Therefore, when the movable blade 50A is moving in the middle between the positions α4 and α3, the operator releases the pressing operation of the trigger switch 73, and the cutting tool 1H stops. May be done. In the cutting tool 1 of the present embodiment, the occurrence of this defect can be suppressed by shortening the interval between the positions α4 and α3.

In the cutting tool 1H of the comparative example, the cutting start position (α2) of the movable blade 60HA when cutting the quarter screw 9A using the cutting blade 60H for the quarter screw of the comparative example, and 3 of the present embodiment. The cutting start position (α2) of the movable blade 50A when cutting the 3-minute screw 9B using the cutting blade 50 for the minute screw is the same position.

Next, with reference to FIG. 12, the operation when the cutting tool 1 of the present embodiment cuts the quadrant screw 9A using the cutting blade 60 for the quadrant screw will be described.

In this case, the movable blade 60A advances in the direction of arrow Y1 from the initial position α1 (starting position of the moving range Δβ), and is just before the position α2 where the end surface 61c of the movable blade 60A and the end surface 61d of the fixed blade 60B overlap. When the position (cutting start position) α5 (first position) is reached, the movable blade 60A comes into contact with the quadrant screw 9A, and the movable blade 60A and the fixed blade 60B start cutting the quadrant screw 9A. Then, when the movable blade 60A advances by the diameter of the quadrant screw 9A from the position α5, the quadrant screw 9A is cut. The position of the movable blade 60A at this time is set to the cutting end position α6 (third position). Then, the movable blade 60A moves to the cutting end position α6 (the end position of the movement range Δβ), then moves backward and returns to the original initial position α1.

In this operation (operation when the cutting blade 60 is used), since the movable recess 62 of the movable blade 60A has a substantially semicircular shape (arc shape) that is less than the radius of the quadrant screw 9A, the arrow Y1 direction (movable blade). In the direction in which 60A approaches the fixed blade 60B), the cutting start position α5 of the quadrant screw 9A is before the cutting start position α2 of the quadrant screw 9A when the cutting blade 60H of the comparative example is used. Along with this, the cutting end position α6 of the quadrant screw 9A in this operation is also before the cutting end position α3 of the quadrant screw 9A when the cutting blade 60H of the comparative example is used. Therefore, the moving range Δβ of the cutting tool 1 of this embodiment is set shorter than the moving range Δα of the cutting tool 1H of the comparative example.

Next, with reference to FIG. 13, the operation when the cutting tool 1 of the present embodiment cuts the three-minute screw 9B using the cutting blade 50 for the three-minute screw will be described.

In this case, when the movable blade 50A advances from the initial position α1 in the direction of the arrow Y1 and reaches the position (cutting start position) α2 where the end surface 51c of the movable blade 50A and the end surface 51d of the fixed blade 50B exactly overlap each other. The movable blade 50A and the fixed blade 50B start cutting the three-minute screw 9B. Then, when the movable blade 50A advances by the diameter of the 3/4 screw 9B from the position α2, the 3/4 screw 9B is cut. The position at this time is defined as the cutting end position α4. Then, the movable blade 50A moves from the position α4 to the position α6 (the end position of the movement range Δβ), then moves backward and returns to the original initial position α1.

In this operation (operation when the cutting blade 50 is used), the movable blade 50A moves from the cutting end position α4 of the three-minute screw 9B to the position α6 (the end position of the movement range Δβ). However, the position α6 is in front of the cutting end position α3 of the quadrant screw 9B when the cutting blade 60H of the comparative example is used. Therefore, the interval between positions α4 and α6 is shorter than the interval between positions α4 and α3. As a result, as compared with the case where the cutting tool 1H of the comparative example cuts the three-minute screw 9B using the cutting blade 50 of the embodiment, the operator moves the movable blade 50A between the positions α4 and α6. It is possible to prevent the pressing operation of the trigger switch 73 from being released on the way. As a result, the occurrence of the above-mentioned problems can be suppressed.

