JPS5997001A - Vehicle body measuring machine dispensing with positioning work - Google Patents
Vehicle body measuring machine dispensing with positioning workInfo
- Publication number
- JPS5997001A JPS5997001A JP20694282A JP20694282A JPS5997001A JP S5997001 A JPS5997001 A JP S5997001A JP 20694282 A JP20694282 A JP 20694282A JP 20694282 A JP20694282 A JP 20694282A JP S5997001 A JPS5997001 A JP S5997001A
- Authority
- JP
- Japan
- Prior art keywords
- vehicle body
- reference point
- frame
- positioning work
- hanging
- 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
Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01B—MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
- G01B5/00—Measuring arrangements characterised by the use of mechanical techniques
- G01B5/0025—Measuring of vehicle parts
Landscapes
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- A Measuring Device Byusing Mechanical Method (AREA)
Abstract
Description
【発明の詳細な説明】
この発明は、自動車の車体(本明細書における「車体」
は、外板、フレーム及び基準点等を含む広い意味に使用
する。)を修整する際等に車体に吊り下げて車体を計測
する用に供する、位置決め作業のいらない車体計測機に
関するものである。DETAILED DESCRIPTION OF THE INVENTION This invention relates to a vehicle body (hereinafter referred to as a "vehicle body").
is used in a broad sense, including outer panels, frames, reference points, etc. This invention relates to a vehicle body measurement device that does not require positioning work and is used to measure the vehicle body by hanging it on the vehicle body when modifying the vehicle.
車体が事故等で破損した場合、車体の当該破損箇所を大
きな力で引いたり、押したりしながら車体修整を行う。When a car body is damaged due to an accident, repairs are carried out by pulling or pushing the damaged part of the car body with great force.
その際、破損によって位置がくるってしまった基準点(
本明細書において「基準点」とは、市販されている車体
寸法図に基準点として記載されているもの又は車体を計
測する際等に寸法の基準となりうる箇所をいう。なお、
それら基準点のうち正常な位置に位置するものを正常基
準点と、また、事故等によって正常な位置からずれた状
態にあるものを異常基準点という。)を車体計測機で計
測しながら元の正常な位置に戻してやる口とによって、
車体を元通りに修整することが自動車車体整備業者等で
一般に行われてし)る。At that time, the reference point whose position has shifted due to damage (
In this specification, the term "reference point" refers to a point that is described as a reference point in a commercially available dimensional drawing of a vehicle body or a location that can serve as a reference point for dimensions when measuring a vehicle body. In addition,
Among these reference points, those located at normal positions are called normal reference points, and those that have deviated from their normal positions due to accidents or the like are called abnormal reference points. ) by returning it to its original normal position while measuring it with a vehicle body measurement device.
Repairing the car body to its original condition is commonly carried out by auto body maintenance companies.
従来の車体計測機のうち主なものには、〔1〕センター
リングゲージ、(2)垂直ゲージを利用して位置決め作
業を行う車体計測機、〔ろ〕レーザー光線を利用して位
置決め作業を行う車体計測機等がある。以下、これらに
ついて各々説明する〔1〕 センターリングゲージ
1 構成例
左右対称な位置にある基準点に掛止可能な車体掛止具を
伸縮自在な横ゲージの両端から上方に伸びた状態に設け
、横ゲージあ中央には車体の中心線の一点を表示する為
の針が立設しである。この構成を有するセンターリング
ゲージが4〜8本位で1セ、トになっている。The main types of conventional vehicle body measuring machines include (1) centering gauges, (2) vehicle body measuring machines that perform positioning work using vertical gauges, and [ro] vehicle body measuring machines that perform positioning work using laser beams. There are measuring machines, etc. Each of these will be explained below [1] Centering gauge 1 Configuration example Vehicle body latches that can be latched to reference points located at symmetrical positions are provided extending upward from both ends of a telescoping horizontal gauge, In the center of the horizontal gauge is a needle that stands up to indicate a point on the center line of the vehicle. A centering gauge with this configuration has 4 to 8 points in 1 set.
2 使用法例
事故等で破損して車体中心線が曲がった又はねじれた当
該自動車の車体寸法図に基づいて、左右対称な位置にあ
るべき適当な基準点を4〜8組選び出し、当該各組の基
準点の位置に合わせて各々の横ゲージ及び車体掛止具の
長さをセットし、4〜8本のセンターリングゲージを当
該各組の基準点に引っ掛けて各々吊り下げる。2 Usage Example Based on the body dimension drawing of the vehicle whose body center line has been bent or twisted due to damage due to an accident, etc., select 4 to 8 sets of appropriate reference points that should be in symmetrical positions, and Set the length of each side gauge and vehicle body hook according to the position of the reference point, and hang 4 to 8 centering gauges by hooking them to the reference point of each set.
そして、当該車体の真正面から見ると、これらの横ゲー
ジの針の並びが上下左右へずれる、あるいは傾いている
ので、それによって車体中心線の曲がり又はねじれを判
断する。そこで、これらの針がひとつに重なって見える
様になるまで車体修整作業を行う。When viewed from directly in front of the vehicle body, the needles of these horizontal gauges are deviated or tilted vertically and horizontally, so that the bending or twisting of the vehicle center line is determined based on this. Therefore, we carried out repair work on the car body until these needles appeared to overlap into one.
置を計測してそれらが正常な位置にあるか否かを1計測
することによって、当該車体が正常な状態であるか否か
を判断する。これに対してセンターリングゲージは、車
体の中心線の曲がり及びねじれを確認するだけの用に供
するものであり1各基準点の位置の計測はできない為、
車体計測機としての機能をほとんどもたないものである
。例えば、計測を要する事故車は、左右対称に位置すべ
き基準点が共に前後、左右又はこれらの複合した方向に
くるっている場合が多いが、この様な車体をセンターリ
ングゲージで計測しても、当該基準点がどの方向にどれ
だ1けくるっているのかを判断することができない。そ
のため、センターリングゲージは車体修整作業の指標と
することができず、車体計測機としてほとんど使用でき
ないものであるそこで、不便ではあるが実際に使用でき
るものとして、センターリングゲージとは全く異なった
観点から考え出されたのが、以下〔2〕及び〔6〕に示
す車体計測機である。It is determined whether the vehicle body is in a normal state by measuring the position of the vehicle body and determining whether the vehicle body is in a normal position. On the other hand, the centering gauge is only used to check the bending and twisting of the center line of the car body, and cannot measure the position of each reference point.
It has almost no function as a vehicle body measurement device. For example, in the case of an accident vehicle that requires measurement, the reference points that should be located symmetrically are often located in the front and rear, left and right directions, or a combination of these directions, but even if such a vehicle body is measured with a centering gauge, , it is not possible to determine in which direction and by how many degrees the reference point is located. For this reason, the centering gauge cannot be used as an indicator for car body repair work, and can hardly be used as a car body measurement device.Therefore, although it is inconvenient, it can be used in practice from a completely different perspective than the centering gauge. The vehicle body measuring machines shown in [2] and [6] below were devised based on this.
〔2〕 垂直ゲージを利用して位置決め作業を行う車体
計測機
1 構成例
左前、右前、左後及び右後の四隅に接地足を有してその
接地足で地面又は車体修整台等(以下、単に地面という
。)の上に設置される設置台があり、同設置台上を前後
左右に移動自在で、かつ、ラジオのアンテナの様に上下
に伸縮自在な垂直ゲージが4本及び表示体が6本程度あ
り、各垂直ゲージにはその上端に正常基準点と接触させ
る為の接触部があり、各表示体にはその上端に異常基準
点の正常な位置を示す為の基準点表示部がある。[2] Vehicle body measurement device 1 that performs positioning work using a vertical gauge Configuration example: It has ground contact feet at the four corners of the left front, right front, left rear, and right rear corners, and uses the ground contact feet to touch the ground or a vehicle body repair table, etc. (hereinafter referred to as There is an installation stand that is installed on the ground (simply referred to as the ground), and it can be moved forward, backward, left and right on the installation stand, and there are four vertical gauges that can be expanded and contracted up and down like a radio antenna, and a display. There are about 6 vertical gauges, and each vertical gauge has a contact part on its top end to make contact with the normal reference point, and each indicator has a reference point display part on its top end to show the normal position of the abnormal reference point. be.
また、各接地足はハンドルを回すことによりネジで上下
に伸縮自在に構成されている。なお、本車体計測機は前
後左右方向に車体に近い大きさを有する。また、シリン
ダを利用して空気圧で伸縮自在に構成された接地足のも
のもある。In addition, each grounding foot is configured to be able to expand and contract up and down with a screw by turning a handle. Note that this vehicle body measurement device has a size close to the vehicle body in the front, rear, left and right directions. There are also ground-contacting feet that use cylinders to expand and contract with air pressure.
2 使用法例
車体を持ち上げ、地面に固定された車体修整作業用のス
タンド上に車体を載せて固定し、同車体のわきに車体計
測機を持ってくる。2 Usage example: Lift the car body, place it on a stand fixed to the ground for car body repair work, fix it, and bring the car body measurement device to the side of the car body.
