JP2012208126A - Gas concentration measuring method in packaging machine - Google Patents

Gas concentration measuring method in packaging machine Download PDF

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JP2012208126A
JP2012208126A JP2012141559A JP2012141559A JP2012208126A JP 2012208126 A JP2012208126 A JP 2012208126A JP 2012141559 A JP2012141559 A JP 2012141559A JP 2012141559 A JP2012141559 A JP 2012141559A JP 2012208126 A JP2012208126 A JP 2012208126A
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gas
concentration
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transmitter
packaging
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JP5555923B2 (en
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Kenji Makino
研二 牧野
Yuzo Miwa
雄三 三輪
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General Packer Co Ltd
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Abstract

PROBLEM TO BE SOLVED: To provide a gas concentration measurement method for promptly measuring concentration of specific gas inside without damaging packaging containers for the full number of packaging containers by a laser type gas densitometer provided to the packaging machine.SOLUTION: A laser type gas densitometer M is used, which consists of: a laser generation part having a function for irradiating specific gas with a laser beam with specific wavelength by a transmitter; and a laser beam receiving part which receives the laser beam which is oscillated from the transmitter and passes through the specific gas by a receiver, measures intensity of the laser beam absorbed by the gas to output the concentration of the gas from the intensity, a product discharge path of a packaging machine which tightly seals an opening after filling an object to be packaged in a packaging container to perform gas replacement is provided with a gas purge chamber of a laser type gas densitometer in which the transmitter and the receiver are arranged at a predetermined interval, and the concentration of the specific gas in the packaging container which passes between the transmitter and the receiver is measured at a state that purge gas is supplied in the gas purge chamber.

Description

本発明は、ガス充填包装機の工程中において、全数の包装容器について当該容器を損傷することなく内部の特定ガスの濃度を測定する方法に関する。   The present invention relates to a method for measuring the concentration of a specific gas inside an entire number of packaging containers during the process of a gas filling packaging machine without damaging the containers.

ガス充填包装機では、包装袋内に被包装物を充填するとほぼ同時に窒素ガス等によりガス置換を行なってから袋口の密封が施される。特許文献1には、包装袋への被包装物及び不活性ガスの充填を行なうガス充填包装機が開示されている。   In the gas-filled packaging machine, the bag mouth is sealed after gas replacement with nitrogen gas or the like is performed almost simultaneously with the filling of the packaging bag. Patent Document 1 discloses a gas filling and packaging machine that fills a packaging bag with an article to be packaged and an inert gas.

ところで、包装済みの製品たる包装袋内に残存する酸素濃度を測定する場合には、酸素濃度計に備えられた注射針を包装袋に刺し込んで内部のガスを吸引することによりガス濃度を分析・測定している。検査に用いる製品(包装袋)は、上記注射針の孔が必ず開いてしまうことから、検査後に廃棄しなければならない。勿論、全数検査をすることはできないので、抜き取り検査が行なわれている。その抜き取り検査についても、検査数を増やせば測定時間も多くなり、その上経済的な損失を生ずるという不都合があった。   By the way, when measuring the oxygen concentration remaining in the packaging bag, which is a packaged product, the gas concentration is analyzed by inserting the injection needle provided in the oximeter into the packaging bag and sucking the internal gas.・ Measured. The product (packaging bag) used for the inspection must be discarded after the inspection because the hole of the injection needle is always opened. Of course, since 100% inspection cannot be performed, sampling inspection is performed. As for the sampling inspection, if the number of inspections is increased, the measurement time increases, and there is also a disadvantage that an economic loss occurs.