In the above-mentioned "when the cutting tool 1H of the comparative example cuts the 3-minute screw 9B using the cutting blade 50 of the embodiment", the 4-minute screw 9A is used by the cutting blade 60H for the 4-minute screw of the comparative example. The cutting start position (α2) of the movable blade 60HA when cutting the three-minute screw and the cutting start position (α2) of the movable blade 50A when cutting the three-minute screw 9B using the cutting blade 50 for the three-minute screw of the present embodiment. ) Is in the same position (see FIGS. 10 and 11). This includes the cutting start position (α5) of the movable blade 60A when cutting the quadrant screw 9A using the quadrant screw cutting blade 60 of the present embodiment, and the cutting blade for the 3/4 screw of the present embodiment. This is the case where the cutting start position (α2) of the movable blade 50A when cutting the three-minute screw 9B using the 50 is at the same position.

The moving range Δβ of the cutting tool 1 is determined based on the sum of the diameter of the quadrant screw 9A, the depth of the fixed recess 63 of the cutting blade 60 for the quadrant screw, and the depth of the movable recess 62 of the cutting blade 60. ing. Similarly, the moving range Δα of the cutting tool 1H is also the same as the diameter of the quadrant screw 9A, the depth of the fixed recess 63 of the cutting blade 60H for the quadrant screw of the comparative example, and the depth of the movable recess 62 of the cutting blade 60H. It is decided based on the sum. The depth of the movable recess 62 of the cutting blade 60H of the comparative example is a semicircle having the same size as the radius of the quadrant screw 9A, whereas the depth of the movable recess 62 of the cutting blade 60 of the present embodiment is It is a substantially semicircular (arc-shaped) with a size less than the radius of the quadrant screw 9A. That is, the depth of the movable recess 62 of the cutting blade 60 of the present embodiment is shallower than the depth of the movable recess 62 of the cutting blade 60H of the comparative example. Therefore, the moving range Δβ of the present embodiment is shorter than the moving range Δα of the comparative example. The size of the cutting tools 1, 1H depends on the size of the moving ranges Δβ and Δα. Therefore, the cutting tool 1 of the present embodiment can be made smaller than the cutting tool 1H of the comparative example.

Next, with reference to FIG. 14, the operation of the inclined blade surface 61a of the cutting blade 60 will be described. In the following description, the cutting blade 60 as a movable blade is also described as a movable blade 60A, the cutting blade 60 as a fixed blade is also described as a fixed blade 60B, and the long object 9 is described as a screw 9.

In the present embodiment, the blade surface 61a of the cutting blade 60 is inclined with respect to the back surface 61b of the cutting blade 60. As a result, the blade surface 61a of the cutting blade 60 is inclined along the thread 9s of the screw 9 arranged between the movable blade 60A and the fixed blade 60B. Therefore, when the screw 9 is cut by the movable blade 60A and the fixed blade 60B, the blade surface 61a of the movable blade 60A and the blade surface 61a of the fixed blade 60B are cut into the screw 9 along the thread 9s (FIG. FIG. See 14A). Therefore, the screw 9 is cut along the thread 9s. As a result, it is possible to suppress the occurrence of burrs on the cut surface 9t of the screw 9. In particular, it is possible to suppress the occurrence of burrs on the movable blade 60A side of the screw 9 (see FIG. 14B). Reference numeral 91 in FIG. 14B is a cut fragment of the screw 9. Similarly, the inclined blade surface 51a of the cutting blade 50 of the present embodiment has the same function as the inclined blade surface 61a of the cutting blade 60.

Next, the moving speeds of the movable blades 60A and 50A will be described with reference to FIG.

In FIG. 15, the vertical axis is the position of the movable blades 60A and 50A (the angle around the rotation axis Q1 (see FIGS. 13 and 14)), and the horizontal axis is time. In the present embodiment, the movable blade 60A and the movable blade 50A are moved at the same moving speed when cutting the screw.

