KR20100051394A - Bearing waterproof structure of ball screw - Google Patents

Abstract

PURPOSE: A bearing waterproof structure of a ball screw is provided to prevent water from penetrating into a bearing part, to facilitate to install a waterproof structure, to improve the durability of a transporting part, and to improve the productivity of a device. CONSTITUTION: A bearing waterproof structure of a ball screw comprises: a ball screw(100) which rotates; a bearing(150) which supports the rotation of the ball screw on the outer circumference of one end of the ball screw; a bearing housing(120) which supports the ball screw and the bearing which are inserted into the bearing with surrounding; a sealing member(200) which surrounds a part of the outer circumference of the ball screw in order to seal the perpendicular surface of the bearing housing and a gap between a ball screw. The ball screw and the sealing member are combined by a structure of one-way bolt and nut.

Description

Bearing waterproof structure of ball screw

The present invention relates to a bearing waterproof structure of a ball screw, and more particularly, to a waterproof structure of a ball screw bearing for increasing the production capacity by increasing the waterproof ability, and durability with a simple configuration.

The ball screw is used to transfer the workbench from the machine tool to the translation of the ball nut supporting the workbench by the rotation of the ball screw through an external motor.

In such a feeder, the rotational movement of the ball screw by the motor plays an important role in improving work efficiency and productivity. In general, when working with a machine tool, water flowing into the cooling device rotates at both ends of the ball screw. It will flow into the supported bearing part.

As such, when water in the surroundings, such as cooling water, penetrates into the ball screw bearing part, the bearing is easily oxidized, and the durability of the product is reduced, such as sintering the bearing liquid, and there is a problem in that the system efficiency is lowered and the productivity is eventually reduced.

1 is a view illustrating a waterproof structure of a ball screw bearing for a conventional transport. As shown in FIG. 1, one end of the ball screw 10 is rotatably supported by a bearing 12, which has a lock nut 14 and a collar 16 screwed into the ball screw 10. The position of the bearing housing 18 is fixed.

However, in the case of the ball screw 10 installed in FIG. 1, water, waste oil, etc. flowing down through the ball screw 10 enters the bearing 12 along the inner circumferential surface of the collar 16, which causes the bearing to fall. There is a disadvantage in that it degrades the life by oxidizing or adversely affects the precision of the feed system using the ball screw (10). In addition, the durability of the device, such as sintering bearing fluid such as grease, may be impaired, which in turn lowers the productivity of the entire system.

The problem of the present invention for solving the above problems is to effectively prevent the penetration of water, etc. in the bearing portion, to facilitate the installation of the waterproof structure, to improve the durability of the transfer device, and to improve the productivity of the whole device This is to provide a bearing waterproof structure of the ball screw.

The first feature of the present invention for solving the above-mentioned problems is a ball screw to rotate; A bearing supporting the rotation on an outer circumferential surface of one end of the ball screw; A bearing housing surrounding and supporting the ball screw and the bearing introduced into the bearing; In the bearing structure of the conveying screw including a conveying device housing for holding the bearing housing fixed, the bearing structure comprising a sealing member surrounding a portion of the outer peripheral surface of the ball screw for sealing the gap between the ball screw and the vertical surface of the bearing housing In the configuration, the ball screw and the sealing member is characterized in that the fastening with a bolt and nut structure in one direction.

Here, the space is formed in a groove structure widening in the vertical direction of the vertical plane, and the sealing member is fastened to the ball screw in a bolt and nut structure in the space, the sealing member is a cylindrical ring structure Preferably, the stepped portion is formed at the edge portion of the surface opposite to the contact surface with the bearing housing.

In addition, preferably the sealing member may be a rubber material having elasticity, the bolt groove of the bearing housing in the bolt and nut structure may be larger than the nut groove of the sealing member.

And, the second feature of the present foot is a ball screw to rotate; A bearing for supporting rotation on an outer circumferential surface of the end of the ball screw; A bearing housing surrounding and supporting the ball screw and the bearing introduced into the bearing; In the bearing structure of the conveying screw including a conveying device housing for holding the bearing housing fixed, the bearing structure is in contact with the vertical surface of the bearing housing to surround a portion of the outer peripheral surface of the ball screw, the sealing member is a bolt and nut in one direction The first sealing member is fastened to the structure and the second sealing member fastened to the bolt and nut structure in the other direction.

