JPH05138438A - Automatic aligning method for phase of screw thread and device therefor - Google Patents

Automatic aligning method for phase of screw thread and device therefor

Info

Publication number
JPH05138438A
JPH05138438A JP3326697A JP32669791A JPH05138438A JP H05138438 A JPH05138438 A JP H05138438A JP 3326697 A JP3326697 A JP 3326697A JP 32669791 A JP32669791 A JP 32669791A JP H05138438 A JPH05138438 A JP H05138438A
Authority
JP
Japan
Prior art keywords
axis
workpiece
work
signal
grindstone
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP3326697A
Other languages
Japanese (ja)
Inventor
Koichi Sugiyama
晃一 杉山
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Mitsui Seiki Kogyo Co Ltd
Original Assignee
Mitsui Seiki Kogyo Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Mitsui Seiki Kogyo Co Ltd filed Critical Mitsui Seiki Kogyo Co Ltd
Priority to JP3326697A priority Critical patent/JPH05138438A/en
Publication of JPH05138438A publication Critical patent/JPH05138438A/en
Pending legal-status Critical Current

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  • Machine Tool Positioning Apparatuses (AREA)
  • Constituent Portions Of Griding Lathes, Driving, Sensing And Control (AREA)

Abstract

PURPOSE:To automatically and accurately align the phases of a grinding wheel and of a workpiece, and to execute their alignment in a short time by moving the workpiece and the grinding wheel on a fixed process in the directions of Z and X axes, and repeating the setting up of contact, noncontact and middle positions. CONSTITUTION:After making a grinding wheel 9 abut on a workpiece 8, which is moved in the direction of a Z axis, and the Z axis position of the one end of the thread groove 4 of the workpiece 8 is detected through a OFF signal issued from a transmitting device 2. Since the workpiece 8 is further moved in the direction of the Z axis, and the Z axis position where a ON signal occurs suits to the position of the other end of the same thread groove 4, the grinding wheel 9 and the workpiece 8 are fitted to a middle position between both the Z axis positions to make the grinding wheel and the workpiece nearly coincide in their phases. In this state, the grinding wheel is slightly advanced toward the workpiece, and the workpiece is moved in one direction to detect the ON signal, and moreover moved in a direction opposite to the above direction to detect the ON signal, and the workpiece and the grinding wheel are fitted to a middle position between the above positions where the ON signals are detected to precisely align the grinding wheel and the workpiece.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、雄ねじ又は雌ねじを前
加工したワークのねじ溝を研削仕上げするねじ研削盤に
おけるねじ溝と砥石との自動位相合わせ方法と装置に関
する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for automatically phasing a screw groove and a grindstone in a screw grinder for finishing the screw groove of a work in which a male screw or a female screw is preprocessed.

【0002】[0002]

【従来の技術】雄又は雌ねじ溝を前加工したワークをね
じ研削盤によりねじ溝研削仕上げするためには、それに
先立って砥石とワークのねじ溝との位相合わせを正確に
行うことが必要である。従来一般に行われていた位相合
わせ方法は手動,目視によって行われていた。すなわ
ち、砥石をワークのねじ溝に近接させてねじ溝と砥石と
の当接具合を目視で確認しながら、両者の接触時に生ず
る火花等の発生程度を基に位相合わせをするものであっ
た。
2. Description of the Related Art In order to finish thread-groove grinding of a work in which a male or female thread groove is preprocessed by a screw grinder, it is necessary to accurately perform phase alignment between the grindstone and the thread groove of the work. .. The phase matching method that has been generally used in the past was performed manually or visually. That is, the grindstone is brought close to the thread groove of the work and the contact state between the thread groove and the grindstone is visually checked, and the phase is adjusted based on the degree of generation of sparks or the like generated when the two are in contact with each other.

【0003】[0003]

【発明が解決しようとする課題】前記の目視による砥石
とねじ溝との位相合わせは高度の熟練を必要とすると共
に、位相合わせに多くの時間を要し、機械稼動率を低下
させる問題点がある。また、特に雌ねじの場合には目視
しにくく、正確な位相合わせが出来ない問題点があっ
た。
The above-mentioned visual phase alignment between the grindstone and the thread groove requires a high degree of skill and requires a lot of time for phase alignment, which causes a problem of lowering the machine operating rate. is there. Further, in the case of a female screw, in particular, it is difficult to visually recognize, and there is a problem that accurate phase alignment cannot be performed.

