JPH079403A - Automatic planer adjusting gauge and automatic planer adjusting method - Google Patents
Automatic planer adjusting gauge and automatic planer adjusting methodInfo
- Publication number
- JPH079403A JPH079403A JP17267993A JP17267993A JPH079403A JP H079403 A JPH079403 A JP H079403A JP 17267993 A JP17267993 A JP 17267993A JP 17267993 A JP17267993 A JP 17267993A JP H079403 A JPH079403 A JP H079403A
- Authority
- JP
- Japan
- Prior art keywords
- base block
- automatic plane
- measuring instrument
- gauge
- cutting blade
- 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
Links
Landscapes
- Length-Measuring Instruments Using Mechanical Means (AREA)
- Milling, Drilling, And Turning Of Wood (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、自動鉋の切削精度を高
めるために使用する自動鉋調整用ゲージ及び自動鉋の調
整方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic plane adjustment gauge and an automatic plane adjustment method which are used to improve the cutting accuracy of the automatic plane.
【0002】[0002]
【従来の技術】従来、木材を高速で鉋掛するために自動
鉋が使用されている。その自動鉋の一例を図9により説
明する。自動鉋1は、中央に大きな切削通路2を貫設し
た機枠3と、該機枠3の切削通路2内にあって昇降自在
な定盤4と、切削通路2の上辺に位置し前記定盤4に対
向する切削装置部5とから概略構成される。前記定盤4
は、上面が平坦に加工されており、その上面に切削通路
2の貫通方向に対して直交する向きのスリット6が二本
形成されている。そして、このスリット6内にテーブル
ローラ7が回転自在に設置されている。該テーブルロー
ラ7は、周面の一部が定盤4の上面より僅かに突出して
おり、被切削物たる木材の底面を受けてコロの機能を果
たす。一方、前記切削装置部5には丸胴部8aに3枚の
切削刃8bを取り付けてなる回転刃8が装着されている
(図2鎖線参照)。該回転刃8は、前記テーブルローラ
7と平行な向きで、且つ、木材の上面に接触する位置に
配設されている。また、切削装置部5には回転刃8を挟
んで前後位置に送りローラ9,9が配設されている。2. Description of the Related Art Conventionally, automatic planes have been used to hang wood at high speed. An example of the automatic plane will be described with reference to FIG. The automatic plane 1 includes a machine frame 3 having a large cutting passage 2 formed in the center thereof, a platen 4 which can be raised and lowered in the cutting passage 2 of the machine frame 3, and which is located on the upper side of the cutting passage 2 It is roughly configured by a cutting device section 5 facing the board 4. The surface plate 4
Has a flat upper surface, and two slits 6 are formed on the upper surface in a direction orthogonal to the penetrating direction of the cutting passage 2. A table roller 7 is rotatably installed in the slit 6. A part of the peripheral surface of the table roller 7 slightly protrudes from the upper surface of the surface plate 4, and receives the bottom surface of the wood, which is the object to be cut, and functions as a roller. On the other hand, the cutting device section 5 is equipped with a rotary blade 8 in which three cutting blades 8b are attached to a round barrel section 8a (see a chain line in FIG. 2). The rotary blade 8 is arranged in a direction parallel to the table roller 7 and at a position in contact with the upper surface of the wood. Further, in the cutting device section 5, feed rollers 9, 9 are arranged at front and rear positions with the rotary blade 8 interposed therebetween.
【0003】上記自動鉋1で木材を鉋掛する場合は、先
ず、テーブルローラ7及び回転刃8を定盤4上面と平行
になるよう調整し、さらに、回転刃8において切削刃8
bの刃先が丸胴部8aの軸線と平行になるように切削刃
8bの突出量を調整し、次に、定盤4を昇降させて木材
の厚みや幅に合わせて切削通路2の広さを調整する。そ
して、回転刃8と送りローラ9,9を回転させて切削通
路2に木材を送り込み、切削刃8bで木材上面を切削す
るのである。When wood is hooked by the automatic plane 1, first, the table roller 7 and the rotary blade 8 are adjusted so as to be parallel to the upper surface of the surface plate 4, and further, the cutting blade 8 at the rotary blade 8 is adjusted.
