JP2729221B2 - Gear center distance displacement measurement method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention uses a master gear to measure a change in center distance between the master gear and a gear to be measured meshed with the master gear. The present invention relates to a method for measuring a distance between gear centers.

(Prior art) Conventionally, gear products manufactured in factories,
For example, as a method of examining the run-out state with respect to the tooth core, the presence or absence of scratches on the tooth surface, the accuracy of the radial dimension, etc., the state of change in the center-to-center distance between the master gear and the gear to be measured using a master gear Is known, and the result is used to confirm the product grade of the gear. That is, usually, a high-precision master gear manufactured in advance to a predetermined specification is fixed, while a gear to be measured that meshes with the master gear is arranged so as to be movable in the radial direction, and in this state, the gear to be measured is moved by the master gear. By rotating, the change in the distance between the two cores is measured as a change in the gear to be measured by a position sensor provided on the side of the gear to be measured.

By the way, in general, when position detection is performed using a position sensor, position detection cannot be performed accurately at any position within the position detectable range.
Due to its characteristics, accurate detection is possible only in a very limited part of the range.

Therefore, as described above, when measuring the change in the center distance between the master gear and the gear to be measured by using the master gear, first, before the measurement operation, the measured gear to be the moving gear is first measured. It is necessary to position and fix the master gear serving as the fixed-side gear so that the position of the gear is set to a position within a range where high-precision position detection can be performed by the position sensor. Further, it is necessary to change and set the positioning and fixing of the master gear every time the type of the gear to be measured is different.

However, in the conventional measurement method, the positioning and fixing of the master gear, which is performed each time the type of the gear to be measured is different, is manually performed by an operator while visually checking the initial setting position of the position sensor. In many cases, the positioning and fixing of the master gear depend on the skill and intuition of the operator, and in some cases, the detection range of the position sensor is set in a relatively inaccurate region due to improper setting of the position of the master gear. There is room for improvement in terms of stability of measurement accuracy and workability.

(Object of the Invention) The present invention has been made to solve the problems pointed out in the section of the prior art described above, and uses a master gear to reduce the center distance between the master gear and the gear to be measured. An object of the present invention is to provide an inter-center distance displacement measuring method for measuring displacement, which aims at achieving a high degree of stability of measurement accuracy and improving the reliability and workability of the work in the measurement work.

(Means for Achieving the Object) According to the present invention, as a means for achieving the above object, one of a master gear and a measured gear meshing with the master gear is fixed and the other is movable in the radial direction. A method of measuring the center-to-center distance displacement of a gear in which a position sensor measures a radial displacement of a moving-side gear with respect to a fixed-side gear in a state where the fixed-side gear is rotated. The moving / fixing means for moving the gear in the radial direction and fixing it at a predetermined position, and the position of the fixed side gear in a state where the moving side gear is positioned at a predetermined position within the detection range of the position sensor are previously covered. Storage means for storing a plurality of set positions determined for each type of measuring gear, and control for outputting the control signal to the moving / fixing means based on predetermined set positions output from the storage means Means for measuring a predetermined type of gear to be measured, reading a set position corresponding to the measured gear from the storage means, outputting a control signal based on the set position to the moving / fixing means, and Is positioned and fixed at the set position, and thereafter, the fixed side gear and the movable side gear are meshed and rotated to measure the displacement of the movable side gear.

(Operation) In the present invention, the above-mentioned means allows the fixed-side gear to be automatically determined based on the control signal output from the control means in accordance with the type of the moving-side gear to be actually measured by the moving / fixing means. , The detection range of the position sensor is always set to a position where the highest altitude position can be detected.

