KR101334520B1 - Head detachable cutting tool, cutting head and holder - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide a cutting tool capable of attaching and detaching a cutting head which limits torque by excessive cutting force and cutting force between a cutting head and a holder and minimizes tension through a stopper. Cutting tool detachable cutting tool according to an embodiment of the present invention includes a cutting head 100 and a holder 200 coupled to the cutting head 100. The cutting head 100 protrudes axially from one end of the cutting head 100 and has a protrusion 110 on which an external thread 111 is formed on the outer circumferential surface thereof, and a protrusion on the axial surface of one end of the cutting head 100. One or more first spiral surfaces 130 are formed to surround 110 in the circumferential direction, and one or more first stoppers 120 are formed in the stepped portion where the height of the first spiral surface 130 is discontinuous. The holder 200 has a screw hole 210 extending in the axial direction from one end of the holder 200 and a female thread 211 is formed on the inner circumferential surface to screw the protrusion 110 of the cutting head 100. At least one second spiral surface 230 formed to surround the screw hole 210 in the circumferential direction on one end of the holder 200 in the circumferential direction, and a step portion in which the height of the second spiral surface 230 is discontinuous. At least one second stopper 220 is formed in the. The first spiral surface 130 and the second spiral surface 230 have the same lead angle. When the protrusion 110 and the screw hole 210 are coupled, the first spiral surface 130 and the second spiral surface 230 make a surface contact. As the first stopper 120 and the second stopper 220 contact each other, screwing of the protrusion 110 and the screw hole 210 is completed.

Description

Head detachable cutting tools, cutting heads and holders {HEAD DETACHABLE CUTTING TOOL, CUTTING HEAD AND HOLDER}

The present invention relates to a cutting tool capable of attaching and detaching a cutting head. More particularly, the present invention relates to a cutting tool for limiting torque due to cutting force and fastening force between the cutting head and the holder by providing stoppers to the cutting head and the holder, respectively. .

Currently, cutting tools for exchanging cutting heads are widely used. Most of these cutting tools use screwing to assemble the cutting head and the holder as disclosed in US Pat. No. 5,971,670.

Japanese Patent Laid-Open No. 2010-284752 and US Pat. No. 7,611,311 disclose an invention in which the thread is improved so that the cutting head can be easily changed while maintaining a predetermined installation strength in a cutting tool in which the cutting head and the holder are screwed together. It starts.

However, if the amount of cut, feed, etc. is increased to improve productivity, the cutting force is increased, and more torque is applied to the joining portion of the cutting head and the holder. In this case, the screw coupling alone cannot withstand such torque. It may not be enough. As the torque increases, as the screwing proceeds further, excessive tension is applied to the threaded portions of the cutting head and the holder, and the screwing portions may be broken.

In addition, when the cutting head and the holder are in contact only in a plane perpendicular to the axial direction, when the cutting head and the holder are engaged, the engagement position varies depending on the magnitude of the fastening force, or when the unfastened excessive tightening force is applied, It may be broken.

U.S. Patent 5,971,670 Japanese Laid-Open Patent Publication No. 2010-284752 U.S. Patent 7,611,311

SUMMARY OF THE INVENTION An object of the present invention is to provide a cutting tool capable of attaching and detaching a cutting head which limits torque by excessive cutting force and cutting force between a cutting head and a holder and minimizes tension through a stopper.

Removable cutting tool according to an embodiment of the present invention includes a cutting head and a holder coupled thereto. The cutting head may include: a protrusion projecting axially from one end of the cutting head and having a male thread formed on the outer circumferential surface thereof, at least one first spiral surface formed to circumferentially project the protrusion on the axial face of the cutting head; And at least one first stopper formed in the stepped portion where the height of the first spiral surface is discontinuous. The holder is formed to extend axially inwardly from one end of the holder and to form an internal thread on the inner circumferential surface to screw the protrusion to the cutting head, and to surround the threaded hole circumferentially on the axial surface of one end of the holder. The second spiral face and one or more second stoppers formed on the stepped portion where the height of the second spiral face is discontinuous. The first spiral face and the second spiral face have the same lead angle. When the protrusion and the screw hole are coupled, the first spiral surface and the second spiral surface make surface contact. The screwing of the protrusion and the screw hole is completed by bringing the first and second stoppers into contact.