The amount of protrusion of the cutting blade 8b is adjusted so that the blade edge of b is parallel to the axis of the round barrel portion 8a, and then the platen 4 is moved up and down to adjust the width of the cutting passage 2 according to the thickness and width of the wood. Adjust. Then, the rotary blade 8 and the feed rollers 9, 9 are rotated to feed the wood into the cutting passage 2, and the top surface of the wood is cut by the cutting blade 8b.
【0004】[0004]
【発明が解決しようとする課題】前記テーブルローラ7
や回転刃8の調整は、自動鉋1の切削精度を左右する最
も重要な作業である。この調整が不十分であると、木材
の寸法に狂いが生じ、以後の工程に重大な悪影響を及ぼ
すことになる。ところが、従来の自動鉋調整用ゲージ
は、テーブルローラ7や切削刃8bなどにゲージの一部
が触れたか否かを目測と経験に頼って判断する構成であ
ったため、作業者の技量により自動鉋1の精度が区々に
なり、その上、必要な精度が得られるまで何回となく調
整を繰り返さなければならないから作業性が悪い、など
の問題点があった。本発明は上記に鑑みなされたもの
で、その目的は、自動鉋の調整が客観的な数値に基づい
て高精度に行えるようにすることにある。SUMMARY OF THE INVENTION The table roller 7
The adjustment of the rotary blade 8 and the rotary blade 8 is the most important work that affects the cutting accuracy of the automatic plane 1. If this adjustment is not sufficient, the dimensions of the wood will be distorted, and the subsequent processes will be seriously adversely affected. However, since the conventional automatic plane adjusting gauge has a configuration in which it is determined whether or not a part of the gauge touches the table roller 7 or the cutting blade 8b based on visual inspection and experience, the automatic plane adjusting gauge depends on the skill of the operator. However, there is a problem that the workability is poor because the accuracy of 1 becomes different and the adjustment must be repeated several times until the required accuracy is obtained. The present invention has been made in view of the above, and an object thereof is to enable the adjustment of the automatic plane with high accuracy based on an objective numerical value.
【0005】[0005]
【課題を解決するための手段】上記の目的を達成するた
め本発明は、自動鉋の定盤又は自動鉋の回転刃の丸胴部
に沿う底面形状にした基台ブロックと、該基台ブロック
の底面略中央を横断する凹欠部と、被測定物に測定子の
先端を接触させて該測定子の移動量を可視表示する測定
器具と、からなり、前記測定子を基台ブロックの凹欠部
に対応させるようにして測定器具を基台ブロックに取り
付けてなる自動鉋調整用ゲージを提供する。また、上記
自動鉋調整用ゲージを利用し、定盤上に周面の一部が臨
むテーブルローラ又は回転刃の丸胴部から突出する切削
刃を前記凹欠部で跨ぐようにして基台ブロックを定盤又
は丸胴部に当接させ、この状態で凹欠部に臨んでいるテ
ーブルローラ又は切削刃に測定器具の測定子を接触させ
てその突出量を測定し、以て、テーブルローラ又は切削
刃を適正に調整するようにした自動鉋の調整方法を提供
する。In order to achieve the above-mentioned object, the present invention provides a base block having a bottom shape along a round body of a surface plate of an automatic plane or a rotary blade of the automatic plane, and the base block. Of the base block of the base block, and a concave cutout portion that crosses substantially the center of the bottom surface of the base, and a measuring instrument that visually displays the amount of movement of the probe by bringing the tip of the probe into contact with the object to be measured. Provided is an automatic plane adjusting gauge in which a measuring instrument is attached to a base block so as to correspond to a cutout. Further, by using the automatic plane adjusting gauge, the base block is formed by straddling the cutting blade protruding from the round body portion of the table roller or the rotary blade facing a part of the peripheral surface on the surface plate with the recessed portion. Abutting against the surface plate or the round body, and in this state, the probe of the measuring instrument is brought into contact with the table roller or the cutting blade facing the recessed portion, and the amount of protrusion is measured. Provided is an automatic plane adjusting method for properly adjusting a cutting blade.