In FIG. 15, similarly to the above, the position α1 is the initial position of the movable blades 60A and 50A (the position where the distance from the fixed blade is fully opened). The position α5 (first position) is the position of the movable blade 60A (cutting start position) at the start of cutting the quadrant screw when the cutting blade 60 is used, and is the start position of the movement range Δβ of the movable arm 82. .. The position α6 (third position) is the position of the movable blade 60A (cutting end position) at the end of cutting the quadrant screw when the cutting blade 60 is used, and is the end position of the movement range Δβ of the movable arm 82. .. The position α2 (second position) is the position (cutting start position) of the movable blade 50A at the start of cutting the three-minute screw when the cutting blade 50 is used. The position α4 (fourth position) is the position (cutting end position) of the movable blade 50A at the end of cutting the three-minute screw when the cutting blade 50 is used. The position α7 is a predetermined position between the positions α5 and α6. In the present embodiment, the position α4 and the position α7 are the same position as an example.

When cutting a 4-minute screw using the cutting blade 60, as shown in FIG. 15, the movable blade 60A is relatively fast from the initial position α1 (time point t1) to the cutting start position α5 (time point t2). Move forward at one movement speed. As a result, the movable blade 60A is quickly brought close to the quadrant screw, which is the object to be cut. The forward movement is a direction in which the movable blade 60A approaches the fixed blade 60B. Then, the movable blade 60A decelerates from the cutting start position α5 (time point t2) to the intermediate position α7 (time point t4) in order to cut the 4-minute screw, and has a second moving speed slower than the first moving speed. Move forward at (1st speed). Then, the movable blade 60A slightly increases the moving speed from the intermediate position α7 (time point t4) to the cutting end position α6 (time point t5), and is faster than the second moving speed and slower than the first moving speed. Move forward at the moving speed (second speed). Then, the vehicle moves backward from the cutting end position α6 (the end position of the movement range Δβ) to the original position α1 at a fourth movement speed faster than, for example, the third movement speed.

The first moving speed is given by the inclination between the positions α1 and α5 (time points t1 and t2) in the graph G1 of FIG. The second moving speed is given by the inclination between the positions α5 and α7 (time points t2 and t4) in the graph G1. The third moving speed is given by the inclination between the positions α7 and α6 (time points t4 and t5) in the graph G1. In FIG. 15, it is assumed that the moving speed of the movable blade 60A changes smoothly.

In the cutting tool 1, the moving speed of the movable blade 60A (that is, the moving speed of the movable arm 82) is set as described above. Next, the operation of the movable blade 50A when cutting a three-minute screw using the cutting blade 50 under this setting will be described.

The movable blade 50A advances at the first moving speed from the initial position α1 (time point t1) to the position α5 before the cutting start position α2 (time point t3) of the 3-minute screw. Then, the movable blade 50A advances from the position α5 at the second moving speed, passes through the cutting start position α2 of the three-minute screw at the second moving speed (first speed), and passes through the cutting end position α4 (=) of the three-minute screw. Advance to α7) at the second moving speed. Then, the movable blade 50A slightly increases the moving speed from the cutting end position α4 to the position α6 (the end position of the moving range Δβ) to perform the third moving speed (second speed). Then, it retreats from the position α6 to the original initial position α1 at a fourth moving speed faster than the third moving speed.

The operation of the movable blades 60A and 50A will be described as follows with reference to the operation of the movable arm 82. That is, the movable arm 82 advances at the first moving speed from the initial position α1 to the position α5, advances at the second moving speed from the position α5 through the position α2 to the position α4 (= α7), and moves forward at the second moving speed. From to position α6, it advances at the third moving speed.

In this way, the movable blade 50A for the 3-minute screw has a position α6 at a third moving speed faster than the first moving speed during cutting of the 3-minute screw after cutting the 3-minute screw (after the cutting end position α4). Advance to. Therefore, the movable blade 50A can pass between the positions α4 and α6 faster. As a result, it is possible to prevent the operator from releasing the pressing operation of the trigger switch 73 while the movable blade 50A is moving between the positions α4 and α6.

In the present embodiment, the movable arm 82 and the movable blades 60A and 50A are moved by using the driving force of the motor. At that time, the rotation of the motor is controlled to be constant, and the movable arm 82 and the movable arm 82 and the cam mechanism are used. The moving speeds of the movable blades 60A and 50A are controlled. Therefore, if the rotation speed of the motor fluctuates due to fluctuations in the load or the like, the moving speeds of the movable arm 82 and the movable blades 60A and 50A change accordingly. Further, in the present embodiment, the horizontal axis of FIG. 15 is time, but instead of time, the rotation angle of the cam of the cam mechanism described above may be used.

