JPH0610947A - Sliding support device - Google Patents

Abstract

PURPOSE:To minimize the clearance between rails and a sliding member when the rails have a parallel error, keep precision, and smoothly slide a movable body, when the movable body is slid along two parallel rails on a fixed body. CONSTITUTION:A sliding support device has a movable body 2 sliding along a standard rail 3 and a sub-rail 4 mounted on a fixed body 1; a standard sliding member 5 to be engaged with the standard rail 3 mounted on the movable body 2; a minute sliding guide 6 orthogonal to the sub-rail 4 mounted in the position corresponding to the sub-rail 4 of the movable body 2; and a sub-sliding member 7 having a first engaging part 7a to be engaged with the sub-rail 4 and a second engaging part 7b to be engaged with the minute sliding guide 6 formed with their sliding directions being orthogonal to each other. Further, the sub-sliding member is divided into two, and the first engaging part and the second engaging part are combined through a bearing in such a manner that the crossing angles in the sliding directions can be rotated and regulated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a slide supporting device for slidably supporting a table moving on a bed in a machine tool.

[0002]

2. Description of the Related Art In a mechanical structure, many sliding parts such as a table moving on a bed of a machine tool are often constructed. Such sliding parts are two rails attached to a fixed body (bed). Generally, a configuration in which a sliding member attached to a movable body (table) is engaged is used. In this case, if the clearance between the rail and the sliding member is large, it causes vibration, and the processing accuracy is impaired. It is necessary to make the clearance as small as possible to improve the accuracy, and it is widely prevailing to apply a preload to the sliding surface for the purpose of minimizing the clearance.

[0003]

In the conventional movement guide device described above, it is necessary to reduce the clearance between the rail and the sliding member to move with less resistance, especially when a long moving distance is required, in terms of working accuracy. It is extremely difficult, and the reality is that the clearance must be set to a large value. Therefore, there is a problem that it is difficult to improve the accuracy of the machine.

An object of the present invention is to provide a slide supporting device which reduces the clearance between the rail of the sliding device and the sliding member to improve the accuracy of the machine and enables smooth sliding.

[0005]

SUMMARY OF THE INVENTION To achieve the above object, the present invention relates to a sliding support device for slidably supporting a movable body on a fixed body, wherein the fixed body has a reference rail and the reference rail. A sub-rail parallel to the reference rail, a reference slide member slidably engaged with the reference rail is attached to the movable body at a position corresponding to the reference rail, and a reference rail is attached at a position corresponding to the sub-rail. A first engaging portion for mounting a fine sliding guide in a direction orthogonal to the sub rail, slidably engaging with the sub rail, and a second engaging portion for slidably engaging with the fine sliding guide. The sliding support device is provided with a sub-sliding member in which the sliding direction is orthogonal to the engaging portion.

In addition, the sub-sliding member of the slide supporting device may be a first sub-sliding member having a first engaging portion and a second sub-sliding member having a second engaging portion, and a bearing. The sliding support device is a combination of the first engaging portion and the second engaging portion, which are interlocked with each other so that the intersecting angle in the sliding direction can be rotationally adjusted.

[0007]

Even if there is a precision error such as a slight deviation in the parallelism between the reference rail and the sub rail, the sub sliding member engaged with the sub rail with respect to the reference rail is the second member. Since the joint portion can finely slide in the direction orthogonal to the sub rail with respect to the fine sliding guide, it can slide smoothly, and the reference rail and the sub rail, and the reference sliding member that engages with them. Also, the clearance between the sliding member and the sliding portion of the sub-sliding member can be set to a minimum, the accuracy of the device can be improved, and the movable body can be moved smoothly.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings.

(First Embodiment) FIGS. 1 to 3 show a first embodiment, FIG. 1 is a partially cut side view, and a sectional view taken along line AA is shown in FIG. The sliding structure is shown in a perspective view in FIG.

Reference numeral (1) is a fixed body, and (2) is a movable body. A reference rail (3) and a sub rail (4) are mounted in parallel on the upper surface of the fixed body (1), and the movable body (2) is A reference sliding member (5) having a groove type engaging portion (5a) slidably engaged with the reference rail (3) is attached at a position corresponding to the reference rail (3), and a movable body is further provided. A short rail-shaped fine sliding guide (6) in a direction orthogonal to the sub rail (4) is attached to a position corresponding to the sub rail (4) of (2).

Reference numeral (7) is a sub-sliding member, which has a groove-shaped first engaging portion (7a) for engaging the sub-rail (4) on the lower surface and a fine sliding guide (6) on the upper surface. The groove-shaped second engaging portion (7b) to be engaged is formed in a direction orthogonal to the first engaging portion (7a), and the sub rail (4) and the fine sliding guide (6) are formed.
Is intervened between.

According to the above construction, even when the reference rail (3) and the sub-rail (4) are long, the parallelism is deviated due to manufacturing difficulty, and the rail spacing varies depending on the location. , The sub-sliding member (7) engaging with the sub-rail (4) on the basis of the reference rail (3) is the reference rail (3).
And the second engaging portion (7b) corresponding to the distance error between the auxiliary rail (4)
Will slide slightly along the fine sliding guide (6) in the direction orthogonal to the sub rail (4), and the sub sliding member (7) will slide smoothly along the sub rail (4). You can

Therefore, due to a gap error between the reference rail (3) and the auxiliary rail (4), the distance between the reference rail (3) and the engaging portion (5a) of the reference sliding member (5) and the auxiliary rail ( Since it is not necessary to increase the clearance between 4) and the first engaging portion (7a) of the sub-sliding member (7), it is possible to improve the accuracy with the minimum required clearance.

