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JP3297155B2 - Liquid level detector in can - Google Patents

Liquid level detector in can

Info

Publication number
JP3297155B2
JP3297155B2 JP19298593A JP19298593A JP3297155B2 JP 3297155 B2 JP3297155 B2 JP 3297155B2 JP 19298593 A JP19298593 A JP 19298593A JP 19298593 A JP19298593 A JP 19298593A JP 3297155 B2 JP3297155 B2 JP 3297155B2
Authority
JP
Japan
Prior art keywords
liquid level
ray
liquid
image
level
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.)
Expired - Lifetime
Application number
JP19298593A
Other languages
Japanese (ja)
Other versions
JPH0727594A (en
Inventor
正行 増田
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Daiwa Can Co Ltd
Original Assignee
Daiwa Can Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Daiwa Can Co Ltd filed Critical Daiwa Can Co Ltd
Priority to JP19298593A priority Critical patent/JP3297155B2/en
Publication of JPH0727594A publication Critical patent/JPH0727594A/en
Application granted granted Critical
Publication of JP3297155B2 publication Critical patent/JP3297155B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Image Analysis (AREA)
  • Measurement Of Levels Of Liquids Or Fluent Solid Materials (AREA)

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【産業上の利用分野】本発明は缶内液面検出装置、特に
X線を用いた缶内液面検出装置の改良に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid level detector in a can, and more particularly to an improvement of a liquid level detector in a can using X-rays.

【0002】[0002]

【従来の技術】各種缶詰の入味量検査装置として、応答
性の速さなどからX線を用いた缶内液面検出装置が汎用
されている。
2. Description of the Related Art As a device for inspecting the amount of filling in various cans, a liquid level detecting device in a can using X-rays is widely used because of its quick response.

【0003】すなわち、従来の缶内液面検出装置は、連
続的に搬送される内容液充填済の缶の一側面側にX線照
射手段を配置し、他側面側にX線受光ダイオードアレイ
を上下方向に向けて配置し、缶内の液面下を通過したX
線位置と缶のヘッドスペース部分を通過したX線位置を
それぞれ検出し、液面レベルの適否判定を行うものであ
る(特開昭62ー235032、実開昭59ー5482
0等参照)。
[0003] That is, in the conventional liquid level detecting device in a can, an X-ray irradiating means is arranged on one side of a continuously-filled can filled with a content liquid, and an X-ray light receiving diode array is arranged on the other side. X placed vertically and passed below the liquid level in the can
The position of the X-ray and the position of the X-ray that has passed through the head space of the can are detected, and the liquid level is judged to be appropriate (Japanese Patent Application Laid-Open No. 62-235032, Japanese Utility Model Application Laid-Open No. 59-5482).
0 etc.).

【0004】[0004]

【発明が解決しょうとする課題】しかしながら、前記従
来のX線を用いた缶内液面検出装置では、検出性能に問
題があることが明らかとなった。
However, it has been clarified that the conventional liquid level detecting apparatus in a can using X-rays has a problem in detection performance.

【0005】すなわち、図3に示すように缶10がベル
トコンベア19上を矢印12方向に移動し、缶10の移
動方向に対し直交して液面上限位置より僅か上方を透過
するX線14と、液面下限位置を透過するX線16を用
い、X線14、16における透過量のスレッショルドレ
ベルを設定し、該スレッショルドレベル以上の場合はヘ
ッドスペース部分を透過したと、以下の場合は液面下部
を透過したとそれぞれ判断して液面適否判定を行うの
は、缶10内の液面18が安定した状態であれば問題は
少ない。
That is, as shown in FIG. 3, the can 10 moves on the belt conveyor 19 in the direction of the arrow 12, and crosses the X-ray 14 which is orthogonal to the moving direction of the can 10 and penetrates slightly above the liquid level upper limit position. The threshold level of the amount of transmission of the X-rays 14 and 16 is set using the X-ray 16 penetrating the lower limit position of the liquid surface. There is little problem in determining whether the liquid level is appropriate by judging that the liquid has passed through the lower portion, as long as the liquid level 18 in the can 10 is in a stable state.