(Modification example)
Next, modification examples of the embodiment are listed. The following modifications may be realized by combining them as appropriate.

In the above embodiment, the movable recess 62 of the fixed recess 63 and the movable recess 62 of the cutting blade 60 has a substantially semicircular shape (arc shape) whose depth is less than the radius of the quadrant screw. However, at least one of the fixed recess 63 and the movable recess 62 of the cutting blade 60 may have a substantially semicircular shape (arc shape) whose depth is less than the radius of the quadrant screw.

In the above embodiment, the first distance L1 is smaller than the second distance L2, but the second distance L2 may be smaller than the first distance L1.

In the above embodiment, the cutting end position α4 of the 3/4 screw is the same position as the predetermined position α7, but the cutting end position α4 is arranged between the predetermined position α7 and the cutting end position α6 of the quadrant screw. You may.

(Summary)
From the embodiments described above, the following aspects are disclosed.

The cutting tool (1) of the first aspect includes a pair of cutting blades (60) and a tool body (7). The pair of cutting blades (60) each have a fixed blade portion (610) and a movable blade portion (600). In the tool body (7), one of the pair of cutting blades (60) is a fixed blade (60B), the other is a movable blade (60A), and the movable blade (60A) is moved with respect to the fixed blade (60B). The long object (9) is cut by the movable blade portion (600) of the movable blade (60A) and the fixed blade portion (610) of the fixed blade (60B). The fixed blade portion (610) has a fixed recess (63) that holds a long object (9) when the cutting blade (60) is used as the fixed blade (60B). The movable blade portion (600) has a movable recess (62) that holds a long object (9) when the cutting blade (60) is used as the movable blade (60A). At least one of the fixed recess (63) and the movable recess (62) has an arc shape whose depth is less than the radius of the long object (9).

According to this configuration, at least one of the fixed recess (63) and the movable recess (62) has an arc shape whose depth is less than the radius of the long object (9). Therefore, the moving range (Δβ) of the movable blade (60A) (that is, the depth of the movable recess (62), the depth of the fixed recess (63), and the diameter of the long object (9) are added together. Length) can be made shorter. As a result, the cutting tool (1) can be miniaturized.

In the cutting tool (1) of the second aspect, in the first aspect, the cutting blade (60) has an attachment portion (64) for attaching the cutting blade (60) to the tool body (7). The fixed blade portion (610) includes a fixing recess (63) and a mounting portion (64). The movable blade portion (600) includes a movable recess (62) and a mounting portion (64). The fixed blade portion (610) and the movable blade portion (600) have different shapes when viewed from the direction (H3) intersecting the plane (61a).

According to this configuration, the fixed blade portion (610) and the movable blade portion (600) have different shapes when viewed from the direction (H3) intersecting the plane (61a), and thus the fixed blade portion (610). ) And the movable blade portion (600) can be easily distinguished by appearance.

In the cutting tool (1) of the third aspect, in the first or second aspect, the fixed recess (63) and the movable recess (62) have at least different depths from each other.

According to this configuration, the fixed blade portion (610) and the movable blade portion (600) can be distinguished by the difference in their depths.

In the cutting tool (1) of the fourth aspect, in the third aspect, the fixed recess (63) is deeper than the movable recess (62).

According to this configuration, the long object (9) can be stably held by the fixing recess (63).

In the cutting tool (1) of the fifth aspect, in any one of the first to fourth aspects, the first surface (61c) in which the movable recess (62) is provided in the pair of cutting blades (60). The distance between the mounting portion (64) and the center (P1) of the mounting portion (64) is defined as the first distance (L1). The distance between the second surface (61d) where the fixing recess (63) is provided and the center (P1) of the mounting portion (64) is defined as the second distance (L2). The first distance (L1) and the second distance (L2) are different from each other.

According to this configuration, the fixed blade portion (610) and the movable blade portion (600) can be distinguished by the difference between the first distance (L1) and the second distance (L2).

In the cutting tool (1) of the sixth aspect, in the fifth aspect, of the fixed recess (63) and the movable recess (62), the one closer to the mounting portion (64) is farther from the mounting portion (64). Shallower than.

