KR20050011676A - Fastening apparatus of shaft with rotative body - Google Patents

Abstract

PURPOSE: A combining tool of a shaft and a rotary body is provided to restrict the axial movement of the rotary body by fixing an inner ring at the shaft in advance and to easily set position of the combining tool. CONSTITUTION: A combining tool(10) of a shaft(12) and a rotary body(14) having a boss hole(15) is composed of an inner ring(20) having a cylindrical inner peripheral surface(24) fitted in the outside of the shaft and a tapered outer peripheral surface(22); an outer ring(30) comprising a cylindrical outer peripheral surface(31) inserted in the boss hole, a tapered inner peripheral surface(32) contacting with the tapered outer peripheral surface of the inner ring, a cylindrical inner peripheral surface(34) formed at the small diameter of the tapered inner peripheral surface, an expanded flange unit(36) formed at the end of the small diameter of the tapered inner peripheral surface, and an axial hole(37) formed at the expanded flange unit; and a bolt(40) joined in a screw hole(17) formed at the rotary body through the axial hole.

Description

Fastening apparatus of shaft with rotative body

The present invention relates to a fastener of the shaft and the rotating body, in particular, a fastener for fastening the shaft and the rotating body (gear, sprocket, seam, etc.) without using a key, and prevents the movement of the rotating body when tightening, It relates to a device that can easily perform the alignment when mounting the fastener.

4 is a sectional view of a conventional fastener, FIG. 5 is a sectional view of another conventional fastener, and FIG. 6 is a sectional view of another conventional fastener.

4 to 6 are axial sectional views of a conventional fastener of this kind, wherein the fastener 50 of FIG. 4 is an inner ring 51 having a cylindrical inner circumferential surface fitted to an outer side of the shaft 55 and a tapered outer circumferential surface. )and; An outer ring 52 having a cylindrical outer circumferential surface fitted inside the boss hole and a tapered inner circumferential surface which abuts against the tapered outer circumferential surface of the inner ring 51; A pressure sleeve 56 having a cylindrical inner circumferential surface fitted outside the shaft 55 and a cylindrical outer circumferential surface fitted inside the boss hole; A pressurizing flange 57 having a cylindrical inner circumferential surface fitted outside the shaft 55 and an axial hole; And a bolt 53 fastened through the axial hole to the screw hole formed in the rotating body 54.

In this conventional fastener 50, an end 58 is formed in the boss hole of the rotating body 54 for axial positioning of the inner ring 51. As shown in FIG. In addition, in order to prevent the angle error between the shaft 55 and the rotating body 54, that is, to center the two (coincidence of the center), the rotating body 54 has a relatively long guide portion 59 in contact with the shaft 55. Must be formed.

However, such a conventional fastener 50 has a large number of parts, such as a press sleeve 56 and a press flange 57, and further requires that the end portion 58 or the guide portion 59 be machined on the rotating body 54. When mounting the fastener 50, care must be taken in the orientation of the rotating body 54, which has a problem that a relatively large amount of air is required for production and mounting.

In addition, since there is no detachable screw hole in the outer ring 52, when the bolt 53 is excessively fastened at the time of tightening, the shaft 55, the rotating body 54, the tapered surface, etc., may be cut off. Separation may become difficult.

The improved type for the fastener 50 is the fastener 60 shown in Fig. 5 as published in Japanese Patent Application Laid-Open No. 4-63820. The fastener 60 has a cylindrical outer circumferential surface fitted inside the boss hole, a tapered inner circumferential surface, a jaw portion 66 formed on a small diameter side of the tapered inner circumferential surface and fitted outside the shaft 65, and a taper. An outer ring having a cylindrical inner circumferential surface formed on the large diameter side of the mold inner circumferential surface, a widened ear section 67 formed on the large diameter side end of the tapered inner circumferential surface, and an slit in the axial direction (not shown). 62); A cylindrical inner circumferential surface fitted to the outside of the shaft 65, a tapered outer circumferential surface which is in contact with each other and a tapered inner circumferential surface of the outer ring 62, and a large diameter side of the tapered outer circumferential surface, which are in contact with the cylindrical inner circumferential surface of the outer ring 62 Inner ring 61 having a cylindrical outer circumferential surface, an enlarged diameter flange portion 68 formed at the large diameter side end portion of the tapered outer circumferential surface, an axial hole formed in the enlarged diameter flange portion 68, and an axial slit (not shown). and; It consists of having the bolt 63 fastened through the axial hole to the screw hole formed in the rotating body 64.

According to the fastener 60, the flange portion 68 is formed integrally with the inner ring 61, and the flange portion 68 is formed with a screw hole for separation, so that the mounting and dismounting are relatively easy.

In addition, by providing the outer ring 62 with the function of the end 58 of FIG. 4, it is not necessary to end-process the boss hole of the rotating body 64, and it is appropriate to make the boss hole simple round hole shape. . As a result, the boss hole can be easily processed, and the hole can be subjected to good precision. In addition, when assembling the rotating body 64, it is not necessary to pay attention to the orientation. In addition, on both sides of the tapered surface, the rotating body 64 and the shaft 65 can be guided and centered.

