JPH11105987A - Method and device for pressure filling of liquid - Google Patents
Method and device for pressure filling of liquidInfo
- Publication number
- JPH11105987A JPH11105987A JP28252397A JP28252397A JPH11105987A JP H11105987 A JPH11105987 A JP H11105987A JP 28252397 A JP28252397 A JP 28252397A JP 28252397 A JP28252397 A JP 28252397A JP H11105987 A JPH11105987 A JP H11105987A
- Authority
- JP
- Japan
- Prior art keywords
- filling
- liquid
- pressure
- time
- amount
- 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.)
- Granted
Links
Landscapes
- Filling Of Jars Or Cans And Processes For Cleaning And Sealing Jars (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は液体の圧力充填方法およ
び圧力充填装置に関し、より詳しくは、例えば薬液に圧
力を加えてアンプル内に所定量を充填する圧力充填方法
および圧力充填装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure filling method and a pressure filling apparatus for liquids, and more particularly to a pressure filling method and a pressure filling apparatus for filling a predetermined amount in an ampoule by applying pressure to a chemical solution, for example.
【0002】[0002]
【従来の技術】従来、薬液に圧力を加えてアンプル内に
充填する圧力充填方法は知られている(例えば特公平1
−46392号公報)。上記特公平1−46392号公
報の充填方法は、充填開始時の液圧をもとに所定量の充
填液が容器に充填されるであろう充填終了予定時間を演
算し、該充填終了予定時間となったら充填機構による充
填を終了するようにしている。2. Description of the Related Art Heretofore, there has been known a pressure filling method of applying pressure to a chemical solution to fill an ampule (for example, Japanese Patent Publication No.
-46392). The filling method described in Japanese Patent Publication No. 46392/1992 calculates a scheduled filling end time at which a predetermined amount of filling liquid will be filled in a container based on the liquid pressure at the start of filling, and calculates the scheduled filling end time. Then, the filling by the filling mechanism is terminated.
【0003】[0003]
【発明が解決しようとする課題】ところで、上述した従
来の充填方法では、充填開始後に液体の圧力が変動した
場合に、容器への充填量にばらつきが生じるという欠点
があった。そして、このような欠点を解消する方法とし
て、特開平9−2583号公報の充填方法が提案されて
いる。この特開平9−2583号公報の方法では、充填
開始後に所定時間ごとに液圧を計測して、計測した各時
点までの充填量を演算する。そして、各所定時間ごとに
演算した充填量を順次加算していき、このように加算し
た充填量が予め設定した充填量となったら、容器への充
填液の充填を停止させるようにしている。しかしなが
ら、この特開平9−2583号公報の方法においては、
順次加算した合計の充填量が設定した充填量を越えてか
ら充填を停止するため、充填終了後の容器内の充填液の
量は、設定した充填量よりも常に多くなるという欠点が
あった。しかも、圧力を計測する時間の間隔が長い場合
には、充填終了後の容器内の充填液の量の誤差が一層大
きくなるという欠点があった。However, the conventional filling method described above has a drawback that when the pressure of the liquid fluctuates after the start of filling, the amount of filling in the container varies. As a method for solving such a disadvantage, a filling method disclosed in Japanese Patent Application Laid-Open No. 9-2583 has been proposed. In the method disclosed in Japanese Patent Application Laid-Open No. Hei 9-2583, the fluid pressure is measured at predetermined time intervals after the start of filling, and the filling amount up to each measured time point is calculated. The filling amount calculated for each predetermined time is sequentially added, and when the added filling amount reaches a preset filling amount, filling of the container with the filling liquid is stopped. However, in the method disclosed in Japanese Patent Application Laid-Open No. 9-2583,
Since the filling is stopped after the sequentially added total filling amount exceeds the set filling amount, there is a drawback that the amount of the filling liquid in the container after the filling is always larger than the set filling amount. In addition, when the time interval for measuring the pressure is long, there is a disadvantage that the error in the amount of the filling liquid in the container after the filling is further increased.