そして、車体計測機において各構成部分を所要の配置に
セットして当該車体計測機を車体の下方に適当に設ける
作業(本明細書においてはこの作業を単に配置作業とい
う。)を行う。その内容は、当該車体の適当な4箇所の
正常基準点及び1箇所の異常基準点を選び出し、車体寸
法図の平面図に記載された当該4箇所の正常基準点及び
当該1箇所の異常基準点の正常な位置の配置と同じに、
4本の垂直ゲージ及び1本の表示体を前後左右に適当に
移動させて設置台上で正確に配置する。そして、当該垂
直ゲージ及び当該表示体を各々伸縮させることにより、
車体寸法図の側面図に記載された車体基準線から当該4
箇所の正常基準点及び1箇所の異常基準点の正常な位置
までの高さに当該4本の垂直ゲージ及び当該1本の表示
体の長さを各々正確に合わせる。この状態の車体計測機
を車体の下側に差し入れて接地足を介して車体の下の地
面上に置いて設ける。ここで配置作業は終る次に、異常
基準点の正常な位置を示す為の表示を異常基準点の正常
な位置に正確に位置せしめる作業(本明細書においては
この作業を単に位置決め作業という。)を行う。その内
容は、まず前記4箇所の正常基準点と同じに配置した4
本の垂直ゲージ上端の各接触部が当該正常基準点のだい
たい真下に位置する様に車体計測機を手で持って前後及
び左右に動かす。そして、当該4箇所の正常基準点に当
該4箇所の接触部を各々正確に接触させることを目標と
しながら、左前、右前、左後及び右後の各接地足を徐々
・に伸ばして設置台を持ち上げていき、当該各接触部が
当該各正常基準点に接触する直前の高さまで持ち上がっ
たら持ち上げる作業を一旦中止し、当該4箇所の接触部
が当該4箇所の正常基準点の真下に各々正確に位置する
様に、当該4箇所の正常基準点及び当該4箇所の接触部
の位置をよく見ながら車体計測機を手で持って前後及び
左右に慎重に動かして合わせ、更に当該4本の接地足を
各々徐々に伸ばして、当該4箇所の接触部が当該4箇所
の正常基準点に各々正確に接触する高さ及び角度に車体
計測機を持ち上げて接触させる。この時点で当該基準点
表示部が当該異常基準点の正常な位置に位置して、当該
基準点表示部の位置決め作業は終る。Then, each component is set in a required arrangement in the vehicle body measuring device, and the vehicle body measuring device is appropriately installed under the vehicle body (this task is simply referred to as placement task in this specification). The content is to select four appropriate normal reference points and one abnormal reference point on the vehicle body, and select the four normal reference points and one abnormal reference point written on the plan view of the vehicle body dimension drawing. Same as the normal position arrangement of
Four vertical gauges and one display are appropriately moved back and forth and left and right to accurately arrange them on an installation stand. Then, by expanding and contracting the vertical gauge and the display body,
From the car body reference line written on the side view of the car body dimension drawing,
Accurately adjust the lengths of the four vertical gauges and the one indicator to the heights of the normal reference point of the location and the abnormal reference point of one location. The vehicle body measurement device in this state is inserted into the underside of the vehicle body and placed on the ground under the vehicle body via the ground foot. The placement work is finished here.Next, there is work to accurately position the display for indicating the normal position of the abnormal reference point at the normal position of the abnormal reference point (in this specification, this work is simply referred to as positioning work). I do. First, the contents are as follows:
Hold the vehicle body measurement device in your hand and move it back and forth and left and right so that each contact point at the top of the vertical gauge is located approximately directly below the normal reference point. Then, with the goal of bringing each of the four contact parts into accurate contact with the four normal reference points, gradually extend the left front, right front, left rear, and right rear grounding feet to lower the installation base. Lift up until each contact part reaches the height just before it touches each normal reference point, then stop the lifting operation and place the four contact parts exactly below the four normal reference points. While carefully checking the positions of the four normal reference points and the four contact points, hold the vehicle body measurement device in your hand and carefully move it back and forth and left and right to align them, and then align the four contact points. Gradually extend each of the four contact parts and lift the vehicle body measurement device to a height and angle at which the four contact parts accurately contact the four normal reference points. At this point, the reference point display section is located at the normal position of the abnormal reference point, and the positioning work of the reference point display section is completed.
次に計測作業及び車体修整作業を行う。その内容は、基
準点表示部に対する異常基準点の位置のずれを見ること
によって、当該異常基準点の位置のくるいを計測できる
。その後、異常基準点が基準点表示部と正確に接触する
まで車体修整作業を行い、それが接触したことを見るこ
とにより、当該異常基準点が正常な位置に戻ったことを
計測できる。Next, measurement work and car body modification work will be carried out. The content is that by looking at the deviation of the position of the abnormal reference point with respect to the reference point display section, the deviation of the position of the abnormal reference point can be measured. Thereafter, the vehicle body modification work is performed until the abnormal reference point accurately contacts the reference point display section, and by observing that the abnormal reference point has made contact, it can be determined that the abnormal reference point has returned to its normal position.
6 欠点
(b) 前記した様に位置決め作業は多くの面倒な作
業から成りたっているものなので、それだけでも大変に
面倒なものである。しかも実際の位置決め作業は、前記
した通りにスムーズに行えるものではなく、非常に長時
間かかる作業である。以下その理由を列挙する。6. Disadvantage (b) As mentioned above, the positioning work consists of many troublesome tasks, and this alone is very troublesome. Moreover, the actual positioning work cannot be performed smoothly as described above, and takes a very long time. The reasons are listed below.
その14本の接地足を伸ばして車体計測機を持ち上げて
いく作業においては、車体の下側の四隅に近い位置にあ
る4つのハンドルの場所を順に何度も歩いて回って行き
、各々調整しなければならない。When lifting the vehicle body measurement device by extending its 14 ground-contacting legs, I walked around the four handles located near the four corners of the bottom of the vehicle many times in order and adjusted each one. There must be.
その2 基準点は車体の床の裏側やフレーム等の奥で狭
くて部品の陰になる様な所に位置することが多い為、正
常基準点に接触部を正確に接触させる為に当該基準点を
目視する作業においては、しゃがみこんで車体の下側の
当該基準点から50cm程度以内で、かつ、当該基準点
を確実に目視できる位置にいちいち頭を突っこんで、そ
の状態をよく見ながら行わなければならない。そして4
箇所の正常基準点の各々についてこの様な作業を必要と
する。Part 2: The reference point is often located in a narrow place behind the floor of the car body or deep inside the frame, etc., where it is hidden by parts, so in order to make the contact part accurately contact the normal reference point, the reference point When visually inspecting the vehicle, you must squat down and stick your head in a position where you can clearly see the reference point within 50 cm of the reference point on the underside of the vehicle, and carefully observe the condition. No. and 4
Such work is required for each normal reference point of the location.
その6 正常基準点に接触部を正確に接触させる作業に
おいては、その2に示した作業と共に、車体の下側から
頭を出し、車体計測機を手で持って前後左右に動かせる
所及び各ハンドルの所まで歩いて回り、車体計測機の位
置及び角度を適当に調整する作業を行わなければならな
い。そして再び前記の位置に頭を突っ込んで当該正常基
準点と接触部の位置のずれが完全になくなったか、ある
IV)はそれがどの様に変わったかを確認し、まだずれ
ている場合には前記の作業を何度か繰り返し行わなけれ
ばならない。Part 6: In addition to the work shown in Part 2, in order to accurately contact the contact part with the normal reference point, stick your head out from under the car body, hold the car body measurement device in your hand, and place it in a place where you can move it forward, backward, left, and right, and at each handlebar. You must walk to the location and adjust the position and angle of the vehicle body measurement device appropriately. Then, stick your head into the above position again and check whether the deviation between the normal reference point and the position of the contact part has completely disappeared, or how it has changed, and if it is still deviated, This process must be repeated several times.
その4 前記した様に4箇所の正常基準点を一度に見る
ことはできないので、正常基準点(こ接触部を正確に接
触させる作業は、1箇所の正常基準点ごとに行わなけれ
ばならない。その為、1箇所の正常基準点に接触部を正
確に接触させようとして車体計測機を前後左右に動かし
たり、)\ンドルで接地足を伸ばしたりすると、それ以
前Gこ正常基準点に正確に接触させておいた他の接触部
も動UAで位置がずれてしまったり、あるいは垂直ゲー
ジがしなったりしてしまう。そこでその接触部Gこつい
て再度、正確に接触させる作業をやり直さなければなら
ない。即ち、4箇所の正常基準点(こつl/)で順に接
触させていきながらひとまわりすればそれでこの作業が
終るわけではなく、それを何度か繰り返すうちにだんだ
ん4箇所とも正確に接触する様になってくるというのが
実際である。Part 4: As mentioned above, it is not possible to see all four normal reference points at once, so the work to accurately bring the contact points into contact must be done for each normal reference point. Therefore, if you move the body measuring device back and forth or left or right in an attempt to bring the contact part into precise contact with one normal reference point, or if you extend your ground contact foot with the steering wheel, the G will not accurately contact the normal reference point. Other contact parts that have been left in place may also shift their positions due to movement UA, or the vertical gauge may bend. Then, the contact part G becomes difficult and the work to make accurate contact has to be done again. In other words, the work is not finished just by making one turn while making contact with the four normal reference points (Katsul/) in order, but as you repeat this several times, you will gradually come into contact with all four points accurately. The reality is that it will become.
その5 以上の作業をすべてmm単位の正確さで細心の
注意を払って行わなければならない。なぜならば、この
位置決め作業が面倒である力)らと1/″Iって、いい
加減に行うと、例えば基準、截表示部力(正常な′位置
から3 mmずれた状態に位置決めされたまま計測を行
うと修整した車体のその部分がそのまま3 mmずれた
状態に仕上がってしまう為、自動車の安全走行の為に及
びドア、ボンネット等の部品の正確な立付の為にmm単
位の精度を必要とする車体修整作業用の車体計測機とし
ては役しこ立たないものとなってしまうからである。Part 5: All of the above operations must be performed with great care and accuracy down to the millimeter. This is because this positioning work is troublesome.If done carelessly, for example, the reference, cutting force (force) etc. may be measured while being positioned at a position 3 mm off from the normal position. If you do this, the corrected part of the car body will end up being off by 3 mm, so precision in the mm range is necessary for safe driving and for the accurate mounting of parts such as doors and bonnets. This is because it becomes useless as a vehicle body measurement device for vehicle body modification work.
