JP3201216U - Dynamic balance adjustment structure of boring head - Google Patents

Abstract

A dynamic balance adjusting structure for a boring head capable of adjusting a dynamic balance according to a blade position with a simple structure. A dynamic balance adjustment structure includes a main body, a blade, and a balance unit, and the blade and the balance unit are coupled to the main body. The main body is provided with a balance sleeve hole 11 and an adjustment member hole 12, and the balance unit is provided with a balance sleeve 31 inserted into the balance sleeve hole and an adjustment member 32 inserted into the adjustment member hole. The sleeve and the adjustment member are provided with a first engagement portion 312 and a second engagement portion 323 that engage with each other correspondingly. If the balance sleeve is slid in the balance sleeve hole by rotating the adjustment member, the center of gravity of the boring head changes, and the dynamic balance is corrected. [Selection] Figure 3

Description

  The present invention relates to an auxiliary device used for boring, and more particularly to a dynamic balance adjusting structure of a boring head capable of adjusting dynamic balance.

The boring system is a cutter that is mounted on a machine tool and is used for machining and forming an opening. The conventional boring head shown in FIG. 8 includes a cutter holder main body 70, a slide base 80 and an adjustment bolt 90. A slide base hole 71 is provided through the cutter holder main body 70, and the slide base 80 is inserted into the slide base hole 71. The slide base 80 is provided with a blade mounting portion 81 at one end, and an adjustment bolt hole 82 is provided therethrough. The adjustment bolt 90 is screwed into the adjustment bolt hole 82 of the slide base 80. When the user rotates the adjustment bolt 90, the slide base 80 is translated along the adjustment bolt 90 in the slide base hole 71. .
By adjusting the position of the slide table 80, circular holes having different hole diameters can be formed in the rotational processing of the machine tool. This type of boring head can control the hole diameter size by adjusting the slide base 80, but no dynamic balance adjustment structure corresponding to this is provided. Therefore, when the machine tool rotates the boring head at a high speed, the slide table 80 is displaced and the center of gravity of the boring head changes, resulting in vibrations in the spindle. Will increase. From the above, it is clear that the conventional boring head has room for improvement in design.

  In order to solve the problems that the conventional boring head cannot adjust the dynamic balance in response to the movement of the slide base, the processing accuracy is reduced and the blade consumption rate is increased. Provided is a dynamic balance adjustment structure for a boring head that includes an engaging balance sleeve and an adjustment member, and allows a user to adjust the dynamic balance according to the blade position by operating the balance sleeve by rotating the adjustment member. .

  The dynamic balance adjustment structure of the boring head provided by the present invention to solve the technical problem is a main body provided with a balance sleeve hole and an adjustment member hole, and the balance sleeve hole penetrates the main body and the adjustment is performed. A main body in which a member hole extends from the peripheral surface of the main body to the inside of the main body through the balance sleeve hole, and a blade that is coupled to the main body and can be adjusted and moved in the penetrating direction of the balance sleeve hole And a balance unit coupled to the main body and including a balance sleeve and an adjustment member, wherein the balance sleeve is inserted into the balance sleeve hole and includes a first engagement portion, and the adjustment member is A balance unit that is inserted into the adjustment member hole and includes a second engagement portion, and the first engagement portion and the second engagement portion engage with each other. , Including the.

  In the dynamic balance adjustment structure of the boring head, the first engagement portion of the balance sleeve is provided with a plurality of concave and convex saw teeth, and the second engagement portion of the adjustment member corresponds to the first engagement portion. A plurality of concave and convex saw teeth are provided on the peripheral surface.

  In the dynamic balance adjustment structure of the boring head, the balance sleeve is provided corresponding to the balance sleeve hole and is substantially semi-cylindrical, and the balance sleeve has two end portions, one of which is short cylindrical. It forms a regulation part.

  In the dynamic balance adjustment structure of the boring head, a positioning member screw hole is provided in the main body, and the positioning member screw hole extends from the peripheral surface of the main body to the adjustment member hole and is threaded on the inner peripheral surface. The extending direction of the positioning member screw hole is the same as the penetrating direction of the balance sleeve hole, the balance unit includes a positioning member, the positioning member includes two ends, and The surface has a thread corresponding to the positioning member screw hole, a positioning stud is provided on one end surface of the positioning member, and an annular positioning groove corresponding to the positioning stud is formed on the adjustment member. The positioning member is screwed into the positioning member screw hole, and the positioning stud is engaged with the positioning groove. That.