According to the present invention, if the first stopper of the cutting head and the second stopper of the holder come into contact with each other when screwing the cutting head and the holder, the screwing is completed without further screwing. Therefore, excessive tension occurring in the screw coupling portion by the additional screw coupling can be prevented, and the screw coupling portion can be prevented from being broken. In addition, the position of the cutting head is fixed by the stopper, so that the cutting head and the holder can be coupled so that the cutting edge of the cutting head is always in the same position. In particular, the axial contact surface of the cutting head and the holder is made of a helical surface with the same lead angle, thereby providing stable axial support force, and a rotational support force is provided by contact between the first and second stoppers, thereby enabling a more stable coupling. .

1 is a perspective view of a cutting tool according to an embodiment of the present invention.
2 to 4 are a perspective view, a side view, and a front view of a cutting head according to an embodiment of the present invention.
5 to 7 are a perspective view, a side view, and a front view of a holder according to an embodiment of the present invention.
8 is a cross-sectional view of the cutting head and the holder in accordance with an embodiment of the present invention.
9 is a side view of a cutting head having a cylindrical portion according to another embodiment of the present invention.
10 is a side view of a cutting head having a tapered protrusion according to another embodiment of the present invention.
11 is a side view of a cutting head with multi-threaded screws according to another embodiment of the present invention.
12 is a perspective view of a cutting head having a plurality of stoppers according to another embodiment of the present invention.
13 is a perspective view of a holder having a plurality of stoppers according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a cutting tool 10 coupled with a removable cutting head 100 and a holder 200 according to an embodiment of the present invention.

2 is a perspective view of a cutting head 100 according to an embodiment of the present invention. One end of the cutting head 100 is provided with a protrusion 110 protruding in the axial direction. The protrusion 110 has a male screw shape, and a thread 111 is formed on a cylindrical outer wall. One end of the cutting head 100 surrounds the protrusion 110 in the circumferential direction and the surface facing in the axial direction is composed of a spiral surface 130. Since the spiral surface 130 gradually changes in height while traveling in the circumferential direction, there is a step discontinuous in height. The first stopper 120 is provided on a surface facing the circumferential direction at the portion where the step is formed.

In FIG. 3, the height H of the step formed by the spiral surface 130 is smaller than the length of the thread pitch P of the thread 111 formed in the protrusion 110. That is, the spiral surface 130 has a lead angle smaller than the thread 111 (the inclination of the spiral surface or the thread with respect to the surface perpendicular to the spiral axis). When the cutting head 100 and the holder 200 are coupled, the cutting head 100 is advanced by the pitch P of the screw when rotated once, whereas the steps formed on the spiral surfaces 130 and 230 of the cutting head and the holder are rotated. Since the height H is shorter than this, the surface contact between the spiral face 130 of the cutting head 100 and the spiral face 230 of the holder 200 is ensured, and stable coupling is possible. In some sections of the protrusion 110, a first radial support surface 112 without a thread may be formed, which is cut in surface contact with a corresponding surface of the holder 200 when coupled with the holder 200. It serves to support the head radially.

As shown in FIG. 4, the surface constituting the first stopper 120 preferably extends in the tangential direction of the outer circumferential surface of the protrusion 110. However, the angle formed between the outer peripheral surface of the protrusion and the stopper surface is not limited thereto.

5 is a perspective view of a holder 200 according to an embodiment of the present invention. One end of the holder 100 is provided with a screw hole 210 recessed in the axial direction inward. As shown in FIG. 6, the screw hole 210 has a female screw shape, and a thread 211 is formed on a cylindrical inner wall. The outer surface of the holder 100 surrounding the threaded hole 210 at the outer circumference thereof is formed in the spiral surface 230. The spiral surface 230 is formed with a stepped discontinuous height, the second stopper 220 is provided on the surface facing in the circumferential direction. Preferably, an undercut 240 formed by being recessed in the axial direction may be provided at a portion where the second stopper 220 and the spiral surface 230 meet.

The spiral surface 230 of the holder 200 has the same lead angle as the spiral surface 130 of the cutting head 100. Therefore, the spiral surface 230 of the holder 200 also has a lead angle smaller than the screw thread 211 of the screw hole 210. When screwing the cutting head 100 and the holder 200, the spiral surface 230 of the holder 200 is in surface contact with the spiral surface 130 of the cutting head 100. Joining of the cutting head 100 and the holder 200 is completed by the contact of the second stopper 220 of the holder 200 and the first stopper 120 of the cutting head 100.