(c)車体修整作業は6〜10トン以上もの力で車体を
繰り返し押したり引いたりすることが多り、)ので、そ
の際に車体が動いてしまわない様Gこしつかつと車体を
地面に固定するのであるが、実際Gこは車体修整時に車
体が数mmから数十mm程度動いてしまうのはやむを得
ないのが現状である。その場合、車体が動いてしまうの
に対して、車体計測機はそのままの位置にあるので、前
記した様に綿密に位置決め作業を行なったとしても、車
体修整作業中に車体が車体計測機からずれてしまう。そ
の為、そのまま車体の計測を行うと誤差が生じてしまう
ので、面倒な位置決め作業を車体修整作業中に何度もや
り直さなければならないことが多いO〔6〕レーザー光
線を利用して位置決め作業を行う車体計測機
1 構成例
車体の全長よりもやや長く前後方向に伸びる縦ゲージが
あり、車体の全幅よりもやや長く左右方向に伸びる横ゲ
ージがあり、縦ゲージの前端と横ゲージの左端がはめこ
みでくっついて、両ゲージでL字形を構成している。縦
ゲージの後端及び前端並びに横ゲージの右端に各々下方
に伸びた接地足があり、各接地足の長さをネジで調整す
ることにより、各ゲージの高さ及び長手方向の傾斜角度
を調整することができる様に構成されており、これらの
接地足によって両ゲージは地面上に設けられる。縦ゲー
ジの後端には、縦ゲージの長手方向に平行にレーザー光
線を発振するレーザー光線発振機があり、各ゲージには
、ゲージ上を移動可能で、かつ、レーザー光線を概水平
直角方向に反射する反射鏡が1個ずつある。そして、各
反射鏡にはネジで長さ調整可能な足があり、それによっ
て直角に反射したレーザー光線を上下に角度調整するこ
とができる。他方、基準点に掛止可能な掛止具を上端に
設けた透明な板状のスケールを有し、かつ、同スケール
に沿って上下に摺動可能な基準点相当部を有する構成の
吊スケールが10本程度ある(なお、吊スケールの長さ
とは、掛止具から基準点相当部までの距離をいうものと
する。)2 使用法例
車体を持ち上げ、地面に固定された車体修整作業用のス
タンド上に車体を載せて固定し、同車体のわきに車体計
測機を持ってくる。(c) Car body repair work often involves repeatedly pushing and pulling the car body with a force of 6 to 10 tons or more. However, in reality, it is unavoidable that the vehicle body moves by several millimeters to several tens of millimeters during vehicle body modification. In that case, while the car body moves, the car body measuring machine remains in the same position, so even if you perform the positioning work carefully as described above, the car body will shift from the car body measuring machine during car body repair work. I end up. Therefore, if the car body is measured directly, errors will occur, so the troublesome positioning work often has to be redone many times during car body repair work.O [6] Positioning work using laser beams Vehicle body measurement device 1 Configuration example There is a vertical gauge that is slightly longer than the overall length of the vehicle body and extends in the front-rear direction, and a horizontal gauge that is slightly longer than the overall width of the vehicle body and extends in the left-right direction.The front end of the vertical gauge and the left end of the horizontal gauge are inset. Together, both gauges form an L shape. There are grounding feet extending downward at the rear and front ends of the vertical gauge and the right end of the horizontal gauge, and by adjusting the length of each grounding foot with a screw, the height and longitudinal inclination angle of each gauge can be adjusted. These grounding feet allow both gauges to be placed on the ground. At the rear end of the vertical gauge is a laser beam oscillator that emits a laser beam parallel to the longitudinal direction of the vertical gauge, and each gauge has a reflector that is movable on the gauge and reflects the laser beam in an approximately horizontal orthogonal direction. There is one mirror each. Each reflector has legs that can be adjusted in length with screws, allowing the laser beam to be reflected up or down at right angles. On the other hand, there is a hanging scale that has a transparent plate-like scale with a hanging tool at the upper end that can be hung on a reference point, and a part corresponding to the reference point that can slide up and down along the scale. (The length of the hanging scale refers to the distance from the hanging tool to the part corresponding to the reference point.) 2 Example of use When lifting a car body and fixing it to the ground, Place the vehicle on a stand and secure it, then bring the body measurement device to the side of the vehicle.
まず配置作業を行う。その内容は、当該車体の左右対称
に位置する適当な2組(即ち4箇所)の正常基準点及び
1箇所の異常基準点(この場合、当該異常基準点は当該
正常基準点よりも前方に位置するものとする。)を選び
出し、車体寸法図の側面図に記載された当該5箇所の各
基準点から車体基準線までの距離に各吊スケールの長さ
を一致させて、当該5本の吊スケールを当該基準点に吊
り下げる。他方、車体寸法図の平面図に記載された当該
5箇所の基準点の正常な位置間の前後方向の間隔と同じ
間隔で縦ゲージの6箇所に適当に印を付けて、車体の左
側やや下方に縦ゲージが、また車体の前側やや下方に横
ゲージが各々位置する様に6本の接地足で両ゲージを適
当にL字状に地面上に置いて設ける。ここで配置作業は
終る。First, do the placement work. The contents include two appropriate sets (i.e., four locations) of normal reference points located symmetrically on the vehicle body and one abnormal reference point (in this case, the abnormal reference point is located ahead of the normal reference point). ), and match the length of each hanging scale to the distance from each of the five reference points to the car body reference line written on the side view of the car body dimension drawing, and set the five hanging scales. Hang the scale at the reference point. On the other hand, mark the six points on the vertical gauge at the same distance in the longitudinal direction between the normal positions of the five reference points shown on the plan view of the car body dimension drawing, and mark them slightly below the left side of the car body. Both gauges are placed on the ground in an appropriate L-shape using six ground contact feet so that the vertical gauge is located at the front side of the vehicle body and the horizontal gauge is located slightly below the front side of the vehicle body. The placement work ends here.
次に異常基準点の正常な位置の相当位置(本明がある位
置をいう。)を示す為の表示を異常基準点の正常な位置
の相当位置に正確に位置せしめる作業(この作業も前記
位置決め作業とその趣意を同じくするものなので、本明
細書においては単に位置決め作業という。)を行う。以
下その内容を順を追って説明する。縦ゲージの1番後の
印の所に反射鏡を正確に位置させてレーザー光線を照射
する。そして、前記の左右対称に位置する正常基準点の
うちの後寄りの組に吊り下げた2本の吊スケールの2個
の基準点相当部を当該レーザー光線が正確に貫通する様
になるまで、縦ゲージを手で持って前後及び左右に動か
したり、縦ゲージのntJ端及び後端の接地足を伸縮さ
せたり、また、縦ゲージの反射鏡の足を伸縮させたりし
て調整する。Next, the work of accurately positioning the display to indicate the position corresponding to the normal position of the abnormal reference point (referring to the position where the present invention is located) at the position corresponding to the normal position of the abnormal reference point (this work also This is simply referred to as positioning work in this specification because it has the same purpose as positioning work. The contents will be explained step by step below. Position the reflector accurately at the last mark on the vertical gauge and irradiate the laser beam. Then, vertically move the laser beam until it accurately passes through the parts corresponding to the two reference points of the two hanging scales suspended from the rear group of the normal reference points located symmetrically. Adjustments are made by holding the gauge in your hand and moving it back and forth and left and right, by expanding and contracting the grounding feet at the ntJ end and rear end of the vertical gauge, and by expanding and contracting the legs of the reflector of the vertical gauge.
更に後から2番目の印の所に反射鏡を移動させてレーザ
ー光線を照射し、前に合わせた後寄りの2個の基準点相
当部に対する縦ゲージの1番後寄りの印の位置及び角度
がずれない様に注意しながら、正常基準点のうちの前寄
りの組に吊り下げた2本の吊スケールの基準点相当部を
当該レーザー光線が正確に貫通する様になるまで縦ゲー
ジの前端及び後端の接地足を伸縮させて調整する。この
位置及び角度に縦ゲージを固定した後、縦ゲージの反射
鏡を縦ゲージの前端に移動させて、その反射したレーザ
ー光線が横ゲージの反射鏡の所定の箇所を照射する角度
になる様に、横ゲージの右端を手で持って前後に動かし
て、また、その接地足を伸縮させて合わせる。これによ
り、横ゲージカ(縦ゲージに対して直角になる。この位
置及び角度Gこ横ゲージを固定した後、横ゲージの反射
鏡が反射するレーザー光線が前記4箇所の正常基準点の
うち適当な1箇所に吊り下・かった吊スケールの基準点
相当部を正確に照射する様になるまで、横ゲージの反射
鏡を左右に移動したり、同反射鏡の足を伸縮させたりし
て調整する。車体寸法図の平面図に記載された当該適当
な1箇所の正常基準点から前記異常基準点の正常な位置
までの左右方向の距離と同じ距離だけその反射鏡のある
位置から離れた横ゲージ上の位置に印を付ける。そして
、その印の位置に反射鏡を正確に位置させて照射したと
きの当該レーザー光線と、縦ゲージの反射鏡を縦ゲージ
上の1番前寄りの印の所に正確に位置させて照射したと
きのレーザー光線との交点が異常基準点の正常な位置の
相当位置を表示する。ごこで位置決め作業は終る。Furthermore, move the reflector to the second mark from the rear and irradiate the laser beam to measure the position and angle of the rearmost mark on the vertical gauge relative to the two rear reference points that were aligned in the front. While being careful not to shift, move the front and rear ends of the vertical gauge until the laser beam accurately penetrates the part corresponding to the reference point of the two hanging scales suspended from the front set of the normal reference points. Adjust by expanding and contracting the grounding foot at the end. After fixing the vertical gauge at this position and angle, move the reflector of the vertical gauge to the front end of the vertical gauge so that the reflected laser beam is at an angle that illuminates a predetermined location on the reflector of the horizontal gauge. Hold the right end of the horizontal gauge in your hand and move it back and forth, and also extend and contract the grounding foot to match. As a result, the horizontal gauge becomes perpendicular to the vertical gauge. After the horizontal gauge is fixed at this position and angle Adjust by moving the reflector of the horizontal gauge to the left or right, or by extending or contracting the legs of the reflector, until the area corresponding to the reference point of the hanging scale is illuminated accurately. On the lateral gauge located away from the position of the reflector by the same distance in the left-right direction from the appropriate one normal reference point described on the plan view of the vehicle body dimension drawing to the normal position of the abnormal reference point. Mark the position of .Then, place the reflector exactly at the mark and place the laser beam when irradiated, and the reflector of the vertical gauge exactly at the mark near the front on the vertical gauge. The intersection point with the laser beam when positioned at and irradiated will indicate the position equivalent to the normal position of the abnormal reference point.The positioning work ends here.
次に計測作業及び車体修整作業を行う。その内容は、縦
ゲージの所定の位置の反射鏡に反射されて照射するレー
ザー光線と異常基準点に吊り下げた吊スケールの基準点
相当部との位置のずれを見ることによって、当該基準点
の前後及び上下への位置のくるいを計測することができ
る。また、同様に横ゲージの所定の位置の反射鏡に反射
されて照射するレーザー光線と異常基準点に吊り下げた
吊スケールの基準点相当部との位置のずれを見ることに
よって、当該異常基準点の左右及び上下への位置のくる
いを計測することができる。その後異常基準点に吊り下
げた吊スケールの基準点相当部が当該レーザー光線の交
点に位置するまで車体修整作業を行い、それが当該交点
に位置したことを見ることにより、異常基準点が正常な
位置に戻ったことを計測できる。Next, measurement work and car body modification work will be carried out. The content is determined by observing the positional deviation between the laser beam reflected by the reflector at a predetermined position on the vertical gauge and the reference point equivalent part of the hanging scale suspended at the abnormal reference point. It is also possible to measure the rotation of the position up and down. Similarly, by looking at the positional deviation between the laser beam reflected and irradiated by the reflector at a predetermined position on the horizontal gauge and the part corresponding to the reference point of the hanging scale suspended from the abnormal reference point, the abnormal reference point can be detected. It is possible to measure the rotation of the position from side to side and up and down. After that, the car body is repaired until the part of the hanging scale that corresponds to the reference point suspended from the abnormal reference point is located at the intersection of the laser beams, and by checking that it is located at the intersection, the abnormal reference point is located at the normal position. It is possible to measure the return to .