また、包装済みの包装袋に密封不良があるか否かを検査する方法として、包装リーク検査方法も知られている。例えば、特許文献2には、包装された検査品を真空中に置き、真空中でのマーカガス量の時間的変化を測定し、所定時点における量値と良品の同一時点における量値を比較して測定量値が良品の量値よりも大きい場合、その検査品を不良品と判定するシールの良否判定方法が開示されている。   A packaging leak inspection method is also known as a method for inspecting whether or not a packaged packaging bag has a sealing failure. For example, in Patent Document 2, a packaged inspection product is placed in a vacuum, a time-dependent change in the amount of marker gas in the vacuum is measured, and a quantity value at a predetermined time point is compared with a quantity value at the same time point of a good product. When the measured quantity value is larger than the quantity value of the non-defective product, a seal quality judging method for judging the inspection product as a defective product is disclosed.

包装リーク検査方法は、検査品を収める減圧容器内を一々負圧状態にしなければならず測定時間も長く掛かるため、ガス充填包装機で生産される包装容器(製品)の全数検査には適さないと言えよう。   The packaging leak inspection method is not suitable for 100% inspection of packaging containers (products) produced by a gas-filled packaging machine, because the inside of the decompression container containing the inspection product must be in a negative pressure state and takes a long measurement time. I can say that.

特許第3742042号公報Japanese Patent No. 3742042 特開2003−106924号公報JP 2003-106924 A

本発明の目的は、包装機の製品排出経路に設けたレーザー式ガス濃度計により全数の包装容器について当該容器を損傷することなく内部の特定ガスの濃度を迅速に測定することができるガス濃度測定方法を提供することにある。   The object of the present invention is to measure the gas concentration by using a laser gas concentration meter provided in the product discharge path of the packaging machine, so that the concentration of a specific gas inside can be quickly measured without damaging the containers. It is to provide a method.

前記目的を達成するために請求項1に記載した発明は、ガス置換をして包装された包装容器内の特定ガスの濃度を測定手段により測定するガス濃度測定方法であって、
前記測定手段として、特定波長のレーザー光を発信器によって前記特定ガスに照射する機能を有するレーザー発生部と、その発信器から発振され前記特定ガスを通過するレーザー光を受信器によって受光し、そのガスにより吸収されたレーザー光の強度を測定してその強度から当該ガスの濃度を出力させる機能を有するレーザー受光部とからなるレーザー式ガス濃度計を用い、
前記包装容器内に被包装物を充填して不活性ガスによるガス置換を行なってから開口部の密封を施すようにした包装機の製品排出経路に、前記発信器と受信器を所定間隔に配置した前記レーザー式ガス濃度計のガスパージ室を設け、そのガスパージ室内にパージガスを流した状態にて前記発信器と受信器の間を通過する包装容器内の特定ガスの濃度を測定することを特徴とする。
In order to achieve the above object, the invention described in claim 1 is a gas concentration measuring method for measuring the concentration of a specific gas in a packaging container packed by gas replacement by a measuring means,
As the measuring means, a laser generator having a function of irradiating the specific gas with laser light of a specific wavelength by a transmitter, and a laser beam oscillated from the transmitter and passing through the specific gas is received by a receiver, Using a laser gas concentration meter consisting of a laser light receiving unit that has the function of measuring the intensity of the laser light absorbed by the gas and outputting the concentration of the gas from the intensity,
The transmitter and the receiver are arranged at a predetermined interval in the product discharge path of the packaging machine in which the packaging container is filled with an article to be packed and gas is replaced with an inert gas, and then the opening is sealed. A gas purge chamber of the laser type gas concentration meter is provided, and the concentration of the specific gas in the packaging container passing between the transmitter and the receiver is measured with the purge gas flowing in the gas purge chamber. To do.

同様の目的を達成するために請求項2に記載した発明は、請求項1に記載の包装機におけるガス濃度測定方法において、前記包装容器が、包装袋又は瓶であることを特徴とするものである。   In order to achieve the same object, the invention described in claim 2 is characterized in that, in the gas concentration measuring method in the packaging machine according to claim 1, the packaging container is a packaging bag or a bottle. is there.