【0004】本発明は、以上の問題点を解決するもの
で、雄ねじおよび雌ねじの位相合わせを特に熟練を要す
ることなく自動的に行い、高精度のねじ溝加工と機械稼
動率を向上し得るねじ溝の自動位相合わせ方法と装置を
提供することを目的とする。
The present invention solves the above problems, and automatically adjusts the phase of a male screw and a female screw without requiring special skill, and makes it possible to improve the precision of thread groove machining and the machine operating rate. It is an object to provide an automatic phasing method and device for a groove.

【0005】[0005]

【課題を解決するための手段】本発明は、以上の目的を
達成するために、ねじ溝を前加工したワークをC軸まわ
りに回転しながらワークの軸線方向(Z軸方向)に往復
動し、該ワークに近接又は離隔する方向(X軸方向)に
高速回転している砥石を移動すると共に、該砥石とワー
クとの接触又は非接触をON又はOFF信号として検
出,記憶し、砥石とワークとの位相合わせをする方法で
あって、C軸およびZ軸に沿って移動しているワークの
外周に砥石を接触させてON信号発生と共に、その瞬間
にワークおよび砥石の移動を停止し、その状態からワー
クをZ軸方向に左行してOFF信号を検出し、その瞬間
のZ軸位置を記憶し、更にワークをZ軸方向に左行して
ON信号を検出し、その瞬間のZ軸位置を記憶し、記憶
した両Z軸位置の中間位置にワークを位置決めし、次
に、砥石をX軸に沿ってわずかに移動し、ワークをZ軸
に沿ってわずかに右行させてON信号を検出し、その瞬
間におけるZ軸位置を記憶し、更にワークをZ軸に沿っ
て左行させてON信号を検出し、その瞬間におけるZ軸
位置を記憶し、記憶された両Z軸位置の中間位置にワー
クを位置決めし、引続き砥石をX軸に沿ってわずかに移
動させ、前記動作を繰返し行い、OFF信号検出位置か
らON信号の検出するまでのワークのZ軸方向の右行お
よび左行の移動量が所定値以下になったらワークの移動
を停止するようにしたねじ溝の移動位相合わせ方法を特
徴とすると共に、ねじ溝を前加工したワークをC軸まわ
りに回転しながらワークをZ軸方向に移動し、X軸方向
に移動する高速回転している砥石をワークに当接係合せ
しめて位相合わせをする自動位相合わせ装置であって、
ワークに砥石が接触した瞬間と非接触の瞬間を検出する
検出センサと、その検出をON,OFF信号として発信
する発信装置と、ON,OFF信号の発信時におけるZ
軸位置を読み取り記憶すると共にその中間位置を演算
し、ワークおよび砥石のC軸,Z軸およびX軸の回転お
よび移動制御を行う制御装置とを設けてなるねじ溝の自
動位相合わせ装置を構成するものである。
In order to achieve the above-mentioned object, the present invention reciprocates in the axial direction (Z-axis direction) of a workpiece while rotating the workpiece preprocessed with a thread groove around the C-axis. While moving the grindstone rotating at a high speed in a direction approaching or separating from the work (X-axis direction), contact or non-contact between the grindstone and the work is detected and stored as an ON or OFF signal, and the grindstone and the work are stored. And a grinding stone is brought into contact with the outer periphery of the work moving along the C-axis and the Z-axis to generate an ON signal, and the movement of the work and the grinding stone is stopped at that moment. From the state, the work is moved left in the Z-axis direction to detect an OFF signal, the Z-axis position at that moment is stored, and further the work is moved left in the Z-axis direction to detect an ON signal and the Z-axis at that moment is detected. The position is memorized, and both Z-axis positions memorized Position the work at the position, then move the grindstone slightly along the X-axis, slightly move the work right along the Z-axis to detect the ON signal, and store the Z-axis position at that moment. Then, the work is moved to the left along the Z-axis to detect an ON signal, the Z-axis position at that moment is stored, the work is positioned at an intermediate position between the stored Z-axis positions, and the grindstone is continuously moved to the X-axis. Along the Z-axis direction from the OFF signal detection position to the ON signal detection until the amount of movement in the right and left rows in the Z-axis direction is below a specified value. It features a method for aligning the movement phase of the thread groove so that the work is stopped, and moves the workpiece in the Z axis direction while rotating the workpiece in which the thread groove is pre-machined around the C axis, and moves in the X axis direction at high speed. The rotating whetstone An automatic phase adjustment device for phase matching with allowed contact engagement,
A detection sensor that detects the moment when the grindstone comes into contact with the workpiece and the moment that the grindstone does not contact, a transmitter that transmits the detection as an ON / OFF signal, and Z at the time of transmitting the ON / OFF signal.
An automatic phasing device for a screw groove is provided which is provided with a control device for reading and storing the axial position, calculating the intermediate position thereof, and controlling the rotation and movement of the C-axis, Z-axis and X-axis of the workpiece and the grindstone. It is a thing.