6゛欠点
(d) 前記した様に位置決め作業は多くの面倒な作
業から成り立っているものなので、それだけでも大変面
倒なものである。しかも実際の位置決め作業は、前記し
た通りにスムーズに行えるものではなく、非常に長時間
かかる作業である。以下その理由を列挙する。6゛Disadvantage (d) As mentioned above, the positioning work consists of many troublesome works, so it alone is very troublesome. Moreover, the actual positioning work cannot be performed smoothly as described above, and takes a very long time. The reasons are listed below.
そめ1 正常基準点のうちの後寄りの組に吊り下げた2
本の吊スケールの2個の基準点相当部をレーザー光線が
正確に貫通する様になるまでには、前記した縦ゲージを
前後及び左右に動かす作業、2本の接地足を伸縮させる
作業及び反射鏡の足を伸縮させる作業を各1回ずつ行え
ば済むというものではなく、これらの各作業を交互に何
度もやり直さなければならない。なぜならば、これらの
各作業は互いに他の作業の結果に影響を与えるものであ
るからである。Some 1 Hanging from the rear group of the normal reference points 2
In order for the laser beam to accurately penetrate the parts corresponding to the two reference points of the book hanging scale, it is necessary to move the vertical gauge as described above back and forth and left and right, extend and retract the two grounding feet, and reflector. It is not enough to simply extend and retract each leg once; instead, each of these tasks must be repeated several times. This is because each of these tasks mutually influences the results of the other tasks.
その2 正常基準点のうち前寄りの組に吊り下げた2本
の吊スケールの2個の基準点相当部をレーザー光線が正
確に貫通する様にする作業を行うと、その際に前記その
1で合わせた後寄りの2個の基準点相当部に対する縦ゲ
ージの1番後寄りの印の所の位置及び角度がずれてしま
う為、前記その1の作業をやり直さなければならない。Part 2: When performing work to ensure that the laser beam accurately penetrates the parts corresponding to the two reference points of the two hanging scales suspended from the front group of the normal reference points, at that time, in Part 1 above, Since the position and angle of the most rearward mark on the vertical gauge with respect to the parts corresponding to the two rearward reference points that have been combined are shifted, it is necessary to redo the step 1 above.
更に前記その1の作業をやり直していると、今度は前寄
りの2個の基準点相当部に対する縦ゲージの後から2番
目の印の所の位置及び角度がずれてしまう為、これらの
作業を交互に何度もやり直さなければならない。Furthermore, when I redid the work in Part 1 above, the position and angle of the second mark from the end of the vertical gauge were shifted relative to the two front reference points, so I had to repeat these steps. You have to repeat it over and over again.
その6 以上の作業は、6本の接地足間及びそれらと各
反射鏡との間を何度も歩いて往復して行わなければなら
ない。Part 6: The above work requires walking back and forth between the six feet on the ground and between them and each reflector.
その4 以上の作業をすべてmm単位の正確さで細心の
注意を払って行わなければならない。なぜならば、この
位置決め作業が面倒であるからといって、いい加減に行
うと、例えば所定の位置に位置させた反射鏡に反射され
たレーザー光線の交点が異常基準点の正常な位置の相当
位置から3 mmずれた状態に位置決めされたまま計測
を行うと、修整した車体のその部分がそのまま3 mm
ずれた状態に仕上がってしまう為、自動車の安全走行の
為に及びドア、ボンネ、7ト等の部品の正確な立付の為
にI+Im単位の精度を必要とする車体修整作業用の車
体計測機としては役に立たないものとなってしまうから
である。Part 4: All of the above operations must be performed with great care and accuracy down to the millimeter. This is because even though this positioning work is troublesome, if it is done carelessly, for example, the intersection of the laser beam reflected by the reflector positioned at a predetermined position will be three degrees from the position equivalent to the normal position of the abnormal reference point. If you measure with the position shifted by 3 mm, the corrected part of the car body will be 3 mm as it is.
Vehicle body measurement equipment for vehicle body repair work that requires accuracy in units of I+Im for safe driving of the vehicle and for accurate standing of parts such as doors, bonnets, and parts. This is because it becomes useless.
(e)前記(C)の欠点に同じ。(e) Same as the drawback of (C) above.
以上説明した様に、この種の車体計測機は、異常基準点
の正常な位置又は正常な位置の相当位置を正確に表示し
て、その表示と当該異常基準点又は当該異常基準点の基
準点相当部との位置のずれを見ることによって計測を行
うものである。そして、従来のこの種の車体計測機にお
いては、車体の計測を完了するまでに、配置作業、位置
決め作業及び計測作業の6つの作業が必要であった。そ
のうち、配置作業は、車体寸法図に基づいて車体計測機
の各構成部分を所要の配置にセットする作業であるから
短時間のうちに簡単に行うことができる。また、計測作
業は、目で確認するだけの作業であるから、はとんど−
瞬のうちに行うことができる。これに対して位置決め作
業は、前後左右方向に車体に近い大きさ、あるいはそれ
以上の大きさを有する車体計測機を細心の注意を払って
慎重に扱い、縦、横及び高さの三次元にわたってmm単
位の正確さで位置決めする作業であるがら、非常に面倒
で、がっ、長時間ががり、がっ、困難な作業である。従
って、車体の計測を完了するまでに要する作業時間のう
ち、大半の時間はこの位置決め作業にががっていた。し
かも、従来のこの種の車体計測機においては、車体修整
作業中に何度も車体が車体計測機がらずれてしまう為、
一度終えた位置決め作業をその度毎に何度もやり直さな
ければならないことが多いという欠点も併せ有している
。以上の様な欠点を有する結果、従来のこの種の車体計
測機は、計測が不正確になりがちであり、また、計測を
完了するまでに長時間を要していた為、はとんど使用さ
れていない。As explained above, this type of vehicle body measurement device accurately displays the normal position of the abnormal reference point or the equivalent position of the normal position, and displays the abnormal reference point or the reference point of the abnormal reference point. Measurement is performed by looking at the positional deviation from the corresponding part. With this type of conventional vehicle body measuring machine, six operations, including placement, positioning, and measurement, are required to complete the measurement of the vehicle body. Among them, the arrangement work is a work of setting each component of the vehicle body measuring device in the required arrangement based on the vehicle body dimensional drawing, so it can be easily performed in a short time. In addition, measurement work is only a visual check, so it is very time-consuming.
It can be done in an instant. On the other hand, positioning work requires careful handling of a body measuring device that is close to or even larger than the vehicle body in the front, rear, left, and right directions, and is carried out in three dimensions: length, width, and height. Although the work involves positioning with millimeter accuracy, it is extremely troublesome, takes a long time, and is difficult. Therefore, most of the work time required to complete the measurement of the vehicle body is spent on this positioning work. Moreover, with this type of conventional body measuring machine, the body of the vehicle would shift many times during body repair work, so
This method also has the disadvantage that once the positioning work has been completed, it is often necessary to redo it over and over again. As a result of the above-mentioned drawbacks, conventional vehicle body measuring machines of this type tend to give inaccurate measurements and take a long time to complete measurements, making them difficult to use. not being used.
そこで、自動車車体整備業界等では、車体の計測を完了
するのに長時間を要する原因となっている位置決め作業
を簡単、がっ、短時間に行うことができる車体計測機を
、更にできれば、車体修整作業中に位置決め作業をやり
直す必要のない車体計測機を要望している。これに対応
して、その要望に沿うべく、自動車用工具及び計測機製
造業界等で長年、その様な車体計測機の開発に努力して
きたが、前記の要望のうちのひとつをかなえるものさえ
も開発できないでいる。Therefore, in the automobile body maintenance industry, etc., it is necessary to develop car body measuring machines that can easily and quickly perform the positioning work that takes a long time to complete car body measurements. We are requesting a vehicle body measurement device that does not require repositioning work during repair work. In response to this, the automotive tool and measuring instrument manufacturing industry has been working hard to develop such vehicle body measuring instruments for many years in order to meet these demands. I can't develop it.
本発明の目的は、前記自動車車体整備業界等が要望し、
かつ、自動車用工具及び#漉機製造業界等が開発努力の
目標としている車体計測機よりも更に一歩進んだ車体計
測機、即ち、位置決め作業を全く不要とし、しかも、車
体修整作業中に位置決め作業をやり直す面倒を全く無く
すことにより、慣れない人がやっても車体を簡単に正確
に計測でき、従来のこの種の車体計測機に比べて極めて
短時間のうちに計測を完了することができる画期的な車
体計測機を提供することにある。The purpose of the present invention is to meet the needs of the automobile body maintenance industry, etc.
In addition, it is a car body measuring machine that is one step more advanced than the car body measuring machine that is the goal of development efforts in the automotive tool and #shaft manufacturing industry, in other words, it does not require any positioning work at all, and moreover, it can perform positioning work during car body repair work. By completely eliminating the trouble of redoing the steps, even inexperienced people can easily and accurately measure the vehicle body, and the measurement can be completed in an extremely short time compared to conventional vehicle body measuring machines of this type. Our goal is to provide a cutting-edge vehicle body measurement device.
以下、第1発明の実施例を第1図及び第2図を参照しな
がら説明する。なお、第1図は本実施例の車体計測機を
+十車体に吊り下げた状態を表す側面図であり、第2図
はそのうちの車体計測機、正常基準点及び異常基準点の
みを表す斜視図である。なお、本実施例において選び出
す基準点は、その正常な位置の高さがどれも等しいもの
とする基準点に係止可能な7字形の金具(2)が上端に
あり・かつ、磁石(3)が下端にある適当な同じ長さの
紐状の吊体(4)を6本有して、車体(5)の適当に離
れた一直線上にない6箇所の基準点間を掛は渡し可能に
した、前後に適当な長さを有する縦桟(6)と同縦桟(
6)に対して直角を維持しなから縦桟(6)に沿って摺
動する左右に適当な長さを有する4本の横桟(7)とか
ら成る、車体(5)に吊り下げ可能な架体(8)を構成
する。また、前記吊体(4)と同じ長さを有し、かつ、
上端を異常基準点(1・)の正常な位置を表示する為の
基準点表示部(9)とする円錐形の表示体00)の下端
を磁石(n)にして、これを前記架体(8)に吸着して
係着させて、当該基準点表示部(9)を前記吊体(4)
、架体(8)及び表示体Oo)を介して車体(5)に吊
り下げ可能に構成する。Embodiments of the first invention will be described below with reference to FIGS. 1 and 2. Note that Figure 1 is a side view showing the vehicle body measuring device of this embodiment suspended from the vehicle body, and Figure 2 is a perspective view showing only the vehicle body measuring device, normal reference point, and abnormal reference point. It is a diagram. In addition, the reference points selected in this example have a 7-shaped metal fitting (2) at the upper end that can be latched to the reference points whose normal heights are the same, and a magnet (3). has six string-like hanging bodies (4) of the same length at the lower end, making it possible to hang between six reference points that are appropriately spaced apart and not on a straight line on the vehicle body (5). Vertical bars (6) and vertical bars (6) with appropriate lengths in the front and rear.