(Effects of the Invention) Therefore, according to the method for measuring the center-to-center distance displacement of a gear according to the present invention, (1) When measuring the center-to-center distance, the position sensor takes a detection range in which the highest altitude position can be detected. Since the positioning and fixing of the fixed side gear is automatically performed according to the type of measuring gear, a high degree of center-to-center distance displacement can always be measured regardless of the type of gear to be measured. (2) The positioning and fixing of the fixed side gear are automatically performed based on the control signal output from the control means corresponding to each gear to be measured. As compared with the case where the operator initially positions and fixes the fixed side gear while manually checking the initial setting position of the position sensor, the work can be performed more reliably and the workability can be improved.

(Embodiment) Hereinafter, a method of measuring a center-to-center distance displacement of a gear according to an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 shows a measuring apparatus Z in which the master gear 1 is a fixed gear and the measured gear 2 is a moving gear, and the displacement of the center distance between the two is measured.

The master gear 1 is rotatably supported by a gear support shaft 5 attached to a master gear support member 4, and is rotated by a drive gear (not shown) meshing with the gear support shaft.
The master gear support member 4 is supported by a slide mechanism (not shown) so as to be slidable in the directions of arrows ab, and is slid in the directions of arrows ab by the moving mechanism 3 described later.

The moving mechanism 3 is performed by rotating a screw shaft 10 screwed to a nut member 9 fixed to the master gear support member 4 by a stepping motor 6 fixed to the base side. Further, the rotation of the stepping motor 6, i.e., the movement of the master gear supporting member 4 is performed based on the control signal S ₁ output from the control unit 81 of the control unit 8. Further, the amount of rotation of the stepping motor 6 from the reference point, that is, the master gear 1
Movement amount from the reference position of which is detected by an encoder 7 which is mounted on the output shaft end of the stepping motor 6 and and input as the position signal S ₂ to the control unit 81 of the control unit 8.

Further, the master gear supporting member 4, the locking device operating in response to a control signals S ₁ from the control unit 81 of the control unit 8 (not shown), it is fixedly held after being positioned at a predetermined set position.

The measured gear 2 is rotatably mounted on a gear support shaft 12 fixed to the measured gear support member 11. The measured gear support member 11 is supported by a slide mechanism (not shown) so as to be slidable in the directions of arrows cd, and is always urged by an urging means (not shown).
Direction (the direction in which the master gear 1 meshes). Further, a proximity switch 13 is attached to the measured gear support member 11. The proximity switch 13 is for measuring the displacement of the measured gear support member 11 in the direction of the arrow cd, that is, the displacement of the center distance between the master gear 1 and the measured gear 2, and is provided on the base 15. Reference member 14
Are brought apart opposed at a predetermined distance S ₀ with respect.

Here, the distance S ₀ between the proximity switch 13 and the reference member 14
Is initially set intervals defined by the arrows a-b position of the master gear 1 (hereinafter, referred to as initial setting interval), but the initial setting interval S ₀ is the proximity switch 13
Within an interval range (for example, 1 mm to 3 mm) at which position detection is performed with the highest accuracy, and a predetermined intermediate value (for example, S ₀ = 1.5) in consideration of an expected displacement (for example, ± 0.5 mm).
mm).

Incidentally, as the gear to be measured 2 combined with the master gear 1, a plurality of gears having the same module as the master gear 1 and having different numbers of teeth (that is, pitch circle diameters) are assumed. Therefore, a plurality of types of gears to be measured having different pitch circle diameters, for example, a small-diameter measured gear 2 shown by a solid line and a large-diameter measured gear 2 shown by a chain line in FIG. In order to measure the displacement of the center-to-center distance between them with high accuracy, the master gear 1
Must be moved in advance in accordance with the diameter of the gear 2 to be measured and fixed.

In that case, the master gear 1
The operator sets and fixes the
Manually by at had conducted are difficult secure precision Moreover workability while visually checking the S ₀ also becomes inferiority. Therefore, in those in this embodiment, the reference position of the master gear 1 in the case where are meshed with the master gear 1 and the measured gear 2 in a state of pre-secured the initialization interval S ₀ (e.g., gear support shaft 5 distance l ₁ from the most retracted position) of the l ₂ are obtained in advance by calculation for each measured gears 2,2 ..., which each storage unit 80 of the control unit, each of the measured gear 2,2 .. Are stored as the set positions of the master gear 1 corresponding to.