Next, the fastener 70 of FIG. 6 includes an outer ring 72 having a cylindrical outer circumferential surface fitted inside the boss hole, a tapered inner circumferential surface, and formed with a screw hole; Cylindrical outer circumferential surface fitted outside the shaft 75, tapered outer circumferential surface in contact with each other, tapered inner circumferential surface of the outer ring 72, enlarged diameter flange portion 78 formed on the large diameter side end of the tapered outer circumferential surface, and enlarged flange portion An inner ring 71 having an axial hole formed in 78; And a bolt 73 fastened through the axial hole formed in the inner ring 71 to the screw hole formed in the outer ring 72.

The fastener 70 is brought into contact with the end face of the rotating body 74 and the end face of the flange portion 78 at the time of fastening, thereby preventing movement of the rotating body 74. Accordingly, when the fastening force of the bolt 73 is increased, only the outer ring 72 moves to the flange portion 78 side, and the position of the rotating body 74 does not change.

However, in the case of the fastener 60 of Fig. 5, since the inner ring 61 is first fixed corresponding to the shaft according to the manufacturing tolerance and shape, the rotating body 64 and the outer ring while increasing the fastening force of the bolt. 62 has a problem of moving to the flange portion 68.

In addition, in the case of the fastener 70 of FIG. 6, since the bolt 73 enters the center of the outer ring 72, it is necessary to increase the boss hole inner diameter, and as a result, the rotor 74 becomes large. I have a problem.

The present invention is to solve the above problems, the fastener of the shaft and the rotating body to prevent the movement of the rotating body when the shaft and the rotating body is fastened, and to easily perform the alignment when mounting the fastener To provide.

The fastener of the shaft and the rotating body of the present invention is a fastener of the rotating body and the shaft having a boss hole, the inner ring having a cylindrical inner peripheral surface and a tapered outer peripheral surface fitted to the outside of the shaft; A cylindrical outer circumferential surface fitted inside the boss hole, a tapered inner circumferential surface in contact with the tapered outer circumferential surface of the inner ring, a cylindrical inner circumferential surface formed on the small diameter side of the tapered inner circumferential surface, and a small diameter side end of the tapered inner circumferential surface An outer ring having an enlarged diameter flange portion formed and an axial hole formed in the enlarged diameter flange portion; And a bolt that is fastened through the axial hole to the screw hole formed in the rotating body.

1 is a cross-sectional view of the fastener of the present invention,

Figure 2 is a front view of the outer ring for the fastener of the present invention,

Figure 3 is an exploded perspective view except for the bolt for the fastener of the present invention,

4 is a cross-sectional view of a conventional fastener,

5 is a cross-sectional view of another conventional fastener,

Figure 6 is a cross-sectional view of another conventional fastener.

<Explanation of symbols for the main parts of the drawings>

10: fastener 12: shaft

14: rotating body 15: boss hole

20: inner ring 22: tapered outer peripheral surface

24: cylindrical inner peripheral surface 30: outer ring

31: cylindrical outer peripheral surface 32: tapered inner peripheral surface

34: cylindrical inner peripheral surface 36: diameter expansion flange

37 axial hole 40 bolt

1 is a cross-sectional view of the fastener of the present invention, Figure 2 is a front view of the outer ring for the fastener of the present invention, Figure 3 is an exploded perspective view excluding the bolt for the fastener of the present invention.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The fastener of the shaft and the rotating body of the present invention is a fastener of the rotating body 14 and the shaft 12 having a boss hole 15, as shown in Figures 1 to 3, the outside of the shaft 12 An inner ring 20 having a cylindrical inner circumferential surface 24 fitted therein and a tapered outer circumferential surface 22; The cylindrical outer circumferential surface 31 fitted inside the boss hole 15, the tapered inner circumferential surface 32 in contact with each other and the tapered outer circumferential surface 22 of the inner ring 20, and the tapered inner circumferential surface 32 are small. Having a cylindrical inner circumferential surface 34 formed at the diameter side, a diameter-diameter flange portion 36 formed at a small diameter-side end of the tapered inner circumferential surface 32, and an axial hole 37 formed at the diameter-diameter flange portion 36. An outer ring 30; The technical features of the present invention include a bolt 40 fastened through the axial hole 37 to the screw hole 17 formed in the rotating body 14.

Hereinafter, the operation of the present invention will be described with reference to FIGS. 1 to 3.

The fastener 10 of the shaft and the rotating body of the present invention configured as described above has a large inner ring 20, outer ring 30 and bolt 40, as shown in Figs. Is done. As shown in FIG. 1, the inner ring 20 has a cylindrical inner circumferential surface 24 and a tapered outer circumferential surface 22 having a diameter slightly larger than that of the shaft 12. This inner ring 20 also has a slit 23 (see FIG. 3) penetrating in the axial direction.