It consists of four horizontal bars (7) of appropriate length on the left and right sides that slide along the vertical bars (6) while maintaining a right angle to the vehicle body (5). A frame (8) is constructed. Moreover, it has the same length as the hanging body (4), and
The lower end of the conical display body 00) whose upper end serves as a reference point display section (9) for displaying the normal position of the abnormal reference point (1) is a magnet (n), and this is attached to the frame ( 8), and attach the reference point display section (9) to the hanging body (4).
, so that it can be suspended from the vehicle body (5) via the frame (8) and the display body (Oo).
次にこの使用法を説明する。This usage will be explained next.
地面(ロ)に固定された車体修整作業用のスタンドα3
)上に車体(5)を載せて固定する。Stand α3 for car body repair work fixed to the ground (b)
) and secure it by placing the vehicle body (5) on top of it.
まず配置作業を行う。その内容は、当該車体(5)の適
当に離れた一直線上にない6箇所の正常基準点(1)及
び1箇所の異常基準点(1′)を選び出し、各横桟(7
)の位置並びに吊体(4)及び表示体(1o)の各磁石
(3)、(1υの吸着位置を調整することにより、車体
寸法図の平面図に記載された当該3箇所の正常基準焦(
1)及び1箇所の異常基準点(1′)の正常な位置と同
じ配置に架体(8)上で前記の磁石(3)、(11)を
正確に配置させる。そして、前記の各正常基準点(1)
に各吊体(4)を係止して、第1図の様に車体計測機を
車体(5)の下側に吊って設ける。ここで配置作業は終
る。First, do the placement work. The content is to select 6 normal reference points (1) and 1 abnormal reference point (1') that are not on a straight line and are appropriately spaced apart from each other on the vehicle body (5), and select each of the horizontal rails (7
) and the adsorption positions of the magnets (3) and (1υ) of the hanging body (4) and display body (1o), the normal reference focal points of the three locations indicated on the plan view of the vehicle body dimension drawing can be adjusted. (
1) and one abnormal reference point (1'), the magnets (3) and (11) are accurately placed on the frame (8) in the same position as the normal position. And each of the above normal reference points (1)
Each hanging body (4) is locked to the body, and the vehicle body measurement device is suspended from the underside of the vehicle body (5) as shown in FIG. The placement work ends here.
この時点で位置決め作業をすることなく自然に位置決め
がなされて、当該基準点表示部(9)は当該異常基準点
(1′)の正常な位置に正確に位置する次に計測作業及
び車体修整作業を行う。その内容は、基準点表示部(9
)に対する異常基準点(11)の位置のずれを見ること
によって、異常基準点(1′)の位置のくろいが計測さ
れる。At this point, the positioning is done naturally without any positioning work, and the reference point display section (9) is accurately located at the normal position of the abnormal reference point (1').Next, measurement work and car body repair work are performed. I do. The contents are shown in the reference point display area (9
), the deviation of the position of the abnormal reference point (1') is measured by observing the deviation of the position of the abnormal reference point (11) with respect to the position of the abnormal reference point (1').
その後、異常基準点(1・)が基準点表示部(9)と正
確に接触するまで車体修整作業を行い、それが接触した
ことを見ることにより、異常基準点(1・)が正常な位
置に戻ったことが計測される。After that, repair the vehicle body until the abnormal reference point (1.) accurately contacts the reference point display section (9), and check that the abnormal reference point (1.) is in the normal position. It is measured that the temperature has returned to .
次に第2発明の実施例を第3図を参照しながら説明する
。Next, an embodiment of the second invention will be described with reference to FIG.
基準点に吸着して係止可能な磁石0→が上端にあり、か
つ、下端にも磁石(ロ))がある適当な長さの紐状の吊
体(4)を6本有して、車体の適当に離れた一直線上に
ない3箇所の基準点間を掛は渡し可能にした、前後及び
左右に適当な長さを有する長方形の板状の車体に吊り下
げ可能な架体(8)を構成する。架体(8)には、直角
に交わる多数の縦線及び横線を引いた目盛(図示せず。It has six string-like hanging bodies (4) of appropriate lengths, each having a magnet (0) at the upper end that can be attracted and locked to a reference point, and a magnet (b) at the lower end. A frame (8) that can be suspended from a rectangular plate-shaped car body with appropriate lengths in the front and rear and left and right sides, and can be hung between three reference points that are appropriately spaced and not on a straight line on the car body. Configure. The frame (8) has a scale (not shown) with many vertical and horizontal lines that intersect at right angles.
)並びに左端を前後に伸びる縦レール06)及び前端を
左右に伸びる横レールαηを設ける。また、架体(8)
上面に沿って平行に真前にレーザー光線(ト)を照射す
る様な角度でレーザー発振機(ロ))を架体(8)の左
後端に固定すると共に、縦レール06)及び横レールα
ηには、各レールに沿って移動可能で、かつ、レーザー
光線(財)を架体(8)上面に沿って平行に直角方向に
反射する反射鏡(財)、0υを1個ずつ設けて、これら
レーザー発振機((2)及び反射鏡(イ)、Ql)から
成るレーザー照射機構を吊体(4)及び架体(8)を介
して車体に吊り下げ可能に構成する。他方、基準点に係
止可能な1字形の金具に)が上端にある紐状の吊具(ハ
)を設け、レーザー光線(ホ)の照射位置に対する位置
関係で当該基準点の位置のくるいを表示する点状の基準
点相当部(ハ)を吊具(ハ)につながる透明な板(ハ)
に設け、これら吊具(ハ)と基準点相当部(財)とから
成る車体に吊り下げ可能な指標体Gl!時を1本構成す
る。), a vertical rail 06) extending back and forth from the left end, and a horizontal rail αη extending left and right from the front end. Also, the frame (8)
Fix the laser oscillator (b)) to the left rear end of the frame (8) at an angle that will irradiate the laser beam (g) parallel to the top surface directly in front of you, and attach the vertical rail 06) and the horizontal rail α.
η is provided with one reflective mirror (0υ) that is movable along each rail and that reflects the laser beam in a perpendicular direction parallel to the top surface of the frame (8), A laser irradiation mechanism consisting of these laser oscillators ((2) and reflectors (A), Ql) is configured to be suspended from the vehicle body via a hanging body (4) and a frame (8). On the other hand, a string-like hanger (c) with a 1-shaped metal fitting that can be locked to the reference point is installed at the upper end, and the ring at the reference point is fixed in relation to the position of the laser beam (e). A transparent plate (c) that connects the dot-like reference point portion to be displayed (c) to the hanging tool (c)
An indicator body Gl! which can be hung on the vehicle body consisting of these hanging tools (c) and a reference point equivalent part (goods). Consists of one line of time.
次にこの使用法を説明する。This usage will be explained next.
車体を持ち上げ、地面に固定された車体修整作業用のス
タンド上に車体を載せて固定する。Lift the car body and place it on a stand fixed to the ground for car body repair work.
まず配置作業を行う。その内容は、当該車体−の適当に
離れた一直線上にない6箇所の正常基準点(1)及び1
箇所の異常基準点(11)を選び出し、車体寸法図の平
面図に記載された当該基準点の正常な位置間の前後方向
の間隔と同じ間隔で縦レール(16)の4箇所に適当に
印を付け、また同様に当該基準点の正常な位置間の左右
方向の間隔と同じ間隔で横レールθηの4暗所に適当に
印を付ける。これ(8)上に各吊体(4)の下端の磁石
(15)を吸着させる。また、前記異常基準点(セ)の
正常な位置を表示する為に付けた印の位置に各反射鏡に
)、Gl!υを位置させる。車体寸法図の側面図に記載
された当該異常基準点(11)の正常な位置から車体基
準線までの距離に、指標体(ハ)の上端から基準点相当
部G24までの距離を一致させ、その指標体に)を前記
異常基準点(1・)に吊り下げる。また、当該各正常基
準点(1)から車体基準線までの距離に架体(8)上面
からレーザー光線(ホ)軸までの距離を加えた距離に各
吊体(4ンの長さを一致させる。前記各吊体(4)を各
正常基準点(1)に係止して車体計測機を車体の下側に
吊って設ける。ここで配置作業は終る。First, do the placement work. The contents are 6 normal reference points (1) and 1 at appropriately distant locations on the vehicle body that are not on a straight line.
Select the abnormal reference point (11) at the location, and mark it appropriately at four locations on the vertical rail (16) at the same distance in the longitudinal direction between the normal positions of the reference point written on the plan view of the vehicle body dimension drawing. , and similarly mark the four dark spots of the horizontal rail θη at the same intervals as the horizontal intervals between the normal positions of the reference points. The magnet (15) at the lower end of each hanging body (4) is attracted onto this (8). In addition, Gl! is placed on each reflector at the position of the mark made to indicate the normal position of the abnormal reference point (C). Position υ. Match the distance from the upper end of the indicator body (C) to the reference point equivalent part G24 with the distance from the normal position of the abnormal reference point (11) described in the side view of the vehicle body dimension drawing to the vehicle body reference line, The indicator body) is suspended from the abnormality reference point (1.). Also, the length of each hanging body (4) should be made to match the distance from each normal reference point (1) to the vehicle body reference line plus the distance from the top surface of the frame (8) to the laser beam (E) axis. Each of the hanging bodies (4) is locked to each normal reference point (1), and the vehicle body measurement device is suspended from the underside of the vehicle body.The arrangement work is completed here.
この時点で位置決め作業をすることなく、この縦レール
(16)の反射鏡(イ)が反射するレーザー光線(ホ)
と、同反射鏡に)を縦レール06)の前端に位置させた
ときに横レール(17)の反射鏡ψυが反射するレーザ
ー光線(図示せず。)との交点が異常基準点(1′)の
正常な位置の相当位置を表示する。At this point, without any positioning work, the laser beam (e) reflected by the reflector (a) of this vertical rail (16)
and the laser beam (not shown) reflected by the reflector ψυ of the horizontal rail (17) when the reflector ψυ of the horizontal rail (17) is located at the front end of the vertical rail 06), and the abnormal reference point (1') Displays the equivalent position of the normal position.