  In the dynamic balance adjusting structure of the boring head, the main body is provided with a contact member screw hole, and the contact member screw hole extends from the peripheral surface of the main body to the balance sleeve hole, and on the inner peripheral surface. Threads are provided, the extension direction of the contact member screw hole is the same as the extension direction of the adjustment member hole, the balance sleeve is provided with contact surfaces on opposite sides of the circumferential surface, respectively. The balance unit includes an abutting member, the abutting member has two ends, a thread corresponding to the abutting member screw hole is provided on the peripheral surface, and one end of the abutting member is flat. The contact member is screwed into the contact member screw hole, and the contact portion of the contact member contacts one contact surface of the balance sleeve.

  In the dynamic balance adjustment structure of the boring head, the balance sleeve hole has two end portions, and both ends of the balance sleeve hole are respectively provided with screwing portions, and the two screwing portions are screwed on the inner peripheral surface. A crest is provided, and the balance unit includes a first end cap and a second end cap, and the first end cap and the second end cap are thread threads corresponding to the two threaded portions on the circumferential surface. The first end cap and the second end cap are screwed into the two screwed portions, respectively.

  In the dynamic balance adjusting structure of the boring head, the main body has a corrugated dewatering groove formed in the peripheral surface.

  In the dynamic balance adjusting structure of the boring head, the first end cap is provided with an annular convex portion on a plane.

The technical means of the present invention is excellent in the following effects.
1. The dynamic balance adjustment structure for a boring head according to the present invention includes a balance sleeve and an adjustment member, and the balance sleeve and the adjustment member have a first engagement portion and a second engagement portion respectively engaged with each other. Is provided. Therefore, the user can adjust the dynamic balance according to the position of the blade by changing the center of gravity of the boring head by rotating the adjustment member and sliding the balance sleeve. For this reason, the residual unbalance amount of the boring head can be surely within an allowable value, and the purpose of improving machining accuracy and extending the service life of the blade can be achieved.
2. In the present invention, the corrugated dewatering groove provided on the peripheral surface of the main body can discharge the cutting fluid accumulated in the hole during the drilling process, and is also effective in suppressing transmission of vibrations generated during the machining process. .

1 is an external perspective view of a preferred embodiment of the present invention. 1 is an external perspective view of a preferred embodiment of the present invention. 1 is an exploded view of a member in a preferred embodiment of the present invention. 1 is a partial cross-sectional view of a preferred embodiment of the present invention. 1 is a cross-sectional view of a preferred embodiment of the present invention. 1 is a cross-sectional view of a preferred embodiment of the present invention. It is a figure which shows operation | movement of the preferable Example of this invention. It is sectional drawing of the conventional boring head.

  The technical features and practical effects of the present invention will be understood in detail, and will be described in detail below using preferred embodiments as shown in the drawings so that they can be realized based on the contents of the invention.

  As shown in FIGS. 1, 2, and 3, the dynamic balance adjusting structure of the boring head in the present invention includes a main body 10, a blade 20, and a balance unit 30, and the blade 20 and the balance unit 30 are attached to the main body 10. Are combined.

As shown in FIGS. 1, 2, and 3, the main body 10 includes a peripheral surface. The main body 10 includes a balance sleeve hole 11, an adjustment member hole 12, a positioning member screw hole 13, a contact member screw hole 14, and a dewatering groove 15.
The balance sleeve hole 11 penetrates the main body 10 and has two end portions, and screwed portions 111 are respectively provided at both ends of the balance sleeve hole 11, and inner peripheral surfaces of the two screwed portions 111. Are provided with screw threads for screwing. The adjustment member hole 12 extends from the peripheral surface of the main body 10 through the balance sleeve hole 11 to the inside of the main body 10. The positioning member screw hole 13 extends from the peripheral surface of the main body 10 to the adjustment member hole 12, and a screw thread for screwing is provided on the inner peripheral surface. The extending direction of the positioning member screw hole 13 is the same as the penetration direction of the balance sleeve hole 11. The contact member screw hole 14 extends from the peripheral surface of the main body 10 to the balance sleeve hole 11, and a screw thread for screwing is provided on the inner peripheral surface. The extending direction of the contact member screw hole 14 is the same as the extending direction of the adjusting member hole 12. The dewatering groove 15 is a corrugated groove recessed in the peripheral surface of the main body 10.

  As shown in FIGS. 1 and 2, the blade 20 is coupled to the main body 10 and can be adjusted and moved in the penetrating direction of the balance sleeve hole 11.