On the other hand, the outer ring 30 is tapered in contact with the cylindrical outer circumferential surface 31 of the diameter slightly smaller than the inner diameter of the boss hole 15 of the rotating body 14 and the tapered outer circumferential surface 22 of the inner ring 20. The inner peripheral surface 32, the cylindrical inner peripheral surface 34 formed in the small diameter side of the tapered inner peripheral surface 32, and the diameter expansion flange part 36 are provided in the small diameter side edge part of the tapered inner peripheral surface 32. As shown in FIG. The enlarged diameter flange portion 36 is provided with an axial hole 37 through which the bolt 40 can be inserted and a screw (tap) hole 38 for disassembly (see FIG. 2).

This outer ring 30 has an slit 33 (see FIG. 3) in the axial direction. Each slit 33 extends from the end of the large diameter side of the tapered inner peripheral surface 32 to the proximity of the diameter-diameter flange part 36. As shown in FIG.

The operation of fastening the shaft 12 and the rotating body 14 by the fastener 10 described above is as follows.

The fastener 10 is inserted between the boss hole 15 and the rotating body 14 in which the screw hole 17 was processed, and the shaft 12 as shown in FIG. Each bolt 40 is fastened with a predetermined fastening torque. At this time, the surface pressure is generated between the cylindrical inner circumferential surface 24 of the inner ring 20 and the outer circumferential surface 13 of the shaft 12 due to manufacturing tolerances and shape, and the position of the inner ring 20 is fixed. do.

Thereafter, surface pressure is generated between the cylindrical outer circumferential surface 31 of the outer ring 30 and the inner circumferential surface 16 of the boss hole 15 of the rotating body 14. When further tightened, the movement of the rotor 14 does not occur, and only the outer ring 30 moves to the inner ring 20 side, and each of the tapered surfaces 22 and 32 abuts each other, and the shaft ( 12) A fastening force is generated on the side and the rotor 14 side. That is, between the outer circumferential surface 13 of the shaft 12 and the cylindrical inner circumferential surface 24 of the inner ring 20, and the inner circumferential surface 16 of the boss hole 15 of the rotating body 14 and the outer ring 30. Between 31, the clamping force resulting from the wedge action of the tapered surfaces 22 and 32 generate | occur | produces and acts as surface pressure. Therefore, the shaft 12 and the rotating body 14 are fastened firmly and firmly by such a surface pressure, and can transmit torque by frictional force.

In order to disassemble the fastener 10, all the bolts 40 are removed, and the bolts 40 or bolts of the same size prepared separately are put in the screw (tab) holes 38 for disassembly, and the bolts 40 are removed. By contacting the front end of the rotating body 14, the force to pull the rotating body 14 and the outer ring 30 to act. Since the inner ring 20 is formed with an axial through slit 23, the inner ring 20, which is wide open in the fastened state, can be easily returned to its original shape when the fastened is released.

On the other hand, it is also possible to attach a balance weight to the disassembly screw hole 38 to cope with high-speed rotation.

On the other hand, the fastener of the present invention has been described as having the inner ring and the outer ring having slits, but the present invention is not limited to this, and either of them may have a slit or may not have a slit. In addition, also about the shape of a slit, it can select suitably whether it is a through slit or the slit formed to the middle point.

As described above, according to the present invention, since the movement of the rotating body does not occur when the flange portion and the outer ring are integrated, the alignment can be easily performed when mounting the fastener, and as a result the work The efficiency can be raised significantly.

In addition, since the bolt is not in the outer ring, a compact design is possible in order to be fastened directly to the rotating body.

Moreover, the formation of the screw holes for disassembly in the outer ring has the effect that separation of the fastener can be easily performed.

According to the present invention as described above, the inner ring is first fixed to the shaft in accordance with the configuration characteristic of the flange and the outer ring, the axial movement of the rotating body is prevented, and as a result, the alignment when mounting the fastener This becomes easy, and can increase the work efficiency for fastening.

In addition, since the bolt is not in the outer ring and is directly fastened to the rotating body, a compact design is possible.

Furthermore, it is an invention that can easily perform the separation of the fastener by forming a screw hole for disassembly in the outer ring.

Claims (2)

As a fastener of a shaft and a rotor having a boss hole, An inner ring having a cylindrical inner circumferential surface fitted to the outer side of the shaft and a tapered outer circumferential surface; A cylindrical outer circumferential surface fitted inside the boss hole, a tapered inner circumferential surface in contact with the tapered outer circumferential surface of the inner ring, a cylindrical inner circumferential surface formed on the small diameter side of the tapered inner circumferential surface, and a small diameter side end of the tapered inner circumferential surface An outer ring having an enlarged diameter flange portion formed and an axial hole formed in the enlarged diameter flange portion; The fastener of the shaft and the rotating body, characterized in that consisting of a bolt that is fastened through the axial hole to the screw hole formed in the rotating body. The fastener of the shaft and the rotating body according to claim 1, wherein the outer ring is further provided with a screw hole for disassembly.