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JP3747303B2 - Gas measuring device in sealed space - Google Patents

Gas measuring device in sealed space Download PDF

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Publication number
JP3747303B2
JP3747303B2 JP22270497A JP22270497A JP3747303B2 JP 3747303 B2 JP3747303 B2 JP 3747303B2 JP 22270497 A JP22270497 A JP 22270497A JP 22270497 A JP22270497 A JP 22270497A JP 3747303 B2 JP3747303 B2 JP 3747303B2
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JP
Japan
Prior art keywords
rod
sterilizer
sealed space
valve
ethylene oxide
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 - Fee Related
Application number
JP22270497A
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Japanese (ja)
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JPH1164178A (en
Inventor
義浩 金澤
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.)
Sakura Seiki Co Ltd
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Sakura Seiki Co Ltd
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Filing date
Publication date
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  • Investigating Or Analyzing Materials By The Use Of Electric Means (AREA)
  • Investigating Or Analyzing Materials By The Use Of Fluid Adsorption Or Reactions (AREA)
  • Sampling And Sample Adjustment (AREA)

Description

【0001】
【発明の属する技術分野】
この発明は、酸化エチレン滅菌器中の湿度測定のような、密閉容器、密閉室等の密閉空間内のガス測定に利用することができる。
【0002】
【従来の技術】
例として酸化エチレン滅菌器について説明すると、酸化エチレンに滅菌作用を発揮させるには、湿気の存在が必要である。この水分量は酸化エチレンに対して25〜50%が適当で、80%になると滅菌効果は得られなくなる。そこで滅菌作業時には、先ず滅菌器内の空気を排出して真空状態にした後、噴霧状の水又は水蒸気を送給して器内の湿度を高め、器内湿度を測定して湿度が適当になったときに加湿を止めて、酸化エチレンのガスを送給して酸化エチレンに対して湿度が25〜50%になるように調整していた。
【0003】
この滅菌器内湿度測定のために、従来は、湿度測定用ブリッジ回路を合成樹脂に包埋したセンサの受感部を器内に露出させて設け、器外に設けたセンサの測定部から受感部に電圧を加えて、湿度の多少による電圧変動を測定して器内湿度の適否を判断していた。
【0004】
この受感部は器内に常時取付けておくため、酸化エチレンを送給し滅菌を始めると、酸化エチレンが受感部に付着してこれを侵蝕し、性能を劣化させるのが避けられなかった。付着した酸化エチレンを除くには、受感部を加熱するとよいが、酸化エチレンは引火性があるため、この作業は危険である。センサを外して安全な場所で加熱作業をすれば危険は避けられるが、作業が煩らわしい。
【0005】
そこで、このような受感部の劣化を避けるため、図3のような構造が考えられた。図3は、酸化エチレン滅菌器の器壁の1部の縦断面図である。
【0006】
この装置は、滅菌器1の器壁1aとこれを囲む保温用ジャケット6とに取付けた導管2に、弁3を介してセンサの受感部4を取付け、測定時にだけ弁3を開いて、器内に送給した湿気を受感部4に通じさせ、器内の湿度を知るものである。
【0007】
湿度測定を終ったならば、弁3を閉じて受感部4を滅菌器内と遮断する。次に酸化エチレンを送給しても受感部は酸化エチレンに接触しないから、このガスのため受感部4の性能が劣化することはない。
【0008】
【発明が解決しようとする課題】
上記のように湿度測定装置を構成すると、滅菌器1内の湿気は、導管2、弁3を通ってセンサの受感部4に到達するため、前に入ってこの通路に残っていた湿気のため、器内の新しい湿度の測定が妨げられて測定が不正確になる。滅菌器に水分を導入しながら、迅速に変化する湿度を、直ちに知ることは困難であった。
【0009】
ここに例として説明した酸化エチレン滅菌器の他の密閉空間のガス測定においても、図3のような構成では、大きな測定誤差を伴なうのは避けられない。
【0010】
【課題を解決するための手段】
この発明の測定装置は、センサの受感部を密閉空間内に挿入される管状のロッドの端部内に取付け、且つこのロッドの端部には弁を設け、弁に近いロッドの側面で受感部のある位置には窓を開設し、ロッドが密閉空間の壁に取付けた基体に支持されて縦動するに伴なって弁が基体の通孔を開閉すると共に、ロッドに設けた窓を密閉空間内に露出させ、又は密閉空間と遮断するように密閉空間のガス測定装置を構成してこの課題を解決したものである。
【0011】
【作用】
ロッドを密閉空間内に進入させて弁が開くと、ロッド側面の窓からガスがロッド内に進入して受感部に接触し、ガスの状態を感知してこれを測定部で知ることができる。受感部は密閉空間内のガスに直接接触するから、ガスの状態変化を迅速に且つ正確に測定することができる。測定しないときは弁を閉じて受感部とガスとを遮断するから、受感部がガスに曝される時間を著しく少なくする。
【0012】
【発明の実施の形態】
図1は本発明の第1の実施形態を酸化エチレン滅菌器について略示する滅菌器壁の1部の縦断面図である。
【0013】
密閉空間を形成する滅菌器1の器壁1aは、保温用の温水を充填されるジャケット6で囲まれている。器壁1aとジャケット6とに孔7、8を穿設し、これに基体9を嵌合して器壁1a、ジャケット6と気密に溶接している。基体9には、管状のロッド10を挿通した中央の孔11の両端に、滅菌器1側にはシール材12を嵌着し弁座を構成する大径部13を形成し、反対側にはベローズ14を入れる大径部15を形成する。ベローズ14は、滅菌器1側の閉塞端14aをロッド10に気密に接着し、開口端14bを端板16に気密に接着して滅菌器1内と外部とを遮断している。端板16の外側には弾性材の緩衝板17を取付ける。ロッド10の外端部には輪形の連結部材18の1端を取付け、連結部材18の他端はアクチュエータ19の駆動軸19aに結合する。ロッド10の滅菌器側端部には、シール材12に対応する形の弁20が取付けてあり、弁20が開いたとき滅菌器1内に露出するロッド10の側面には窓21を開設し、その内方に湿度センサの受感部22aを取付け、これに接続される測定部22bを、ロッド10の外端部に取付けている。23はロッド10の縦動を案内するベアリングである。シール材12を大径部13に嵌着して弁座とする代りに、弁20にシール材を取付け、大径部13をこれに対応する形の弁座としても同効である。