As shown in FIGS. 5 and 6, a second radial support surface 212, which is not threaded, may be formed at an inlet of the screw hole 210, which is coupled to the cutting head 100. The surface is in contact with the first radial support surface 112 of the cutting head 100 to support the cutting head in the radial direction.

As shown in FIG. 7, the surface constituting the second stopper 220 preferably extends in the tangential direction of the inner circumferential surface of the screw hole 210. However, the angle formed between the inner circumferential surface of the screw hole and the stopper surface is not limited thereto.

When the cutting head 100 and the holder 200 are screwed, a coupling is first formed between the threads 111 and 211, and the radial support surfaces 112 and 212 contact as the screwing proceeds. Thereafter, the spiral surface 130 of the cutting head 100 and the spiral surface 230 of the holder 200 first contact each other. That is, when the spiral surfaces 130 and 230 are in contact with each other, a free space exists between the first and second stoppers 120 and 220. As the coupling of the cutting head 100 and the holder 200 proceeds until the first and second stoppers 120 and 220 are in surface contact with each other, an elastic force is generated in the protrusion of the cutting head and the screw hole of the holder. Faces 130 and 230 are in a more rigid contact. That is, since the lead angles of the spiral surfaces 130 and 230 are smaller than the lead angles of the threads 111 and 211, the spiral surfaces 130 and 230 as the screwing proceeds after contacting the spiral surfaces 130 and 230. Will pressurize each other. As a result, the protrusion 110 coupled to the screw hole 210 receives a tensile force, and the friction force between the threads 111 and 211 is increased to achieve a stable screw coupling. It is preferable that the spiral surfaces 130 and 230 come into contact with the entire surface, and the surface faces contact with each other in an area of at least 1/3 or more for stable support. When the first and second stoppers 120 and 220 contact each other, the coupling is completed.

8 shows a cross-sectional view of the cutting head 100 and the holder 200 where the coupling is completed. As shown in FIG. 8, when the joining is completed, the first radial support surface 112 of the cutting head 100 and the second radial support surface 212 of the holder are in surface contact with each other and the spiral surface of the cutting head. The surface 130 and the spiral surface 230 of the holder are in surface contact with each other to provide stable support in the radial and axial directions. As the radial support surfaces 112 and 212 are in surface contact, the centering of the cutting head 100 is smoothed when engaged, and the radial support is strengthened. In general, the radial support surfaces 112 and 212 have a cylindrical shape, but may be formed as a tapered surface having a larger diameter near the cutting head 100 and a smaller diameter toward the holder 200. have. The centering effect is particularly excellent when the radial support surface is formed as a tapered surface. Preferably, in order to provide a more stable radial support force, the first radial support surface 112 of the cutting head 100 is reduced in diameter as it extends axially from the cylindrical face and one end of the cylindrical face. It may be provided with a tapered surface. The maximum diameter of the tapered face is therefore the diameter of the cylindrical face. In this case, the second radial support surface 212 may also be provided as a cylindrical surface. Preferably, the maximum diameter of the tapered surface is slightly larger than the diameter of the second radial support surface 212 of the holder, and the minimum diameter of the tapered surface is smaller than the diameter of the second radial support surface 212 of the holder. According to the above configuration, the cutting head 100 may be elastically press-fitted with the second radial support surface 212 of the holder 200 while ensuring more smooth fastening property.

In addition, the first radial support surface 112 of the cutting head 100 may be made of a tapered surface and the second radial support surface 212 of the holder 200 may be made of a cylindrical surface. In this case, the first radial support surface 112 of the cutting head 100 is easily press-fit to the second radial support surface 212 of the holder 200. For example, the maximum diameter of the tapered first radial support surface 112 is greater than the diameter of the cylindrical second radial support surface 212, so that the threading is completed and at the same time the cutting head 100 has a holder ( It is possible to configure the pressurized to 200).