【0006】しかしながら、缶10を搬送するベルトコ
ンベア19の振動、傾斜或いは若干の速度変化等によ
り、液面18が傾いたり乱れたりする場合が少なくな
い。
However, there are many cases where the liquid level 18 is tilted or disturbed due to the vibration, inclination, or slight speed change of the belt conveyor 19 for transporting the cans 10.

【0007】このため、例えば図4に示すように液面1
8が缶移動方向に対し前後に傾いた場合には、X線1
4、16の照射位置によって、正常な入味量の缶詰であ
るにも拘わらず、液面位置がX線14より上方となって
入味量過多と判断したり(照射位置が図の左側の14、
16の場合)、或いは液面位置がX線16より下方とな
って入味量過少と判断する(照射位置が図の右側の1
4、16の場合)ことがある。
For this reason, for example, as shown in FIG.
8 tilts back and forth with respect to the direction of can movement, X-ray 1
Depending on the irradiation positions of Nos. 4 and 16, the liquid level position is higher than the X-ray 14 and it is determined that the canning amount is excessive, even though the canned food has a normal filling amount (the irradiation positions are 14 and 16 on the left side of the figure).
16) or the liquid level is lower than the X-ray 16 and it is determined that the amount of ingestion is insufficient (the irradiation position is 1 in the right side of the figure).
4, 16).

【0008】さらに、図5に示すように図面直交方向に
缶10が移動している状態において、液面18が缶移動
方向に対し左右に傾きや乱れが生じた場合には、液面1
8はX線の透過方向に対して一定のレベルにはなく、該
液面18のレベルは上端位置18aから液面下端位置1
8bにわたっているため、入味量を正確に反映した液面
レベルとしては検出できなくなってしまうことがある。
Further, when the liquid level 18 is tilted or disturbed left and right with respect to the direction of movement of the can while the can 10 is moving in the direction perpendicular to the drawing as shown in FIG.
8 is not at a fixed level with respect to the X-ray transmission direction, and the level of the liquid surface 18 is changed from the upper end position 18a to the lower end position 1 of the liquid surface.
Since it extends over 8b, it may not be possible to detect the liquid level accurately reflecting the amount of taste.

【0009】即ち、前記スレッショルドレベル判断によ
る液面適否判定では、図5に示すように缶移動方向に対
し左右に液面が傾いていも液面の傾きが小さな平面であ
れば適正な判定が行える場合もあるが、液面の傾きが大
きかったり、また図6のように液面が曲面状に乱れると
一定のスレッショルドレベルによる判断では適正な液量
であるにも拘わらずX線14、16共にヘッドスペース
部分を透過したと判断するので、適正な判定が行えない
場合もでてきてしまう。
That is, in the liquid level suitability judgment by the threshold level judgment, as shown in FIG. 5, even if the liquid level is inclined left and right with respect to the direction of movement of the can, an appropriate judgment can be made if the inclination of the liquid level is small. In some cases, when the inclination of the liquid surface is large, or when the liquid surface is distorted in a curved shape as shown in FIG. Since it is determined that the light has passed through the head space portion, an appropriate determination cannot be made in some cases.

【0010】このように、液面18の各方向への傾きや
乱れが生じた場合には、従来技術では缶内の入味量を性
格に反映した液面に基づく適否判定ができなくなるとい
う課題があった。
As described above, when the liquid level 18 is tilted or disturbed in each direction, the conventional technique has a problem that it is not possible to judge the suitability based on the liquid level reflecting the amount of the in-can filling. there were.

【0011】本発明はかかる課題に鑑みてなされたもの
であり、その目的は応答性に優れたX線を用いつつ、正
確な入味量検査を行うことができる缶内液面検出装置を
提供することにある。
The present invention has been made in view of the above problems, and has as its object to provide an in-can liquid level detecting apparatus capable of performing an accurate inspection of a filling amount while using X-rays having excellent responsiveness. It is in.