【0004】[0004]
【課題を解決するための手段】このような事情に鑑み、
本発明は、液体に圧力を加えた状態で、容器内に充填を
行う液体の圧力充填方法であって、充填開始後、液体の
圧力を順次検出するとともに、予め記憶した液圧と充填
量との関数を基に液体の圧力の検出間隔ごとにその間隔
内に容器に充填された液体の充填量を演算し、それら演
算して求めた液体の充填量を積算して容器内に充填され
た液体の合計充填量、およびこれから充填すべき残量を
演算し、かつ、該充填すべき残量を容器内に充填するた
めの所要時間を演算するとともに充填時間の計測を開始
し、該所要時間と充填時間が一致したら、容器内への液
体の充填を終了するようにした液体の圧力充填方法を提
供するものである。また、第2の発明は、液体を貯溜す
る圧力タンクと、圧力タンク内の液体を加圧する加圧手
段と、上記圧力タンクと連通するとともに開閉弁を有す
る複数の充填機構と、これら充填機構の作動を制御する
制御装置と、液体の圧力を検出して上記制御装置に入力
する液圧センサとを備えた液体の圧力充填装置であっ
て、上記制御装置は、充填開始後、液体の圧力を順次読
み込むとともに、予め記憶した液圧と充填量との関数を
基に液体の圧力の検出間隔ごとにその間隔内に容器に充
填された液体の充填量を演算し、それら演算して求めた
液体の充填量を積算して容器内に充填された液体の合計
充填量、およびこれから充填すべき残量を演算し、か
つ、該充填すべき残量を容器内に充填するための所要時
間を演算するとともに充填時間の計測を開始し、該所要
時間と充填時間が一致したら、容器内への液体の充填を
終了するように構成した液体の圧力充填装置を提供する
ものである。[Means for Solving the Problems] In view of such circumstances,
The present invention is a pressure filling method for a liquid in which a liquid is filled in a container while applying pressure to the liquid.After the filling is started, the pressure of the liquid is sequentially detected, and the liquid pressure and the filling amount stored in advance are used. Calculate the amount of liquid filled in the container within each interval of the detection of the pressure of the liquid based on the function of, and integrate the amount of liquid calculated by those calculations to fill the container. Calculate the total filling amount of the liquid and the remaining amount to be filled from this, and calculate the time required to fill the remaining amount to be filled into the container and start measuring the filling time, The present invention provides a liquid pressure filling method in which the filling of the liquid into the container is terminated when the filling time and the filling time match. Further, a second invention provides a pressure tank for storing a liquid, a pressurizing means for pressurizing the liquid in the pressure tank, a plurality of filling mechanisms communicating with the pressure tank and having an on-off valve, and a plurality of filling mechanisms. A liquid pressure filling device comprising a control device for controlling operation and a liquid pressure sensor for detecting the pressure of the liquid and inputting the pressure to the control device, wherein the control device controls the pressure of the liquid after the start of filling. In addition to sequentially reading, based on the functions of the liquid pressure and the filling amount stored in advance, the filling amount of the liquid filled in the container is calculated for each of the liquid pressure detection intervals, and the calculated liquid is calculated. Calculate the total filling amount of the liquid filled in the container by calculating the filling amount of the container and the remaining amount to be filled from this, and calculate the time required for filling the container with the remaining amount to be filled. And start filling time measurement. And, when the required time and the filling time is matched, there is provided a pressure filling apparatus constructed liquid to terminate the filling of liquid into the container.
【0005】[0005]
【作用】上述した本発明によれば、従来に比較して、容
器内への充填液の充填量を高精度に管理することができ
る。According to the present invention described above, the filling amount of the filling liquid in the container can be controlled with higher precision than in the conventional case.
【0006】[0006]
【実施例】以下、図示実施例について本発明を説明する
と、図1において、1は圧力充填装置であり、容器とし
てのアンプル2に所定量の薬液3を充填できるようにな
っている。圧力充填装置1は、薬液3を貯溜する圧力タ
ンク4と、導管5を介して圧力タンク4と連通する分配
管6と、この分配管6に接続した複数の充填機構7と、
さらにこれら充填機構7の作動を制御する制御装置8と
を備えている。圧力タンク4には導管11の一端を接続
してあり、この導管11の他端は図示しない圧縮空気の
供給源に接続している。導管11の途中には調圧弁12
を設けてあり、これにより、圧力タンク4内にほぼ一定
圧力の圧縮空気が導入されるようになっている。また、
これによって、圧力タンク4および分配管6内の薬液3
はほぼ一定の液圧に保持されるようになっている。各充
填機構7は開閉弁13とアンプル2内に挿入されるノズ
ル14とを備えており、後述するように、開閉弁13の
開閉作動は制御装置8によって制御されるようになって
いる。分配管6には、その内部の薬液3の液圧を検出す
る液圧センサ15を取り付けてあり、液圧センサ15が
検出した分配管6内の液圧は制御装置8に常時入力され
るようになっている。また、分配管6にはその内部に貯
溜する薬液3の温度を検出する液温センサ16を設けて
いる。液温センサ16が検出した液温も制御装置8に常
時入力されるようになっている。DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the illustrated embodiment. In FIG. 1, reference numeral 1 denotes a pressure filling device, which can fill a predetermined amount of a chemical solution 3 into an ampoule 2 as a container. The pressure filling device 1 includes a pressure tank 4 for storing the chemical 3, a distribution pipe 6 communicating with the pressure tank 4 via a conduit 5, a plurality of filling mechanisms 7 connected to the distribution pipe 6,
