JPH06190639A - Attitude adjusting device for object - Google Patents
Attitude adjusting device for objectInfo
- Publication number
- JPH06190639A JPH06190639A JP36190692A JP36190692A JPH06190639A JP H06190639 A JPH06190639 A JP H06190639A JP 36190692 A JP36190692 A JP 36190692A JP 36190692 A JP36190692 A JP 36190692A JP H06190639 A JPH06190639 A JP H06190639A
- Authority
- JP
- Japan
- Prior art keywords
- movable plate
- plate
- movable
- fixed plate
- adjusting
- 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
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Landscapes
- Electrical Discharge Machining, Electrochemical Machining, And Combined Machining (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、物体の姿勢調整装置に
関する。さらに詳しくは、基準となる固定板に対して、
可動板を所望の角度に設定したり、可動板に保持した物
体を所望の姿勢に設定したりすることのできる物体の姿
勢調整装置に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a posture adjusting device for an object. More specifically, with respect to the reference fixing plate,
The present invention relates to a posture adjusting device for an object, which can set a movable plate at a desired angle and can set an object held on the movable plate in a desired posture.
【0002】[0002]
【従来の技術】図6、図7は従来の姿勢調整装置として
のユニバーサルホルダーを放電加工機の電極ホルダーと
して利用した例を示している。ユニバーサルホルダー4
1は加工機に取り付けられる固定板42、調整板43、
両者間に介在する支点球44、2組の調整ボルト45、
45および46、46、調整板43に固定されたホルダ
ー部47から構成されている。48は電極、49はピッ
クテスターである。放電加工機により電極48の横断面
の形伏の穴加工をする場合、電極の下方に被加工物体を
設置し、ホルダーで電極を下降させながら電極48と被
加工物体との間で放電を生じさせる。この場合、電極は
垂直に保持されていなければならない。電極48が垂直
か否かは、電極の側面にピックテスターを当て上下させ
て調べる。例えば、図のようにテスターをX方向に当て
たとき、上下で差があれば、調整ボルト45、45によ
りX軸の傾きを調整する。同様にY軸の傾きは調整ボル
ト46、46により調整する。2. Description of the Related Art FIGS. 6 and 7 show an example in which a universal holder as a conventional attitude adjusting device is used as an electrode holder of an electric discharge machine. Universal holder 4
1 is a fixed plate 42 attached to the processing machine, an adjustment plate 43,
A fulcrum ball 44 interposed between the two, two sets of adjustment bolts 45,
45 and 46, 46, and a holder portion 47 fixed to the adjusting plate 43. Reference numeral 48 is an electrode, and 49 is a pick tester. When a contoured hole of the electrode 48 is machined by an electric discharge machine, an object to be machined is installed below the electrode, and an electric discharge is generated between the electrode 48 and the object to be machined while the electrode is lowered by a holder. Let In this case, the electrodes must be held vertically. Whether or not the electrode 48 is vertical is checked by applying a pick tester to the side surface of the electrode and moving it up and down. For example, when the tester is applied in the X direction as shown in the figure, if there is a difference in the vertical direction, the tilt of the X axis is adjusted by the adjusting bolts 45, 45. Similarly, the inclination of the Y-axis is adjusted by adjusting bolts 46, 46.
【0003】[0003]
【発明が解決しようとする課題】上記のような従来の装
置では、テスターの変化量に対してX軸またはY軸の調
整は、ボルトによる調整であるため、一度に精密な調整
ができずおよその調整とならざるをえない。そのため、
ボルトによる調整を数回繰り返す必要がある。またホル
ダー中心の支点球を4方向で締め上げる構成のため、折
角調整をしてもバランスが崩れ、変化することがある。
調整ボルトによる調整に際して回転方向に応力が作用し
たとき、支点球を中心にボルトの間隙分変化することが
ある。In the conventional device as described above, the adjustment of the X-axis or the Y-axis with respect to the amount of change of the tester is performed by the bolts, and therefore precise adjustment cannot be performed at one time, and the adjustment cannot be performed at a time. It must be adjusted. for that reason,
Adjustment with bolts needs to be repeated several times. Further, since the fulcrum ball at the center of the holder is tightened in four directions, the balance may be lost and change even if the bending angle is adjusted.