【0006】[0006]

【作用】砥石をワークに当接させた後、ワークをZ軸方
向に移動し、OFF信号の発生によりワークのねじ溝の
一端部のZ軸位置が検出される。次に、ワークを更に同
一方向に移動しON信号の発生したZ軸位置が同一ねじ
溝の他端部の位置に相当する。そのため、両Z軸位置の
中間位置に砥石とワークとを合わせることにより、砥石
とワークとの位相が概略一致した状態となる。その状態
から砥石をワーク側にわずかに進め、ワークを一方向に
移動してON信号を検出し、更に逆方向に移動してON
信号を検出し、その中間位置にワークと砥石とを合わせ
ることにより、前記の位相合わせ位置よりも更に高精度
の位相合わせが出来る。以下、同様の動作を繰返し行
い、Z軸の中間位置からワークの一方向および他方向の
Z軸移動による移動量が所定値より小さくなった場合に
は、その中間位置がほぼ正確な位相合わせ位置となる。
以上の動作はすべて自動的に行われる。また、雄ねじお
よび雌ねじに対して同様に適用される。
After the whetstone is brought into contact with the work, the work is moved in the Z-axis direction, and the Z-axis position of one end of the thread groove of the work is detected by the generation of the OFF signal. Next, the work is further moved in the same direction, and the Z-axis position where the ON signal is generated corresponds to the position of the other end of the same thread groove. Therefore, by aligning the grindstone and the work at an intermediate position between the two Z-axis positions, the phases of the grindstone and the work are substantially matched. From that state, advance the grindstone slightly to the work side, move the work in one direction to detect the ON signal, and then move it in the opposite direction to turn it ON.
By detecting the signal and aligning the workpiece and the grindstone at the intermediate position, it is possible to perform more accurate phase alignment than the phase alignment position. After that, the same operation is repeated, and when the movement amount due to the Z-axis movement of the workpiece in one direction and the other direction from the Z-axis intermediate position becomes smaller than the predetermined value, the intermediate position is almost accurate. Becomes
All the above operations are performed automatically. The same applies to male and female threads.

【0007】[0007]

【実施例】以下、本発明の実施例を図面に基づき説明す
る。図1に示すように、ねじ溝4を前加工されたワーク
8はねじ研削盤の主軸台10のチャックに把持されると
共に心押台11にセンタ支持される。主軸台10内の回
転機構(図略)はワーク8をC軸まわりに回転駆動す
る。また、ワーク8は図略の送り機構によりその軸線方
向(Z軸方向)に沿って移動される。なお、ワーク8の
C軸の回転とZ軸方向の移動はねじリードに基づき同期
して行われると共に、それぞれ単独に動作し得るように
構成される。砥石9はねじ溝4の形状に一致する外周形
状を有し、砥石台12により回転駆動されると共に、ワ
ーク8に近接又はそれから離隔する方向(X軸方向)に
沿って移動すべく支持される。ワーク8のC軸およびZ
軸方向の移動と砥石9のX軸方向の移動はすべて制御装
置3により自動制御される。
Embodiments of the present invention will be described below with reference to the drawings. As shown in FIG. 1, a work 8 having a preprocessed thread groove 4 is gripped by a chuck of a headstock 10 of a screw grinder and center-supported by a tailstock 11. A rotating mechanism (not shown) in the headstock 10 drives the work 8 to rotate about the C axis. Further, the work 8 is moved in the axial direction (Z-axis direction) by a feed mechanism (not shown). The rotation of the C-axis and the movement of the work 8 in the Z-axis direction are performed synchronously based on the screw leads, and are configured to be able to operate independently. The grindstone 9 has an outer peripheral shape that matches the shape of the thread groove 4, is rotationally driven by the grindstone base 12, and is supported so as to move along a direction (X-axis direction) approaching or separating from the work 8. .. C axis of work 8 and Z
The movement in the axial direction and the movement in the X-axis direction of the grindstone 9 are all automatically controlled by the control device 3.