【0014】
以上のように構成するから、滅菌器内を真空にした後、湿気を器内へ送給するときに、アクチュエータ19により連結部材18を介してロッド10を滅菌器1側に押出すと、図1のように弁20はシール材12から離れ、ロッド側面の窓21が滅菌器中に露出する。孔11を通っての湿気の漏洩や器内を真空にしたときに外気が孔11を通って受感部に達することは、ベローズ14のため阻止される。ロッド10の適当な滅菌器内突出量は、連結部材18が緩衝板17に当接することにより規制される。これにより滅菌器1内の湿気が窓21からロッド内に入って受感部22aに接触し、湿度が測定部22bから電気信号として取出される。
【0015】
アクチュエータ19を逆に駆動してロッド10を滅菌器1から引出すと、弁20がシール材12に当接して湿気が基体9へ流出するのを阻止し、受感部22aは滅菌器内の湿気に接触しなくなって湿度測定は終了する。
【0016】
図2は図1と同様の第2の実施形態を略示する縦断側面図である。図1と同等部分は同符号で示すと共に説明を省略して次にこれを説明する。
【0017】
ロッド10には緩衝板17の外においてピストン25を結合し、これを嵌合させるシリンダ26を緩衝板17を挟んで端板16に取付けている。27、28、29は緩衝板17、ピストン25、シリンダ26の端板に取付けたシール材、30、31はシリンダ26への圧力流体給排管である。32は、シール材27からの漏洩を検知するための管で、漏洩検知器へ接続される。
【0018】
圧力流体給排管30から圧縮空気等の圧力流体をシリンダ26内に供給してピストン25を滅菌器側へ押してロッド10を縦動させると、弁20が開き、窓21を通して滅菌器1内の湿度を測定することができる。
【0019】
圧力流体給排管31から圧力流体を入れて弁20を閉じると、受感部22aと滅菌器内とを遮断し測定を停止することができる。第1例のアクチュエータ19、連結部材18の代りにピストン25、シリンダ26を使用し、ベローズを使用しない外は、第1例と同様である。
【0020】
ここに例示し説明した酸化エチレン滅菌器の湿度測定装置は、最初に滅菌器中の湿度を測定した後は、受感部が酸化エチレンに接触することがないから、酸化エチレンを吸着することがない。従って受感部を加熱して脱ガス処理操作をする必要がなく、脱ガス処理に伴なう面倒な作業や危険を避けることができる。
【0021】
本発明は、上記に例示した酸化エチレン滅菌器に限らず、その他の密閉容器、密閉室等の密閉空間内の温度、湿度、圧力の測定や化学変化の状態を知る装置に利用して、これらの状態変化を迅速かつ正確に知ると共にセンサを保護できる測定装置として使用できるものである。
【0022】
【発明の効果】
(1) 測定時にのみセンサの受感部を測定対象ガスに接触させ、測定終了後は受感部とガスとを遮断するから、受感部とガスとの接触時間を著しく短縮することができる。受感部がガスにより侵蝕されるものでは、受感部の劣化を少なくすることができる。
【0023】
(2) 酸化エチレン滅菌器のように、最初に水分を器内に送給してその湿度を測定し、その後に酸化エチレンを送給する場合は、センサが酸化エチレンに接触することがなく、酸化エチレンのためセンサが劣化することがない。受感部を加熱して脱ガス処理をする必要がない。
【0024】
(3) 目的ガス中にセンサの受感部を挿入して直接測定するから、迅速かつ正確な測定ができる。
【図面の簡単な説明】
【図1】本発明の実施の形態の第1例として略示する酸化エチレン滅菌器の器壁の部分縦断面図。
【図2】同じく第2例を示す同様縦断面図。
【図3】従来例として略示する酸化エチレン滅菌器の湿度測定装置の器壁の部分縦断面図。
【符号の説明】
1 滅菌器
1a 器壁
2 導管
3 弁
4 受感部
6 ジャケット
7、8 孔
9 基体
10 ロッド
11 孔
12 シール材
13 大径部
14 ベローズ
14a 閉塞端
14b 開口端
15 大径部
16 端板
17 緩衝板
18 連結部材
19 アクチュエータ
19a 駆動軸
20 弁
21 窓
22 湿度センサ
22a 受感部
22b 測定部
23 ベアリング
25 ピストン
26 シリンダ
27、28、29 シール材
30、31 圧力流体給排管
32 管
[0001]
BACKGROUND OF THE INVENTION
The present invention can be used for gas measurement in a sealed space such as a sealed container or a sealed chamber, such as humidity measurement in an ethylene oxide sterilizer.
[0002]
[Prior art]
When an ethylene oxide sterilizer is described as an example, the presence of moisture is necessary for ethylene oxide to exert a sterilizing action. The water content is suitably 25 to 50% with respect to ethylene oxide, and when it reaches 80%, the sterilization effect cannot be obtained. Therefore, at the time of sterilization, first, the air in the sterilizer is exhausted to a vacuum state, and then sprayed water or water vapor is supplied to increase the humidity in the vessel, and the humidity in the vessel is measured to make the humidity appropriate. At that time, humidification was stopped and ethylene oxide gas was supplied to adjust the humidity to 25 to 50% with respect to ethylene oxide.
[0003]
In order to measure the humidity inside the sterilizer, conventionally, a sensor sensing section in which a humidity measurement bridge circuit is embedded in a synthetic resin is exposed inside the container, and received from the sensor measuring section provided outside the container. A voltage was applied to the sensitive part, and voltage fluctuations due to some humidity were measured to determine whether the internal humidity was appropriate.
[0004]
Since this sensitive part is always installed in the container, when ethylene oxide is fed and sterilization is started, it is inevitable that ethylene oxide adheres to the sensitive part and corrodes it, deteriorating the performance. . In order to remove the attached ethylene oxide, the sensitive part may be heated, but this is dangerous because ethylene oxide is flammable. If the sensor is removed and the heating operation is performed in a safe place, the danger can be avoided, but the operation is troublesome.
