KR830001057Y1 - Shaft - Google Patents

Abstract

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Description

Shaft

1 is a cross-sectional view of a conventional shaft rod device.

2 is a cross-sectional view showing an embodiment of the present invention.

3 is an enlarged cross-sectional view of the sealing of FIG.

4 is a cross-sectional view of the sealing of FIG. 3 before mounting.

5 is a perspective view of FIG.

6 and 7 are cross-sectional views showing another embodiment.

* Explanation of symbols for main parts of the drawings

25 plate 26 casing

28: sealing 29: fastener

The present invention is, for example, a large size such as a ship's steering shaft or a water purifier's flow curator, the rotational speed is aimed at 1 m / sec or less at the main speed, and the pressure of the fluid to be sealed is low at 1 kg / cm2 or less, and furthermore, A shaft device for use in a machine having a shaft in which the movement in the axial direction or the movement in the radial direction or the combined movement of both, the so-called axial vibration, is large.

The shaft rod device currently used for the above-described applications has a gland between the inner circumferential wall surface 13 of the packing case 12 and the outer circumferential surface 15 of the rotating shaft 14 in close contact with the grand portion 11 as shown in FIG. 1. Most of the packing 16 was attached.

However, in such a shaft device, the outer circumferential surface of the grand packing is in contact with the inner circumferential surface of the packing case and the movement of the shaft is prevented. Therefore, when the axial vibration occurs, the rotating shaft is eccentric with respect to the grand packing.

In the part where the axis of rotation is farthest from the packing case due to the vibration of the shaft, the contact pressure between the outer peripheral surface of the rotating shaft and the inner surface of the grand packing decreases, or the contact is released and the sealing fluid intrudes from the part. There was a defect that the shaft is worn.

Thus, the present invention fits the sealing end surface of the sealing ring to the end face of the plate and the end face of the casing by fastening the sealing ring made of an elastic body in the packing case formed by the casing and the casing fixed to the grand part, so as to fit snugly to the rotating shaft. It is configured so that even if the axial vibration occurs, there is no excessive force is applied to the sealing end surface of the sealing, it is possible to accurately prevent the leakage of the sealing fluid, and also to provide a shaft device without abrasion of the shaft and low draft.

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

In FIG. 2, 21 denotes a grand portion, and 22 denotes a rotation axis.

23 is an axial rod device, and has a cross section in a case 27 formed by a plate 25 and a casing 26 fixed as a bolt 38 via a gasket 24 on a grand portion 21. Sealing the lip portions 30 and 30 of the sealing ring 28 by fitting the sealing ring 28 made of an elastic body and attaching the sealing ring to the rotating shaft 22 with a fastener 29 such as a drive band. The end faces 31 and 31 are brought into contact with the end face 32 of the plate 25 and the end face 33 of the casing 26 to prevent leakage of the sealing fluid.

As shown in FIG. 3, the sealing ring 28 has a t1 shape in cross section and a surface 35 in contact with an axis between the lip portions 30 and 30 having the sealing end surfaces 31 and 31 and the rotating shaft 22. As shown in FIG. The cylinder part 36 which has () is provided.

In addition, before mounting a packing case, the axial length from the edge part 37 of the cylindrical part 36 of the seal ring 28 to the sealing end surface 31 of the lip part 30 is set to a, and the seal ring 28 is Axial length from the edge portion 37 of the cylindrical portion 36 of the seal ring 28 to the sealing end face 31 of the lip portion 30 when b is mounted in the packing case 27 is a. The length of the cylinder portion 36 of the seal ring 28 when the seal ring 28 is mounted in the packing case 27 is longer than 2 times b, and the plate 25 or the casing 26 is C. When c is a distance between the outer circumferential surface of the rotary shaft 22 and d, c is greater than twice d.