【0008】主軸台10には検出ヘッドの1つであるA
Eセンサ1が固定され、AEセンサ1からの検出信号は
発信装置2からON,OFF信号として制御装置3に入
力される。AEセンサ1は高速回転している砥石9がワ
ーク8に接触した瞬間と離れた瞬間を衝撃音の変化等に
より検出するものであり、発信装置2は砥石9がワーク
8に接触した瞬間にON信号を発し、離れた瞬間にOF
F信号を発するように形成される。また、発信装置2か
らON,OFF信号が制御装置3に入力されると、制御
装置3はその瞬間のZ軸位置を検出し記憶するように構
成される。
The headstock 10 includes one of the detection heads A
The E sensor 1 is fixed, and the detection signal from the AE sensor 1 is input from the transmission device 2 to the control device 3 as an ON / OFF signal. The AE sensor 1 detects the moment when the grindstone 9 rotating at a high speed comes into contact with the work 8 and the moment when the grindstone 9 separates from the work 8, and the transmitter 2 is turned on when the grindstone 9 comes into contact with the work 8. A signal is issued and OF
It is formed so as to emit an F signal. Further, when an ON / OFF signal is input to the control device 3 from the transmission device 2, the control device 3 is configured to detect and store the Z-axis position at that moment.

【0009】次に、本実施例における位相合わせ動作を
図2乃至図12により説明する。説明の都合上1つのね
じ溝4と隣接するねじ溝4間のワーク8の外周部を5と
し、ねじ溝4の図の右端エッジ部を6,左端エッジ部を
7とする。図2に示すように、Z軸は停止した状態でC
軸すなわちワーク8を回転させた状態で高速回転してい
る砥石9を除々に前進させる。図3に示すように、砥石
9がワーク8の外周5に接触し、AEセンサ1がその瞬
間を検知しON信号が発信された状態でC軸およびX軸
を停止する。次に、図4に示すように、図3の状態から
ワーク8を右行し(以下、Z軸右行という)、砥石9が
外周部5から離れてOFF信号が発信される瞬間を検出
する。その瞬間におけるZ軸位置を制御装置3が記憶す
る。次に、図5に示すように、図4の状態から更にZ軸
右行し、砥石9が左端エッジ部7に接触しON信号が発
信される位置を検出する。この位置におけるZ軸位置を
制御装置3は記憶する。次に、制御装置3は記憶してい
る前記両Z軸位置の中間のZ軸位置を演算し、図6に示
すようにZ軸左行して中間のZ軸位置までワーク8を移
動させて停止する。この状態で砥石9とねじ溝4とは概
略一致する位置に位相合わせされる。次に、図7に示す
ように砥石9をX軸に沿ってわずかに前進させる。図8
に示すように、Z軸左行し、右端エッジ部6と砥石9と
が接触する瞬間を検出しON信号を発信させる。制御装
置3はその位置におけるZ軸位置を記憶する。更に、図
9に示すようにZ軸右行し、砥石9がねじ溝の左端エッ
ジ部7に当る瞬間を検出し、ON信号が発信される。制
御装置3はその瞬間のZ軸位置を記憶する。次に、図1
0に示すように再びZ軸左行し、制御装置3内に記憶さ
れている両Z軸位置の中間位置にワーク8を送る。この
状態でワーク8と砥石9との位相はほぼ一致する。更
に、図11に示すように砥石をX軸方向にわずかに移動
し、以上の動作を繰返し行う。図12に示すように、砥
石9が右端エッジ部6および左端にエッジ部7と当接し
てON信号が出るまでの移動量が所定値δより小さくな
った状態のワーク8と砥石9との位相合わせ位置を確認
する。その状態でワーク8と砥石との位相合わせが完了
する。所定値δの値はねじ溝4の形状,大きさおよびワ
ーク8の外周等に対応して適宜の値が設定される。図1
2に示すようにワーク8と砥石9との位相合わせが完了
したら制御装置3はワーク8をC軸,Z軸方向に駆動す
ると共に砥石9をX軸方向に駆動し、ねじ溝4の仕上げ
研削を行う。
Next, the phase matching operation in this embodiment will be described with reference to FIGS. For convenience of explanation, the outer peripheral portion of the work 8 between one thread groove 4 and the adjacent thread groove 4 is 5, the right edge portion of the thread groove 4 in the figure is 6, and the left edge portion is 7. As shown in FIG. 2, the Z-axis is in a stopped state and C
The grindstone 9 rotating at a high speed while the shaft, that is, the work 8 is being rotated is gradually advanced. As shown in FIG. 3, the grindstone 9 contacts the outer periphery 5 of the work 8, the AE sensor 1 detects the moment, and stops the C-axis and the X-axis in the state where the ON signal is transmitted. Next, as shown in FIG. 4, the work 8 is moved rightward from the state of FIG. 3 (hereinafter, referred to as Z-axis rightward), and the moment when the grindstone 9 separates from the outer peripheral portion 5 and the OFF signal is