【0006】[0006]
【作用】定盤又は丸胴部にテーブルローラ又は切削刃が
突出していてもその突出箇所を凹欠部で跨ぐことができ
るため、定盤又は丸胴部に基台ブロックの底面が当接し
て安定する。従って、基台ブロックを定盤又は丸胴部上
で滑らせながら測定器具の接触子でテーブルローラや切
削刃の突出量を正確に測定することができ、その測定結
果に基づいて客観的に自動鉋の調整が行える。[Effect] Even if the table roller or the cutting blade is projected on the surface plate or the round body, since the protruding portion can be straddled by the recessed portion, the bottom surface of the base block contacts the surface plate or the round body. Stabilize. Therefore, the amount of protrusion of the table roller and cutting blade can be accurately measured with the contact of the measuring instrument while sliding the base block on the surface plate or round body, and it can be automatically objectively measured based on the measurement result. The plane can be adjusted.
【0007】[0007]
【実施例1】以下に本発明の実施例1を図1〜図3を参
照しつつ説明する。なお、実施例1の自動鉋調整用ゲー
ジは回転刃の調整に使用するものであり、図1は自動鉋
調整用ゲージの斜視図、図2は同縦断面図、図3は図2
のA−A線断面図である。自動鉋調整用ゲージ10A
は、基台ブロック11と測定器具12を組み合わせて構
成される。前記基台ブロック11は、左右一対の支持フ
レーム11a,11aを連結シャフト11b,11bで
一体に連結してなるものである。該支持フレーム11
a,11aの外側下端には夫々弧状のゲージブロック1
1c,11cが固着されている。このゲージブロック1
1cは、底面が回転刃8の丸胴部8aに沿う円弧形に加
工されており、図2に示すように丸胴部8aの外周に合
致する。また、ゲージブロック11cには、底面中央を
横断するように凹欠部11dが形成されており、該凹欠
部11dで丸胴部8aから突出する切削刃8bを跨ぐこ
とができる。First Embodiment A first embodiment of the present invention will be described below with reference to FIGS. The automatic plane adjusting gauge of Example 1 is used for adjusting the rotary blade. FIG. 1 is a perspective view of the automatic plane adjusting gauge, FIG. 2 is the same vertical sectional view, and FIG.
FIG. 9 is a sectional view taken along line AA of FIG. Automatic plane adjustment gauge 10A
Is configured by combining the base block 11 and the measuring instrument 12. The base block 11 is formed by integrally connecting a pair of left and right support frames 11a, 11a with connecting shafts 11b, 11b. The support frame 11
Arc gauge blocks 1 are provided at the outer lower ends of a and 11a, respectively.
1c and 11c are fixed. This gauge block 1
The bottom surface of 1c is machined into an arc shape along the round barrel portion 8a of the rotary blade 8 and conforms to the outer circumference of the round barrel portion 8a as shown in FIG. Further, the gauge block 11c is formed with a recessed portion 11d so as to cross the center of the bottom surface, and the recessed portion 11d can straddle the cutting blade 8b protruding from the round barrel portion 8a.
