KR920007887Y1 - Ball nut - Google Patents

Abstract

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Description

Ball nut improves lubrication efficiency of ball screw

1 is a partial cross-sectional view of a conventional ball screw.

2 is a cross-sectional view taken along the line II-II of FIG.

3 (a) to (e) is a cross-sectional view showing a sealing structure according to the first embodiment of the present invention.

4 (a) to (b) is a cross-sectional view showing a sealing structure according to a second embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10 ball screw assembly 11 nut

12: screw 13,14: semicircular groove

15: spiral passage 16: steel ball

18: flange portion of the nut 19: lubricating oil inlet

20: opening 21: wiper

22: gap 23: space

24: slope 25a-25e: sealant

26: inclined surface 27a, 27b: 0 ring

28,29: 0 ring fixing groove

The present invention relates to a ball nut, and more particularly, to a sealing structure of a ball nut which prevents leakage of lubricating oil in the ball nut and improves the lubrication efficiency of the ball screw.

Ball screw is widely used as a feeding mechanism for numerically controlled machine tools, aircraft mechanical control devices or other machinery and equipment requiring precision. Such a ball screw is fitted with a steel ball in a spiral passage of a circular cross section formed by opposing grooves of semi-circular cross sections on the inner circumferential surface of the nut and the outer circumferential surface of the screw, respectively.

As the injected lubricating oil is supplied, the screw rotates smoothly in the nut and moves forward or backward, so that a predetermined conveying action is performed. Is guaranteed.

In the conventional ball screw, the sealing state is not good and the lubricant is leaked. If the lubricant is not sufficiently supplied to the steel balls between the nut and the screw, or if the leakage is severe, the lubricant is not supplied at all. There was a problem such as a decrease in the performance of the machine.

The present invention aims to solve the problems of the conventional ball screw as described above, and aims to improve the lubrication efficiency of the ball stream by providing a sealing structure in which lubricant oil does not leak.

Hereinafter, according to the accompanying drawings, a conventional ball screw and the present invention will be described in detail.

1 is a partial cross-sectional view of a conventional ball screw assembly 10. The ball screw assembly 10 is to fit the screw 12 into the nut 11, the groove 11 of the semicircular cross section is formed on the inner peripheral surface of the nut 11, the groove on the outer peripheral surface of the screw 12 A semicircular groove 14 having a radius of the same shape as that of (13) is formed, and these grooves 13 and 14 are disposed to face each other to form a spiral passage 15, and a plurality of spiral passages 15 are formed in the spiral passage 15. Steel ball 16 is fitted. A gap 17 is provided on left and right sides of the spiral passage 15. A flange portion 18 is usually formed at one end of the nut 11, and a lubricating oil inlet 19 is formed in the central axis direction from the outside of the flange portion 18, and the nut is located inside the flange portion 18. A circular opening 20 having a diameter larger than 11 is formed, and between the opening 20 and the screw 12, foreign matter adhering on the screw protruding outside the ball screw enters into the nut. The wiper 21 made of a synthetic resin (preferably made of TEFLON ^R ) is inserted. The wiper 21 is fixed integrally to the nut 11 by a conventional fastening method (not shown), and is usually between 0.05 with the wiper 21 fixed to the opening 20 of the nut 11. There exists a gap 22 of about mm, which causes a problem of lubricating oil leakage.

FIG. 2 is a sectional view taken along the line II-II of FIG. 1, and an arrow shows a path through which the lubricating oil supplied through the lubricating oil inlet 19 drilled inwardly from the top of the flange portion 18 of the nut 11 flows. Here, the lubricating oil inlet may be formed at a position other than the upper portion of the flange portion 18, as indicated by the dotted line at 19 '. The lubricating oil supplied through the lubricating oil inlet 19 or 19 'flows along the inner wall of the wiper 21 as indicated by the arrow, while the spiral passage 15 between the nut 11 and the screw 12 And the gaps 17 are supplied to the steel balls 16.

By the way, in such a conventional ball screw, most of the lubricating oil flowing down the inner wall surface of the wiper 21 is accumulated primarily in the space 23 located below the screw 12, and in this space 23 The lubricating oil is adhered to the screw 12 by viscous or supplied to the steel ball 16 through the gap 17, but a large amount thereof leaks through the gap 22. As a result, the lubricating oil supplied to the steel balls 16 may be insufficient or not supplied at all, resulting in poor lubrication of the furniture 16, resulting in deterioration of the performance of the ball screw and the precision of the machine.

Hereinafter, the present invention will be described in detail with reference to FIGS. 3 and 4.