When stress is applied in the direction of rotation during adjustment with the adjusting bolt, the bolt gap may change about the fulcrum sphere.
【0004】したがって本発明は、上記のような従来の
欠点をなくし、簡単な操作で物体の姿勢を任意に調整で
きる姿勢調整装置を提供することを目的とする。本発明
は、また一旦調整が済めば、その状態に容易に固定でき
る信頼性に優れた調整装置を提供することを目的とす
る。さらに本発明は、操作性に優れ、変化量が数値で調
整できる調整装置を提供することを目的とする。Therefore, an object of the present invention is to eliminate the above-mentioned conventional drawbacks and to provide a posture adjusting device capable of arbitrarily adjusting the posture of an object by a simple operation. It is another object of the present invention to provide a highly reliable adjusting device that can be easily fixed in the state once the adjustment is completed. A further object of the present invention is to provide an adjusting device which is excellent in operability and whose change amount can be adjusted numerically.
【0005】[0005]
【課題を解決するための手段】本発明の姿勢調整装置
は、固定板と、固定板にY方向の回転軸心をもって回転
自在に設けた第1の可動板と、第1の可動板にX方向の
回転軸心をもって回転自在に設けた第2の可動板と、第
1の可動板の回転角度を調整する第1の調整体と、第2
の可動板の回転角度を調整する第2の調整体とを備える
ものである。The attitude adjusting device of the present invention comprises a fixed plate, a first movable plate rotatably provided on the fixed plate with a rotation axis in the Y direction, and an X movable plate on the first movable plate. A second movable plate rotatably provided with a rotational axis in a direction, a first adjusting body for adjusting a rotation angle of the first movable plate, and a second
And a second adjusting body that adjusts the rotation angle of the movable plate.
【0006】[0006]
【作用】第1の調整体の操作によって第1の可動板の固
定板に対するX軸の傾きを調整し、第2の調整体の操作
によって第2の可動板の固定板に対するY軸の傾きを調
整する。このように、X軸、Y軸の調整を個別かつ独立
に行えるので、調整が容易であるとともに確実である。
また、X軸、Y軸の調整度合を表すダイヤルゲージを固
定板と第2の移動板との間に設ければ、変化量を数値で
表せるので、調整がさらに容易となる。By operating the first adjusting member, the X-axis tilt of the first movable plate with respect to the fixed plate is adjusted, and by operating the second adjusting member, the Y-axis tilt of the second movable plate with respect to the fixed plate is adjusted. adjust. In this way, the X-axis and the Y-axis can be adjusted individually and independently, so that the adjustment is easy and reliable.
Further, if a dial gauge that indicates the degree of adjustment of the X axis and the Y axis is provided between the fixed plate and the second moving plate, the amount of change can be represented by a numerical value, and thus the adjustment becomes easier.
【0007】[0007]
【実施例】図1−3は本発明による姿勢調整装置を放電
加工機の電極ホルダーとして利用した例を示している。
これらの図で、図1、図3はそれぞれ図2のI−I線断
面図、III−III線断面図を表している。1は姿勢
調整装置を示しており、この装置1はその上面に3本の
ボルト2で取り付けた継手3により放電加工機にセット
される。姿勢調整装置1は、主として固定板4、第1の
可動板5および第2の可動板6から構成される。固定板
4と可動板5とは2本の支点固定ボルト7、7と2個の
支点球8、8とによって回転自在に結合され、また可動
板5と6とは2本の支点固定ボルト9、9と2個の支点
球10、10とによって回転自在に結合されている。固
定板4に対する可動板5の回転軸心は支点球8、8の中
心を結ぶ線11であり、可動板5に対する可動板6の回
転軸心は支点球10、10の中心を結ぶ線12であり、
線12を図示のようにX軸方向に設定すれば、線11は
これと垂直の方向、すなわちY軸方向に配置される。固
定板4と可動板5との結合部についてさらに詳しく説明
すると、ボルト7は固定板4に設けた孔13aにゆるく
嵌合し、可動板5に設けたねじ孔13bに螺合してい
る。一方支点球8は、ボルト取り付け位置より外側の位
置で板4、5の対抗面に設けたボルトより若干径の小さ
い孔に嵌め合わせ、ボルト7の締めつけにより板4、5
で挟み付けている。なお、ボルトの頭部下側には皿ばね
14を装着している。可動板5と6との結合部も上記と
同様であり、15aは板5に設けたボルト遊合孔、15
bは板6に設けたねじ孔、16はボルト9に装着した皿
ばねである。1 to 3 show an example in which the attitude adjusting device according to the present invention is used as an electrode holder of an electric discharge machine.