【0012】[0012]

【課題を解決するための手段】前記目的を達成するため
に本発明にかかる缶内液面検出装置は、連続的に搬送さ
れる内容液充填済の缶の一側方に配置され、缶内の液面
近傍にX線を面状に照射するX線照射手段と、被検査缶
を挟み該X線照射手段と対向して配置され、X線照射手
段のX線照射面の撮像を行う撮像手段と、該撮像手段か
らの画像データに基づき、液面近傍の濃淡情報を一定レ
ベルで二値化し、該二値化された液面ポイントデータの
平均値を仮想液面として検出する画像処理手段と、該画
像処理手段により得られた仮想液面が所定範囲にあるか
否かを判定する判定手段とを具備する。
In order to achieve the above-mentioned object, a liquid level detecting device in a can according to the present invention is arranged on one side of a can which is continuously conveyed and which is filled with a content liquid, and is provided inside the can. X-ray irradiating means for irradiating X-rays in the form of a sheet near the liquid surface, and an imaging device arranged to face the X-ray irradiating means with the can to be inspected interposed therebetween and for imaging the X-ray irradiating surface of the X-ray irradiating means Means for binarizing density information near a liquid surface at a constant level based on image data from the imaging means, and detecting an average value of the binarized liquid surface point data as a virtual liquid surface And determination means for determining whether the virtual liquid level obtained by the image processing means is within a predetermined range.

【0013】なお、本発明において、撮像手段をX線可
視化パネルとCCDカメラより構成し、缶透過X線を可
視化してCCDカメラで撮像することが好適である。
In the present invention, it is preferable that the imaging means is composed of an X-ray visualization panel and a CCD camera, and that the X-rays transmitted through the can are visualized and imaged by the CCD camera.

【0014】[0014]

【作用】缶内液面に各方向への乱れ或いは傾きを生じた
場合、液面近傍においてX線透過度にいろいろな変化が
生じるため、撮像手段から得られる画像データは、液面
近傍において濃淡によりぼかされて表示され、濃淡の度
合いもX線が透過した液面距離に応じて変化するが、本
発明の缶内液面検出装置は、液面位置を画像データの濃
淡情報の二値化により検出し、二値化された液面ポイン
トデータの平均値により液面適否判定を行うので、X線
照射方向の液面変動に対しては液面ポイントデータが、
また缶搬送方向への液面変動に対しては液面ポイントデ
ータの平均値が、それぞれ缶入味量を正確に反映するも
のとなり、極めて正確な缶内液面検出を行うことが可能
となる。
When the liquid level in the can is disturbed or tilted in each direction, various changes occur in the X-ray transmittance near the liquid level. Therefore, the image data obtained from the image pickup means is shaded near the liquid level. And the degree of shading also changes according to the liquid level distance through which the X-ray has passed. However, the liquid level detecting device in the can according to the present invention uses the binary level of the gray level information of the image data. Liquid level is determined by the average value of the binarized liquid level point data, so that the liquid level point data is obtained with respect to the liquid level fluctuation in the X-ray irradiation direction.
Further, with respect to the liquid level fluctuation in the can transport direction, the average value of the liquid level point data accurately reflects the can filling amount, and it is possible to perform extremely accurate liquid level detection in the can.

【0015】また、缶透過X線を可視化した後CCDカ
メラで撮像することにより、缶検査の高速処理性が可能
となる。
Further, by visualizing the X-rays transmitted through the can and taking an image with a CCD camera, high-speed processing of can inspection is possible.

【0016】[0016]

【実施例】図1は、本実施例にかかる缶内液面検出装置
の概略構成を示す。
FIG. 1 shows a schematic configuration of an apparatus for detecting a liquid level in a can according to this embodiment.

【0017】同図に示す缶内液面検出装置100は、X
線照射手段120と、撮像手段122と、画像処理手段
124と、判定手段126とを有し、X線照射手段12
0と撮像手段122の間にはベルトコンベア119によ
って図面に直交する方向に搬送される缶110が位置し
ている。
The in-can liquid level detecting device 100 shown in FIG.
The X-ray irradiating unit 12 includes an X-ray irradiating unit 120, an imaging unit 122, an image processing unit 124, and a determining unit 126.
The can 110 which is conveyed by the belt conveyor 119 in a direction perpendicular to the drawing is located between 0 and the imaging means 122.