(請求項1の発明)
この包装機におけるガス濃度測定方法は、縦ピロー包装機等の包装機の製品排出経路に設けたガスパージ室内にパージガスを流した雰囲気状態にてレーザー式ガス濃度計の発信器と受信器の間を通過する包装容器内の特定ガスの濃度を測定するので、全数の包装容器について当該容器を一切損傷することなく特定ガスの濃度を高精度で迅速に測定することができ、製品の品質の向上に寄与する。
(Invention of Claim 1)
In this packaging machine, the gas concentration measurement method is performed between a transmitter and a receiver of a laser gas concentration meter in an atmosphere state in which a purge gas is flowed into a gas purge chamber provided in a product discharge path of a packaging machine such as a vertical pillow packaging machine. Since the concentration of the specified gas in the passing packaging container is measured, the concentration of the specified gas can be measured quickly and accurately without damaging all of the packaging containers, thereby improving the quality of the product. Contribute.

(請求項2の発明)
この包装機におけるガス濃度測定方法は、瓶詰め包装機等の製品排出経路に設けたガスパージ室内にパージガスを流した雰囲気状態にてレーザー式ガス濃度計の発信器と受信器の間を通過する瓶等の内部の特定ガスの濃度を測定するので、全数の瓶等について特定ガスの濃度を高精度で迅速に測定することができ、製品の品質の向上に寄与する。
(Invention of Claim 2)
The gas concentration measurement method in this packaging machine is a bottle that passes between a transmitter and a receiver of a laser gas concentration meter in an atmosphere in which purge gas is flowed into a gas purge chamber provided in a product discharge path of a bottling packaging machine, etc. Since the concentration of the specific gas inside is measured, the concentration of the specific gas can be quickly measured with high accuracy for all the bottles and the like, which contributes to the improvement of product quality.

本発明方法に用いるレーザー式ガス濃度計の説明図Explanatory drawing of laser gas concentration meter used in the method of the present invention 第1実施形態における測定部の説明図Explanatory drawing of the measurement part in 1st Embodiment 第2実施形態における測定部の説明図Explanatory drawing of the measurement part in 2nd Embodiment 第3実施形態における測定部の説明図Explanatory drawing of the measurement part in 3rd Embodiment

以下に、本発明の最良の形態例を図面に基づいて説明する。   The best mode of the present invention will be described below with reference to the drawings.

本発明の包装機におけるガス濃度測定方法は、ガス置換をして包装された包装容器内の特定ガスである酸素濃度を測定するものである。測定手段としては、以下に説明する公知構造のレーザー式ガス濃度計Mを用いる。   The gas concentration measurement method in the packaging machine of the present invention measures the oxygen concentration, which is a specific gas, in a packaging container packaged by gas replacement. As a measuring means, a laser type gas concentration meter M having a known structure described below is used.

このレーザー式ガス濃度計Mは、半導体レーザーを光源とする赤外線吸収分光法を利用するもので、測定対象の分子に固有周波数の光を与えると光エネルギーを吸収しこれを測定することによりガス濃度の表示を行なうものである。図1に示すように、レーザー式ガス濃度計Mは、レーザーの発生部10とレーザー受光部20とからなる。   This laser gas concentration meter M uses infrared absorption spectroscopy using a semiconductor laser as a light source. When light of a natural frequency is given to a molecule to be measured, it absorbs light energy and measures the gas concentration. Is displayed. As shown in FIG. 1, the laser gas concentration meter M includes a laser generation unit 10 and a laser light receiving unit 20.