Naturally, the clearance between the fine sliding guide (6) and the second engaging portion (7b) of the auxiliary sliding member (7) should also be minimized because the sliding length is extremely short. Therefore, the accuracy is not deteriorated.

(Second Embodiment) FIGS. 4 to 6 show a second embodiment, FIG. 4 is a partially cut side view, and a section taken along line BB thereof is shown in FIG. Fig. 6 is a view seen in the direction of the -C line.
Is shown in. In the second embodiment, the same parts as those in the first embodiment will be described with the same reference numerals.

Reference numeral (1) is a fixed body, and (2) is a movable body. The reference rail (3) and the auxiliary rail (4) are mounted on the upper surface of the fixed body (1) in parallel, and the movable body (2) is fixed. At a position corresponding to the reference rail (3), a linear motion bearing (10) is provided inside the downward groove that slidably engages with the reference rail (3).
The reference sliding member (10) having a) is attached, and further at a position corresponding to the sub rail (4) of the movable body (2), inside the downward groove type in a direction orthogonal to the sub rail (4). Fine sliding guide (1) incorporating a linear motion bearing (11a)
1) is attached.

Reference numeral (12) is a first sub-sliding member, and a linear motion bearing similar to that of the reference sliding member (10) is provided inside a downward groove type slidably engaged with the sub-rail (4). (12
A) is incorporated and a bearing housing (12b) is attached to the upper part, and a bearing (13) is fitted in the bearing housing (12b) and fixed by a bearing retainer (14).

Reference numeral (15) is a second sub-sliding member, and a second rail-like second engaging portion (15a) engaging with the fine sliding guide (11) in a finely slidable manner is attached to the upper end of the second auxiliary sliding member. A bearing shaft (15b) is formed on the first sub-sliding member (12) and the second sub-sliding member (12) by fitting the bearing shaft (15b) into the bearing (13) in the bare link housing (12b) and fixing the bearing shaft (15). The sub-sliding member (15) is a combination in which the crossing angle of the sliding direction is rotationally adjustable.

In the second embodiment, the fine sliding guide (1
Although 1) is a concave groove and shows the opposite of the first embodiment in which the second engaging portion (15a) has a short rail shape, this is the same as the first embodiment, and the fine sliding guide (11) is used. ) Has a short rail shape and the second engaging portion has a concave groove, there is no problem.

According to the above construction, even if there is a parallel error between the reference rail (3) and the auxiliary rail (4), smooth sliding is possible, and the reference rail (3) and the auxiliary rail (4) and the sliding guide ( 11) and reference sliding members (1
0), the first sub-sliding member (12), the second sub-sliding member (1)
The feature of being able to minimize the clearance with 5) and improving the accuracy is the same as the first embodiment, but in the case of the second embodiment, Since the first sub-sliding member (12) and the second sub-sliding member (15) are configured to be rotatable via the bearing (13), the first sub-sliding member (12) and the second sub-sliding member can be rotated. Moving member (1
Since the crossing angle of the sliding direction of 5) can be adjusted freely, it is orthogonal to the auxiliary rail (4) when there is a large parallelism error between the reference rail (3) and the auxiliary rail (4) and there is a curve, for example. Although the fine sliding in the direction alone makes the sliding impossible, the fine sliding can be smoothly performed by freely changing the intersection angle by the rotation.

[0021]

According to the sliding support device of the present invention described above, the sub-sliding member that engages with the sub-rail with the reference rail as a reference is provided with the fine-sliding device in the direction orthogonal to the sub-rail. By supporting the movable body through the fine slide device, the fine slide device absorbs the parallelism error between the two rails, and smooth slide is obtained. The clearance between the moving member and the moving member can be minimized to improve the accuracy, and the sub-sliding member is formed by combining the first sliding member and the second sliding member via the bearing. As a result, the crossing angle of the sliding direction of the first sliding member and the second sliding member can be rotationally adjusted, and smooth sliding is possible even when the parallelism error between the reference rail and the sub rail is large. Motion will be obtained and the precision of the sliding part will be improved. It is those that can be.

[Brief description of drawings]

FIG. 1 is a partially cut side view of a first embodiment of the present invention.

FIG. 2 is a sectional view taken along the line AA of FIG.

FIG. 3 is a perspective view of an orthogonal sliding portion in the first embodiment.

FIG. 4 is a partially cut side view of the second embodiment of the present invention.

5 is a sectional view taken along line BB of FIG.

6 is a view taken along the line CC of FIG.

[Explanation of symbols]

 1 Fixed Body 2 Movable Body 3 Reference Rail 4 Sub Rail 5 Reference Sliding Member 5a Engagement Part 6 Fine Sliding Guide 7 Sub Sliding Member 7a First Engaging Part 7b Second Engaging Part 10 Reference Sliding Member 11 Fine Sliding guide 12 First sub-sliding member 12b Bearing housing 13 Bearing 15 Second sub-sliding member 15b Bearing shaft

Claims (2)

[Claims] 1. A sliding support device for slidably supporting a movable body on a fixed body, wherein a fixed rail and a sub rail parallel to the reference rail are attached to the fixed body, and the movable body is provided with the reference rail. A reference sliding member that slidably engages the reference rail is attached to a position corresponding to the rail, and a fine sliding guide in a direction orthogonal to the sub rail is attached to a position corresponding to the sub rail. A sub-rail having a first engaging portion slidably engaged with the sub rail and a second engaging portion slidably engaged with the fine sliding guide, the sliding directions of which are orthogonal to each other. A sliding support device comprising a sliding member. 2. A sub-sliding member comprising a first sub-sliding member having a first engaging portion and a second sub-sliding member having a second engaging portion.
2. The sliding support device according to claim 1, wherein the first engaging portion and the second engaging portion are combined such that the intersecting angle of the sliding direction can be rotationally adjusted via a bearing.