As shown in FIGS. 3, 4, and 5, the balance unit 30 includes a balance sleeve 31, an adjustment member 32, a positioning member 33, a contact member 34, a first end cap 35, a second end cap 36, and a positioning member. A sealing cap 37 is included.
The balance sleeve 31 is provided in correspondence with the balance sleeve hole 11 and has a substantially semi-cylindrical shape. The balance sleeve 31 has two end portions, one of which forms a short columnar regulating portion 311. Two circular concave holes are provided on the end surface of the restricting portion 311. The flat surface of the balance sleeve 31 is provided with a first engagement portion 312, and the first engagement portion 312 is provided with a plurality of concave and convex saw teeth. The balance sleeve 31 is provided with two contact surfaces 313 on opposite sides of the peripheral surface, and the two contact surfaces 313 are erected with respect to the first engagement portion 312. The adjustment member 32 is substantially cylindrical and has two ends. The adjustment member 32 includes a contact portion 321, a positioning groove 322, and a second engagement portion 323. The contact portion 321 is provided at one end of the adjustment member 32, and a hexagonal groove 3211 is provided on the end surface. The positioning groove 322 is annularly recessed at a position near the contact portion 321 in the adjustment member 32. The second engagement portion 323 is provided between the positioning groove 322 and the other end of the adjustment member 32, and a plurality of peripheral engagement surfaces 312 correspond to the first engagement portion 312 of the balance sleeve 31. An uneven sawtooth is provided.
The positioning member 33 has a substantially short cylindrical shape and has two end portions. The positioning member 33 is provided with a male screw on the peripheral surface, and the male screw of the positioning member 33 is provided corresponding to the thread of the positioning member screw hole 13. A positioning stud 331 is provided on one end surface of the positioning member 33. The positioning stud 331 is a cylinder provided corresponding to the positioning groove 322 of the adjustment member 32.

As shown in FIGS. 3, 4, and 5, the contact member 34 has a cylindrical shape and two ends. The contact member 34 is provided with a screw thread corresponding to the contact member screw hole 14 on the peripheral surface. One end of the contact member 34 forms a flat contact portion 341.
The first end cap 35 has a disk shape and is provided with a thread corresponding to the screwing portion 111 of the balance sleeve hole 11 on the peripheral surface. The first end cap 35 has two planes, and two circular holes are provided on one plane. An annular convex portion 351 is provided on the other plane of the first end cap 35.
Similarly, the second end cap 36 has a disk shape, and a thread corresponding to the screwing portion 111 of the balance sleeve hole 11 is provided on the peripheral surface. The second end cap 36 has two planes, and two circular holes are provided on one plane. The positioning member sealing cap 37 is a circular plate provided corresponding to the positioning member screw hole 13.

  As shown in FIGS. 3 and 4, when assembling the dynamic balance adjustment structure of the boring head in the present invention, first, the adjustment member 32 of the balance unit 30 is inserted into the adjustment member hole 12 of the main body 10. Next, after the positioning member 33 is screwed into the positioning member screw hole 13 and the positioning stud 331 of the positioning member 33 is engaged with the positioning groove 322 of the adjustment member 32, the positioning member sealing cap 37, the positioning member screw hole 13 is sealed. Subsequently, the balance sleeve 31 is inserted into the balance sleeve hole 11, the first engagement portion 312 of the balance sleeve 31 is engaged with the second engagement portion 323 of the adjustment member 32, and the first The end cap 35 and the second end cap 36 are screwed into the two screwing portions 111 of the balance sleeve hole 11, respectively. Finally, the contact member 34 is screwed into the contact member screw hole 14, and the contact portion 341 provided on the contact member 34 contacts the one contact surface 313 of the balance sleeve 31. Then, the assembly of the present invention is completed.

As shown in FIGS. 5, 6, and 7, when the user attempts to process and form a circular hole having a different hole diameter, the position of the blade 20 is adjusted, and the blade 20 is positioned relative to the main body 10. Since the deviation occurs, the position of the center of gravity of the boring head changes. At this time, the user can rotate the adjustment member 32 simply by bringing the hexagon wrench into contact with the concave groove 3211 provided in the contact portion 321 of the adjustment member 32 and rotating it. Then, the second engagement portion 323 provided on the adjustment member 32 operates the first engagement portion 312 of the balance sleeve 31, so that the balance sleeve 31 is moved according to the displacement of the blade 20. The slide is adjusted in the sleeve hole 11.
Since the positioning stud 331 of the positioning member 33 is engaged with the positioning groove 322 of the adjusting member 32, the adjusting member 32 is not likely to fall off during adjustment. Further, since the contact portion 341 provided on the contact member 34 contacts one contact surface 313 of the balance sleeve 31, the user rotates the contact member 34 so that the balance sleeve 31 is rotated. Can be crimped.
Then, the balance sleeve 31 is detached from the balance sleeve hole 11 by the first end cap 35 and the second end cap 36 respectively screwed into the two threaded portions 111 of the balance sleeve hole 11. In addition to being avoided, the cutting fluid is also prevented from flowing into the balance sleeve hole 11 during machining.