レーザーの発生部10は、特定波長のレーザー光を発生させてファイバーケーブル15を介して測定ガスに照射する機能を有し、レーザーダイオードに安定電源を供給する電源ユニット11、レーザーダイオードから出力されるレーザー光の波長、その強度を安定するための冷却器ユニット12、冷却器ユニット12の冷却器の温度を一定にするための温度コントローラ13から構成されている。   The laser generator 10 has a function of generating laser light of a specific wavelength and irradiating the measurement gas via the fiber cable 15, and is output from the power supply unit 11 that supplies a stable power source to the laser diode and the laser diode. It comprises a cooler unit 12 for stabilizing the wavelength of laser light and its intensity, and a temperature controller 13 for keeping the temperature of the cooler of the cooler unit 12 constant.

レーザー受光部20は、ファイバーケーブル22を介して測定ガスにより吸収されたレーザー光の強度を測定してその強度からガス濃度を出力させる機能を有し、上記レーザーの発生部10から照射されたレーザー光が測定ガスを通過して吸収されたレーザー光を測定して酸素濃度に変換して表示を行なう計測・表示ユニット21で構成されている。   The laser receiving unit 20 has a function of measuring the intensity of the laser light absorbed by the measurement gas via the fiber cable 22 and outputting the gas concentration from the intensity, and the laser irradiated from the laser generating unit 10 It comprises a measurement / display unit 21 that measures and displays laser light that has been absorbed through the measurement gas and converts it into oxygen concentration.

25は特定波長のレーザー光を照射する発信器である。酸素ガスの場合、波長(固有周波数)については、760〜770nmの範囲から選択される。27は発信器25から発振されるレーザー光を受光する受信器であり、図1に示す反射プリズムを用いる場合もある。26は発信器25から照射され測定ガスを透過して反射プリズムを経てキャッチしたレーザー光を電流に変換して計測・表示ユニット21に出力する検出部である。   Reference numeral 25 denotes a transmitter that emits laser light having a specific wavelength. In the case of oxygen gas, the wavelength (natural frequency) is selected from the range of 760 to 770 nm. Reference numeral 27 denotes a receiver that receives the laser light oscillated from the transmitter 25, and may use the reflecting prism shown in FIG. Reference numeral 26 denotes a detection unit that converts the laser light irradiated from the transmitter 25, transmitted through the measurement gas, and caught through the reflecting prism into current and outputs the current to the measurement / display unit 21.

なお、本発明方法にかかる実施形態例において、発信器25と受信器27によって包装容器内のガス濃度を測定する構成部分を「測定部」と称する。   In the embodiment according to the method of the present invention, the component that measures the gas concentration in the packaging container by the transmitter 25 and the receiver 27 is referred to as a “measurement unit”.

(実施形態例1)
本発明方法の第1実施形態における測定部50を図2に示す。この測定部50は、シート状のフィルムを製袋しつつ被包装物を当該袋内に充填包装する縦ピロー包装機に好適であり、包装機の製品排出経路に測定部50の箱形のガスパージ室51を設ける。ガスパージ室51には、包装されて1個ずつ切り離されていない状態の包装袋fを上下方向に通過させるため、上口52と下口53を形成し、その内部に上記レーザー式ガス濃度計Mの発信器25と受信器27を所定間隔に配置している。54はガスパージ室51の側部に設けられたパージガスを導入する配管の複数の継ぎ手である。
(Example 1)
The measurement part 50 in 1st Embodiment of the method of this invention is shown in FIG. This measuring unit 50 is suitable for a vertical pillow packaging machine that fills and wraps an article to be packaged in a bag while making a sheet-like film, and a box-shaped gas purge of the measuring unit 50 in a product discharge path of the packaging machine. A chamber 51 is provided. In the gas purge chamber 51, an upper port 52 and a lower port 53 are formed in order to allow the packaging bags f that are packaged and not separated one by one to pass in the vertical direction, and the laser gas concentration meter M is formed therein. The transmitter 25 and the receiver 27 are arranged at a predetermined interval. Reference numeral 54 denotes a plurality of joints of piping for introducing purge gas provided at the side of the gas purge chamber 51.