In these figures, FIG. 1 and FIG. 3 respectively show a sectional view taken along the line I-I and a sectional view taken along the line III-III of FIG. Reference numeral 1 denotes an attitude adjusting device, and this device 1 is set in an electric discharge machine by a joint 3 attached to the upper surface thereof by three bolts 2. The attitude adjusting device 1 is mainly composed of a fixed plate 4, a first movable plate 5 and a second movable plate 6. The fixed plate 4 and the movable plate 5 are rotatably connected to each other by two fulcrum fixing bolts 7 and 7 and two fulcrum balls 8 and 8, and the movable plates 5 and 6 are two fulcrum fixing bolts 9 respectively. , 9 and two fulcrum balls 10, 10 are rotatably connected. The rotation axis of the movable plate 5 with respect to the fixed plate 4 is a line 11 connecting the centers of the fulcrum spheres 8 and 8, and the rotation axis of the movable plate 6 with respect to the movable plate 5 is a line 12 connecting the centers of the fulcrum spheres 10 and 10. Yes,
If the line 12 is set in the X-axis direction as shown, the line 11 is arranged in a direction perpendicular to this, that is, in the Y-axis direction. The connecting portion between the fixed plate 4 and the movable plate 5 will be described in more detail. The bolt 7 is loosely fitted in the hole 13a provided in the fixed plate 4 and screwed into the screw hole 13b provided in the movable plate 5. On the other hand, the fulcrum sphere 8 is fitted at a position outside the bolt mounting position into a hole having a diameter slightly smaller than the bolt provided on the opposing surface of the plates 4 and 5, and the bolts 7 are tightened to fix the plates 4 and 5 to each other.
It is sandwiched between. A disc spring 14 is mounted below the head of the bolt. The joint between the movable plates 5 and 6 is also the same as above, and 15a is a bolt fitting hole provided in the plate 5,
Reference numeral b is a screw hole provided in the plate 6, and 16 is a disc spring attached to the bolt 9.
【0008】固定板4に対する可動板5の回転角度を調
整する調整体として調整ボルト17が、また可動板5に
対する可動板6の回転角度を調整する調整体として調整
ボルト18がそれぞれ設けてある。調整ボルト17は、
図3に示すように、固定板4に設けた孔19に遊合し、
可動板5に対応して設けたねじ孔20に螺合し、頭部下
側には球面座金21を装着している。同様に、調整ボル
ト18は可動板5に設けた孔22に遊合し、可動板6に
対応して設けたねじ孔23に螺合し、頭部下側には球面
座金24を装着している。また、調整ボルト17、18
に隣接して固定板4、可動板5にそれぞれ固定ボルト2
5、26を螺合させ、先端を可動板5、可動板6側に突
出させている。次に、27は固定板4と可動板6との間
に設けた調整固定体としてのボルトである。調整固定ボ
ルト27は、固定板4のねじ孔28に螺合し、先端は可
動板6に設けた凹部29の底面に当接している。そし
て、孔28の周囲に設けた凹部30と前記凹部29との
間に介在させたコイルばね31を装着している。なお、
このばねの部分は可動板5の孔32に遊合させている。
33は固定板4に取り付けた距離測定器としてのダイヤ
ルゲージで、その測定子34は可動板6の上面に当接さ
せている。35は可動板6の下面に複数のボルト36に
より固定した電極ホルダー部であり、その中空部に挿入
した電極はボルト37により固定する。An adjusting bolt 17 is provided as an adjusting body for adjusting the rotation angle of the movable plate 5 with respect to the fixed plate 4, and an adjusting bolt 18 is provided as an adjusting body for adjusting the rotation angle of the movable plate 6 with respect to the movable plate 5. The adjustment bolt 17
As shown in FIG. 3, it fits into the hole 19 provided in the fixed plate 4,
A spherical washer 21 is attached to the lower side of the head by screwing into a screw hole 20 provided corresponding to the movable plate 5. Similarly, the adjusting bolt 18 is loosely fitted in the hole 22 provided in the movable plate 5, screwed into the screw hole 23 provided corresponding to the movable plate 6, and the spherical washer 24 is attached to the lower side of the head. There is. Also, the adjustment bolts 17 and 18
Adjacent to the fixed plate 4 and the movable plate 5 are fixed bolts 2 respectively.