In addition, it is preferable to form a space with a groove structure in which the vertical surface in the longitudinal direction of the bearing housing is widened in the depth direction, and in the space, the sealing member is fastened to the ball screw in a bolt and nut structure, and the sealing member is As the cylindrical ring structure, it is preferable that the stepped portion is formed at the edge portion opposite to the contact surface with the bearing housing.

In addition, the sealing member is preferably a rubber material having elasticity, the bolt groove of the bearing housing in the bolt and nut structure is preferably larger than the width of the nut groove of the sealing member.

By providing the present invention as described above, it is possible to effectively prevent the penetration of water, etc. in the bearing portion, to facilitate the installation of the waterproof structure, to improve the durability of the transfer device, and to improve the productivity of the entire apparatus.

In addition, the effect of preventing the penetration of water in one direction by the rotation is obtained, it is possible to have a more effective waterproof ability in that the waterproof effect through the rotation in both directions can be obtained.

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

Example 1

2 is a view illustrating a configuration of a bearing mechanism of the feed screw according to the present invention. As shown in FIG. 2, the bearing waterproof structure of the feed screw supports a bearing 150 supporting rotation, a bearing 150, and a bearing housing 120 covering one end of the bearing 150 and the ball screw 100. And a device housing for supporting the bearing housing 120, wherein the sealing member 200 which contacts the vertical surface in the longitudinal direction of the bearing housing 120 and surrounds the ball screw 100 has a bolt and nut structure. It is characterized in that fastened to.

Here, the sealing member 200 is preferably made of elastic rubber material. This should be sealed tightly from the inlet of the bearing housing 120 of the ball screw 100 to the sealing member 200 to prevent water from penetrating into the bearing portion by riding the ball screw, but the hard material is the ball screw 100 and the bearing. Since the ability to seal the gap between the housing 120 is dropped, the elasticity of the rubber material can further increase the sealing force.

And, in the present invention, the ball screw 100 and the sealing member 200 is characterized in that the fastening with a bolt and nut structure in one direction, the bolt and nut structure is wound in a spiral thread and the groove, the rotation of the bolt and nut It is a structure that enables horizontal movement. This fastening structure is more effective in preventing the penetration of water with a screw structure composed of a plurality of mountains and grooves, and one direction in which the thread is wound has the advantage of pushing out the water droplets to penetrate according to the rotation direction to the outside. have.

As described above, the present invention proposes a high-quality waterproof structure for preventing durability and productivity of the device due to water penetration into the bearing part of the transfer screw by using the direction and the sealing force of the screw fastening structure.

3 is an enlarged cross-sectional view of a portion A of FIG. 2. As shown in FIG. 2, the sealing member 200 is mounted at the vertical end of the bearing housing 120 surrounding the ball screw 100, and the vertical end of the bearing housing 120 is the ball screw 100. It forms a predetermined space that extends in the vertical direction around the outer circumferential surface surrounding the sealing member, the sealing member 200 is a structure that is fastened in a bolt and nut structure.

As shown in FIG. 3, the bolt and nut structure is a screw and nut groove formed in a spiral shape, and the bolt and nut are coupled to each other. When the screw structure formed on the ball screw and the sealing member 200 is rotated, the water droplets can be obtained to push the water droplets to the outside.

In general, the feeder of the machine tool rotates the ball screw 100 to horizontally move the workbench. In this process, water such as cooling oil and cutting oil penetrates into some bearing parts along the ball screw 100 to oxidize the bearing. Or dilute the bearing fluid, reducing the durability and productivity of the device. For this reason, the conventional method of sealing has been tried in various ways, but the water has good penetrating power so that it can flow into a small gap, and it is difficult to find a waterproof structure or method more effectively because it has an effect of further increasing the penetration by rotation. There was this.

Therefore, when using the waterproof structure of the present invention shown in Figure 3 can not only obtain the waterproof effect by the rotation of the ball screw 100 itself infiltration of water, but also improve the sealing force by tightening the bolt and nut structure waterproof Can be further increased.