【0008】一方、前記測定器具12は、正面にアナロ
グ式表示部を備えた円形の機能部12aと、該機能部1
2aから下方に突設された測定子12bとからなる周知
のダイヤルゲージである。この測定器具12の測定子1
2bは、下端縁が前記基台ブロック11底面と同じ円弧
形に形成されている。また、機能部12aには裏面に取
付片12cが突設されており、該取付片12cを前記支
持フレーム11aの上端部分の長孔11eにボルト締め
して基台ブロック11に取り付ける。このとき、測定器
具12は、測定子12bが基台ブロック11の凹欠部1
1dに対応するようにその位置が設定される。なお、測
定器具12は長孔11eの範囲内において取付高さが調
節可能である。On the other hand, the measuring instrument 12 has a circular functional portion 12a having an analog type display portion on the front surface, and the functional portion 1
It is a well-known dial gauge including a probe 12b protruding downward from 2a. Stylus 1 of this measuring instrument 12
The lower edge of 2b is formed in the same arc shape as the bottom surface of the base block 11. Further, a mounting piece 12c is provided on the rear surface of the functional portion 12a so as to project therefrom, and the mounting piece 12c is bolted to the elongated hole 11e at the upper end portion of the support frame 11a to be mounted on the base block 11. At this time, in the measuring instrument 12, the tracing stylus 12b has the recessed portion 1 of the base block 11.
Its position is set to correspond to 1d. The mounting height of the measuring instrument 12 can be adjusted within the range of the long hole 11e.
【0009】次に、実施例1の自動鉋調整用ゲージ10
Aを利用した回転刃8の調整方法を以下に説明する。先
ず、基台ブロック11を回転刃8の切削刃8bと切削刃
8bの間に置いて該基台ブロック11と測定子12bを
共に丸胴部8aに当接させ、測定器具12の零設定をす
る。次に、図2に示すように凹欠部11dで切削刃8b
を跨ぐ位置に基台ブロック11を移動させる。そして、
測定器具12の針の動きを見ながら切削刃8bの突出量
を正確に調整する。次に、回転刃8の他方端でも同じ要
領で切削刃8bの調整を行い、丸胴部8aの軸線に対し
て切削刃8bが平行になるよう調整する。なお、実施例
1では測定子12bの下端を丸胴部8aと同じ曲率の円
弧形に形成したが、測定子12bの下端は直線であって
も、或いは、通常のダイヤルゲージの測定子12bと同
様に軸状であってもよい。そうした場合には、測定器具
12の最大値を読み取ればよいのである。Next, the automatic plane adjusting gauge 10 of the first embodiment.
A method of adjusting the rotary blade 8 using A will be described below. First, the base block 11 is placed between the cutting blades 8b of the rotary blade 8 and the cutting blade 8b, and the base block 11 and the probe 12b are both brought into contact with the round barrel portion 8a, and the zero setting of the measuring instrument 12 is performed. To do. Next, as shown in FIG. 2, the cutting blade 8b is cut at the recessed portion 11d.
The base block 11 is moved to a position crossing over. And
The projection amount of the cutting blade 8b is accurately adjusted while observing the movement of the needle of the measuring instrument 12. Next, the cutting blade 8b is adjusted in the same manner at the other end of the rotary blade 8 so that the cutting blade 8b is parallel to the axis of the round barrel portion 8a. Although the lower end of the probe 12b is formed in an arc shape having the same curvature as the round barrel portion 8a in the first embodiment, the lower end of the probe 12b may be a straight line, or the probe 12b of a normal dial gauge may be used. It may have a shaft shape as well. In such a case, the maximum value of the measuring instrument 12 should be read.
【0010】[0010]
【実施例2】図4,5は実施例2を示すもので、図4は
自動鉋調整用ゲージ10Bの縦断面図、図5は同斜視図
である。なお、図4以降の図において図1〜図3と同一
符号を付した部分はそれらと同機能の部分を示す。この
実施例2の自動鉋調整用ゲージ10Bは、前記テーブル
ローラ7の突出高さを調整するためのものである。従っ
て、基台ブロック11の底面は定盤4に沿うように直線
的な平坦面になっている。また、基台ブロック11の支
持フレーム11aはゲージブロック11cの上に立設さ
れており、ゲージブロック11cに穿設した透孔11f
を通って測定器具12の測定子12bが凹欠部11dに
臨んでいる。自動鉋調整用ゲージ10Bによるテーブル
ローラ7の調整は、先ず、定盤4上で測定器具12の零
調整を行い、次に、凹欠部11dでテーブルローラ7を
跨いで測定子12bの先端をテーブルローラ7に接触さ
せ、測定器具12の針を見ながらテーブルローラ7の高
さを適正にするのである。Second Embodiment FIGS. 4 and 5 show a second embodiment. FIG. 4 is a vertical sectional view of an automatic plane adjusting gauge 10B, and FIG. 5 is a perspective view thereof. In addition, in FIG. 4 and subsequent figures, the parts denoted by the same reference numerals as those in FIGS. 1 to 3 indicate parts having the same functions. The automatic plane adjusting gauge 10B of the second embodiment is for adjusting the protruding height of the table roller 7. Therefore, the bottom surface of the base block 11 is a linear flat surface along the surface plate 4. The support frame 11a of the base block 11 is erected on the gauge block 11c, and the through hole 11f formed in the gauge block 11c.