【0018】なお、缶110と撮像手段122の間には
X線可視化パネル130が配置され、X線可視化パネル
130を裏面よりCCDカメラからなる撮像手段122
で撮像することにより、X線画像を得ている。
An X-ray visualization panel 130 is arranged between the can 110 and the imaging means 122, and the X-ray visualization panel 130 is mounted on the back of the imaging means 122 comprising a CCD camera.
An X-ray image is obtained by imaging at.

【0019】即ち、本実施例においてX線照射手段12
0は缶110のほぼ上半分にわたりX線を照射してお
り、この結果、撮像手段122は缶110のほぼ上半分
にわたりX線透過画像を撮影することとなる。
That is, in this embodiment, the X-ray irradiating means 12
0 irradiates the X-ray over substantially the upper half of the can 110, and as a result, the imaging means 122 captures an X-ray transmission image over the substantially upper half of the can 110.

【0020】画像処理手段124は、本実施例において
はフレームメモリ132と二値化処理部134よりな
る。そして、撮像手段122の画像データは、缶110
の上下方向にスキャンされた一定間隔毎の走査ライン情
報としてフレームメモリ132に記憶され、画像データ
の濃淡を各走査ライン毎に二値化処理部134により一
定レベルで二値化する。
The image processing means 124 comprises a frame memory 132 and a binarization processing section 134 in this embodiment. Then, the image data of the imaging means 122 is
Are stored in the frame memory 132 as scan line information at regular intervals scanned in the vertical direction, and the density of image data is binarized at a constant level by the binarization processing unit 134 for each scan line.

【0021】判定手段126は、二値化処理部134よ
り得られる各走査ライン毎の二値化されたポイントデー
タの平均値を仮想液面とし、仮想液面位置が予め設定さ
れた適正液面位置の範囲にあるか否かを判定する。
The determining means 126 uses the average value of the binarized point data for each scanning line obtained by the binarization processing section 134 as a virtual liquid level, and sets the virtual liquid level position to a predetermined appropriate liquid level. It is determined whether the position is within the range of the position.

【0022】判定手段126の出力は排除手段138に
指示され、適正液面位置の範囲外の缶、即ち、入味量が
不適当な缶詰は、ベルトコンベア119上に配置された
アーム(図示省略)を駆動するなどしてラインから排除
される。
The output of the judging means 126 is instructed to the rejecting means 138, and cans out of the range of the proper liquid surface position, that is, cans with an inappropriate filling amount, are placed on the belt conveyor 119 by an arm (not shown). Is removed from the line by driving.

【0023】次に、本実施例にかかる具体的なデータ処
理工程を説明する。
Next, specific data processing steps according to this embodiment will be described.

【0024】X線照射手段120は、前述したように缶
110の液面が存在するであろう上半分程度にX線を照
射し、X線可視化パネル130は缶110のほぼ上半分
にわたりX線透過像を可視化している。そして、CCD
カメラ122はX線可視化パネル130を撮影し、その
画像データは90度反転状態でフレームメモリ132に
記憶される。
The X-ray irradiating means 120 irradiates X-rays to about the upper half where the liquid level of the can 110 will be present as described above, and the X-ray visualization panel 130 applies the X-ray to almost the upper half of the can 110. The transmission image is visualized. And CCD
The camera 122 captures an image of the X-ray visualization panel 130, and the image data is stored in the frame memory 132 in a 90-degree inverted state.

【0025】ここで、前述したようにベルトコンベア1
19の振動等により缶内液面が例えばX線透過方向に傾
いている場合、フレームメモリ132に記憶される画像
データは図2(A)に示すようになる。同図(A)に示
す缶110において、X線透過度の高い部分ほど淡く、
低い部分ほど濃く表示されている。
Here, as described above, the belt conveyor 1
When the liquid level in the can is inclined, for example, in the X-ray transmission direction due to the vibration of 19 or the like, the image data stored in the frame memory 132 is as shown in FIG. In the can 110 shown in FIG.
The lower part is displayed darker.

【0026】缶110の巻締め部分140と、完全な液
面下部分142においてはX線透過度が低いため濃く、
完全なヘッドスペース部分144においてはX線透過度
が比較的高いため淡く表示されている。
Since the X-ray transmittance is low in the wound portion 140 of the can 110 and in the portion 142 completely below the liquid level, the portion is dense.
In the complete head space portion 144, since the X-ray transmittance is relatively high, it is lightly displayed.