[0005]
Therefore, in order to avoid such deterioration of the sensing part, a structure as shown in FIG. 3 has been considered. FIG. 3 is a longitudinal sectional view of a part of the wall of the ethylene oxide sterilizer.
[0006]
In this apparatus, a sensor sensing part 4 is attached to a conduit 2 attached to a wall 1a of a sterilizer 1 and a heat insulation jacket 6 surrounding the wall 1a through a valve 3, and the valve 3 is opened only at the time of measurement. The moisture sent into the chamber is passed through the sensing part 4 to know the humidity inside the chamber.
[0007]
When the humidity measurement is finished, the valve 3 is closed to shut off the sensing part 4 from the inside of the sterilizer. Next, even if ethylene oxide is fed, since the sensitive part does not come into contact with ethylene oxide, the performance of the sensitive part 4 does not deteriorate due to this gas.
[0008]
[Problems to be solved by the invention]
When the humidity measuring device is configured as described above, the moisture in the sterilizer 1 passes through the conduit 2 and the valve 3 to reach the sensor sensing part 4, so that the moisture that has entered the front and remains in this passage can be removed. As a result, the measurement of new humidity in the vessel is hindered and the measurement becomes inaccurate. It was difficult to immediately know the rapidly changing humidity while introducing moisture into the sterilizer.
[0009]
Even in the gas measurement in another sealed space described as an example in the ethylene oxide sterilizer, it is inevitable that a large measurement error is caused in the configuration shown in FIG.
[0010]
[Means for Solving the Problems]
In the measuring device of the present invention, the sensor sensing part is mounted in the end of a tubular rod inserted into the sealed space, and a valve is provided at the end of the rod, and the sensor is sensitive to the side of the rod close to the valve. A window is opened at a certain position, and as the rod is supported by the base mounted on the wall of the sealed space and vertically moves, the valve opens and closes the through hole of the base, and the window provided on the rod is sealed. This problem is solved by configuring a gas measuring device in a sealed space so as to be exposed in the space or blocked from the sealed space.
[0011]
[Action]
When the rod enters the sealed space and the valve opens, gas enters the rod through the window on the side of the rod and contacts the sensing part, and the gas state can be sensed and detected by the measuring part. . Since the sensing part is in direct contact with the gas in the sealed space, it is possible to quickly and accurately measure the gas state change. When the measurement is not performed, the valve is closed to shut off the sensitive part and the gas, so that the time during which the sensitive part is exposed to the gas is significantly reduced.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a longitudinal sectional view of a portion of a sterilizer wall schematically illustrating a first embodiment of the present invention for an ethylene oxide sterilizer.
[0013]