3 (a) to 3 (e) show the sealing structure according to the first embodiment of the present invention, and FIG. 3 (a) shows the outer periphery of the opening 20 inside the flange portion 18 of the nut 11. Chamfering the edges to form an inclined surface 24, the sealing agent 25 is applied between the inclined surface 24 and the wiper 21 to seal the gap 22, FIG. ) Is similarly structured to chamfer the outer periphery of the wiper 21 to form an inclined surface 26 and to seal the gap 22 by applying a sealant 25b between the inclined surface 26 and the opening 20. FIG. 3 (c) shows the inclined surfaces 24 and 26 by chamfering the outer periphery of both the opening portion 20 and the wiper 21, and is coated with a sealant 25c therebetween to form a gap ( 22) It is a sealed structure. Thus, by chamfering the outer periphery of either or both of the opening portion 20 and the wiper 21 to form the inclined surfaces 24 and 26, the adhesive area of the sealant can be increased to obtain a firm and reliable sealing structure. .

3 (d) is a structure in which neither the opening 20 nor the wiper 21 is sealed with the sealant 25d without forming an inclined surface by chamfering. In this case, if the adhesive force of the sealant is not strong, A phenomenon such as peeling off of the sealant may occur. As shown in FIG. 3 (e), the gap 22 is widened (0.1 mm to 0.5 mm to suitably) and sealed to the inside of the gap 22. The penetrating agent 25e penetrates, thereby obtaining a more rigid sealing structure.

The widening of the gap 22 as described above can be maximized by applying the sealing structure of FIGS. 3 (a) to 3 (c). The sealant used in the embodiment of FIG. 3 may be any conventional sealant, adhesive, epoxy resin, silicone, or the like, as long as the sealing effect is excellent.

4 (a) and 4 (b) show a sealing structure according to the second embodiment of the present invention, and unlike the first embodiment, the zero ring 27a or (between the openings 20 and the wipers 21 is different from the first embodiment. It is a sealing structure formed by inserting 27b). In the case of FIG. 4A, the groove 28 is formed on the inner circumferential surface of the opening 20 to fix the zero ring. In FIG. 4B, the groove 29 is formed on the outer circumferential surface of the wiper 21. To form a zero ring. As in the case of FIG. 4 (b), forming a groove in the outer circumferential surface of the wiper 21 is easier and simpler than the case of FIG. 4 (a) in terms of processing and installation. The material of the zero ring used in the embodiment of FIG. 4 may be any material having high elasticity such as NBR rubber or silicone rubber, and the shape of the zero ring has a normal circular cross section, but a hemispherical cross section, a V-shaped cross section or a quarter. It may be any of a ring type.

In the embodiment of the present invention, when the gap 22 is sealed, it is feared that lubricant leakage occurs between the contact surface of the screw 12 and the wiper 21 due to the hydraulic pressure inside the nut, but the screw 12 and the wiper ( Since the contact surface of 21) is curved and the gap between them is minimal (usually 0.05 mm or less), leakage of lubricant oil through the contact surface does not substantially occur.

As described above, the present invention can improve the lubrication effect by sufficiently supplying lubricating oil to steel balls by preventing lubricating oil leakage in the conventional ball screw, and as a result, it is possible to continuously maintain the precision of the ball screw and the machine. It will have a very practical effect.

Claims (6)

A groove 13 having a semi-circular cross section is formed on the inner circumferential surface of the nut 11, and a groove 14 having a radius similar to the groove 13 is formed on the outer circumferential surface of the screw 12, so that the groove 13 on the inner circumferential surface of the nut 11 is formed. And a spiral passage having a circular cross section formed by the screw 12 in the nut 11 so that the groove 14 is disposed opposite, and formed by the groove 13 of the nut inner circumferential surface and the groove 14 of the screw outer circumferential surface. A plurality of steel balls 16 are fitted in the part 15, and a lubricating oil inlet 19 is formed in the central axis direction from the outside of the flange portion 18 located at one end of the nut 11, and the inside of the flange portion is formed. The circular opening 20 having a diameter larger than the inner diameter of the nut 11 is formed, and the wiper 21 is inserted between the opening 20 and the screw 12 to fix the ball 11 integrally with the nut 11. In the screw (10) having a sealing structure for sealing the gap (22) between the opening (20) and the wiper (21) Ball nut, characterized in that. The gap 22 between the opening portion 20 and the wiper 21 is sealed with a sealant 25a, 25b, 25c, 25d or 25e. Ball nut. The ball nut according to claim 2, wherein the inclined surfaces (24) and (26) are formed at the outer periphery of any one or both of the opening (20) or the wiper (21) to which the sealant is applied. 4. The ball nut according to claim 2 or 3, wherein the gap of the gap (22) is made wide enough to allow the sealant to penetrate. The ball nut according to claim 1, wherein a zero ring (27a) or a (27b) is inserted between the opening portion (20) and the wiper (21). The ball nut according to claim 5, wherein the zero ring fixing groove (28) or (29) is formed on either the inner circumferential surface of the opening (20) or the outer circumferential surface of the wiper (21).