Then, when the change in the center distance between the gear to be measured 2 and the master gear 1 is measured and the degree of the product of the gear to be measured 2 is confirmed based thereon, the master gear 1 is first positioned at the most retracted position. The required gear 2 to be measured is mounted on the gear support shaft 12 in this state. Then, a signal specifying the measured gear 2 is input to the control unit 8. Then, in the control unit 8, the set position of the master gear 1 corresponding to the input data is read out from the storage means 80, and the control means 81 sends the control signal S ₁ to the stepping motor 6 to realize the set position. Is output, and the master gear 1 is accurately positioned at the set position and fixed at that position.

When the gear to be measured 2 is engaged with the master gear 1 in a state where the master gear 1 is positioned and fixed at the set position,
Spacing between the proximity switch 13 and the reference member 14 is set to substantially the initial setting interval S _0. (For example, the gear to be measured 2
Of be about products of the initial engagement portion of the master gear 1 is as designed, the distance S ₀ will be fully satisfies a predetermined set interval).

In this state, when the master gear 1 is rotated by a drive gear (not shown), the displacement of the center distance (L ₁ , L ₂ ) between the master gear 1 and the measured gear 2 is continuously measured by the proximity switch 13. Is done.

As described above, according to the measuring device of this embodiment, any one of the plurality of types of gears to be measured 2, 2,... Is set on the gear support shaft 12 and the center between the gear to be measured 2 and the master gear 1 is set. Even when measuring the displacement of the distance, the master gear 1 is automatically moved and fixed to a predetermined set position only by inputting a signal for specifying the measured gear 2 to the control unit 8, and the master gear 1 is always in close proximity. switch 13 and the reference member 14 will face each other initialization interval S _0.

Therefore, the high stability of the measurement precision without room or intervening operator's skill or intuition of the setting of the initial setting interval S ₀ can be realized.

In addition, since the operation of positioning and fixing the master gear 1 for each of the gears to be measured 2, 2,... Is automatically performed, the reliability and the workability of the operation can be improved.

In the above embodiment, the master gear 1 is a fixed gear, but the present invention is not limited to this, and either the master gear 1 or the gear under test 2 may be a fixed gear. Proximity switch 13 as a position sensor
However, it goes without saying that, for example, a contact switch may be used.

[Brief description of the drawings]

FIG. 1 is a plan view of a main part of a measuring apparatus to which a method of measuring a distance between gear centers according to the present invention is applied. DESCRIPTION OF SYMBOLS 1 ... Master gear 2 ... Measuring gear 3 ... Movement mechanism 4 ... Master gear support member 5,12 ... Gear support shaft 6 ... Stepping motor 7 ... Encoder 8 ... Control unit 9 ... Nut member 10 Screw shaft 11 Gear support member to be measured 13 Proximity switch 14 Reference member 15 Base

Claims (1)

(57) [Claims] 1. A method according to claim 1, wherein one of a master gear and a gear to be measured meshing with the master gear is fixed, and the other is rotated while allowing the other to move in the radial direction. A method for measuring a center-to-center distance displacement of a gear in which a directional displacement is measured by a position sensor, wherein the method is operated in response to a control signal to move a fixed side gear in a radial direction thereof and fix the gear at a predetermined position. Fixed means, and storage means for storing a plurality of set positions in which the position of the fixed side gear in a state where the movable side gear is positioned at a predetermined position within the detection range of the position sensor is determined in advance for each type of gear to be measured. And control means for outputting the control signal to the moving / fixing means based on a predetermined set position output from the storage means. When measuring a predetermined type of gear to be measured, Is read from the storage means, and a control signal based on the set position is output to the moving / fixing means to position and fix the fixed gear at the set position, and thereafter, the fixed gear and the movable gear And measuring the displacement of the moving-side gear by meshing and rotating the gears.