5, 26 are screwed together so that the tip ends project toward the movable plate 5 and the movable plate 6. Next, 27 is a bolt as an adjusting and fixing body provided between the fixed plate 4 and the movable plate 6. The adjusting and fixing bolt 27 is screwed into the screw hole 28 of the fixed plate 4, and the tip thereof is in contact with the bottom surface of the recess 29 provided in the movable plate 6. A coil spring 31 is mounted between the recess 30 provided around the hole 28 and the recess 29. In addition,
This spring portion is loosely fitted in the hole 32 of the movable plate 5.
Reference numeral 33 is a dial gauge attached to the fixed plate 4 as a distance measuring device, and its measuring element 34 is in contact with the upper surface of the movable plate 6. Reference numeral 35 denotes an electrode holder portion fixed to the lower surface of the movable plate 6 with a plurality of bolts 36, and the electrode inserted into the hollow portion is fixed with bolts 37.
【0009】次にこの装置による姿勢調整について図
4、図5の概略図を参照して説明する。38はホルダー
部に取り付けた電極、39はピクテストと知られるてこ
式ダイヤルゲージである。まず、調整装置1を継手3に
より放電加工機にセットしてから、ダイヤルゲージ39
の測定子を電極38の側面に対してX軸方向に当て、加
工機を操作して調整装置1、従って電極38を例えば1
5mm上下させる。このときゲージ39の読み取り値が
0.15mm変化したとする。一方、装置1にセットし
てあるダイヤルゲージ33の取り付け位置は、測定子3
4と線11との間のX方向の距離および測定子34と線
12との間のY方向の距離がそれぞれ100mmに設定
してあるとする。そうすると、次式の計算から 0.15÷15×100=1 X軸に対する可動板5の傾きをダイヤルゲージ33の目
盛りで1mm相当変化するよう調整ボルト17を調整す
ればよい。同様に、ゲージ39の測定子を電極38の側
面に対してY軸方向に当て、電極38を上下させてゲー
ジ39の変化量を読み取り、これを相殺するように調整
ボルト18によって可動板6のY軸に対する傾きを調整
する。こうして電極38を垂直にセットすることができ
る。Next, the attitude adjustment by this apparatus will be described with reference to the schematic views of FIGS. Reference numeral 38 is an electrode attached to the holder portion, and 39 is a lever type dial gauge known as a pict test. First, the adjusting device 1 is set on the electric discharge machine by the joint 3, and then the dial gauge 39
Of the measuring device is applied to the side surface of the electrode 38 in the X-axis direction, and the processing machine is operated to move the adjusting device 1, and thus the electrode 38, for example to 1.
Move up and down 5 mm. At this time, it is assumed that the reading value of the gauge 39 changes by 0.15 mm. On the other hand, the mounting position of the dial gauge 33 set in the device 1 is the measuring element 3
It is assumed that the distance in the X direction between 4 and the line 11 and the distance in the Y direction between the probe 34 and the line 12 are set to 100 mm, respectively. Then, from the calculation of the following equation, 0.15 ÷ 15 × 100 = 1 The adjustment bolt 17 may be adjusted so that the inclination of the movable plate 5 with respect to the X axis changes by 1 mm on the scale of the dial gauge 33. Similarly, the gauge head of the gauge 39 is applied to the side surface of the electrode 38 in the Y-axis direction, the electrode 38 is moved up and down to read the change amount of the gauge 39, and the adjustment bolt 18 is used to offset the change amount of the movable plate 6. Adjust the tilt with respect to the Y-axis. In this way, the electrode 38 can be set vertically.