Further, a control device 8 for controlling the operation of the filling mechanism 7 is provided. One end of a conduit 11 is connected to the pressure tank 4, and the other end of the conduit 11 is connected to a compressed air supply source (not shown). In the middle of the conduit 11, a pressure regulating valve 12
Is provided, so that compressed air having a substantially constant pressure is introduced into the pressure tank 4. Also,
Thereby, the chemical 3 in the pressure tank 4 and the distribution pipe 6
Is maintained at a substantially constant hydraulic pressure. Each filling mechanism 7 includes an on-off valve 13 and a nozzle 14 inserted into the ampule 2, and the opening and closing operation of the on-off valve 13 is controlled by the control device 8 as described later. The distribution pipe 6 is provided with a hydraulic pressure sensor 15 for detecting the liquid pressure of the chemical solution 3 therein. The hydraulic pressure in the distribution pipe 6 detected by the hydraulic pressure sensor 15 is always input to the control device 8. It has become. Further, the distribution pipe 6 is provided with a liquid temperature sensor 16 for detecting the temperature of the chemical solution 3 stored therein. The liquid temperature detected by the liquid temperature sensor 16 is also constantly input to the control device 8.
【0007】しかして、本実施例の制御装置8は、次の
ようにして各充填機構7の作動を制御する。すなわち、
図2に示すように、制御装置8は、充填機構7のノズル
14がアンプル2内に挿入されたら上記各開閉弁13を
同期して開放させる。この時点からアンプル2へ薬液3
の充填が開始される(S1)。制御装置8には、予めア
ンプル2に充填すべき薬液3の設定充填量Qを記憶させ
てあり、また、薬液3の液圧・液温と単位時間当たりの
流量との関数をもとに薬液3の液圧・液温と充填量との
関数を記憶させている。そして、制御装置8は、充填を
開始してから所定時間t(例えば2/100秒)が経過
した時点ごとに、液圧センサ15で検出した液圧および
液温センサ16で検出した液温を読み込むようになって
いる(S2)。この読み込みごとに、すなわち、上記所
定時間tが経過した時点ごとに、制御装置8は上記薬液
3の液圧・液温と充填量の関数をもとに所定時間tでど
れだけの量の薬液3がアンプル2内に充填されたかを演
算する(S3)。より詳細には、上記薬液3の液圧・液
温から単位時間当たりの流量を求め、該単位時間当たり
の流量に上記所定時間tをかけることにより、所定時間
tで充填される充填量を演算する。そして、さらに、該
今回演算した薬液3の量と過去に演算した薬液3の量と
を積算して、現時点でのアンプル2内への薬液3の合計
充填量Qxを求め、記憶する(S4)。また、制御装置
8は、現時点でのアンプル2内への薬液3の合計充填量
Qxと、予め記憶した設定充填量Qとを比較する(S
5)。[0007] The control device 8 of the present embodiment controls the operation of each filling mechanism 7 as follows. That is,
As shown in FIG. 2, when the nozzle 14 of the filling mechanism 7 is inserted into the ampoule 2, the control device 8 synchronously opens the on-off valves 13. From this point, liquid 3 into ampoule 2
Is started (S1). The control device 8 stores in advance a set filling amount Q of the chemical solution 3 to be filled in the ampoule 2, and further, based on a function of the liquid pressure / temperature of the chemical solution 3 and the flow rate per unit time, A function of the liquid pressure / liquid temperature and the filling amount of No. 3 is stored. Then, the control device 8 changes the fluid pressure detected by the fluid pressure sensor 15 and the fluid temperature detected by the fluid temperature sensor 16 every time a predetermined time t (for example, 2/100 seconds) has elapsed since the start of filling. The data is read (S2). Each time this reading is performed, that is, each time the predetermined time t elapses, the control device 8 determines the amount of the chemical solution during the predetermined time t based on the function of the liquid pressure / temperature and the filling amount of the chemical solution 3. It is calculated whether or not 3 is filled in the ampoule 2 (S3). More specifically, the flow rate per unit time is obtained from the liquid pressure and the liquid temperature of the chemical solution 3, and the flow rate per unit time is multiplied by the predetermined time t to calculate the filling amount filled in the predetermined time t. I do. Further, the amount of the chemical solution 3 calculated this time and the amount of the chemical solution 3 calculated in the past are integrated to obtain and store the total filling amount Qx of the chemical solution 3 in the ampule 2 at the present time (S4). . Further, the control device 8 compares the total filling amount Qx of the chemical solution 3 into the ampoule 2 at the present time with the preset filling amount Q stored in advance (S
5).