次に計測作業及び車体修整作業を行う。その内容は、縦
レール06)の所定の位置の反射鏡に)に反射されて照
射するレーザー光線(至))と異常基準点(1・)に吊
り下げた指標体に)の基準点相当部(ハ)との位置のず
れを見ることによって、当該異常基準点(1′)の前後
及び上下への位置のくるいを計測することができる。ま
た、同様に横レールα′7)の所定の位置の反射鏡Ql
)に反射されて照射するレーザー光線と異常基準点(1
′)に吊り下げた表示体eφの基準点相当部(24との
位置のずれを見る。ことによって、当該異常゛基準点(
1″)の左右及び上下へのくるいを計測することができ
る。その後、異常基準点(1′)に吊り下げた指標体e
ユの基準点相当部04が当該レーザー光線の交点に位置
するまで車体修整作業を行い、それが当該交点に位置し
たことを見ることにより、異常基準点(1つが正常な位
置に戻ったことを計測できる。Next, measurement work and car body modification work will be carried out. The contents are the laser beam (to) that is reflected by the reflector at a predetermined position on the vertical rail 06) and the part corresponding to the reference point (to) that is irradiated to the indicator suspended at the abnormal reference point (1). By looking at the positional deviation from (c), it is possible to measure the deviation in the position forward and backward and up and down of the abnormal reference point (1'). Similarly, the reflector Ql at a predetermined position on the horizontal rail α'7)
) and the abnormal reference point (1
By checking the positional deviation of the display body eφ suspended from the reference point (24), the abnormality is detected from the reference point (24).
1") can be measured to the left and right and up and down. After that, the index object e suspended from the abnormality reference point (1') can be measured.
Car body repair work is carried out until the reference point corresponding part 04 of Y is located at the intersection of the laser beams, and by checking that it is located at the intersection, it is determined that the abnormal reference point (one has returned to the normal position). can.
前記従来技術例及び発明の実施例においては、説明の簡
明を期す為、1箇所の異常基準点を計測する場合につい
て説明しているが、実際の車体計測作業では通常4〜7
箇所程度の異常基準点を計測しなければならないことが
多い。その場合には、それぞれ表示体、透明吊スケール
又は指標体をそれに応じて増やせばよい。また、車体基
準線を基準としないで垂直ゲージ、透明吊スケール、吊
体その他の長さを合わせてもよい。In the prior art examples and embodiments of the invention, in order to simplify the explanation, the case where one abnormality reference point is measured is explained, but in actual vehicle body measurement work, usually 4 to 7 abnormality reference points are measured.
It is often necessary to measure anomalous reference points at a certain level. In that case, the number of display bodies, transparent hanging scales, or indicator bodies may be increased accordingly. Further, the lengths of vertical gauges, transparent hanging scales, hanging bodies, etc. may be adjusted without using the vehicle body reference line as a reference.
車体整備工場によっては、特定の車種しか扱わない所も
あり、その場合には予めその車種に合わせて一定の位置
関係及び長さに架体、吊体、表示体及び指標体を構成し
て製作し、それをそのまま使用すればよく、従って架体
、吊体、表示体及び指標体の位置関係及び長さを調整不
能に構成してもよい。Some car body repair shops only handle specific car models, and in those cases, frames, hanging bodies, display bodies, and indicator bodies are constructed and manufactured in advance in a certain positional relationship and length according to that car model. However, it may be used as is, and therefore, the positional relationship and length of the frame, hanging body, display body, and indicator body may be configured so as not to be adjustable.
本明細書において「基準点に係止」とは、基準点を基準
として車体に係止することを含むものとする。例えば、
第4a図及び第4b図に示す様に上方が枝状に分かれた
磁石に)で、かつ、その中央に上下に長い針(ハ)を設
けた吊体(4)又は吊具に)を構成して、この針(財)
が基準点を指す様に磁石に)を吸着させて係止する様に
してもよい。なお、この場合、枝状の磁石に)の先端と
針(財)の先端との間の距離が相当長いこともある。In this specification, "locking to a reference point" includes locking to a vehicle body using the reference point as a reference. for example,
As shown in Figures 4a and 4b, it consists of a hanging body (4) or hanging tool (with a magnet whose upper part is branched) and a vertically long needle (c) in its center. Then, this needle (goods)
) may be attracted and locked by a magnet so that it points to a reference point. In this case, the distance between the tip of the branch-like magnet and the tip of the needle may be quite long.
本明細書において「基準点に係止可能な吊体」とは、吊
体全体として車体計測機の荷重Gこ耐えて・車体計測機
を吊り下げることができる程度に基準点に結合可能な吊
体をいう。従って例え番よ、一部の吊体が基準点に当接
する等の態様のものであっても、吊体全体として車体計
測機を吊り下げることができるものであればよい。In this specification, a "suspended body that can be locked to a reference point" refers to a suspended body that can be connected to a reference point to such an extent that the suspended body as a whole can withstand the load G of the vehicle body measurement device and suspend the vehicle body measurement device. Refers to the body. Therefore, for example, even if a part of the hanging body is in contact with a reference point, it is sufficient that the whole hanging body can suspend the vehicle body measurement device.
第1発明の実施例と第2発明の実施例の構成を互いに適
当に応用してもよいことはいうまでもない。It goes without saying that the configurations of the embodiments of the first invention and the embodiments of the second invention may be applied to each other as appropriate.
前記実施例においては、桟状又は板状の架体を設けてい
るが、これらに限定されるものではない。即ち架体は、
吊体間及びそれらと表示体又はレーザー照射機構との間
をつなぐことができるものであれば、どの様な形状、構
造又は組合せであってもよい。In the embodiments described above, a crosspiece-shaped or plate-shaped frame is provided, but the present invention is not limited to these. In other words, the frame is
Any shape, structure, or combination may be used as long as it can connect the hanging bodies and the display body or laser irradiation mechanism.
車体の適当に離れた一直線上にない4箇所以上の基準点
に係止可能な吊体を有する架体を設けてもよい。また、
吊体の配置や架体の重心の位置等によっては架体がバラ
ンスをくずす場合もあるので、その場合等は架体の適当
な位置におもりを設けて架体を安定させる様にしてもよ
い。It is also possible to provide a frame having hanging bodies that can be latched to four or more reference points that are appropriately spaced apart and not on a straight line on the vehicle body. Also,
The frame may lose its balance depending on the placement of the suspended body and the position of the center of gravity of the frame, so in such cases, it is possible to stabilize the frame by placing weights at appropriate positions on the frame. .
架体は、軽量にする為にアルミニウム、プラスチック樹
脂等であってもよい。この場合等には架体と吊体との結
合は、吊体の下部に粘着テープを設けたり、架体上に多
数のビス穴を開けてそこに吊体の下部をビスで止める等
して結合したり、あるいは多数の掛具を有する架体を設
けてその適当な掛具に吊体の下端の掛具を引っかける等
して結合させてもよい。また、架体にはめ合せて結合さ
せてもよく、あるいは吊体と架体を一体に形成してもよ
い。The frame may be made of aluminum, plastic resin, etc. to make it lightweight. In such cases, the frame and the hanging body can be connected by using adhesive tape on the lower part of the hanging body, or by drilling a number of screw holes on the frame and fixing the lower part of the hanging body with screws. They may be connected together, or they may be connected by providing a frame having a number of hangers and hooking the hanger at the lower end of the hanging body onto an appropriate hanger. Further, the suspension body and the frame body may be fitted together and connected to the frame body, or the hanging body and the frame body may be formed integrally.
架体は2段以上の構成から成るものであってもよい。ま
た、架体に直角を表示する場合には、前後方向と左右方
向との直角を認識できる程度番こ表示してあればたりる
。直角の表示がない架体の揚機が揺れるだけで破損しに
くい利点があるが、これらを棒状又は板状等の構成にし
たり、吊体が架体に対して垂直を維持する構成にしても
よい。The frame may have a structure of two or more stages. In addition, when displaying a right angle on the frame, it is sufficient if the number is displayed to the extent that the right angle between the front and back direction and the left and right direction can be recognized. There is an advantage that lifting machines of frames without right angle markings are less likely to be damaged by shaking, but even if they are made into rod-shaped or plate-shaped structures, or structures in which the hanging bodies remain perpendicular to the frames, good.
第5図に示す様な逆り字状の表示体00)に基準点表示
部(9)を設けてもよい。この場合は車体の上部に位置
する基準点を計測するのに便利である。A reference point display section (9) may be provided on an inverted character-shaped display body 00) as shown in FIG. In this case, it is convenient to measure a reference point located at the top of the vehicle body.
表示体を架体に係着させる構成としては、前記で例示し
たもの以外に、粘着テープ、おもり、ビス、ボルト、ナ
ツト、はめ合せ等がある。また、表示体と架体を一体に
形成してもよい。In addition to the above-mentioned configurations for attaching the display to the frame, there are adhesive tapes, weights, screws, bolts, nuts, fittings, and the like. Further, the display body and the frame may be formed integrally.
第2発明の実施例における指標体は、材質が透明な部分
を有さなくともよく、また、横レールの反射鏡の為にレ
ーザー発振機をもうひとつ設けてもよい。また、反射鏡
をレーザー発振機にかえてもよい。The indicator body in the embodiment of the second invention does not need to have a transparent part, and another laser oscillator may be provided for the reflecting mirror of the side rail. Further, the reflecting mirror may be replaced with a laser oscillator.
指標体を長さ調整可能にする構成の例としては次の様な
もの等がある。Examples of configurations that allow the length of the index body to be adjusted include the following.
■ 指標体の一部を結わく又は巻き取る構成にしたもの
又は長さ調整用クリ、プを使用したもの■ 指標体の一
部を重ね合せる様にして、その重ね合せの多少によって
長さを調整する構成にしたもの。■ A part of the index body is tied or rolled up, or a length adjustment clip is used. ■ A part of the index body is overlapped, and the length can be adjusted depending on the amount of overlapping. A configuration configured to be adjusted.
■ 長さの異なる指標体を適当に差し替える構成にした
もの。■ A structure in which index bodies of different lengths can be replaced as appropriate.
■ 指標体をネジ又は蛇腹状等で伸縮自在な構成にした
もの。■ The indicator body has a screw or bellows-like structure that allows it to expand and contract.
■ 指標体上を移動可能な基準点相当部を設けたもの。■ Equipped with a reference point equivalent part that can be moved on the index body.