As described above, a> 2b eliminates the necessity of a spring-like part for contacting the lip portion, which is conventionally used for a small end face seal made of rubber for a device, by pressing the sealing end face, thereby reducing the sealing of the seal 28 only by the elastic force of the elastic body. The lip portions 30 and 30 are pressed against the end face 32 of the plate 25 and the end face 33 of the casing 26 to seal the fluid, as well as to seal when the rotating shaft 22 moves in the axial direction. Even if any one of the peripheral edges 37 and 37 of the tubular portion 36 of 28 is in contact with the end face of the plate 25 or the casing 26 and the axis moves further, the sealing 28 Slip occurs between the surface 35 in contact with the shaft and the outer circumferential surface of the rotating shaft 22, and the force for pressing the lip in the end face of either of the lip portions 30 and 30 is not impaired.

By again a> 2b and c> 2d, the sealing property is maintained even when the rotational axis in the axial direction and the radial direction are combined.

As a result, even if c> 2d is added to the radial direction of the rotating shaft, either one of the peripheral edges 37 and 37 of the cylindrical portion 36 of the sealing is applied to the end surface of the plate 25 or the casing 26. This is because the abutment is made correctly and a> 2b maintains the pressing force on the lip as described above.

Moreover, of course, the sealing property is maintained with respect to the movement of the rotating shaft in the simple radial direction.

Furthermore, the shaft device of the present invention can be easily installed and removed, and in particular, maintenance and repair of each part without the need for disassembly of other equipment such as bearings, and the plate (25) can be easily installed in a narrow space. ), The casing 26, the sealing 28, and the parts of the barbed wire 24 may have a divided structure.

In addition, as shown in FIG. 6, when the auxiliary seal 61 is installed between the grand part and the shaft device of the present invention, the slurry is not removed from the sealing fluid and the slurry in the sealing fluid is injected in FIG. From the ball 62, the inspection and repair of the shaft rod device is possible.

By injecting a clean fluid containing no grease or slurry, it is possible to prevent lubrication of the sealing end face and intrusion into the packing case of the slurry.

In the case where the sealing fluid is a clean fluid containing no slurry or the like, as shown in FIG. 7, the sealing fluid is introduced into the packing case in which the through-hole 72 is provided in the lip portion 71 on the sealing fluid side. The lubrication state of can be made good.

As described above, the shaft device of the present invention has a cross section as described above in a packing casing formed by a plate and a casing. Since the sealing ring made of an elastic body having a shape of a shape is fastened to the rotating side by tightly fitting, the end face is contacted to seal the fluid according to the movement. Without this, sealing property can be maintained.

Therefore, the sealing fluid is not leaked by loosening the contact between the inner circumferential surface of the gland packing and the outer circumferential surface of the gland by axial vibration as in the conventional shaft device.

In addition, as in the conventional shaft device, the shaft device of the present invention rotates in contact with the end surface of the plate and casing and the end surface of the lip part of the seal, not in axial contact motion between the inner circumferential surface of the gland packing and the outer circumferential surface of the rotary shaft. The problem of wear on the outer circumferential surface is solved.

Moreover, it is possible to maintain good sealing performance and long life without the necessity of overlapping fastening or packing replacement, which is required in the shaft device of the conventional grand packing.

Claims (1)

In the packing case formed by the plate 25 and the casing 26 fixed to the gland part, a sealing ring 28 made of an elastic body mounted by a fastener fitted to the rotating shaft and rotating in accordance with the rotating shaft is fitted. In the shaft sealing device which seals a fluid by the sealing ring 28, the plate 25, the casing 26, and the contact surface 35, the sealing ring has a lip having sealing sections 31 and 31. The cross section provided with the cylinder part 36 provided with the contact surface 35 of the 30 and 30 and the rotating shaft 22 is shown. To the sealing end surfaces 31 and 31 of the lip portions 30 and 30 from the peripheral end of the cylindrical portion 36 of the sealing 28 in the free state before being fitted into the packing case. Axial length a of the axial length from the peripheral end of the tubular portion 36 of the seal ring 28 to the sealing end surfaces 31 and 31 of the lip portions 30 and 30 after being fitted into the packing case. At the same time as 2 times longer than b, the cylinder part 36 thickness C of the sealing ring 28 after the said sealing ring 28 is fitted in a packing case is rotated with the plate 25 or the casing 26, and a rotating shaft. A shaft device, characterized by comprising more than twice the gap d with (22).