【0027】また、液面下部分142とヘッドスペース
部分144の間は傾斜液面部分118であり、傾斜液面
部分118は図5からも明らかなようにヘッドスペース
と液面下の双方をX線が透過するため、ヘッドスペース
部分144から液面下部分142へかけてグラデーショ
ンの濃淡で表示される。
An inclined liquid surface portion 118 is provided between the lower liquid surface portion 142 and the head space portion 144, and the inclined liquid surface portion 118 extends both the head space and the lower liquid surface as shown in FIG. Since the line is transmitted, the gradation is displayed from the head space portion 144 to the liquid level lower portion 142 with gradation.

【0028】そして、前記画像データは、図中x方向に
走査され、例えばn番目の走査ラインの明暗は図2
(B)のグラフのように示される。
Then, the image data is scanned in the x direction in the figure.
It is shown like the graph of (B).

【0029】図2(B)は、図2(A)に示す濃淡が明
度(透過X線強度)Iとして示されている。すなわち、
明度Iは、缶110が存在しない状態において最大であ
り、缶110の巻締め部分140において大幅に減少
し、ヘッドスペース部分144でやや増加し、傾斜液面
部分118において徐々に低下して、液面下部分142
で減少している。
FIG. 2B shows the lightness (transmission X-ray intensity) I shown in FIG. That is,
The lightness I is maximum in the absence of the can 110, decreases significantly at the wrapped portion 140 of the can 110, increases slightly at the headspace portion 144, gradually decreases at the inclined liquid level portion 118, Under surface part 142
Is decreasing.

【0030】ここで、図2(B)に示すように傾斜液面
部分118はある幅を有するため、缶110の入味量を
正確に反映したその走査ラインにおける液面ポイントが
どこであるのか検出できない。
Here, as shown in FIG. 2B, since the inclined liquid surface portion 118 has a certain width, it is not possible to detect where the liquid surface point in the scanning line accurately reflects the amount of the can 110. .

【0031】そこで、二値化処理部134において、図
2(B)に示すようにヘッドスペース部分144と液面
下部分142の間に液面検出測定範囲(点a−点b間)
を設定し、液面検出測定範囲における明度Iを二値化す
ることによりその走査ラインにおける液面ポイントを検
出している。
Therefore, in the binarization processing section 134, as shown in FIG. 2B, the liquid level detection measurement range (between point a and point b) is located between the head space portion 144 and the liquid level lower portion 142.
Is set, and the lightness point in the scan line is detected by binarizing the brightness I in the liquid level detection measurement range.

【0032】すなわち、液面検出測定範囲のa点の明度
Iのレベルαと、b点の明度Iのレベルβと、二値化パ
ーセントを用いて、二値化レベルを、次式 数1により
決定する。
That is, using the level α of the lightness I at the point a, the level β of the lightness I at the point b, and the binarization percentage in the liquid level detection measurement range, the binarization level is calculated by the following equation 1. decide.

【0033】[0033]

【数1】二値化レベル={ (αーβ)/100}×( 二
値化パーセント) +β
## EQU1 ## Binarization level = {(α-β) / 100} × (Binarization percentage) + β

【0034】そして、前記液面検出測定範囲において二
値化レベルにあるポイント位置(図2(B)のc)をそ
の走査ラインの液面ポイントとする。前記二値化パーセ
ントを例えば50%(通常、40〜60%の範囲から選
定する)とすると、図2(B)に示すようにレベルαと
レベルβの中間値が二値化レベルとなり、二値化レベル
にある点cをその走査ラインの液面ポイントとして検出
するのである。
The point position (c in FIG. 2B) at the binarization level in the liquid level detection measurement range is set as the liquid level point of the scan line. Assuming that the binarization percentage is, for example, 50% (usually selected from the range of 40 to 60%), an intermediate value between the level α and the level β becomes the binarization level as shown in FIG. The point c at the quantification level is detected as the liquid level point of the scan line.