以上の他、枚挙にいとまがないので省略する。In addition to the above, there is too much to list, so I will omit it.
吊体を長さ調整可能にする構成の例としては次の様なも
の等がある。Examples of configurations that allow the length of the hanging body to be adjusted include the following.
■ 前記した指標体の長さを調整可能にする構成を吊体
に応用したもの。■ An application of the above-mentioned configuration that allows adjustment of the length of the indicator body to a hanging body.
■架体に設けた挟具で吊体の適当な位置を挟む様に構成
したもの。■It is constructed so that the hanging body is held at an appropriate position by clamps provided on the frame.
■ 上下に異なる位置に多数の掛具を有する吊体又は架
体を設けて、それらの適当な掛具に架体又は吊体を結合
させる様に構成したもの。(2) A structure in which a hanging body or frame is provided with a large number of hangers at different positions above and below, and the frame or hanger is connected to the appropriate hangers.
以上の他、枚挙にいとまがないので省略する。In addition to the above, there is too much to list, so I will omit it.
基準点表示部又は基準点相当部は、矢じり形、針状、角
錐形、穴状又は点状等の構成であってもよい。また、表
示体又は指標体の適当な位置にチョーク等の筆記具、磁
石、粘着テープ、ビス若しくはピン等で印を付は又はそ
の位置の目盛を記憶することにより、基準点表示部又は
基準点相当部を設ける様に構成してもよい。即ち、基準
点表示部又は基準点相当部は例示したものに限らず、作
業者がその位置を確認して車体修整作業等の指標とする
ことができるものであればよい。なお、基準点表示部は
基準点に接触させないで正常な位置に戻ったことを計測
する様に構成してもよい。The reference point display portion or the reference point equivalent portion may have an arrowhead shape, a needle shape, a pyramid shape, a hole shape, a dot shape, or the like. In addition, by marking an appropriate position on the display or indicator with a writing instrument such as chalk, a magnet, an adhesive tape, a screw, a pin, etc., or by memorizing the scale at that position, you can mark the reference point display area or the reference point. The configuration may be such that a section is provided. In other words, the reference point display section or the reference point equivalent section is not limited to the one shown in the example, but may be of any type as long as the operator can confirm its position and use it as an indicator for vehicle body repair work. Note that the reference point display section may be configured to measure the return to the normal position without contacting the reference point.
吊体、表示体又は指標体は、横方向等に伸びるステー等
をその一部に含むものであってもよい。The hanging body, the display body, or the indicator body may include a stay or the like extending in the lateral direction as a part thereof.
吊体又は吊具を基準点に係止可能にする構成は、例示し
たもの以外にも、かぎ形、輪状、穴状又はきのこ形等に
したり、粘着テープ、ビス、挟具、ボルト又はナツト等
で構成したもの等、基準点に係止できる構成であればど
の様なものでもよい架体、吊体、表示体又は指標体には
、目盛を設けても、また、目盛を設けずに市販の巻尺等
を使用する様にしてもよい。また、車体寸法図を使用せ
ずに、車体の左右対称な位置にある基準点等を利用する
ことにより、計測してもよい。また、車体を地面に置い
たままの状態で計測してもよい。In addition to the above examples, configurations that allow the hanging body or hanging tool to be locked to a reference point include hook-shaped, ring-shaped, hole-shaped, mushroom-shaped, etc., adhesive tape, screws, clamps, bolts, nuts, etc. The frame, hanging body, display body, or indicator body may be of any configuration as long as it can be locked to a reference point, such as a structure made of You may also use a tape measure or the like. Alternatively, the measurement may be performed by using reference points located at symmetrical positions on the vehicle body, without using the vehicle body dimension drawing. Alternatively, the measurement may be performed with the vehicle body placed on the ground.
前記実施例の吊体、表示体及び指標体は上下に適当な長
さを有し、また、架体は前後及び左右に適当な長さを有
するが、各々の所期の目的を達することができるもので
あれば、その長さは例示したものよりも極端に短い又は
長いものであってもよい。例えば、架体の一部が上下に
適当な長さを有して、そこに結合する吊体を、基準点に
係止可能な磁石だけの極端に短い構成等にしてもよい。Although the hanging body, display body, and indicator body of the above embodiment have appropriate lengths in the vertical direction, and the frame body has appropriate lengths in the front and back and left and right directions, it is important to note that each of the hanging bodies, display body, and indicator body has an appropriate length in the vertical direction. If possible, the length may be extremely shorter or longer than the illustrated example. For example, a part of the frame may have an appropriate vertical length, and the hanging body connected thereto may have an extremely short structure consisting only of magnets that can be latched to a reference point.
以上の説明から・も明らかな様に、第1発明及び第2発
明の位置決め作業のいらない車体計測機は次の様な卓越
した効果がある。As is clear from the above description, the vehicle body measuring machines that do not require positioning work according to the first and second inventions have the following outstanding effects.
■ 車体の計測を完了するまでに要する作業時間のうち
大半を占める面倒で困難な位置決め作業を行う必要が全
くない。従って前記従来技術の(b)及び(d)の欠点
が完全に除去された。■ There is no need to perform the troublesome and difficult positioning work that takes up most of the time required to complete vehicle body measurements. Therefore, the drawbacks (b) and (d) of the prior art are completely eliminated.
■ 車体修整作業中に車体が動いた場合、従来のこの種
の車体計測機では、その度毎に面倒で困難な位置決め作
業をやり直さなければならなかったが、本発明の車体計
測機では、車体の動きに合わせて基準点表示部又はレー
ザー照射機構を自動的に車体と同一に移動する構成にし
たので、位置決め作業が全く不要なばかりでなく、位置
決め作業をやり直す必要も全くない。従って、前記従来
技術の(c)及び(、)の欠点が完全に除去された。■ If the car body moves during car body repair work, with conventional car body measuring machines of this type, the troublesome and difficult positioning work had to be redone each time, but with the car body measuring machine of the present invention, the car body Since the reference point display section or the laser irradiation mechanism is configured to automatically move in the same direction as the vehicle body in accordance with the movement of the vehicle, not only is there no need for positioning work, but there is also no need to redo the positioning work. Therefore, the drawbacks (c) and (,) of the prior art are completely eliminated.
■ 以上の結果、従来の車体計測機に比べて極めて短時
間のうちに単純明快に正確な車体の計測を完了すること
ができる。■ As a result of the above, it is possible to complete accurate vehicle body measurements in a much shorter time than with conventional vehicle body measuring machines.
第1図は第1発明の実施例の側面図、第2図は同実施例
の斜視図、第6図は第2発明の実施例の斜視図、第4a
図は吊体又は吊具の態様を表す平面図、第4b図は同態
様を表す側面図、第5図は第1発明の実施例の表示体の
態様を表す斜視図である。
(1)は正常基準点、(1′)は異常基準点、(2月ま
7字形の金具、(3)は磁石、(4)は吊体、(5)は
車体、(6)は縦桟、(7)は横桟、(8)は架体、(
9)は基準点表示部、◇0)は表示体、(1υは磁石、
(ロ)は地面、α3)はスタンド、04)は磁石、【1
5)は磁石、06)は縦レール、07)は横レール、(
18)はレーザー光線、(19)はレーザー発振機、0
0)は縦レールの反射鏡、0υは横レールの反射鏡、に
)は7字形の金具、(ハ)は吊具、(財)は基準点相当
部、(2)は透明な板、Q・は指標体、に)は磁石、(
ハ)は針0
特許出願人 山崎吉三部
同 山崎勝規
同 山崎善弘
手 続 補 正 書
昭和58年4月60日
昭和57年特許願第206942号
2、発明の名称
位置決め作業のいらない車体計測機
3、補正をする者
事件との関係 特許出願人
明細書の発明の詳細な説明の欄
5、補正の内容
明細書第8頁第19行の「適当に」を「所要の形態で」
と補正する。
明細書第9頁第16行の「次に、」の次に「配置作業以
外の作業であって、基台又は車体を前後、左右若しくは
上下又はこれらの接合した方向に動かして、」を挿入す
る。
明細書第17頁第7行の1次に」の次に「、配置作業以
外の作業であって、基台又は車体を前後、左右若しくは
上下又はこれらの接金した方向に動かして、」を挿入す
る。
明細書第64頁第20行の「垂直を維持する構成」の次
に「で車体に吊り下げる様」を挿入する明細書第67頁
第17行の「。」の次に「吊体又は吊具は、基準点に係
止する部分とその他の部分とを分離及び結合自在な構成
にすることもある。」を挿入する。Fig. 1 is a side view of the embodiment of the first invention, Fig. 2 is a perspective view of the same embodiment, Fig. 6 is a perspective view of the embodiment of the second invention, and Fig. 4a
4B is a side view showing the same mode, and FIG. 5 is a perspective view showing the mode of the display body of the first embodiment of the invention. (1) is the normal reference point, (1') is the abnormal reference point, (February 7-shaped bracket, (3) is the magnet, (4) is the hanging body, (5) is the vehicle body, (6) is the vertical Crosspiece, (7) is horizontal crosspiece, (8) is frame, (
9) is the reference point display part, ◇0) is the display body, (1υ is the magnet,
(b) is the ground, α3) is the stand, 04) is the magnet, [1
5) is a magnet, 06) is a vertical rail, 07) is a horizontal rail, (
18) is a laser beam, (19) is a laser oscillator, 0
0) is a reflector on the vertical rail, 0υ is a reflector on the horizontal rail, ni) is a 7-shaped metal fitting, (c) is a hanging tool, (goods) is a part corresponding to the reference point, (2) is a transparent plate, Q・ is the indicator body, ni) is the magnet, (
c) Needle 0 Patent applicant: Yoshi Yamazaki, Sanbu, Katsunori Yamazaki, Yoshihiro Yamazaki Procedures Amendment: April 60, 1981 Patent Application No. 206942, filed in 1988 2, Name of the invention Vehicle body measuring machine that does not require positioning work 3. Relationship with the case of the person making the amendment Change "appropriately" to "in the required form" in column 5 of the detailed explanation of the invention in the patent applicant's specification, page 8, line 19 of the specification of the amendment
and correct it. After "Next," on page 9, line 16 of the specification, insert "Work other than placement work, which involves moving the base or vehicle body back and forth, left and right, or up and down, or in a direction in which these are joined." do. Next to "1st line of page 17, line 7 of the specification", "Work other than positioning work that involves moving the base or vehicle body back and forth, left and right, or up and down, or in the direction in which they are attached." insert. In the 64th page of the specification, line 20, after ``configuration to maintain verticality,'' insert ``suspended on the vehicle body.'' In the 67th page, line 17 of the specification, after ``.,'' insert ``suspended body or suspension.'' The device may have a structure in which the part that locks on the reference point and the other parts can be separated and combined."