transmitted is detected. .. The controller 3 stores the Z-axis position at that moment. Next, as shown in FIG. 5, the Z-axis is moved further rightward from the state of FIG. 4, and the position where the grindstone 9 contacts the left end edge portion 7 and the ON signal is transmitted is detected. The controller 3 stores the Z-axis position at this position. Next, the control device 3 calculates an intermediate Z-axis position between the two stored Z-axis positions, moves the Z-axis leftward as shown in FIG. 6, and moves the work 8 to the intermediate Z-axis position. Stop. In this state, the grindstone 9 and the screw groove 4 are phase-matched to substantially coincident positions. Next, as shown in FIG. 7, the grindstone 9 is slightly advanced along the X axis. Figure 8
As shown in (3), the Z axis is moved leftward and the moment when the right end edge portion 6 and the grindstone 9 come into contact is detected, and an ON signal is transmitted. The controller 3 stores the Z-axis position at that position. Further, as shown in FIG. 9, the Z axis is moved to the right and the moment when the grindstone 9 hits the left end edge portion 7 of the thread groove is detected, and an ON signal is transmitted. The control device 3 stores the Z-axis position at that moment. Next, FIG.
As shown in 0, the Z-axis is moved leftward again, and the work 8 is sent to the intermediate position between the two Z-axis positions stored in the control device 3. In this state, the work 8 and the grindstone 9 are substantially in phase with each other. Further, as shown in FIG. 11, the grindstone is slightly moved in the X-axis direction, and the above operation is repeated. As shown in FIG. 12, the phase of the work 8 and the grindstone 9 in a state in which the movement amount until the ON signal is generated when the grindstone 9 contacts the right end edge portion 6 and the left end edge portion 7 and the ON signal is generated is smaller than the predetermined value δ. Check the alignment position. In that state, the phase matching between the work 8 and the grindstone is completed. The predetermined value δ is set to an appropriate value in accordance with the shape and size of the thread groove 4, the outer circumference of the work 8 and the like. Figure 1
As shown in FIG. 2, when the phase alignment between the work 8 and the grindstone 9 is completed, the control device 3 drives the work 8 in the C-axis and Z-axis directions and the grindstone 9 in the X-axis direction to finish-grind the thread groove 4. I do.

【0010】前記実施例において、ねじ溝4および砥石
9の形状を図示のものとしたが、勿論それに限定されな
い。また、本実施例は雄ねじを有するワーク8について
説明したが雌ねじのワークに対しても同様に適用され
る。また、検出センサはAEセンサに限らない。
In the above embodiments, the shapes of the thread groove 4 and the grindstone 9 are shown in the figures, but of course the invention is not limited thereto. Further, although the present embodiment has been described with respect to the work 8 having a male screw, it is similarly applied to a work having a female screw. Further, the detection sensor is not limited to the AE sensor.