【0035】なお、前記二値化レベルは、各走査ライン
毎に一本前の走査ラインにおけるレベルαとレベルβを
用いて算出することが好適であり、これにより缶の種類
が変動した場合にも対応でき、さらに缶側縁近傍部と缶
中心部におけるX線透過度の差等も適切に補正すること
ができる。この結果、各走査ライン毎の液面ポイントの
検出精度の向上と検出時間の高速化が可能となる。
It is preferable that the binarization level is calculated for each scan line using the levels α and β in the immediately preceding scan line, so that when the type of can changes, In addition, the difference in X-ray transmittance between the vicinity of the can side edge and the center of the can can be appropriately corrected. As a result, it is possible to improve the detection accuracy of the liquid level point for each scanning line and to shorten the detection time.

【0036】本実施例においては、さらに前記各走査ラ
イン毎に検出された液面ポイント値の平均値を求め、該
平均値を缶内液全体の仮想液面として判定手段126に
おいて該仮想液面が所定位置にあるか否かの適否判定を
行う。
In this embodiment, an average value of the liquid surface point values detected for each of the scanning lines is further obtained, and the average value is determined as a virtual liquid surface of the whole liquid in the can by the judgment means 126. Is determined whether or not is at a predetermined position.

【0037】すなわち、缶内液面が缶搬送方向へも傾い
ている場合には、二値化処理部134において得られた
液面ポイント値は、各走査ライン毎に異なる値となるた
め、該液面ポイント値の平均値を仮想液面として算出す
ることにより缶搬送方向への傾きに対応するのである。
That is, when the liquid level in the can is also inclined in the can transport direction, the liquid level point value obtained by the binarization processing unit 134 is different for each scanning line. By calculating the average value of the liquid surface point values as a virtual liquid surface, it corresponds to the inclination in the can transport direction.

【0038】このように、缶内液面のX線照射方向への
傾き等に対しては、各走査ラインにおいてそれぞれ二値
化処理による液面ポイントの算出を行い、缶搬送方向へ
の傾きに対しては、該液面ポイント値の平均値を算出し
て仮想液面として検出しているため、缶110内の液面
状態がどのように乱れている場合でも、仮想液面は常に
入味量を正確に反映したものとなり、高精度の入味量検
出を行うことが可能となる。
As described above, with respect to the inclination of the liquid level in the can in the X-ray irradiation direction, the liquid level point is calculated by the binarization processing in each scanning line, and the inclination in the can transport direction is calculated. On the other hand, since the average value of the liquid level point values is calculated and detected as the virtual liquid level, the virtual liquid level is always equal to the filling amount regardless of how the liquid level state in the can 110 is disturbed. Is accurately reflected, and highly accurate detection of the amount of flavor can be performed.

【0039】なお、予め適正な入味量の缶を用い二値化
処理部134において基準レベルα、βを測定し、基準
レベルα、βと被検査缶で測定された各走査ラインのレ
ベルα、βとを比較演算することにより満注缶、空缶
(内容液が充填されなかった缶)等の判定をも行うこと
が可能となる。
It should be noted that reference levels α and β are measured in the binarization processing section 134 in advance using cans having an appropriate filling amount, and the reference levels α and β and the levels α and β of the respective scanning lines measured in the cans to be inspected. By performing a comparison operation with β, it is possible to determine whether the container is a fully-filled can, an empty can (can not filled with the content liquid), and the like.

【0040】また、本実施例ではX線可視化パネル(I
・Iパネル)を用いてX線を可視化した後、応答性のよ
いCCDカメラを用いて撮像しているので、極めて高速
での缶液面検査処理が可能である。
In this embodiment, the X-ray visualization panel (I
Since the X-ray is visualized using the (I-panel) and then imaged using a responsive CCD camera, the can liquid level inspection process can be performed at extremely high speed.

【0041】[0041]

【発明の効果】以上説明したように本発明にかかる缶内
液面検出装置によれば、X線により缶内の液面近傍の画
像データを、二値化処理して液面ポイントを検出し、さ
らに液面ポイント値の平均値を仮想液面として缶詰の入
味量を検査するので、缶内液面状態如何に拘わらず正確
な入味量検査が可能となる。
As described above, according to the liquid level detecting apparatus in a can according to the present invention, image data near the liquid level in the can is binarized by X-rays to detect a liquid level point. Further, since the canned filling amount is inspected using the average value of the liquid surface point values as a virtual liquid surface, an accurate filling amount inspection can be performed regardless of the liquid level state in the can.