According to this configuration, a sufficient distance can be secured between the fixed recess (63) and the movable recess (62) closer to the mounting portion (64) and the mounting portion (64). As a result, the head of the bolt (B1) attached to the attachment portion (64) and the long object held closer to the attachment portion (64) of the fixed recess (63) and the movable recess (62). Interference with (9) can be suppressed.

In the cutting tool (1) of the seventh aspect, in any one of the first to sixth aspects, the pair of cutting blades (60) face each other when cutting the long object (9). (61a) is inclined with respect to the long axis of the long object (9) when viewed from the direction (H2) in which the movable blade (60A) moves with respect to the fixed blade (60B).

According to this configuration, it is possible to prevent the sharpness of the long object (9) from being significantly deteriorated by the cutting blade (60).

In the cutting tool (1) of the eighth aspect, in any one of the first to seventh aspects, the fixed blade portion (610) and the movable blade portion (600) are movable in the cutting blade (60). The blades (60A) are provided on both sides in the movable direction (H2) with respect to the fixed blade (60B).

According to this configuration, the fixed blade portion (610) and the movable blade portion (600) are placed on both sides of the cutting blade (60) in the direction (H2) in which the movable blade (60A) is movable with respect to the fixed blade (60B). Can be provided in.

1 Cutting tool 6 Cutting blade (fixed blade, movable blade)
7 Tool body 9 Long object 9A 4-minute screw (2nd long object)
9B 3-minute screw (1st long object)
40 Spacer 50 Cutting blade for 3 minutes screw 50A Movable blade (1st movable blade)
50B fixed blade (first fixed blade)
52 Movable recess 53 Fixed recess 60 Cutting blade for 4-minute screw 60A Movable blade 60B Fixed blade 61c End face (first surface)
61d end face (second face)
62 Movable recess 63 Fixed recess 64 Mounting hole (mounting part)
600 Movable blade 610 Fixed blade 73 Trigger switch (operation part)
α2 position (second position)
α4 position (4th position)
α5 position (1st position)
α6 position (third position)
Δβ Movement range L1 First distance L2 Second distance P1 Center

Claims (8)

A pair of cutting blades, each with a fixed blade and a movable blade,
One of the pair of cutting blades is a fixed blade, the other is a movable blade, and by moving the movable blade with respect to the fixed blade, the movable blade portion of the movable blade and the fixed blade are fixed. It is equipped with a tool body that cuts long objects with a blade.
The fixed blade portion has a fixing recess for holding the long object when the cutting blade is used as the fixed blade.
The movable blade portion has a movable recess for holding the long object when the cutting blade is used as the movable blade.
At least one of the fixed recess and the movable recess has an arc shape whose depth is less than the radius of the long object.
Cutting tool. The cutting blade has a mounting portion for mounting the cutting blade on the tool body.
The fixed blade portion includes the fixing recess and the mounting portion.
The movable blade portion includes the movable recess and the mounting portion.
The fixed blade portion and the movable blade portion have different shapes when viewed from a direction intersecting the plane.
The cutting tool according to claim 1. The fixed recess and the movable recess have at least different depths.
The cutting tool according to claim 1 or 2. The fixed recess is deeper than the movable recess.
The cutting tool according to claim 3. In the pair of cutting blades, the distance between the first surface on which the movable recess is provided and the center of the mounting portion is defined as the first distance, and the second surface on which the fixing recess is provided and the center of the mounting portion are defined as the first distance. Let the distance between and be the second distance
The first distance and the second distance are different from each other.
The cutting tool according to any one of claims 1 to 4. Of the fixed recess and the movable recess, the one closer to the mounting portion is shallower than the one farther from the mounting portion.
The cutting tool according to claim 5. In the pair of cutting blades, the facing surfaces facing each other when cutting the long object are inclined with respect to the long axis of the long object when viewed from the direction in which the movable blade moves with respect to the fixed blade. ing,
The cutting tool according to any one of claims 1 to 6. The fixed blade portion and the movable blade portion are provided on both sides of the cutting blade in a direction in which the movable blade is movable with respect to the fixed blade.
The cutting tool according to any one of claims 1 to 7.

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