【0008】ここで、仮に設定充填量Qと合計充填量Q
xとが同じとなっている場合には、制御装置8は開閉弁
13を閉鎖させて充填機構7の作動を停止させ(S
6)、その後、S4で求めた合計充填量Qxを零にリセ
ットする(S7)。その後、S1に戻って新たなアンプ
ル2に対する充填を開始する。一方、上記S5におい
て、薬液3の合計充填量Qxと設定充填量Qとを比較し
た結果、設定充填量Qよりも薬液3の合計充填量Qxが
少ない場合にはそのまま充填作業を継続する必要がある
ので、制御装置8は、上記所定時間t(2/100秒)
の経過した時点ごとに上記S2からS5の処理を繰り返
す。また、本実施例の制御装置8は、上記S5におい
て、合計充填量Qxと設定充填量Qとを比較した結果、
設定充填量Qよりも薬液の合計充填量Qxが少ないこと
を確認した場合には、設定充填量Qから薬液2の合計充
填量Qxを差し引いて、これからアンプル2内へ充填す
べき薬液3の残量Q1を求める(S8)。そして、前回
に求めた残量Q1を記憶していた場合には、それを削除
してS8で求めた新たな残量Q1を記憶する(S9)。
次に、制御装置8は、S9で記憶した残量Q1と上記関
数をもとにして、S9で記憶した残量Q1をアンプル2
内に充填するための所要時間txを演算し、記憶する
(S10)。より詳細には、液圧センサ15から読み込
んだ所定時間の終点の液圧に応じて上記関数から単位時
間当たりの流量を求め、該単位時間当たりの流量で残量
Q1を除し、それによって、所要時間txを演算する。
また、この所要時間txを演算した時点から上記タイマ
ーによって経過時間の計測を開始する(S11)。これ
と同時に制御装置8は、上記所要時間txとタイマーで
計測した時間とを常時比較し(S12)、S2からS5
に示した液圧、液温の次回の読み込みから設定充填量Q
との比較までの間に、すなわち上記所定時点t(2/1
00秒)が経過する間に、上記タイマーで計測した経過
時間が上記所要時間txの終点が到来したら、その時点
で充填機構7の作動を停止させる(S6)。これにより
現在のアンプル2に対する充填が終了する。Here, if the set filling amount Q and the total filling amount Q
If x is the same, the control device 8 closes the on-off valve 13 to stop the operation of the filling mechanism 7 (S
6) Then, the total filling amount Qx obtained in S4 is reset to zero (S7). After that, the process returns to S1 and the filling of the new ampule 2 is started. On the other hand, in the above S5, as a result of comparing the total filling amount Qx of the chemical solution 3 with the set filling amount Q, when the total filling amount Qx of the chemical solution 3 is smaller than the setting filling amount Q, it is necessary to continue the filling operation as it is. Therefore, the control device 8 determines the predetermined time t (2/100 seconds)
The processing from S2 to S5 is repeated every time the time has elapsed. Further, the control device 8 of the present embodiment compares the total filling amount Qx with the set filling amount Q in S5,
When it is confirmed that the total filling amount Qx of the liquid medicine is smaller than the set filling amount Q, the total filling amount Qx of the liquid medicine 2 is subtracted from the set filling amount Q, and the remaining amount of the liquid medicine 3 to be filled into the ampoule 2 is obtained. The quantity Q1 is determined (S8). If the previously obtained remaining amount Q1 is stored, it is deleted and the new remaining amount Q1 obtained in S8 is stored (S9).
Next, based on the remaining amount Q1 stored in S9 and the above function, the control device 8 determines the remaining amount Q1 stored in S9 in the ampoule 2.
The required time tx for filling the space is calculated and stored (S10). More specifically, the flow rate per unit time is obtained from the above function according to the hydraulic pressure at the end point of the predetermined time read from the hydraulic pressure sensor 15, and the remaining amount Q1 is divided by the flow rate per unit time, whereby The required time tx is calculated.
At the time when the required time tx is calculated, the measurement of the elapsed time is started by the timer (S11). At the same time, the controller 8 constantly compares the required time tx with the time measured by the timer (S12), and proceeds from S2 to S5.