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

【図1】本発明実施例にかかる缶内液面検出装置の概略
構成図。
FIG. 1 is a schematic configuration diagram of a liquid level detecting device in a can according to an embodiment of the present invention.

【図2】図1に示した缶内液面検出装置による画像処理
状態の説明図。
FIG. 2 is an explanatory diagram of an image processing state by the liquid level detection device in a can shown in FIG. 1;

【図3】従来の缶内液面検出機構の説明図。FIG. 3 is an explanatory view of a conventional liquid level detection mechanism in a can.

【図4】従来の缶内液面検出機構の説明図。FIG. 4 is an explanatory view of a conventional liquid level detection mechanism in a can.

【図5】従来の缶内液面検出機構の説明図。FIG. 5 is an explanatory view of a conventional liquid level detection mechanism in a can.

【図6】従来の缶内液面検出機構の説明図。FIG. 6 is an explanatory view of a conventional liquid level detection mechanism in a can.

【符号の説明】[Explanation of symbols]

120・・・X線照射手段 122・・・撮像手段 124・・・画像処理手段 126・・・判定手段 110・・・缶 120 ... X-ray irradiation means 122 ... Imaging means 124 ... Image processing means 126 ... Judgment means 110 ... Can

Claims (2)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 連続的に搬送される内容液充填済の缶の
一側方に配置され、缶内の液面近傍にX線を面状に照射
するX線照射手段と、 被検査缶を挟み該X線照射手段と対向して配置され、該
X線照射手段のX線照射面の撮像を行う撮像手段と、 該撮像手段からの画像データに基づき、液面近傍の濃淡
情報を一定レベルで二値化し、該二値化された液面ポイ
ントデータの平均値を仮想液面として検出する画像処理
手段と、 該画像処理手段により得られた仮想液面が所定範囲にあ
るか否かを判定する判定手段とを備えたことを特徴とす
る缶内液面検出装置。
1. An X-ray irradiating means which is arranged on one side of a continuously-conveyed can filled with a liquid and irradiates X-rays in the vicinity of a liquid surface in the can in a planar manner; An imaging unit arranged to face the X-ray irradiating unit and configured to image the X-ray irradiating surface of the X-ray irradiating unit; and based on image data from the imaging unit, the density information near the liquid level is fixed. Image processing means for detecting an average value of the binarized liquid level point data as a virtual liquid level; and determining whether or not the virtual liquid level obtained by the image processing means is within a predetermined range. A liquid level detection device in a can, comprising: a determination means.
【請求項2】 請求項1記載の缶内液面検出装置におい
て、撮像手段はX線可視化パネルとCCDカメラより構
成され、缶透過X線を可視化してCCDカメラで撮像す
ることを特徴とする缶内液面検出装置。
2. An apparatus for detecting a liquid level in a can according to claim 1, wherein the imaging means comprises an X-ray visualization panel and a CCD camera, and visualizes X-rays transmitted through the can and takes an image with the CCD camera. Liquid level detector in the can.
JP19298593A 1993-07-09 1993-07-09 Liquid level detector in can Expired - Lifetime JP3297155B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP19298593A JP3297155B2 (en) 1993-07-09 1993-07-09 Liquid level detector in can

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP19298593A JP3297155B2 (en) 1993-07-09 1993-07-09 Liquid level detector in can

Publications (2)

Publication Number Publication Date
JPH0727594A JPH0727594A (en) 1995-01-27
JP3297155B2 true JP3297155B2 (en) 2002-07-02

Family

ID=16300318

Family Applications (1)

Application Number Title Priority Date Filing Date
JP19298593A Expired - Lifetime JP3297155B2 (en) 1993-07-09 1993-07-09 Liquid level detector in can

Country Status (1)

Country Link
JP (1) JP3297155B2 (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP6933497B2 (en) * 2017-05-15 2021-09-08 アンリツ株式会社 X-ray inspection equipment

Also Published As

Publication number Publication date
JPH0727594A (en) 1995-01-27

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