  Compared with the conventional boring head, the dynamic balance adjusting structure of the boring head according to the present invention is provided with the balance sleeve 31 and the adjusting member 32 that engage with each other, so that the user operates the hexagon wrench. Then, by rotating the adjustment member 32, the balance sleeve 31 can be easily operated. Therefore, in addition to easy operation with a simple structure, when machining a circular hole with a different hole diameter depending on the boring head, the remaining unbalance amount of the boring head can be surely within an allowable value, improving machining accuracy and blade The purpose of extending the service life is achieved.

DESCRIPTION OF SYMBOLS 10 Main body 11 Balance sleeve hole 111 Screwing part 12 Adjustment member hole 13 Positioning member screw hole 14 Contact member screw hole 15 Dehydration groove 20 Blade 30 Balance unit 31 Balance sleeve 311 Control part 312 1st engaging part 313 Contact surface 32 Adjusting member 321 Contact portion 3211 Concave groove 322 Positioning groove 323 Second engaging portion 33 Positioning member 331 Positioning stud 34 Contact member 341 Contact portion 35 First end cap 351 Convex portion 36 Second end cap 37 Positioning member sealing Cap 70 Cutter holder body 71 Slide base hole 80 Slide base 81 Blade mounting part 82 Adjustment bolt hole 90 Adjustment bolt

Claims (8)

A main body provided with a balance sleeve hole and an adjustment member hole, wherein the balance sleeve hole penetrates the main body, and the adjustment member hole penetrates the balance sleeve hole from the peripheral surface of the main body and A main body extending to
A blade coupled to the main body and capable of adjusting movement in the penetrating direction of the balance sleeve hole;
A balance unit coupled to the main body and including a balance sleeve and an adjustment member, wherein the balance sleeve is inserted into the balance sleeve hole and includes a first engagement portion, and the adjustment member is the adjustment member hole Including a second engagement portion and a balance unit with which the first engagement portion and the second engagement portion engage with each other.
Dynamic balance adjustment structure of the boring head.   The first engagement portion of the balance sleeve is provided with a plurality of concave and convex saw teeth, and the second engagement portion of the adjustment member has a plurality of concave and convex portions on the peripheral surface corresponding to the first engagement portion. 2. A dynamic balance adjusting structure for a boring head according to claim 1, wherein a saw tooth is provided.   The balance sleeve is provided so as to correspond to the balance sleeve hole and has a substantially semi-cylindrical shape, and the balance sleeve has two end portions, one of which forms a short columnar regulating portion. The dynamic balance adjusting structure for a boring head according to claim 2.   The main body is provided with a positioning member screw hole, the positioning member screw hole extends from the peripheral surface of the main body to the adjustment member hole, and a thread is provided on the inner peripheral surface. The extending direction of the hole is the same as the penetration direction of the balance sleeve hole, the balance unit includes a positioning member, the positioning member includes two ends, and a screw corresponding to the positioning member screw hole on the peripheral surface. A positioning stud is provided on one end surface of the positioning member, and an annular positioning groove is provided in the adjustment member corresponding to the positioning stud. 4. The bore of the boring head according to claim 3, wherein the positioning stud is engaged with the positioning groove, and the positioning stud is engaged with the positioning groove. Na Mick balance adjustment structure.   The main body is provided with a contact member screw hole. The contact member screw hole extends from the peripheral surface of the main body to the balance sleeve hole, and has a thread on the inner peripheral surface. The extension direction of the contact member screw hole is the same as the extension direction of the adjustment member hole, the balance sleeve is provided with contact surfaces on both sides of the circumferential surface, and the balance unit includes a contact member, The contact member has two end portions, a thread corresponding to the contact member screw hole is provided on the peripheral surface, and one end of the contact member forms a flat contact portion, The boring head according to claim 4, wherein the abutting member is screwed into the abutting member screw hole, and the abutting portion of the abutting member abuts on one abutting surface of the balance sleeve. Dynamic balance adjustment structure.   6. The dynamic balance adjusting structure for a boring head according to claim 5, wherein the main body has a corrugated dewatering groove formed in a circumferential surface.   The balance sleeve hole includes two end portions, screwed portions are provided at both ends of the balance sleeve hole, and the two screwed portions are provided with a thread on an inner peripheral surface thereof. Includes a first end cap and a second end cap, and the first end cap and the second end cap are provided with threads corresponding to the two threaded portions on the peripheral surface, and the first end cap The dynamic balance adjustment structure for a boring head according to any one of claims 1 to 6, wherein the cap and the second end cap are respectively screwed into the two screwing portions.   8. The dynamic balance adjustment structure for a boring head according to claim 7, wherein the first end cap is provided with an annular protrusion on a plane.

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