In addition, the ball screw 100 is formed in a vertical cross section with the ball screw 100 of the bearing housing 120, and a predetermined space that extends in the longitudinal direction is formed to fasten the sealing member 200 therein. This is because it can penetrate along the bearing housing 120 as well as the ball screw 100. That is, since the vertical cross section of the bearing housing 120 is exposed to the outside so that water may flow along the cross section, when the groove is formed to be widened in the longitudinal direction, the water is external to the bearing housing 120 by gravity. Can not penetrate inside along the plane. In addition, the sealing member 200 forms a stepped portion at the edge portion of the surface opposite to the bearing housing contacting, and forms a stepped portion at the edge portion to block water to penetrate along the ball screw, thereby increasing the waterproofing effect.

Example 2

4 is a view illustrating a configuration of a bearing mechanism of a feed screw as another embodiment according to the present invention. As shown in FIG. 4, the bearing waterproof structure of the transfer screw has a bearing 150 supporting rotation, a bearing 150 supporting the bearing 150, and a bearing housing 120 covering one end of the bearing 150 and the ball screw 100. And a device housing for supporting the bearing housing 120, wherein the device housing is connected to a vertical surface of the bearing housing 120 in the longitudinal direction and fastened to a bolt and nut structure in one direction surrounding the ball screw 100. The first sealing member 200 and the second sealing member 200 is fastened in a bolt and nut structure of the other direction is characterized in that it is included.

The sealing member 200 is preferably a rubber material having elasticity. This should be sealed tightly from the inlet of the bearing housing 120 of the ball screw 100 to the sealing member 200 to prevent water from penetrating into the bearing portion by riding the ball screw, but the hard material is the ball screw 100 and the bearing. Since the ability to seal the gap between the housing 120 is reduced, the elasticity of the rubber material can further increase the sealing force.

The ball screw 100 and the sealing member 200 may include a first sealing member 200 fastened by a bolt and nut structure in one direction and a second sealing member 200 in the other direction. The bolt and nut structure is a structure in which a thread and a groove are spirally wound to enable horizontal movement by rotation of the bolt and nut.

Such a fastening structure is more effective in preventing the penetration of water as a screw structure consisting of a plurality of mountains and grooves, the one direction in which the thread is wound can also obtain the effect of pushing out the water droplets to penetrate according to the rotation direction to the outside. And, as shown in Figure 4, the sealing member 200 in two stages can increase the sealing force, the rotation of the ball screw 100 in order to move freely in both directions the feeder for the work operation is positive The first sealing member 200 and the second sealing member 210 is made of a bolt and nut fastening structure in different directions in that it is made in the direction.

As described above, when the bolt and nut fastening structures of the sealing members 200 and 210 are fastened in one direction, the first sealing member 200 may have an effect of preventing the penetration of water in one direction by rotation. If the waterproofing effect can be obtained by rotating in one direction, the second sealing member 210 has a more effective waterproofing ability in that the waterproofing effect can be obtained by rotating in the opposite direction.

FIG. 5 is an enlarged cross-sectional view of a portion B of FIG. 4. As shown in FIG. 5, the sealing member 200 is mounted at the vertical end of the bearing housing 120 surrounding the ball screw 100, and is widened in the vertical direction at the vertical end of the bearing housing 120. The first sealing member 200 is formed in a predetermined space surrounding the ball screw, and is fastened by the bolt and nut structure in one direction and the second sealing member 210 is fastened by the bolt and nut structure in the other direction. It is a structure contained inside the space.

The bolt and nut structure is a screw and screw groove formed in a helical shape, and the bolt and nut are coupled to each other. Since the bolt and nut have a directionality due to rotation, water droplets penetrating into the bearing part along the ball screw 100 are formed by a ball screw and a sealing. When the screw structure formed on the members 200 and 210 is rotated, the water droplets may be pushed outward.

In addition, the ball screw 100 is rotated in both directions, as shown in Figure 4, when the mounting direction of the sealing member (200, 210) with different thread direction of the bolt and nut structure in two stages, respectively, The sealing members 200 and 210 may not only obtain a waterproof effect by rotation in each direction, but also have an advantage of further improving the sealing force by fastening the two-stage sealing members 200 and 210.