Claims (1)
の基準点に係止可能な吊体を有して当該3箇所以上の基
準点間を掛は渡し可能にした、車体に吊り下げ可能な架
体を構成する。 (ロ)異常基準点の正常な位置を表示する為の基準点表
示部を有する表示体を前記架体に係着させて、当該基準
点表示部を前記吊体、架体及び表示体を介して車体に吊
り下げ可能に構成する。 以上の如く構′成した位置決め作業のいらない車体計測
機。 2 板状に構成した架体を設けた特許請求の範囲第1項
記載の位置決め作業のいらない車体計測機。 3 縦桟と横桟で構成した架体を設けた特許請求の範囲
第1項記載の位置決め作業のいらない車体計測機。 42段以上の構成の架体を設けた特許請求の範囲第1項
記載の位置決め作業のいらない車体計測機。 5 吊体が架体に対して垂直を維持する構成の特許請求
の範囲第1項記載の位置決め作業のいらない車体計測機
。 6 表示体の適当な位置を記憶することにより、そこを
基準点表示部とする特許請求の範囲第1項記載の位置決
め作業のいらない車体計測機。 7 架体と表示体を4体に形成した特許請求の範囲第1
項記載の位置決め作業のいらない車体計測機。 8 架体と吊体を一体に形成した特許請求の範囲第1項
記載の位置決め作業のいらない車体計測機。 9(イ)車体の適当に離れた一直線上にない6箇所以上
の基準点に係止可能な吊体を有して当該6箇所以上の基
準点間を掛は渡し可能にした、車体に吊り下げ可能な架
体を構成する。 (ロ)前記架体にレーザー照射機構を設けて同レーザー
照射機構を前記吊体及び架体を介して車体に吊り下げ可
能に構成す°る。 (ハ)基準点に係止可能な吊具と、レーザー光線の照射
位置に対する位置関係で当該基準点の位置のくるいを表
示する基準点相当部とから成る、車体に吊り下げ可能な
指標体を構成する。 以上の如く構成した位置決め作業のいらない車体計測機
。 10 板状に構成した架体を設けた特許請求の範囲第
9項記載の位置決め作業のいらない車体計測機。 11 縦桟と横桟で構成した架体を設けた特許請求の
範囲第9項記載の位置決め作業のいらない車体計測機。 122段以上の構成の架体を設けた特許請求の範囲第9
項記載の位置決め作業のいらない車体計測機。 16 吊体が架体に対して垂直を維持する構成の特許
請求の範囲第9項記載の位置決め作業のいらない車体計
測機。 14 指標体の適当な位置を記憶することにより、そ
こを基準点相当部とする特許請求の範囲第9項記載の位
置決め作業のいらない車体計測機。 15 架体と吊体を一体に形成した特許請求の範囲第
9項記載の位置決め作業のいらない車体計測機。[Scope of Claims] 1 (a) A hanging body capable of being latched to three or more reference points that are appropriately spaced apart from each other and not on a straight line on the vehicle body allows for hanging between the three or more reference points. The structure consists of a frame that can be hung from the vehicle body. (b) A display body having a reference point display section for displaying the normal position of the abnormal reference point is attached to the frame, and the reference point display section is connected to the suspension body, the frame body, and the display body. It is configured so that it can be hung on the vehicle body. The vehicle body measurement device configured as described above does not require positioning work. 2. A vehicle body measurement device that does not require positioning work as set forth in claim 1, which is provided with a plate-shaped frame. 3. A vehicle body measuring instrument that does not require positioning work as set forth in claim 1, which is provided with a frame composed of vertical bars and horizontal bars. A vehicle body measuring device that does not require positioning work according to claim 1, which is provided with a frame having 42 or more stages. 5. A vehicle body measuring instrument that does not require positioning work as set forth in claim 1, wherein the suspended body maintains perpendicularity to the frame. 6. A vehicle body measuring device that does not require positioning work as claimed in claim 1, which stores an appropriate position of the display body and uses that position as a reference point display section. 7 Claim 1 in which the frame body and the display body are formed into four bodies
A vehicle body measurement device that does not require the positioning work described in Section 1. 8. A vehicle body measuring device that does not require positioning work as set forth in claim 1, in which a frame body and a hanging body are integrally formed. 9 (a) A hanging body that has a hanging body that can be latched to six or more reference points that are appropriately spaced apart from each other and that are not in a straight line on the vehicle body, and that can be hung between the six or more reference points. Constructs a frame that can be lowered. (b) A laser irradiation mechanism is provided on the frame, and the laser irradiation mechanism is configured to be suspended from the vehicle body via the hanging body and the frame. (c) An indicator body that can be hung on the vehicle body, consisting of a hanging device that can be latched to a reference point and a reference point corresponding part that displays the position of the reference point in relation to the position of the laser beam irradiation. Configure. The vehicle body measuring machine configured as described above that does not require positioning work. 10. A vehicle body measuring device that does not require positioning work as claimed in claim 9, which is provided with a plate-shaped frame. 11. A vehicle body measurement device that does not require positioning work as set forth in claim 9, which is provided with a frame composed of vertical bars and horizontal bars. Claim 9, which is provided with a frame having a structure of 122 or more stages
A vehicle body measurement device that does not require the positioning work described in Section 1. 16. A vehicle body measurement device that does not require positioning work according to claim 9, wherein the hanging body is configured to maintain perpendicularity to the frame. 14. A vehicle body measuring device that does not require positioning work, as set forth in claim 9, which stores an appropriate position of the index body so that the position corresponds to a reference point. 15. A vehicle body measuring device that does not require positioning work as claimed in claim 9, in which the frame and the hanging body are integrally formed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP20694282A JPS5997001A (en) | 1982-11-26 | 1982-11-26 | Vehicle body measuring machine dispensing with positioning work |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP20694282A JPS5997001A (en) | 1982-11-26 | 1982-11-26 | Vehicle body measuring machine dispensing with positioning work |
Publications (1)
Publication Number | Publication Date |
---|---|
JPS5997001A true JPS5997001A (en) | 1984-06-04 |
Family
ID=16531584
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP20694282A Pending JPS5997001A (en) | 1982-11-26 | 1982-11-26 | Vehicle body measuring machine dispensing with positioning work |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS5997001A (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6191501A (en) * | 1984-10-12 | 1986-05-09 | Kichisaburo Yamazaki | Apparatus and method for measuring vehicle by using weight |
JPH0651808U (en) * | 1992-12-14 | 1994-07-15 | 陽一 ▲ひろ▼實 | Simple body measuring device |
JPH06194109A (en) * | 1992-12-24 | 1994-07-15 | Shugo Fuwa | Method of measuring distance between measurement reference points in sheet metal repair for automobile |
DE102005028786A1 (en) * | 2005-06-22 | 2007-02-15 | Volkswagen Ag | Measuring system for measurement of motor vehicle or part of motor vehicle, has three receiving devices for receiving radio signals and has evaluation device for determination of position of point of measuring head depending on radio signal |
CN103940316A (en) * | 2014-04-23 | 2014-07-23 | 台州市黄岩智佳汽车检具有限公司 | Building-block detecting tool special for detecting longitudinal beam assembly on bottom side of vehicle |
DE102006006682B4 (en) * | 2005-07-20 | 2017-03-02 | Volkswagen Ag | Measuring system for measuring a motor vehicle |
-
1982
- 1982-11-26 JP JP20694282A patent/JPS5997001A/en active Pending
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6191501A (en) * | 1984-10-12 | 1986-05-09 | Kichisaburo Yamazaki | Apparatus and method for measuring vehicle by using weight |
JPH0651808U (en) * | 1992-12-14 | 1994-07-15 | 陽一 ▲ひろ▼實 | Simple body measuring device |
JPH06194109A (en) * | 1992-12-24 | 1994-07-15 | Shugo Fuwa | Method of measuring distance between measurement reference points in sheet metal repair for automobile |
DE102005028786A1 (en) * | 2005-06-22 | 2007-02-15 | Volkswagen Ag | Measuring system for measurement of motor vehicle or part of motor vehicle, has three receiving devices for receiving radio signals and has evaluation device for determination of position of point of measuring head depending on radio signal |
DE102006006682B4 (en) * | 2005-07-20 | 2017-03-02 | Volkswagen Ag | Measuring system for measuring a motor vehicle |
CN103940316A (en) * | 2014-04-23 | 2014-07-23 | 台州市黄岩智佳汽车检具有限公司 | Building-block detecting tool special for detecting longitudinal beam assembly on bottom side of vehicle |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US4598481A (en) | Intersecting laser alignment apparatus and method | |
US4939848A (en) | Vehicle frame alignment gauge | |
NO148164B (en) | PROCEDURE AND APPARATUS FOR DIMENSION CONTROL OF VEHICLES. | |
US5515613A (en) | Apparatus for and method of measuring vehicle reference points | |
US5644854A (en) | Measuring device for vehicle body repair | |
EP0416059A1 (en) | A method of measuring a vehicular frame | |
US5207002A (en) | Method and system for vehicle frame alignment | |
IT201900013173A1 (en) | METHOD AND APPARATUS FOR CALIBRATING A VEHICLE ADAS SENSOR | |
JPS5997001A (en) | Vehicle body measuring machine dispensing with positioning work | |
JPH06507721A (en) | location confirmation device | |
WO1984003938A1 (en) | Apparatus for correcting vertical deviation of vehicle-measuring machine | |
CN105973212A (en) | Ship body measurement auxiliary tool and measurement method | |
CN205664832U (en) | Automatic leveling total powerstation foot rest | |
CN207528167U (en) | General planer-type flatness checking device | |
JPH1194503A (en) | Device for measuring depth | |
JP4580221B2 (en) | Tread radius measuring jig | |
JPS5999301A (en) | Vehicle body measuring machine which does not need positioning work | |
US4782599A (en) | Measuring location sensor for linear measuring devices | |
JPS59184048A (en) | Vehicle body measuring machine with automatically- positioned reference part | |
JPS5957101A (en) | Car body measuring instrument fastened to car body | |
CN217303953U (en) | Industrial design survey and drawing chi | |
JPS62165115A (en) | Car body measuring instrument | |
CN215003556U (en) | Box girder web inclination detection device | |
CN218956046U (en) | Deformation measuring device | |
JPS59195103A (en) | Measuring device for vehicle body capable of easy positioning of reference part |