JP3009339B2 - Nut screw thread groove inspection device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a nut screw thread groove inspection device for inspecting an axial position of a thread groove of a nut screw constituting a ball screw.

[0002]

2. Description of the Related Art Conventionally, a ball screw having a ball screw interposed between a nut screw and a shaft screw has been widely used as, for example, a transfer means. It is desired that this type of ball screw perform a high-accuracy transfer operation, and therefore, it is necessary to inspect the processing accuracy of the thread grooves of the nut screw and the shaft screw.

In this case, various inspection methods are employed to inspect the axial position of the thread groove of the nut screw. For example, using a three-dimensional measuring device or a dedicated measuring device that can fix the nut screw in the rotation direction and can move in the biaxial directions of X and Y, the axial direction of the thread groove processed by the nut screw with respect to the rotation axis. Is known which performs position measurement. Further, a method is known in which the nut screw is rotated once while a master shaft is inserted into the nut screw, and the amount of runout of the nut screw at that time is measured.

[0004]

However, when the above-described three-dimensional measuring device or dedicated measuring device is used, it has been pointed out that the number of measuring steps is increased, the structure is complicated, and the cost is increased. Further, in the method using the master shaft, it is troublesome to attach the ball to the thread groove, and moreover, it is pointed out that there is a problem in workability such as the ball falling off when the master shaft is inserted. I have.

SUMMARY OF THE INVENTION The present invention solves this kind of problem, and is capable of quickly and accurately inspecting the axial position of a screw groove of a nut screw in a simple process by a simple process. It is intended to provide a device.

[0006]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention relates to a nut screw having a ball screw interposed between a shaft screw and a shaft screw. A screw groove inspection device for inspecting the position, and a holding jig for holding the nut screw, while engaging with the nut screw,
A reference block member having a first reference surface, a second reference surface corresponding to the first reference surface, the second reference surface being fitted to the nut screw, and being engaged with a thread groove of the nut screw on a side wall portion; A sleeve member provided with a free reference sphere, a positioning member for positioning the nut screw and the sleeve member at predetermined rotation positions with respect to each other, and a state in which the reference sphere is engaged with a screw groove of the nut screw. In order to inspect the axial position of the screw groove of the nut screw based on the relative position between the first reference surface and the second reference surface, the nut screw is fitted to the sleeve member and presses the reference ball outward. And an extruding member.

[0007]

In the nut screw thread groove inspection apparatus according to the present invention, the nut screw is held by the holding jig, the sleeve member is inserted into the nut screw via the reference block member, and the nut screw and the sleeve are inserted. The member is positioned at a predetermined rotation position by the positioning member. Then, when the pushing member is inserted into the sleeve member, the reference sphere disposed on the sleeve member is pressed outward, and engages with the thread groove of the nut screw. At this time, if the screw groove of the nut screw is displaced in the axial direction, the sleeve member moves in the axial direction integrally with the reference sphere, and the relative position between the first reference surface of the reference block and the second reference surface of the sleeve member is increased. The position fluctuates. Thus, the axial position of the screw groove of the nut screw is easily and accurately inspected.

[0008]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of an apparatus for inspecting a thread groove of a nut screw according to the present invention.

In FIG. 1 and FIG.
1 shows a thread groove inspection apparatus according to the present embodiment. This thread groove inspection apparatus 10 inspects the axial position of a thread groove 14 of a nut screw 12 constituting a ball screw. This nut screw 12 has a cylindrical shape,
The flange 16 provided at one end has a mounting hole 18.
Are formed.

The screw groove inspection device 10 includes a holding jig 20 for holding the nut screw 12, a reference block member 22 that engages with the nut screw 12, a sleeve member 24 that is inserted into the nut screw 12, A positioning member 26 for positioning the nut screw 12 and the sleeve member 24 at a predetermined rotational position with respect to each other, and pressing a reference sphere 28 inserted into the sleeve member 24 and disposed on the sleeve member 24 outward. And an extruding member 30 for engaging the reference ball 28 with the screw groove 14 of the nut screw 12.