The tracing stylus 12b of the measuring instrument 12 faces the recessed portion 11d through. To adjust the table roller 7 by the automatic plane adjusting gauge 10B, first, zero adjustment of the measuring instrument 12 is performed on the surface plate 4, and then the tip of the probe 12b is crossed over the table roller 7 with the recessed portion 11d. The height of the table roller 7 is made appropriate while contacting the table roller 7 and observing the needle of the measuring instrument 12.
【0011】[0011]
【実施例3】図6は実施例3の自動鉋調整用ゲージ10
Cを示す縦断面図である。この自動鉋調整用ゲージ10
Cは、前記実施例2の自動鉋調整用ゲージ10Bの支持
フレーム11aの頂部を円弧形となし、測定器具12を
図6鎖線に示すように支持フレーム11a上で倒立可能
にしたものである。このように測定器具12を倒立させ
て測定子12bを上向きにすることにより、回転刃8や
送りローラ9,9等の定盤4に対する平行度を調整する
ことができる。すなわち、基台ブロック11を定盤4上
に置き、定盤4を上昇させて回転刃8の丸胴部8aに測
定子12bの先端を接触させながら、該回転刃8等を調
整するのである。この場合、基台ブロック11の凹欠部
11dでテーブルローラ7を跨ぐことができるため、基
台ブロック11がテーブルローラ7に乗り上げて傾くと
いう不具合が生じない。なお、回転刃8等の平行度の調
整は、前記実施例2の自動鉋調整用ゲージ10Bの測定
器具12を一旦支持フレーム11aから外して逆さに付
け替えても実施でき、また、図8に示すように回転刃8
等の平行度調整専用の自動鉋調整用ゲージ10Dを別途
製作しても実施できる。[Third Embodiment] FIG. 6 shows an automatic plane adjusting gauge 10 according to a third embodiment.
It is a longitudinal cross-sectional view showing C. This automatic plane adjustment gauge 10
In C, the support frame 11a of the automatic plane adjusting gauge 10B according to the second embodiment has an arc-shaped top, and the measuring instrument 12 can be inverted on the support frame 11a as shown by the chain line in FIG. . In this way, the parallelism of the rotary blade 8, the feed rollers 9, 9 and the like with respect to the surface plate 4 can be adjusted by turning the measuring instrument 12 upside down so that the tracing stylus 12b faces upward. That is, the base block 11 is placed on the surface plate 4, and the surface plate 4 is raised to bring the tip of the probe 12b into contact with the round body portion 8a of the rotary blade 8 while adjusting the rotary blade 8 and the like. . In this case, since the table block 7 can be straddled by the recessed portion 11d of the base block 11, the problem that the base block 11 rides on the table roller 7 and tilts does not occur. The parallelism of the rotary blade 8 and the like can be adjusted by removing the measuring instrument 12 of the automatic plane adjusting gauge 10B of the second embodiment from the support frame 11a and replacing it with the inverted one, as shown in FIG. Like rotary blade 8
It can also be implemented by separately manufacturing the automatic plane adjusting gauge 10D for parallelism adjustment.