【0010】上記の例では放電加工機用電極の垂直調整
に適用したが、図1とは上下逆に、即ち可動板6が上側
になるようにして、可動板6上にバイスを取り付けれ
ば、バイスの平面調整に適用することができる。また、
ホルダー部に取り付けた物体を所望の姿勢に調整するこ
とは勿論可動板6自体を被調整体として可動板のX軸方
向およびY軸方向の傾きを所望に調整することができる
ことは明らかである。Although the above example is applied to the vertical adjustment of the electrode for the electric discharge machine, it is upside down from FIG. 1, that is, the movable plate 6 is placed on the upper side, and a vise is attached on the movable plate 6. It can be applied to plane adjustment of vise. Also,
Obviously, it is possible to adjust the inclination of the movable plate in the X-axis direction and the inclination of the Y-axis direction by using the movable plate 6 itself as the body to be adjusted, as well as adjusting the object attached to the holder to a desired posture.
【0011】次に固定ボルト25、26および調整固定
ボルト27の役割等について説明する。前記のようにし
て可動板6または可動板6に取り付けた電極38等の姿
勢を調整した後、可動板6に対してこれを固定板4側に
押し付ける力が、ばね31に抗して働くと、調整ボルト
17、18はそれぞれ可動板5、6に対しては固定され
ていないので、可動板5、6は容易に動いてしまう。そ
こで、ボルト17、18の調整前は上方に後退させてお
いた調整固定ボルト27を図1のように下方に前進させ
てその先端を図示の例のように可動板6に当接させる。
これによって、可動板5、6の調整位置を固定できる。
しかし、可動板6を上側にしてその上面にバイトその他
重量物を取り付けるような場合は、それぞれ可動板5、
6の固定位置において固定ボルト25、26を可動板
5、6の上面に当接させるのがよい。こうすれば、調整
後に可動板6の姿勢が狂うことはない。上記の例では固
定板4、可動板5、6の順に配列したが、固定板4と可
動板5との結合部の構成を両者間に十分な間隔をとれる
ようにするなら、固定板4、可動板6、5の順に配列し
ても良い。また、固定板4と可動板5および可動板5と
6の結合部は支点固定ボルトと支点球による軸支構造と
したが、可動板の回転角度を大きくする場合は、通常の
回転軸と軸受け部により構成するのがよい。Next, the role of the fixing bolts 25 and 26 and the adjusting fixing bolt 27 will be described. After the posture of the movable plate 6 or the electrodes 38 attached to the movable plate 6 is adjusted as described above, the force pressing the movable plate 6 toward the fixed plate 4 side acts against the spring 31. Since the adjusting bolts 17 and 18 are not fixed to the movable plates 5 and 6, respectively, the movable plates 5 and 6 easily move. Therefore, the adjustment fixing bolt 27, which has been retracted upward before the adjustment of the bolts 17 and 18, is advanced downward as shown in FIG. 1 and the tip thereof is brought into contact with the movable plate 6 as in the illustrated example.
Thereby, the adjustment position of the movable plates 5 and 6 can be fixed.
However, when the movable plate 6 is placed on the upper side and a bite or other heavy object is attached to the upper surface thereof, the movable plate 5,
The fixing bolts 25 and 26 are preferably brought into contact with the upper surfaces of the movable plates 5 and 6 at the fixing position of 6. In this way, the posture of the movable plate 6 does not change after the adjustment. Although the fixed plate 4 and the movable plates 5 and 6 are arranged in this order in the above example, if the fixed plate 4 and the movable plate 5 are arranged so that a sufficient space can be provided between them, the fixed plate 4, The movable plates 6 and 5 may be arranged in this order. Further, the fixed plate 4 and the movable plate 5 and the connecting portion of the movable plates 5 and 6 have the pivotal support structure by the fulcrum fixing bolt and the fulcrum sphere. However, when the rotation angle of the movable plate is increased, a normal rotary shaft and a bearing are used. It is better to be composed of parts.