The holding jig 20 has a hole 32 into which the nut screw 12 is loosely fitted, and has an upper end surface 34 which is smoothed. Reference block member 22
Has a substantially disk shape, is provided with a protruding portion 36 to be inserted into the nut screw 12, and has a stepped hole portion 38 at the center.
Is formed. A hole 40 parallel to the axis of the reference block member 22 is formed from the large-diameter portion side of the stepped hole portion 38, and the first reference surface 4
2 are provided.

The sleeve member 24 is formed of the reference block member 2.
The cylindrical portion 44 has a cylindrical portion 44 inserted into the nut screw 12 through the second stepped hole portion 38, and the reference ball 28 is disposed at a predetermined position in the axial direction on the side wall portion of the cylindrical portion 44 so as to be freely inserted and removed. A hole 46 is provided for installation. A hole portion 50 is formed in a flange portion 48 provided on one end side of the sleeve member 24 so as to correspond to the mounting hole 18 of the nut screw 12. A second reference surface 52 is provided in the flange portion 48. The distance c between the second reference surface 52 and the center of the hole 46 is determined by the distance between the upper surface of the flange 16 of the nut screw 12 and the screw groove 1.
The distance is set to the sum of the distance a at the measurement position 4 and the distance b in the thickness direction of the reference block member 22.

The positioning member 26 includes a column portion 54 fitted into the hole 50 of the sleeve member 24 and a nut screw 1.
And a tapered portion 56 fitted into the second mounting hole 18. The pushing member 30 has a diameter that fits into the sleeve member 24, and has a tapered surface 58 at the tip.

The screw groove inspection device 10 constructed as described above
The operation of will be described below.

First, the nut screw 12 to be measured is inserted into the hole 32 of the holding jig 20, and the flange 16 of the nut screw 12 is placed on the upper end surface 34 of the holding jig 20. Next, the protrusion 36 of the reference block member 22 is inserted into the nut screw 12, and the hole 40 is formed in the mounting hole 1 of the nut screw 12.
The reference block member 22 is placed on the nut screw 12 in a state where the reference block member 22 is disposed corresponding to the reference numeral 8. Further, the sleeve member 24 is inserted into the nut screw 12 through the stepped hole 38 of the reference block member 22. At this time, the hole 46 of the cylindrical portion 44 of the sleeve member 24
, A reference sphere 28 is provided so as to be freely inserted and removed.

After the hole 50 of the sleeve member 24 is arranged coaxially with the hole 40 of the reference block member 22 and the mounting hole 18 of the nut screw 12, the positioning member 26 is moved to the hole 50, 40 and the mounting hole 18. Is inserted integrally. Thereby, the nut screw 12 and the sleeve member 24 are positioned at predetermined rotation positions with respect to each other.

When the pushing member 30 is inserted into the sleeve member 24, first, the tapered surface 58 of the pushing member 30 engages with the reference sphere 28 projecting inward of the cylindrical portion 44, and The ball 28 is pressed out of the cylindrical portion 44. Therefore, the reference sphere 28 protrudes from the hole 46 toward the screw groove 14 of the nut screw 12 and engages with the screw groove 14.

In this case, the distance c from the second reference surface 52 of the sleeve member 24 to the center of the hole 46 is equal to the distance a from the upper surface of the flange 16 of the nut screw 12 to the measurement position of the thread groove 14. The dimension is set to include the distance b in the thickness direction of the member 22. Therefore, if the screw groove 14 of the nut screw 12 is accurately machined in the axial direction, the first ball of the reference block member 22 is engaged with the reference ball 28 via the pushing member 30 while the reference ball 28 is engaged with the screw groove 14. The reference surface 42 and the second reference surface 52 of the sleeve member 24 are located on the same plane (see FIG. 2). Thereby, the screw groove 14 formed in the nut screw 12 is formed.
Is determined to be accurate.

On the other hand, the thread groove 14 of the nut screw 12
Is shifted in a direction shorter than the predetermined distance a by a distance d, as shown in FIG. 3, the sleeve member 24 moves the reference sphere 28 under the action of the pushing member 30.
Moves upward by a distance d integrally with the reference sphere 28 when engaging with the screw groove 14. Therefore, the second reference surface 52 of the sleeve member 24 is
It protrudes upward from the reference surface 42 by a distance d, and it is easily determined that the axial position of the screw groove 14 of the nut screw 12 is shifted in a direction shorter by the distance d.