A wall 1a of the sterilizer 1 that forms a sealed space is surrounded by a jacket 6 that is filled with warm water for heat retention. Holes 7 and 8 are bored in the vessel wall 1a and the jacket 6, and a base 9 is fitted into the holes 7 and 8, and the vessel wall 1a and the jacket 6 are hermetically welded. The base 9 is formed with a large diameter portion 13 constituting a valve seat on both ends of a central hole 11 through which a tubular rod 10 is inserted, and a sealing material 12 is fitted on the sterilizer 1 side. A large diameter portion 15 into which the bellows 14 is placed is formed. The bellows 14 has the closed end 14a on the sterilizer 1 side adhered to the rod 10 in an airtight manner, and the open end 14b is airtightly adhered to the end plate 16 to block the inside and outside of the sterilizer 1 from each other. An elastic buffer plate 17 is attached to the outside of the end plate 16. One end of a ring-shaped connecting member 18 is attached to the outer end portion of the rod 10, and the other end of the connecting member 18 is coupled to the drive shaft 19 a of the actuator 19. A valve 20 of a shape corresponding to the sealing material 12 is attached to the end of the sterilizer on the rod 10, and a window 21 is opened on the side of the rod 10 exposed in the sterilizer 1 when the valve 20 is opened. The sensor 22a of the humidity sensor is attached to the inside thereof, and the measuring part 22b connected thereto is attached to the outer end of the rod 10. A bearing 23 guides the longitudinal movement of the rod 10. Instead of fitting the sealing material 12 to the large-diameter portion 13 as a valve seat, a sealing material is attached to the valve 20 and the large-diameter portion 13 is also effective as a valve seat corresponding to this.
[0014]
Since it is configured as described above, when the inside of the sterilizer is evacuated and then moisture is fed into the chamber, the actuator 19 pushes the rod 10 to the sterilizer 1 side via the connecting member 18. 1, the valve 20 is separated from the sealing material 12 and the window 21 on the side surface of the rod is exposed in the sterilizer. Leakage of moisture through the hole 11 and the outside air reaching the sensing part through the hole 11 when the inside of the chamber is evacuated are prevented by the bellows 14. The appropriate amount of protrusion of the rod 10 in the sterilizer is regulated by the connection member 18 coming into contact with the buffer plate 17. As a result, the moisture in the sterilizer 1 enters the rod through the window 21 and comes into contact with the sensing part 22a, and the humidity is taken out from the measuring part 22b as an electrical signal.
[0015]
When the actuator 19 is driven in the reverse direction and the rod 10 is pulled out from the sterilizer 1, the valve 20 abuts against the sealing material 12 to prevent moisture from flowing out to the base 9, and the sensing part 22a is moisture in the sterilizer. Humidity measurement is terminated when it is no longer touched.
[0016]
FIG. 2 is a longitudinal side view schematically showing a second embodiment similar to FIG. The same parts as those in FIG. 1 are denoted by the same reference numerals and the description thereof will be omitted.
[0017]
A piston 25 is coupled to the rod 10 outside the buffer plate 17, and a cylinder 26 into which the piston 25 is fitted is attached to the end plate 16 with the buffer plate 17 interposed therebetween. Reference numerals 27, 28 and 29 denote buffer plates 17, pistons 25 , sealing materials attached to end plates of the cylinder 26, and 30 and 31 denote pressure fluid supply / discharge pipes to the cylinder 26. Reference numeral 32 denotes a pipe for detecting leakage from the sealing material 27 and is connected to the leakage detector.