【0011】[0011]

【発明の効果】本発明によれば、次のような効果が上げ
られる。 (1)ワークと砥石を所定のプロセスに基づきZ軸方向
およびX軸方向に移動し、接触,非接触および中間位置
設定等の動作を繰返し行うことにより自動的に砥石とワ
ークとの位相合わせが正確に行われる。それにより、位
相合わせが短時間で行われ、機械稼動率を向上すること
が出来る。 (2)高度の熟練を要することなく、高精度の位相合わ
せが出来、高精度のねじ研削が行われる。 (3)目視のやりにくい雌ねじの位相合わせが雄ねじの
場合と同様に行われる。 (4)各種形状のねじワークに対して簡単に適用され
る。
According to the present invention, the following effects can be obtained. (1) The work and the grindstone are moved in the Z-axis direction and the X-axis direction based on a predetermined process, and the phases of the grindstone and the work are automatically aligned by repeating operations such as contact, non-contact, and intermediate position setting. Done exactly. Thereby, the phase adjustment is performed in a short time, and the machine operating rate can be improved. (2) High-precision phase matching can be performed and high-precision screw grinding can be performed without requiring advanced skill. (3) The phase alignment of the female screw, which is difficult to visually observe, is performed as in the case of the male screw. (4) It is easily applied to screw work of various shapes.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明の一実施例の全体構造の概要構成図であ
る。
FIG. 1 is a schematic configuration diagram of an overall structure of an embodiment of the present invention.

【図2】同実施例の作用を説明する図面であり、砥石と
ワークとの初期状態を示す部分断面図である。
FIG. 2 is a partial cross-sectional view showing the initial state of the grindstone and the work, which is a drawing for explaining the operation of the embodiment.

【図3】同実施例における砥石とワーク外周との接触状
態を示す部分断面図である。
FIG. 3 is a partial cross-sectional view showing a contact state between a grindstone and a work outer periphery in the same embodiment.

【図4】同実施例の砥石がワークの外周から離れた瞬間
を示す部分断面図である。
FIG. 4 is a partial cross-sectional view showing the moment when the grindstone of the embodiment separates from the outer periphery of the work.

【図5】同実施例の砥石がワークの左端エッジに接触し
た瞬間を示す部分断面図である。
FIG. 5 is a partial cross-sectional view showing the moment when the grindstone of the embodiment contacts the left end edge of the work.

【図6】同実施例の砥石とワークとの概略の位相合わせ
状態を示す部分断面図である。
FIG. 6 is a partial cross-sectional view showing a schematic phase matching state between a grindstone and a work according to the embodiment.

【図7】同実施例の図6の状態から砥石をねじ溝側に進
ませた状態を示す部分断面図である。
FIG. 7 is a partial cross-sectional view showing a state in which the grindstone is advanced to the thread groove side from the state of FIG. 6 of the same embodiment.

【図8】同実施例の砥石が右端エッジ部に接触した瞬間
を示す部分断面図である。
FIG. 8 is a partial cross-sectional view showing the moment when the grindstone of the embodiment contacts the right end edge portion.

【図9】同実施例の砥石が左側エッジ部に接触した瞬間
を示す部分断面図である。
FIG. 9 is a partial cross-sectional view showing the moment when the grindstone of the embodiment contacts the left edge portion.

【図10】同実施例の砥石とワークとのほぼ正確な位相
合わせ状態を示す部分断面図である。
FIG. 10 is a partial cross-sectional view showing a substantially accurate phase alignment state between the grindstone and the work according to the embodiment.

【図11】同実施例の図10の状態から更に砥石をねじ
溝側に進ませた状態を示す部分断面図である。
FIG. 11 is a partial cross-sectional view showing a state in which the grindstone is further advanced to the thread groove side from the state of FIG. 10 of the same embodiment.

【図12】同実施例の最終位相合わせ状態を説明するた
めの拡大部分断面図である。
FIG. 12 is an enlarged partial sectional view for explaining a final phase matching state of the embodiment.