【0012】[0012]
【実施例4】実施例4の自動鉋調整用ゲージ10Eは図
7に示すように実施例1〜実施例3の自動鉋調整用ゲー
ジ10A〜10Cを合体させた複合タイプであり、測定
器具12を支持フレーム11a上で適宜移動させること
により、切削刃8bの調整、テーブルローラ7の調整、
回転刃8等の平行度調整の全てに対応できる。[Embodiment 4] The automatic plane adjusting gauge 10E of Example 4 is a composite type in which the automatic plane adjusting gauges 10A to 10C of Examples 1 to 3 are combined as shown in FIG. By appropriately moving on the support frame 11a, adjustment of the cutting blade 8b, adjustment of the table roller 7,
It is possible to handle all the parallelism adjustments of the rotary blade 8 and the like.
【0013】[0013]
【発明の効果】以上説明したように本発明の自動鉋調整
用ゲージ及び調整方法によれば、自動鉋の調整が測定器
具12を使って客観的、且つ、正確に行えるため、従来
のような作業者の技量で切削精度が区々になるようなこ
とがなく、熟練工でなくとも簡単に高精度な調整が行え
る。その上、測定器具として既存のダイヤルゲージがそ
のまま利用できるためコストも安く、さらに、従来のよ
うに何度も調整をやり直す必要がないため作業性も格段
に向上する、など、多くの優れた効果を発揮する。な
お、本発明の自動鉋調整用ゲージは、自動鉋の調整以外
にも通常の鉋の刃の調整にも適用可能である。As described above, according to the automatic plane adjusting gauge and the adjusting method of the present invention, the automatic plane adjustment can be performed objectively and accurately by using the measuring instrument 12, so that the conventional method can be performed. The cutting accuracy does not vary depending on the skill of the operator, and even a skilled worker can easily perform high-precision adjustment. In addition, the existing dial gauge can be used as a measuring instrument as it is, so the cost is low, and since it is not necessary to repeat the adjustment many times as in the past, workability is significantly improved, and many other excellent effects. Exert. The automatic plane adjusting gauge of the present invention can be applied to the adjustment of a normal plane blade as well as the adjustment of the automatic plane.
【図1】 自動鉋調整用ゲージ10Aの斜視図である。FIG. 1 is a perspective view of an automatic plane adjusting gauge 10A.
【図2】 自動鉋調整用ゲージ10Aの縦断面図であ
る。FIG. 2 is a vertical sectional view of an automatic plane adjusting gauge 10A.
【図3】 図2のA−A線断面図である。3 is a cross-sectional view taken along the line AA of FIG.
【図4】 自動鉋調整用ゲージ10Bの縦断面図であ
る。FIG. 4 is a vertical sectional view of an automatic plane adjusting gauge 10B.
【図5】 自動鉋調整用ゲージ10Bの斜視図である。FIG. 5 is a perspective view of an automatic plane adjusting gauge 10B.
【図6】 自動鉋調整用ゲージ10Cを示す縦断面図で
ある。FIG. 6 is a vertical sectional view showing an automatic plane adjusting gauge 10C.
【図7】 自動鉋調整用ゲージ10Eを示す縦断面図で
ある。FIG. 7 is a longitudinal sectional view showing an automatic plane adjusting gauge 10E.
【図8】 自動鉋調整用ゲージ10Dを示す縦断面図で
ある。FIG. 8 is a vertical cross-sectional view showing an automatic plane adjusting gauge 10D.
【図9】 自動鉋の透視斜視図である。FIG. 9 is a perspective view of an automatic plane.