9 is a side view of the cutting head 100 further including a cylindrical portion 113 extending in the axial direction at one end of the protrusion 110 according to another embodiment of the present invention. Holder 200 coupled to the cutting head 100 is further provided with a cylindrical hole extending in the axial direction from one end of the screw hole 210 corresponding to the shape of the cylindrical portion 113 (not shown). Accordingly, when the cutting head 100 and the holder 200 are screwed, the cylindrical portion 113 is inserted into the cylindrical hole to be coupled. According to this configuration, even if a strong bending moment is applied to the protrusion 110 of the cutting head 100 due to the cutting force, deformation of the cutting head 100 is caused by the supporting action of the cylindrical portion 113 and the cylindrical hole. Can be prevented. If the deformation of the cutting head 100 can be prevented, it is not necessary to be limited to the shape of the cylindrical portion 113 or the cylindrical hole, and any shape, for example, a conical protrusion and a corresponding recessed portion, is also possible.

As shown in FIG. 10, the protrusion 110 of the cutting head 100 may have a tapered shape in which the diameter of the protrusion 110 decreases as it extends in the axial direction. In this case, the threaded hole 210 of the holder 200 corresponding to the cutting head 100 is also formed in a tapered shape so as to decrease in diameter as it extends in the axial direction. When the protrusion 110 and the screw hole 210 have a tapered shape, not only the centering is easy but also the risk of the protrusion 110 being broken by the bending moment due to the cutting force is small.

11 is a side view of the cutting head 100 in which the multi-threaded screw 111 'is formed in the protrusion 110 according to another embodiment of the present invention. In this case, corresponding to the cutting head 100, the threaded hole 210 of the holder 200 also includes a multi-threaded thread (not shown). In addition, as shown in FIG. 11, a part of the side surface of the peripheral surface of the protrusion 110 of the cutting head 100 has a cut shape having a flat surface, and correspondingly, the threaded hole 210 of the holder 200 is also peripherally formed. A portion of the side of the surface may be narrowly formed into a flat surface.

12 and 13 are perspective views of a cutting head and a holder having a plurality of stoppers 120 and 220 according to another embodiment of the present invention. When excessive clamping force is applied when the cutting head 100 and the holder 200 are coupled, or when a torque causing additional tightening occurs due to a strong cutting force applied during cutting, a more stable limitation needs to be ensured. In this embodiment, the cutting head 100 and the holder 200 are provided with a plurality of stoppers 120 and 220 in the circumferential direction thereof, thereby more stably limiting the additional coupling force applied to the screw coupling portion between the cutting head and the holder. can do. In addition, during the cutting process, cutting forces may be applied from any circumferential direction of the cutting head, which may cause bending moments in any direction to the threaded portions of the cutting head and the holder. In this embodiment, by providing the stoppers 120 and 220 at a plurality of points in the circumferential direction, it is possible to provide stable support even when a moment is applied in any direction.

The cutting head 100 is generally made of tungsten carbide and the holder 200 is made of steel. However, the material of the cutting head and the holder is not limited thereto. For example, the holder 200 may also be made of tungsten carbide.

Although the preferred embodiments of the present invention have been described above, these are merely exemplary, and it will be understood by those skilled in the art that various modifications can be made therefrom without departing from the scope of the present invention.

Claims (20)