And, the screw groove formed in the ball screw 100 is formed longer than the screw groove formed on the inner peripheral surface of the sealing member 200, the water droplets flowing along the ball screw 100 with only the screw groove formed in the ball screw 100 in advance It is also desirable to extrude to enhance room effect. Such a structure not only obtains the double waterproof effect due to the extension of the waterproof effect due to the directionality of the screw groove and the fastening of the sealing members 200 and 210 having elasticity, but also to double the sealing members having different directions of the screw grooves. By tightening it is possible to increase the waterproof ability even in both directions of the ball screw 100.

In addition, and surrounds the ball screw 100 in a vertical section with the ball screw 100 of the bearing housing 120, and forms a predetermined space that extends in the longitudinal direction to fasten the sealing member 200 therein, which is This is because water can penetrate along the bearing housing 120 as well as the ball screw 100. That is, since the vertical cross section of the bearing housing 120 is exposed to the outside so that water may flow along the cross section, when the groove is formed to be widened in the longitudinal direction, the water is external to the bearing housing 120 by gravity. It cannot penetrate inside along the plane.

While the invention has been shown and described with respect to the specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone with it will know easily.

1 is a view illustrating a waterproof structure of a ball screw bearing for a conventional transfer,

2 is a view illustrating a configuration of a bearing mechanism of the feed screw according to the present invention,

3 is an enlarged cross-sectional view of a portion A of FIG. 2;

4 is a view illustrating a configuration of a bearing mechanism of a feed screw as another embodiment according to the present invention;

FIG. 5 is an enlarged cross-sectional view of a portion B of FIG. 4.

<Description of main parts of drawing>

100: ball screw, 110: device housing, 150: bearing, 200: sealing member

Claims (10)

Ball screw to rotate; A bearing supporting the rotation on an outer circumferential surface of one end of the ball screw; A bearing housing surrounding and supporting the ball screw and the bearing introduced into the bearing; In the bearing structure of the conveying screw comprising a conveying device housing for holding and supporting the bearing housing, And a sealing member surrounding a portion of an outer circumferential surface of the ball screw for sealing a gap between the ball screw and a vertical surface of the bearing housing, wherein the ball screw and the sealing member are fastened by a bolt and nut structure in one direction. Bearing waterproof structure of the conveying screw, characterized in that. The method of claim 1, A bearing waterproof structure of a transfer screw, characterized in that forming a groove structure surrounding the gap and extending in the longitudinal direction of the bearing housing, wherein the sealing member is formed inside the groove structure. The method according to claim 1 or 2, The sealing member is a cylindrical ring structure, the bearing waterproof structure of the conveying screw, characterized in that the stepped portion is formed in the vertical edge portion of the outer direction. The method according to claim 1 or 2, The sealing member is waterproof structure of the bearing of the transfer screw, characterized in that the rubber material having elasticity. The method according to claim 1 or 2, The bolt groove of the bearing housing in the bolt and nut structure is larger than the nut groove of the sealing member bearing waterproof structure of the conveying screw. Ball screw to rotate; A bearing for supporting rotation on an outer circumferential surface of the end of the ball screw; A bearing housing surrounding and supporting the ball screw and the bearing introduced into the bearing; In the bearing structure of the conveying screw comprising a conveying device housing for holding and supporting the bearing housing, And a sealing member surrounding a portion of the outer circumferential surface of the ball screw to seal the gap between the ball screw and the vertical surface of the bearing housing, wherein the sealing member includes a first sealing member fastened by a bolt and nut structure in one direction; Bearing waterproof structure of the conveying screw, characterized in that it comprises a second sealing member fastened to the bolt and nut structure in the other direction. The method of claim 6, A bearing waterproof structure of a transfer screw, characterized in that forming a groove structure surrounding the gap and extending in the longitudinal direction of the bearing housing, wherein the sealing member is formed inside the groove structure. The method according to claim 6 or 7, The sealing member is a cylindrical ring structure, the bearing waterproof structure of the conveying screw, characterized in that the stepped portion is formed in the vertical edge portion of the outer direction. The method according to claim 6 or 7, The sealing member is waterproof structure of the bearing of the transfer screw, characterized in that the rubber material having elasticity. The method according to claim 6 or 7, The bolt groove of the bearing housing in the bolt and nut structure is larger than the nut groove of the sealing member bearing waterproof structure of the conveying screw.

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