As shown in FIG. 4, when the axial position of the thread groove 14 of the nut screw 12 is shifted in a direction longer by a distance e than a predetermined distance a, the pushing member 30 is When inserted into the member 24, the sleeve member 24 moves integrally with the reference ball 28 into the nut screw 12 by a distance e. Therefore, the second reference surface 52 of the sleeve member 24 moves inward from the first reference surface 42 of the reference block member 22 by the distance e, and the axial position of the screw groove 14 of the nut screw 12 is changed to the distance e. It is easily determined that the position is shifted only in the long direction.

As described above, in this embodiment, the holding jig 20
Nut screw 12, reference block member 22
And the sleeve member 24 are sequentially inserted, and the pushing member 30 is inserted in a state where the nut screw 12 and the sleeve member 24 are positioned by the positioning member 26. Therefore, it is possible to obtain an effect that the number of operation steps can be simplified at once, and the entire structure of the screw groove inspection device 10 can be simplified.

Further, in the state where the pushing member 30 is inserted into the sleeve member 24, the second
By simply observing the relative position between the reference surface 52 and the first reference surface 42 of the reference block member 22, the axial displacement of the screw groove 14 of the nut screw 12 can be easily and accurately detected. Thereby, there is an advantage that the axial position of the screw groove 14 of the nut screw 12 can be detected with high accuracy and efficiency by a simple process and configuration.

[0023]

According to the nut screw thread groove inspection device of the present invention, the following effects and advantages can be obtained.

When the pushing member is simply inserted into the sleeve member, the sleeve member moves in the axial direction corresponding to the engagement position between the reference ball and the thread groove, and the first reference surface of the reference block member and the sleeve member are moved. The relative position of the second reference plane changes in accordance with the axial displacement of the screw groove. Therefore, the axial position of the screw groove of the nut screw can be easily and accurately detected based on the relative position between the first reference surface and the second reference surface. In addition, the inspection process and the entire structure of the screw groove inspection device are simplified, which is extremely economical.

[Brief description of the drawings]

FIG. 1 is an exploded view of a screw groove inspection device according to the present invention.

FIG. 2 is a longitudinal sectional view of the thread groove inspection device.

FIG. 3 is an operation explanatory view of the screw groove inspection device.

FIG. 4 is an operation explanatory view of the screw groove inspection device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 ... Screw groove inspection apparatus 12 ... Nut screw 14 ... Screw groove 18 ... Mounting hole 20 ... Holding jig 22 ... Reference block member 24 ... Sleeve member 26 ... Positioning member 28 ... Reference ball 30 ... Extruding member 40, 46, 50 ... Hole 42: first reference surface 44: cylindrical portion 52: second reference surface

────────────────────────────────────────────────── ─── Continuing from the front page (72) Inventor Isamu Matsunaga 1-10-1 Shinsayama, Sayama City, Saitama Prefecture Honda Engineering Co., Ltd. (56) References Jiro 58-106704 (JP, U) (58) Survey Field (Int.Cl. ⁷ , DB name) G01B 5/00-5/30 G01B 21/00-21/32

Claims (1)

(57) [Claims] A nut screw comprising a ball screw interposed between a shaft screw and a shaft screw,
A screw groove inspection device for inspecting an axial position of the screw groove, comprising: a holding jig for holding the nut screw; and a reference block member that engages with the nut screw and has a first reference surface. And the first screw is fitted to the nut screw.
A sleeve member having a second reference surface corresponding to the reference surface, and a reference ball disposed on a side wall portion capable of engaging with a screw groove of the nut screw; A positioning member for positioning at a rotational position; and a shaft of a screw groove of the nut screw based on a relative position between the first reference surface and the second reference surface in a state where the reference ball is engaged with the screw groove of the nut screw. An extruding member fitted to the sleeve member to press the reference sphere outward to inspect a position in a direction of the nut screw.