【符号の説明】[Explanation of symbols]

1 AEセンサ 2 発信装置 3 制御装置 4 ねじ溝 5 外周部 6 右端エッジ 7 左端エッジ 8 ワーク 9 砥石 10 主軸台 11 心押台 12 砥石台 DESCRIPTION OF SYMBOLS 1 AE sensor 2 Transmitter 3 Control device 4 Thread groove 5 Outer peripheral part 6 Right edge 7 Right edge 8 Work piece 9 Grinding wheel 10 Spindle head 11 Tailstock 12 Grinding wheel stand

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 ねじ溝を前加工したワークをC軸まわり
に回転しながらワークの軸線方向(Z軸方向)に往復動
し、該ワークに近接又は離隔する方向(X軸方向)に高
速回転している砥石を移動すると共に、該砥石とワーク
との接触又は非接触をON又はOFF信号として検出,
記憶し、砥石とワークとの位相合わせをする方法であっ
て、C軸およびZ軸に沿って移動しているワークの外周
に砥石を接触させてON信号発生と共に、その瞬間にワ
ークおよび砥石の移動を停止し、その状態からワークを
Z軸方向に左行してOFF信号を検出し、その瞬間のZ
軸位置を記憶し、更にワークをZ軸方向に左行してON
信号を検出し、その瞬間のZ軸位置を記憶し、記憶した
両Z軸位置の中間位置にワークを位置決めし、次に、砥
石をX軸に沿ってわずかに移動し、ワークをZ軸に沿っ
てわずかに右行させてON信号を検出し、その瞬間にお
けるZ軸位置を記憶し、更にワークをZ軸に沿って左行
させてON信号を検出し、その瞬間におけるZ軸位置を
記憶し、記憶された両Z軸位置の中間位置にワークを位
置決めし、引続き砥石をX軸に沿ってわずかに移動さ
せ、前記動作を繰返し行い、OFF信号検出位置からO
N信号の検出するまでのワークのZ軸方向の右行および
左行の移動量が所定値以下になったらワークの移動を停
止することを特徴とするねじ溝の自動位相合わせ方法。
1. A workpiece having a thread groove preprocessed is reciprocally moved in the axial direction (Z-axis direction) of the workpiece while rotating around the C-axis, and is rotated at a high speed in a direction approaching or separating from the workpiece (X-axis direction). While moving the grinding wheel, the contact or non-contact between the grinding wheel and the workpiece is detected as an ON or OFF signal,
A method of storing and aligning the phase of the grindstone and the work, in which the grindstone is brought into contact with the outer circumference of the work moving along the C axis and the Z axis to generate an ON signal, and at the moment, the work and the grindstone are moved. The movement is stopped, the work is moved leftward in the Z-axis direction from that state, and the OFF signal is detected.
The axis position is memorized, and the work is turned leftward in the Z-axis direction.
The signal is detected, the Z-axis position at that moment is stored, the workpiece is positioned at an intermediate position between the stored Z-axis positions, then the grindstone is moved slightly along the X-axis, and the workpiece is moved to the Z-axis. Slightly rightward along to detect the ON signal, store the Z-axis position at that moment, and further move the workpiece left along the Z-axis to detect the ON signal and store the Z-axis position at that moment. Then, the work is positioned at the intermediate position between the stored Z-axis positions, and then the grindstone is slightly moved along the X-axis, and the above-mentioned operation is repeated until the OFF signal is detected.
A method for automatically phasing a thread groove, wherein the movement of the work is stopped when the amount of movement of the work in the rightward and leftward directions in the Z-axis direction until the N signal is detected becomes a predetermined value or less.
【請求項2】 ねじ溝を前加工したワークをC軸まわり
に回転しながらワークをZ軸方向に移動すると共に、X
軸方向に移動する高速回転している砥石をワークに当接
係合せしめて位相合わせをする自動位相合わせ装置であ
って、ワークに砥石が接触した瞬間と非接触の瞬間を検
出する検出センサと、その検出をON,OFF信号とし
て発信する発信装置と、ON,OFF信号の発信時にお
けるZ軸位置を読み取り記憶すると共にその中間位置を
演算し、ワークおよび砥石のC軸,Z軸およびX軸の回
転および移動制御を行う制御装置とを設けることを特徴
とするねじ溝の自動位相合わせ装置。
2. A workpiece pre-processed with a thread groove is moved in the Z-axis direction while rotating around the C-axis, and X
An automatic phasing device for performing phase adjustment by abutting and engaging a grindstone that is moving at high speed in the axial direction with a work, and a detection sensor that detects the moment when the grindstone contacts the work and the moment of non-contact, A transmitting device that transmits the detection as an ON / OFF signal, and a Z-axis position at the time of transmitting the ON / OFF signal is read and stored, and an intermediate position between them is calculated to calculate the C-axis, Z-axis and X-axis of the workpiece and the grindstone. An automatic phasing device for screw grooves, which is provided with a control device for controlling rotation and movement.
JP3326697A 1991-11-15 1991-11-15 Automatic aligning method for phase of screw thread and device therefor Pending JPH05138438A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP3326697A JPH05138438A (en) 1991-11-15 1991-11-15 Automatic aligning method for phase of screw thread and device therefor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP3326697A JPH05138438A (en) 1991-11-15 1991-11-15 Automatic aligning method for phase of screw thread and device therefor