1 …自動鉋 4 …定盤 7 …テーブルローラ 8 …回転刃 8a …丸胴部 8b …切削刃 10A〜10E…自動鉋調整用ゲージ 11 …基台ブロック 11d…凹欠部 12 …測定器具 12b…測定子 1 ... Automatic plane 4 ... Surface plate 7 ... Table roller 8 ... Rotating blade 8a ... Round body 8b ... Cutting blade 10A-10E ... Automatic plane adjusting gauge 11 ... Base block 11d ... Recessed portion 12 ... Measuring instrument 12b ... Probe
Claims (2)
部に沿う底面形状にした基台ブロックと、 該基台ブロックの底面略中央を横断する凹欠部と、 被測定物に測定子の先端を接触させて該測定子の移動量
を可視表示する測定器具と、からなり、 前記測定子を基台ブロックの凹欠部に対応させるように
して測定器具を基台ブロックに取り付けてなることを特
徴とする自動鉋調整用ゲージ。1. A base block having a bottom shape along a round body of a rotary plate of an automatic plane or a rotary blade of the automatic plane, a recessed portion crossing substantially the center of the bottom surface of the base block, and an object to be measured. And a measuring instrument for visually displaying the amount of movement of the tracing stylus by contacting the tip of the tracing stylus with the measuring block on the base block so that the tracing stylus corresponds to the recessed portion of the base block. An automatic plane adjustment gauge characterized by being attached.
部に沿う底面形状にした基台ブロックと、該基台ブロッ
クの底面略中央を横断する凹欠部と、被測定物に測定子
の先端を接触させて該測定子の移動量を検出する測定器
具とからなり、前記測定子を基台ブロックの凹欠部に対
応させるようにして測定器具を基台ブロックに取り付け
てなる自動鉋調整用ゲージを利用し、 定盤上に周面の一部が臨むテーブルローラ又は回転刃の
丸胴部から突出する切削刃を前記凹欠部で跨ぐようにし
て基台ブロックを定盤又は丸胴部に当接させ、この状態
で凹欠部に臨んでいるテーブルローラ又は切削刃に測定
器具の測定子を接触させてその突出量を測定し、以て、
テーブルローラ又は切削刃を適正に調整するようにした
自動鉋の調整方法。2. A base block having a bottom shape along the round body of a rotary plate of an automatic plane or a rotary blade of the automatic plane, a recessed portion that traverses substantially the center of the bottom surface of the base block, and an object to be measured. And a measuring instrument for detecting the amount of movement of the measuring element by bringing the tip of the measuring element into contact with the measuring element, and attaching the measuring instrument to the base block so that the measuring element corresponds to the recessed portion of the base block. Using the automatic plane adjustment gauge, the base block is fixed by straddling the cutting edge protruding from the round body of the table roller or rotary blade facing a part of the peripheral surface on the surface plate with the recess. Abutting on the disc or the round body, in this state, the probe of the measuring instrument is brought into contact with the table roller or the cutting blade facing the recessed portion, and the amount of protrusion thereof is measured.
A method for adjusting an automatic plane that properly adjusts the table roller or cutting blade.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP17267993A JPH079403A (en) | 1993-06-17 | 1993-06-17 | Automatic planer adjusting gauge and automatic planer adjusting method |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP17267993A JPH079403A (en) | 1993-06-17 | 1993-06-17 | Automatic planer adjusting gauge and automatic planer adjusting method |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH079403A true JPH079403A (en) | 1995-01-13 |
Family
ID=15946360
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP17267993A Pending JPH079403A (en) | 1993-06-17 | 1993-06-17 | Automatic planer adjusting gauge and automatic planer adjusting method |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH079403A (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US7110848B2 (en) | 2002-06-24 | 2006-09-19 | Ryozo Shibano | Computer program product |
| JP2010175248A (en) * | 2009-01-27 | 2010-08-12 | Jfe Steel Corp | Equipment and method for diagnosing crack of table roller |
| JP2010197366A (en) * | 2008-04-02 | 2010-09-09 | Jfe Steel Corp | Apparatus and method for diagnosing crack in roller |
-
1993
- 1993-06-17 JP JP17267993A patent/JPH079403A/en active Pending
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US7110848B2 (en) | 2002-06-24 | 2006-09-19 | Ryozo Shibano | Computer program product |
| JP2010197366A (en) * | 2008-04-02 | 2010-09-09 | Jfe Steel Corp | Apparatus and method for diagnosing crack in roller |
| JP2010175248A (en) * | 2009-01-27 | 2010-08-12 | Jfe Steel Corp | Equipment and method for diagnosing crack of table roller |
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