From the next reading of the fluid pressure and temperature shown in
, Ie, at the predetermined time t (2/1
If the elapsed time measured by the timer reaches the end point of the required time tx while the time (00 seconds) elapses, the operation of the filling mechanism 7 is stopped at that time (S6). Thereby, the filling of the current ampule 2 is completed.
【0009】その後、制御装置8は、S4で積算した合
計充填量Qx、所要時間txおよびタイマーによる計測
時間を零にリセットし(S7)、それらからS1に戻っ
て新たなアンプル2に充填を開始する。一方、S12に
おいて、制御装置8は、上記所要時間txとタイマーで
計測した時間とを常時比較して、S2からS5に示した
次回の液圧、液温の読み込みから設定充填量Qとの比較
までの間に(所定時間tの経過した時点までの間に)、
タイマーで計測した経過時間が上記所要時間txに達し
ない場合には、S8からS12において再度同じ処理を
行う。なお、制御装置8は、S12における所要時間t
xとタイマーで計測した時間との比較は、2/1000
秒ごとに行うようにしている。換言すると、S2からS
5における液圧等の読み込みの1周期の間にS12にお
いて10回の比較を行うようにしている。上述した本実
施例によれば、充填開始後の時間の経過に伴うアンプル
2内への薬液3の充填量の積算と、所定時間tが経過し
た時点ごとに残量と所要時間txを把握して充填終了の
タイミングを決めているので、設定充填量Qと実際にア
ンプル2に充填された薬液3の充填量との誤差を小さく
することができる。したがって、従来に比較して、アン
プル2内への薬液3の充填量を高精度に管理することが
できる。また、上記実施例では、薬液の液圧だけでなく
液温も上記関数に加味しているので、薬液3の充填量を
より一層高精度に管理することができる。Thereafter, the control device 8 resets the total filling amount Qx integrated in S4, the required time tx, and the time measured by the timer to zero (S7), and returns to S1 to start filling a new ampoule 2. I do. On the other hand, in S12, the control device 8 constantly compares the required time tx with the time measured by the timer and compares the required time tx with the set filling amount Q from the next reading of the fluid pressure and fluid temperature shown in S2 to S5. (By the time t has elapsed).
If the elapsed time measured by the timer does not reach the required time tx, the same processing is performed again from S8 to S12. The control device 8 determines the required time t in S12.
The comparison between x and the time measured by the timer is 2/1000
We do it every second. In other words, S2 to S
In one cycle of reading the hydraulic pressure and the like in 5, ten comparisons are performed in S12. According to the above-described embodiment, the amount of filling of the ampoule 2 with the chemical solution 3 with the lapse of time after the start of filling is calculated, and the remaining amount and the required time tx are grasped every time the predetermined time t elapses. Thus, the error between the set filling amount Q and the filling amount of the chemical solution 3 actually filled in the ampoule 2 can be reduced. Therefore, the filling amount of the chemical solution 3 in the ampoule 2 can be controlled with higher accuracy than in the conventional case. Further, in the above embodiment, not only the liquid pressure of the chemical liquid but also the liquid temperature is considered in the above function, so that the filling amount of the chemical liquid 3 can be managed with higher accuracy.
【0010】(第2実施例)次に、図3は、制御装置8
による充填機構7の作動制御に関する第2実施例を示し
たものであり、この第2実施例は、上記図2に示した第
1実施例におけるS5の処理を省略し、上記S4から直
ちにS8の処理に移行するようにしたものである。すな
わち、制御装置8は、充填機構7のノズル14がアンプ
ル2内に挿入されたら上記各開閉弁14を同期して開放
させる。この時点からアンプル2へ薬液3の充填が開始
される(S1)。制御装置8には、予めアンプル2に充
填すべき薬液3の設定充填量Qを記憶させてあり、ま
た、薬液3の液圧・液温と充填量との関数を記憶させて
いる。そして、制御装置8は、充填を開始してから所定
時間t(例えば2/100秒)が経過した時点ごとに、
液圧センサ15で検出した液圧および液温センサ16で
検出した液温を読み込むようになっている(S2)。こ
の読み込みごとに、すなわち、上記所定時間tが経過し
た時点ごとに、制御装置8は上記関数をもとに所定時間
tでどれだけの量の薬液3がアンプル2内に充填された
かを演算する(S3)。そして、さらに、該今回演算し
た薬液3の量と過去に演算した薬液3の量とを積算し
て、現時点でのアンプル2内への薬液3の合計充填量Q
xを求め、記憶する(S4)。(Second Embodiment) Next, FIG.