Publications (1)

Publication Number Publication Date
JPH05138438A true JPH05138438A (en) 1993-06-01

Family

ID=18190661

Family Applications (1)

Application Number Title Priority Date Filing Date
JP3326697A Pending JPH05138438A (en) 1991-11-15 1991-11-15 Automatic aligning method for phase of screw thread and device therefor

Country Status (1)

Country Link
JP (1) JPH05138438A (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2011036791A1 (en) 2009-09-28 2011-03-31 三菱重工業株式会社 Device for phasing threaded grinding stone
WO2011036790A1 (en) 2009-09-28 2011-03-31 三菱重工業株式会社 Method of phasing threaded grinding stone, as well as device therefor
US8915768B2 (en) 2008-07-31 2014-12-23 Mitsubishi Heavy Industries, Ltd. Method of phasing threaded grinding stone, as well as device therefor
CN105562846A (en) * 2015-12-14 2016-05-11 苏州新协力机器制造有限公司 Novel threaded grinding machine
EP3045337A1 (en) 2015-01-19 2016-07-20 Toyota Jidosha Kabushiki Kaisha Feed system of lubricating oil or fuel of vehicle
JP2016129914A (en) * 2015-01-14 2016-07-21 株式会社ニートレックス本社 Polishing body for screw shaft and its segment
JP2021037599A (en) * 2019-09-05 2021-03-11 Dmg森精機株式会社 Method for machining screw shaft

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US8915768B2 (en) 2008-07-31 2014-12-23 Mitsubishi Heavy Industries, Ltd. Method of phasing threaded grinding stone, as well as device therefor
WO2011036791A1 (en) 2009-09-28 2011-03-31 三菱重工業株式会社 Device for phasing threaded grinding stone
WO2011036790A1 (en) 2009-09-28 2011-03-31 三菱重工業株式会社 Method of phasing threaded grinding stone, as well as device therefor
US8944885B2 (en) 2009-09-28 2015-02-03 Mitsubishi Heavy Industries, Ltd. Device for phasing threaded grinding wheel
EP2484489A4 (en) * 2009-09-28 2017-01-18 Mitsubishi Heavy Industries Machine Tool Co., Ltd. Method of phasing threaded grinding stone, as well as device therefor
EP2484490A4 (en) * 2009-09-28 2017-01-25 Mitsubishi Heavy Industries Machine Tool Co., Ltd. Device for phasing threaded grinding stone
JP2016129914A (en) * 2015-01-14 2016-07-21 株式会社ニートレックス本社 Polishing body for screw shaft and its segment
EP3045337A1 (en) 2015-01-19 2016-07-20 Toyota Jidosha Kabushiki Kaisha Feed system of lubricating oil or fuel of vehicle
CN105562846A (en) * 2015-12-14 2016-05-11 苏州新协力机器制造有限公司 Novel threaded grinding machine
JP2021037599A (en) * 2019-09-05 2021-03-11 Dmg森精機株式会社 Method for machining screw shaft

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