[0018]
When pressurized fluid such as compressed air is supplied from the pressurized fluid supply / discharge pipe 30 into the cylinder 26 and the piston 25 is pushed toward the sterilizer to cause the rod 10 to move vertically, the valve 20 opens, and the inside of the sterilizer 1 passes through the window 21 . Humidity can be measured.
[0019]
When the pressure fluid is introduced from the pressure fluid supply / discharge pipe 31 and the valve 20 is closed, the sensor 22a and the inside of the sterilizer can be shut off to stop the measurement. The piston 25 and the cylinder 26 are used in place of the actuator 19 and the connecting member 18 in the first example, and the bellows are not used.
[0020]
The ethylene oxide sterilizer humidity measuring device illustrated and described here is capable of adsorbing ethylene oxide since the sensitive part does not contact ethylene oxide after the humidity in the sterilizer is first measured. Absent. Therefore, it is not necessary to perform the degassing operation by heating the sensing part, and the troublesome work and danger associated with the degassing process can be avoided.
[0021]
The present invention is not limited to the ethylene oxide sterilizers exemplified above, but is used for devices that measure the temperature, humidity, pressure in a sealed space such as other sealed containers and sealed chambers and know the state of chemical change. It can be used as a measuring device that can quickly and accurately know the state change of the sensor and protect the sensor.
[0022]
【The invention's effect】
(1) The sensor sensitive part is brought into contact with the gas to be measured only at the time of measurement. After the measurement is completed, the sensitive part and the gas are shut off, so the contact time between the sensitive part and the gas can be significantly shortened. . When the sensitive part is corroded by gas, the deterioration of the sensitive part can be reduced.
[0023]
(2) Like an ethylene oxide sterilizer, when moisture is first fed into the chamber and its humidity is measured and then ethylene oxide is fed, the sensor does not come into contact with ethylene oxide. The sensor does not deteriorate due to ethylene oxide. There is no need to heat the sensitive part to degas.
[0024]
(3) Since the sensor's sensitive part is inserted into the target gas for direct measurement, rapid and accurate measurement is possible.
[Brief description of the drawings]
FIG. 1 is a partial longitudinal sectional view of a wall of an ethylene oxide sterilizer schematically shown as a first example of an embodiment of the present invention.
FIG. 2 is a similar longitudinal sectional view showing a second example.
FIG. 3 is a partial longitudinal sectional view of a wall of a humidity measuring device of an ethylene oxide sterilizer schematically shown as a conventional example.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Sterilizer 1a Instrument wall 2 Conduit 3 Valve 4 Sensitive part 6 Jacket 7, 8 hole 9 Base body 10 Rod 11 Hole 12 Sealing material 13 Large diameter part 14 Bellows 14a Closed end 14b Open end 15 Large diameter part 16 End plate 17 Buffer Plate 18 Connecting member 19 Actuator 19a Drive shaft 20 Valve 21 Window 22 Humidity sensor 22a Sensitive part 22b Measuring part 23 Bearing 25 Piston 26 Cylinder 27, 28, 29 Sealing material 30, 31 Pressure fluid supply / discharge pipe 32 Pipe