しかして、ガスパージ室51の内部にパージガスを流した雰囲気状態にて発信器25と受信器27の間を通過する包装袋f内の酸素濃度を測定する本発明の包装機におけるガス濃度測定方法の第1実施形態における測定部50が構成される。   Thus, the gas concentration measuring method in the packaging machine of the present invention for measuring the oxygen concentration in the packaging bag f passing between the transmitter 25 and the receiver 27 in an atmosphere state in which the purge gas is flowed into the gas purge chamber 51. The measurement unit 50 in the first embodiment is configured.

(実施形態例2)
本発明方法の第2実施形態における測定部60を図3に示す。この測定部60は、シート状のフィルムを製袋しつつ被包装物を当該袋内に充填包装する横ピロー包装機に好適であり、包装機の製品排出経路であるコンベア65の上方に測定部60のガスパージ室61を設ける。ガスパージ室61には、包装されて1個ずつ切り離されていない状態の包装袋hを通過させるため、入口62と出口63を形成し、その内部に上記レーザー式ガス濃度計Mの発信器25と受信器27を所定間隔に配置している。64はガスパージ室61の天部に設けられたパージガスを導入する配管の複数の継ぎ手である。
Embodiment 2
FIG. 3 shows the measuring unit 60 in the second embodiment of the method of the present invention. The measuring unit 60 is suitable for a horizontal pillow packaging machine that fills and packs an object to be packaged in a bag while making a sheet-like film. The measuring unit 60 is disposed above a conveyor 65 that is a product discharge path of the packaging machine. Sixty gas purge chambers 61 are provided. An inlet 62 and an outlet 63 are formed in the gas purge chamber 61 so as to pass the packaged bags h that are packaged and not separated one by one. Inside the gas purge chamber 61, the transmitter 25 of the laser gas concentration meter M is provided. Receivers 27 are arranged at predetermined intervals. Reference numeral 64 denotes a plurality of joints of pipes for introducing purge gas provided at the top of the gas purge chamber 61.

しかして、ガスパージ室61の内部にパージガスを流した雰囲気状態にて発信器25と受信器27の間を通過する包装袋h内の酸素濃度を測定する本発明の包装機におけるガス濃度測定方法の第2実施形態における測定部60が構成される。   Thus, the gas concentration measuring method in the packaging machine according to the present invention for measuring the oxygen concentration in the packaging bag h passing between the transmitter 25 and the receiver 27 in an atmosphere state in which purge gas is flowed into the gas purge chamber 61. The measurement unit 60 in the second embodiment is configured.

(実施形態例3)
本発明方法の第3実施形態における測定部70を図4に示す。この測定部70は、飲料等を瓶iに充填包装する瓶詰め包装機に適し、包装機の製品排出経路であるコンベア75の上方に測定部70のガスパージ室71を設ける。ガスパージ室71には、縦向き状態の瓶iを通過させるため、入口72と出口73を形成し、その内部に上記レーザー式ガス濃度計Mの発信器25と受信器27を通過する瓶iの瓶口に対応するべく所定間隔に配置している。74はガスパージ室71の天部に設けられたパージガスを導入する配管の複数の継ぎ手である。
(Embodiment 3)
FIG. 4 shows the measuring unit 70 in the third embodiment of the method of the present invention. The measuring unit 70 is suitable for a bottling and packaging machine for filling and packaging beverages and the like in bottles i, and a gas purge chamber 71 of the measuring unit 70 is provided above a conveyor 75 that is a product discharge path of the packaging machine. In the gas purge chamber 71, an inlet 72 and an outlet 73 are formed in order to allow the bottle i in the vertical direction to pass through, and the inside of the bottle i passing through the transmitter 25 and the receiver 27 of the laser gas concentration meter M is formed therein. They are arranged at predetermined intervals to correspond to the bottle mouths. Reference numeral 74 denotes a plurality of joints of piping for introducing purge gas provided at the top of the gas purge chamber 71.