Removable head cutting tool comprising a cutting head and a holder coupled to the cutting head,
The cutting head is
A protrusion projecting axially from one end of the cutting head and having a male thread formed on the outer peripheral surface thereof;
At least one first spiral surface formed to circumferentially project the protrusion on an axial surface of one end of the cutting head;
At least one first stopper formed on a stepped portion of which the height of the first spiral surface is discontinuous,
The holder
A screw hole extending in one end of the holder in the axial direction and having a female thread formed on an inner circumferential surface thereof, the screw hole being screwed to the protrusion of the cutting head;
At least one second spiral surface circumferentially surrounding the screw hole on an axial surface of one end of the holder,
At least one second stopper formed at a stepped portion where the height of the second spiral surface is discontinuous,
The first spiral face and the second spiral face have the same lead angle, and the first spiral face and the second spiral face make a surface contact when screwing the protrusion and the screw hole to each other.
The screw detachment of the head and detachable cutting tool is completed as the first stopper and the second stopper is in contact with the screw hole is completed. The head detachable cutting according to claim 1, wherein the lead angle of the first spiral surface is smaller than the lead angle of the male thread of the protrusion, and the lead angle of the second spiral surface is smaller than the lead angle of the female thread of the screw hole. tool. The head detachable cutting tool according to claim 1, wherein a surface of the first stopper extends in a tangential direction of an outer circumferential surface of the protrusion, and a surface of the second stopper extends in a tangential direction of an inner circumferential surface of the screw hole. . The method of claim 1, wherein a portion of the outer circumferential surface of the protruding portion is formed with a first radial support surface free of threads, and a portion of the inner circumferential surface of the screw hole has a second radial support surface without threads formed thereon. , Removable head cutting tool. 5. The method of claim 4, wherein the first radial support surface comprises a cylindrical surface and a tapered surface extending from one end of the cylindrical surface, wherein the second radial support surface is cylindrical, and the first radial support is The maximum diameter of the tapered surface of the face is greater than the diameter of the second radial support surface and the minimum diameter of the tapered surface of the first radial support surface is smaller than the diameter of the second radial support surface, so that the cutting head is A head detachable cutting tool, elastically press-fitted to a second radial support surface of the holder. 5. The head detachable cutting tool according to claim 4, wherein the first radial support surface and the second radial support surface are both provided as cylindrical surfaces or both as tapered surfaces. 5. The head detachable cutting tool according to claim 4, wherein the first radial support surface is provided with a tapered surface, and the second radial support surface is provided with a cylindrical surface. 8. The head detachable cutting tool of claim 7, wherein a maximum diameter of the first radial support surface is greater than a diameter of the second radial support surface. The head detachable cutting tool according to claim 7 or 8, wherein, when screwing the cutting head and the holder, the first radial support surface is press-fitted to the second radial support surface. . The head detachable cutting tool according to claim 1, wherein the holder further includes an undercut formed by being axially recessed at a point where the second stopper and the spiral face meet. According to claim 1, One end of the protrusion is provided with a cylindrical portion extending in the axial direction, One end of the screw hole is further provided with a cylindrical hole extending in the axial direction, when screwing the cutting head and the holder, A head detachable cutting tool coupled to the cylindrical portion and the cylindrical hole. The head detachable cutting tool according to claim 1, wherein the protruding portion and the screw hole have a tapered shape. The head detachable cutting tool according to claim 1, wherein the threads formed in the protrusions and the threaded holes are multi-threaded threads. Cutting head for removable head cutting tool,
A protrusion projecting axially from one end of the cutting head and having a male thread formed on an outer circumferential surface thereof;
At least one first spiral surface formed to circumferentially project the protrusion on an axial surface of one end of the cutting head;
At least one first stopper formed at a stepped portion where the height of the first spiral surface is discontinuous,
When screwing the cutting head and the holder,
The protrusion of the cutting head is screwed with a screw hole extending in the axial direction from one end of the holder and the female thread formed on the inner peripheral surface,
The first spiral surface is formed to surround the threaded hole in the circumferential direction on an axial surface of one end of the holder and makes surface contact with at least one second spiral surface having the same lead angle as the first spiral surface,
When the first stopper and the one or more second stoppers formed in the stepped portion where the height of the second spiral surface is discontinuous, the screwing of the protrusion and the screw hole is completed. The cutting head according to claim 14, wherein a lead angle of the first spiral surface is smaller than a lead angle of male threads of the protrusion. 15. The cutting head of claim 14, wherein a portion of the outer circumferential surface of the protrusion is formed with a first radial support surface that is not threaded. Holder for the removable head cutting tool
A screw hole extending in one end of the holder in an axial direction and having a female thread formed on an inner circumferential surface thereof, the screw hole being screwed to the protrusion of the cutting head;
At least one second spiral surface circumferentially surrounding the screw hole on an axial surface of one end of the holder,
At least one second stopper formed at a stepped portion where the height of the second spiral surface is discontinuous,
When screwing the cutting head and the holder,
The screw hole of the holder, and protrudes in the axial direction from one end of the cutting head and screwed with the protrusion formed with a male thread on the outer peripheral surface,
The second spiral surface is formed to surround the protrusion in the circumferential direction on an axial surface of one end of the cutting head, and makes surface contact with at least one first spiral surface having the same lead angle as the second spiral surface. ,
The second stopper and the holder is completed, when the one or more first stopper formed in the stepped portion of the height of the first spiral surface is in contact with each other, the screwing of the protrusion and the screw hole is completed. 18. The holder according to claim 17, wherein a lead angle of the second spiral surface is smaller than a lead angle of a female thread of the screw hole. 18. The holder of claim 17, wherein a portion of the inner circumferential surface of the screw hole is formed with a second radial support surface that is not threaded. 18. The holder of claim 17, wherein the holder further comprises an undercut formed recessed in the axial direction at the point where the second stopper and the spiral face meet.

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