Claims (1)

密閉空間を囲む壁に基体を気密に取付けて、密閉空間側端部をこの空間内に入れた管状のロッドを縦動自在に支持し、このロッドの密閉空間内にある端部に基体に形成した弁座に着脱する弁を取付け、この弁に近いロッド側面に窓を開設し、ロッド内には窓の位置にセンサの受感部を設け、ロッドの密閉空間と反対側端部にこの受感部に接続されるセンサのセンサ部を設け、ロッドを縦動させ弁を基体に着脱させてロッドの窓を密閉空間内に露出させ、又はこの空間内と遮断する駆動機構を付設した密閉空間内のガス測定装置。A base is attached to the wall surrounding the sealed space in an airtight manner, and a tubular rod in which the end of the sealed space is placed in this space is supported in a vertically movable manner, and the end of the rod in the sealed space is formed on the base. A valve to be attached to and detached from the valve seat is attached, a window is opened on the side of the rod close to the valve, a sensor sensing part is provided in the rod at the position of the window, and this receiving part is located at the end opposite to the sealed space of the rod. A sealed space provided with a sensor that is connected to the sensor, and that has a drive mechanism that vertically moves the rod to attach and detach the valve to the base so that the window of the rod is exposed in the sealed space or is shut off from this space. Inside gas measuring device.
JP22270497A 1997-08-19 1997-08-19 Gas measuring device in sealed space Expired - Fee Related JP3747303B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP22270497A JP3747303B2 (en) 1997-08-19 1997-08-19 Gas measuring device in sealed space

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Application Number Priority Date Filing Date Title
JP22270497A JP3747303B2 (en) 1997-08-19 1997-08-19 Gas measuring device in sealed space

Publications (2)

Publication Number Publication Date
JPH1164178A JPH1164178A (en) 1999-03-05
JP3747303B2 true JP3747303B2 (en) 2006-02-22

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Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010005172A (en) * 2008-06-27 2010-01-14 Udono Iki:Kk Sterilizer
JP5451725B2 (en) * 2011-12-09 2014-03-26 チヨダエレクトリック株式会社 Atmosphere measuring device
EP4339603A3 (en) 2017-09-22 2024-06-19 Broadley-James Corporation Sensing element for use with media-preserving storage and calibration chamber

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