2 shows an operation control of the filling mechanism 7 according to the second embodiment. In the second embodiment, the process of S5 in the first embodiment shown in FIG. 2 is omitted, and the process of S8 is performed immediately after S4. The processing is shifted to the processing. That is, when the nozzle 14 of the filling mechanism 7 is inserted into the ampoule 2, the control device 8 synchronously opens the on-off valves 14. From this point, filling of the ampoule 2 with the drug solution 3 is started (S1). The control device 8 stores in advance a set filling amount Q of the chemical solution 3 to be filled in the ampoule 2, and also stores a function of the liquid pressure / temperature of the chemical solution 3 and the filling amount. Then, the control device 8 sets each time a predetermined time t (for example, 2/100 seconds) elapses from the start of filling,
The liquid pressure detected by the liquid pressure sensor 15 and the liquid temperature detected by the liquid temperature sensor 16 are read (S2). Each time this reading is performed, that is, each time the predetermined time t elapses, the control device 8 calculates how much chemical solution 3 has been filled in the ampoule 2 at the predetermined time t based on the function. (S3). Further, the amount of the chemical liquid 3 calculated this time and the amount of the chemical liquid 3 calculated in the past are integrated, and the total filling amount Q of the chemical liquid 3 into the ampoule 2 at the present time is calculated.
x is obtained and stored (S4).
【0011】次に、制御装置8は、予め記憶した設定充
填量Qから現時点でのアンプル2内への薬液3の合計充
填量Qxを差し引いて、アンプル2内へ充填すべき薬液
3の残量Q1を求める(S5)。このように残量Q1が
求められた場合には、そのまま充填作業を継続する必要
があるので、制御装置8は、所定時間t(2/100
秒)の経過した時点ごとに上記S2からS5の処理を繰
り返す。また、S5において残量Q1があることが確認
された場合には、前回求めた残量Q1の記憶を削除し
て、新たに求めた残量Q1を記憶する(S6)。次に、
制御装置8は、S6で記憶した残量Q1と上記関数をも
とにして、S6で記憶した残量Q1をアンプル2内に充
填するための所要時間txを演算し、記憶する(S
7)。また、この所要時間txを演算した時点から上記
タイマーによって経過時間の計測を開始する(S8)。
これと同時に制御装置8は、上記所要時間txとタイマ
ーで計測した時間とを常時比較し(S9)、S2からS
5に示した液圧、液温の次回の読み込みから残量Q1の
演算までの間に、すなわち上記所定時点t(2/100
秒)が経過する間に、上記タイマーで計測した経過時間
が上記所要時間txの終点が到来したら、その時点で充
填機構7の作動を停止させる(S10)。これにより現
在のアンプル2に対する充填が終了する。その後、制御
装置8は、S4で積算した合計充填量Qx、所要時間t
xおよびタイマーによる計測時間を零にリセットし(S
11)、それらからS1に戻って新たなアンプル2に充
填を開始する。一方、S9において、制御装置8は、上
記所要時間txとタイマーで計測した時間とを常時比較
して、次回の残量値が更新されるまでにタイマーで計測
した経過時間が上記所要時間txに達しない場合には、
S6からS9において再度同じ処理を行う。このような
第2実施例であっても上述した第1実施例と同様の作用
効果を得ることができる。Next, the control device 8 subtracts the total filling amount Qx of the chemical solution 3 into the ampoule 2 from the preset filling amount Q stored in advance, and calculates the remaining amount of the chemical solution 3 to be filled into the ampoule 2. Q1 is obtained (S5). When the remaining amount Q1 is obtained as described above, the filling operation needs to be continued as it is, so the control device 8 sets the predetermined time t (2/100)
The processing from S2 to S5 is repeated every time (second) has elapsed. If it is confirmed in S5 that there is the remaining amount Q1, the storage of the previously obtained remaining amount Q1 is deleted, and the newly obtained remaining amount Q1 is stored (S6). next,
The control device 8 calculates and stores the required time tx for filling the ampoule 2 with the remaining amount Q1 stored in S6 based on the remaining amount Q1 stored in S6 and the above function (S
7). At the time when the required time tx is calculated, the measurement of the elapsed time is started by the timer (S8).
At the same time, the control device 8 constantly compares the required time tx with the time measured by the timer (S9), and proceeds from S2 to S2.