しかして、ガスパージ室71の内部にパージガスを流した雰囲気状態にて発信器25と受信器27の間を通過する瓶iの内部の酸素濃度を測定する本発明の包装機におけるガス濃度測定方法の第3実施形態における測定部70が構成される。   Thus, the gas concentration measuring method in the packaging machine of the present invention for measuring the oxygen concentration inside the bottle i passing between the transmitter 25 and the receiver 27 in an atmosphere state in which the purge gas is allowed to flow inside the gas purge chamber 71. The measurement unit 70 in the third embodiment is configured.

以上に述べた通り、この包装機におけるガス濃度測定方法は、包装機の製品排出経路に設けたレーザー式ガス濃度計のガスパージ室にパージガスを流した雰囲気状態で包装容器内の酸素等の特定ガスの濃度を測定するので、全数の包装容器について当該容器を一切損傷することなく特定ガスの濃度を迅速に測定することができる。   As described above, the gas concentration measurement method in this packaging machine is based on the specific gas such as oxygen in the packaging container in an atmosphere in which purge gas is flowed into the gas purge chamber of the laser gas concentration meter provided in the product discharge path of the packaging machine. Therefore, the concentration of the specific gas can be measured quickly without damaging all of the packaging containers.

M・・・レーザー式ガス濃度計
10・・・レーザーの発生部
20・・・レーザー受光部
25・・・発信器
27・・・受信器
51,61,71・・・ガスパージ室
f・・・包装袋(包装容器)
i・・・瓶(包装容器)
M ... laser gas concentration meter 10 ... laser generating unit 20 ... laser receiving unit 25 ... transmitter 27 ... receivers 51, 61, 71 ... gas purge chamber f ... Packaging bag (packaging container)
i ... Bottle (packaging container)

Claims (2)

ガス置換をして包装された包装容器内の特定ガスの濃度を測定手段により測定するガス濃度測定方法であって、
前記測定手段として、特定波長のレーザー光を発信器によって前記特定ガスに照射する機能を有するレーザー発生部と、その発信器から発振され前記特定ガスを通過するレーザー光を受信器によって受光し、そのガスにより吸収されたレーザー光の強度を測定してその強度から当該ガスの濃度を出力させる機能を有するレーザー受光部とからなるレーザー式ガス濃度計を用い、
前記包装容器内に被包装物を充填して不活性ガスによるガス置換を行なってから開口部の密封を施すようにした包装機の製品排出経路に、前記発信器と受信器を所定間隔に配置した前記レーザー式ガス濃度計のガスパージ室を設け、そのガスパージ室内にパージガスを流した状態にて前記発信器と受信器の間を通過する包装容器内の特定ガスの濃度を測定することを特徴とする包装機におけるガス濃度測定方法。
A gas concentration measurement method for measuring the concentration of a specific gas in a packaging container packaged by gas replacement with a measuring means,
As the measuring means, a laser generator having a function of irradiating the specific gas with laser light of a specific wavelength by a transmitter, and a laser beam oscillated from the transmitter and passing through the specific gas is received by a receiver, Using a laser gas concentration meter consisting of a laser light receiving unit that has the function of measuring the intensity of the laser light absorbed by the gas and outputting the concentration of the gas from the intensity,
The transmitter and the receiver are arranged at a predetermined interval in the product discharge path of the packaging machine in which the packaging container is filled with an article to be packed and gas is replaced with an inert gas, and then the opening is sealed. A gas purge chamber of the laser type gas concentration meter is provided, and the concentration of the specific gas in the packaging container passing between the transmitter and the receiver is measured with the purge gas flowing in the gas purge chamber. Gas concentration measurement method in a packaging machine.
前記包装容器が、包装袋又は瓶であることを特徴とする請求項1に記載の包装機におけるガス濃度測定方法。   The method for measuring a gas concentration in a packaging machine according to claim 1, wherein the packaging container is a packaging bag or a bottle.
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