【0012】[0012]
【効果】以上のように本発明の姿勢調整装置は、X軸、
Y軸の調整を個別かつ独立に行うように構成したので、
調整が容易であるとともに確実である。またX軸、Y軸
の調整度合を表すダイヤルゲージなどの測定器を設ける
ことにより、調整すべき変化量を数値で表せるので、調
整がさらに容易となる。さらに、固定板と第2の可動板
との間に両者間の間隔を固定する調整固定体、あるい
は、固定板と第1の可動板間および第1の可動板と第2
の可動板間にそれぞれ両者間の間隔を固定する固定体を
設けることにより、調整位置の狂いを生じなくすること
ができる。As described above, the posture adjusting device of the present invention is
Since it is configured to adjust the Y-axis individually and independently,
Adjustment is easy and reliable. Further, by providing a measuring instrument such as a dial gauge that indicates the degree of adjustment of the X-axis and the Y-axis, the amount of change to be adjusted can be expressed by a numerical value, so that the adjustment becomes easier. Further, between the fixed plate and the second movable plate, an adjusting fixed body that fixes the space between them is provided, or between the fixed plate and the first movable plate and between the first movable plate and the second movable plate.
By providing a fixed body for fixing the interval between the movable plates, it is possible to prevent the adjustment position from being misaligned.
【図1】本発明による姿勢調整装置を放電加工機の電極
ホルダーとして利用した例を示す要部欠裁正面図であ
る。FIG. 1 is a cutaway front view of an essential part showing an example in which an attitude adjusting device according to the present invention is used as an electrode holder of an electric discharge machine.
【図2】同装置の平面図である。FIG. 2 is a plan view of the device.
【図3】同装置の要部を欠裁した左側面図である。FIG. 3 is a left side view in which a main part of the same device is cut away.
【図4】同装置の概略構成を示す縦断面図である。FIG. 4 is a vertical cross-sectional view showing a schematic configuration of the device.
【図5】同平面図である。FIG. 5 is a plan view of the same.
【図6】従来の電極ホルダーの概略構成を示す縦断面図
である。FIG. 6 is a vertical cross-sectional view showing a schematic configuration of a conventional electrode holder.
【図7】同平面図である。FIG. 7 is a plan view of the same.
1 姿勢調整装置 2 ボルト 3 継手 4 固定板 5 第1の可動板 6 第2の可動板 7、9 支点固定ボルト 8、10 支点球 11、12 線 13a、15a 孔 13b、15b ねじ孔 14、16 皿ばね 17、18 調整ボルト 19、22 孔 20、23 ねじ孔 21、24 球面座金 25、26 固定ボルト 27 調整固定ボルト 28 ねじ孔 29、30 凹部 31 ばね 32 孔 33 ダイヤルゲージ 34 測定子 35 ホルダー部 36、37 ボルト 38 電極 39 ダイヤルゲージ 1 Posture adjustment device 2 Bolt 3 Joint 4 Fixed plate 5 First movable plate 6 Second movable plate 7, 9 Support point fixing bolt 8, 10 Support point ball 11, 12 Wire 13a, 15a Hole 13b, 15b Screw hole 14, 16 Belleville springs 17,18 Adjusting bolts 19,22 Holes 20,23 Screw holes 21,24 Spherical washers 25,26 Fixing bolts 27 Adjusting fixing bolts 28 Screw holes 29,30 Recesses 31 Spring 32 holes 33 Dial gauge 34 Measuring element 35 Holder part 36, 37 Volt 38 Electrode 39 Dial gauge
Claims (4)
もって回転自在に設けた第1の可動板と、第1の可動板
にX方向の回転軸心をもって回転自在に設けた第2の可
動板と、第1の可動板の回転角度を調整する第1の調整
体と、第2の可動板の回転角度を調整する第2の調整体
とを有する物体の姿勢調整装置。1. A fixed plate, a first movable plate rotatably provided on the fixed plate with a rotation axis in the Y direction, and a first movable plate rotatably provided with a rotation axis in the X direction on the first movable plate. A posture adjusting device for an object, comprising: a second movable plate; a first adjusting body that adjusts a rotation angle of the first movable plate; and a second adjusting body that adjusts a rotation angle of the second movable plate.