5, between the next reading of the fluid pressure and the fluid temperature and the calculation of the remaining amount Q1, that is, at the predetermined time point t (2/100
If the elapsed time measured by the timer reaches the end point of the required time tx during the elapse of (second), the operation of the filling mechanism 7 is stopped at that time (S10). Thereby, the filling of the current ampule 2 is completed. Thereafter, the control device 8 determines the total filling amount Qx integrated in S4 and the required time t.
x and the time measured by the timer are reset to zero (S
11) Then, the process returns to S1 to start filling a new ampoule 2. On the other hand, in S9, the control device 8 constantly compares the required time tx with the time measured by the timer, and determines the elapsed time measured by the timer until the next remaining amount value is updated. If not,
The same processing is performed again from S6 to S9. Even in such a second embodiment, the same operation and effect as in the first embodiment can be obtained.
【0012】なお、上記各実施例においては、制御装置
8は、予め定めた薬液3の液圧・液温と充填量との関数
をもとに各開閉弁13の作動を制御しているが、液圧・
液温と充填量との関数の代わりに薬液3の液圧と充填量
との関数を用いてもよい。また、上述した実施例では、
液圧センサ15を分配管6に設けているが、液圧センサ
15を各充填機構7ごとに設けて、各充填機構7の液圧
の変動に応じて制御装置8によって各充填機構7の開閉
弁13を上述した実施例に倣って制御するようにしても
良い。さらに、上記実施例においては、制御装置8が液
圧を読み込む間隔は所定時間t(2/100秒)として
一定であったが、必ずしも所定間隔でなくても良い。す
なわち、第1回は2/100秒、第2回は5/100
秒、第3回は3/100秒というように適宜の経過時間
ごとに、制御装置8が液圧を読み込むようにしても良
い。この場合は、求めた単位時間当たりの流量にかける
時間が、上記実施例のように一定ではないというだけ
で、他は上記実施例と同様である。In each of the above embodiments, the control device 8 controls the operation of each open / close valve 13 based on a predetermined function of the liquid pressure / liquid temperature of the chemical solution 3 and the filling amount. , Hydraulic pressure
A function between the liquid pressure of the chemical solution 3 and the filling amount may be used instead of the function between the liquid temperature and the filling amount. In the above-described embodiment,
Although the hydraulic pressure sensor 15 is provided in the distribution pipe 6, the hydraulic pressure sensor 15 is provided for each filling mechanism 7, and the opening and closing of each filling mechanism 7 is controlled by the control device 8 according to the fluctuation of the hydraulic pressure of each filling mechanism 7. The valve 13 may be controlled according to the above-described embodiment. Further, in the above-described embodiment, the interval at which the control device 8 reads the hydraulic pressure is constant as the predetermined time t (2/100 seconds). However, the interval may not necessarily be the predetermined interval. That is, the first time is 2/100 seconds and the second time is 5/100 seconds.
The control device 8 may read the hydraulic pressure at appropriate intervals such as seconds and 3/100 seconds for the third time. In this case, the remaining time is the same as that of the above embodiment except that the time applied to the flow rate per unit time is not constant as in the above embodiment.
【0013】[0013]
【発明の効果】以上のように、本発明によれば、従来に
比較して、容器内への充填液の充填量を高精度に管理す
ることができるという効果が得られる。As described above, according to the present invention, the effect that the filling amount of the filling liquid in the container can be controlled with higher precision than that of the related art can be obtained.
【図1】本発明の一実施例を概略の構成図FIG. 1 is a schematic configuration diagram showing an embodiment of the present invention.
【図2】図1に示した制御装置8による処理工程を示す
図FIG. 2 is a diagram showing processing steps by a control device 8 shown in FIG.
【図3】本発明の他の実施例を示す制御装置8による処
理工程を示す図FIG. 3 is a diagram showing processing steps performed by a control device 8 according to another embodiment of the present invention.
1 圧力充填装置 2 アンプル 3 薬液 4 圧力タンク 7 充填機構 8 制御装置 13 開閉弁 15 液圧セン
サ 16 液温センサDESCRIPTION OF SYMBOLS 1 Pressure filling device 2 Ampoule 3 Chemical solution 4 Pressure tank 7 Filling mechanism 8 Control device 13 On-off valve 15 Liquid pressure sensor 16 Liquid temperature sensor
Claims (4)
填を行う液体の圧力充填方法であって、 充填開始後、液体の圧力を順次検出するとともに、予め
記憶した液圧と充填量との関数を基に液体の圧力の検出
間隔ごとにその間隔内に容器に充填された液体の充填量
を演算し、 それら演算して求めた液体の充填量を積算して容器内に
充填された液体の合計充填量、およびこれから充填すべ
き残量を演算し、かつ、該充填すべき残量を容器内に充
填するための所要時間を演算するとともに充填時間の計
測を開始し、 該所要時間と充填時間が一致したら、容器内への液体の
充填を終了するようにしたことを特徴とする液体の圧力
充填方法。1. A pressure filling method for a liquid in which a liquid is filled in a container while pressure is applied to the liquid, wherein after the filling is started, the pressure of the liquid is sequentially detected, and a liquid pressure and a filling amount stored in advance. Calculates the amount of liquid filled in the container within each liquid pressure detection interval based on the function Calculating the total filling amount of the liquid and the remaining amount to be filled from this, calculating the time required to fill the remaining amount to be filled into the container, and starting the measurement of the filling time; A pressure filling method for a liquid, wherein the filling of the liquid into the container is terminated when the time and the filling time match.