ヤルゲージを固定板に取り付けた請求項1記載の物体の
姿勢調整装置。2. The posture adjusting device for an object according to claim 1, further comprising a dial gauge, in which a gauge head is brought into contact with the second movable plate, is attached to the fixed plate.
もって回転自在に設けた第1の可動板と、第1の可動板
の固定板と反対側にX方向の回転軸心をもって回転自在
に設けた第2の可動板と、固定板を貫通して第1の可動
板に螺合し固定板側に露出する操作部の操作により第1
の可動板の回転角度を調整する第1の調整体と、第1の
可動板を貫通して第2の可動板に螺合し第2の可動板の
回転角度を調整する第2の調整体と、固体板に螺合する
とともに先端を第2の可動板に接触させかつ周囲に固定
板と第2の可動板とを離間させるように働く弾性体を装
着した姿勢固定体とを有する物体の姿勢調整装置。3. A fixed plate, a first movable plate rotatably provided on the fixed plate with a rotation axis in the Y direction, and a rotation axis in the X direction on the side opposite to the fixed plate of the first movable plate. The second movable plate, which is rotatably provided, and the operation unit, which penetrates the fixed plate and is screwed into the first movable plate and exposed to the fixed plate side
First adjusting body that adjusts the rotation angle of the movable plate, and a second adjusting body that penetrates the first movable plate and is screwed into the second movable plate to adjust the rotation angle of the second movable plate. And an attitude fixing body equipped with an elastic body that is screwed to the solid plate and has its tip in contact with the second movable plate and that has an elastic body attached to the periphery to separate the fixed plate and the second movable plate from each other. Posture adjustment device.
螺合し他方側への突出度合により両者間の間隔を一定に
保持する第1の固定部材と、第1の可動板と第2の可動
板のいずれか一方に螺合し他方側への突出度合により両
者間の間隔を一定に保持する第2の固定部材とを有する
請求項1記載の物体の姿勢調整装置。4. A first movable member, which is screwed to either one of the fixed plate and the first movable plate and maintains a constant gap between the fixed plate and the first movable plate by a degree of protrusion to the other side, and the first movable plate. The attitude adjusting device for an object according to claim 1, further comprising: a second fixing member that is screwed into one of the second movable plates and that maintains a constant gap between the second movable plate and the other movable plate.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP36190692A JPH06190639A (en) | 1992-12-23 | 1992-12-23 | Attitude adjusting device for object |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP36190692A JPH06190639A (en) | 1992-12-23 | 1992-12-23 | Attitude adjusting device for object |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH06190639A true JPH06190639A (en) | 1994-07-12 |
Family
ID=18475249
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP36190692A Pending JPH06190639A (en) | 1992-12-23 | 1992-12-23 | Attitude adjusting device for object |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH06190639A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2016169943A (en) * | 2015-03-11 | 2016-09-23 | 株式会社島津製作所 | Shaft center adjusting device and material test machine |
| CN114473095A (en) * | 2022-03-14 | 2022-05-13 | 贵州安芯数控技术有限公司 | Gear milling cutter integral machining precision cutting device and method |
-
1992
- 1992-12-23 JP JP36190692A patent/JPH06190639A/en active Pending
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2016169943A (en) * | 2015-03-11 | 2016-09-23 | 株式会社島津製作所 | Shaft center adjusting device and material test machine |
| CN114473095A (en) * | 2022-03-14 | 2022-05-13 | 贵州安芯数控技术有限公司 | Gear milling cutter integral machining precision cutting device and method |
| CN114473095B (en) * | 2022-03-14 | 2024-01-23 | 贵州安芯数控技术有限公司 | Gear milling cutter integral processing precise cutting device and method |
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