となっていることを特徴とする請求項1に記載の液体の
圧力充填方法。2. The method according to claim 1, wherein the function is a function that also takes into account the temperature of the liquid.
ク内の液体を加圧する加圧手段と、上記圧力タンクと連
通するとともに開閉弁を有する複数の充填機構と、これ
ら充填機構の作動を制御する制御装置と、液体の圧力を
検出して上記制御装置に入力する液圧センサとを備えた
液体の圧力充填装置であって、 上記制御装置は、充填開始後、液体の圧力を順次読み込
むとともに、予め記憶した液圧と充填量との関数を基に
液体の圧力の検出間隔ごとにその間隔内に容器に充填さ
れた液体の充填量を演算し、 それら演算して求めた液体の充填量を積算して容器内に
充填された液体の合計充填量、およびこれから充填すべ
き残量を演算し、かつ、該充填すべき残量を容器内に充
填するための所要時間を演算するとともに充填時間の計
測を開始し、 該所要時間と充填時間が一致したら、容器内への液体の
充填を終了するようにしたことを特徴とする液体の圧力
充填装置。3. A pressure tank for storing a liquid, a pressurizing means for pressurizing the liquid in the pressure tank, a plurality of filling mechanisms communicating with the pressure tank and having an on-off valve, and controlling the operation of these filling mechanisms. And a liquid pressure sensor for detecting the pressure of the liquid and inputting the pressure to the control device, wherein the control device sequentially reads the pressure of the liquid after the start of filling. Calculates the filling amount of the liquid filled in the container within each interval of the detection of the liquid pressure based on the function of the liquid pressure and the filling amount stored in advance, and calculates the filling amount of the liquid obtained by the calculations. Is calculated by calculating the total filling amount of the liquid filled in the container and the remaining amount to be filled from there, and calculating the time required for filling the container with the remaining amount to be filled. Start measuring time, When the required time and the filling time match, the filling of the liquid into the container is terminated.
る液温センサを備えるとともに、上記関数は、液体の温
度も加味した関数となっていることを特徴とする請求項
3に記載の液体の圧力充填装置。4. The apparatus according to claim 3, further comprising a liquid temperature sensor for detecting a temperature of the liquid and inputting the temperature to a control device, wherein the function is a function that also takes into account the temperature of the liquid. Liquid pressure filling device.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP28252397A JP3879882B2 (en) | 1997-09-30 | 1997-09-30 | Liquid pressure filling method and pressure filling apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP28252397A JP3879882B2 (en) | 1997-09-30 | 1997-09-30 | Liquid pressure filling method and pressure filling apparatus |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH11105987A true JPH11105987A (en) | 1999-04-20 |
JP3879882B2 JP3879882B2 (en) | 2007-02-14 |
Family
ID=17653571
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JP28252397A Expired - Fee Related JP3879882B2 (en) | 1997-09-30 | 1997-09-30 | Liquid pressure filling method and pressure filling apparatus |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6729366B2 (en) | 2001-07-10 | 2004-05-04 | Toyo Jidoki Co., Ltd. | Flow meter type liquid filling apparatus |
JP2013107683A (en) * | 2011-11-22 | 2013-06-06 | Toppan Printing Co Ltd | Liquid filling method and device |
CN104781183A (en) * | 2012-11-12 | 2015-07-15 | 克朗斯股份公司 | Method and device for producing beverage containers |
-
1997
- 1997-09-30 JP JP28252397A patent/JP3879882B2/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6729366B2 (en) | 2001-07-10 | 2004-05-04 | Toyo Jidoki Co., Ltd. | Flow meter type liquid filling apparatus |
JP2013107683A (en) * | 2011-11-22 | 2013-06-06 | Toppan Printing Co Ltd | Liquid filling method and device |
CN104781183A (en) * | 2012-11-12 | 2015-07-15 | 克朗斯股份公司 | Method and device for producing beverage containers |
Also Published As
Publication number | Publication date |
---|---|
JP3879882B2 (en) | 2007-02-14 |
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