IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0926325
(2010-11-10)
|
등록번호 |
US-8578798
(2013-11-12)
|
우선권정보 |
DE-10 2009 046 637 (2009-11-11) |
발명자
/ 주소 |
- Pfauch, Thomas
- Wunderlich, Ingrid
|
출원인 / 주소 |
- Endress + Hauser Conducta Gesellschaft für Mess- und Regeltechnik mbH + Co., KG
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
1 |
초록
▼
A probe system for measuring a measured variable of a fluid, comprising: A probe body, which is connectable to the process container by means of a process connection; axially shiftable in a guiding passageway of the probe body between a measuring position and at least two different treatment positio
A probe system for measuring a measured variable of a fluid, comprising: A probe body, which is connectable to the process container by means of a process connection; axially shiftable in a guiding passageway of the probe body between a measuring position and at least two different treatment positions; an immersion tube, which has a protective cylinder on its front end immersible in the fluid; a measuring probe held in the immersion tube, having a measuring head, wherein the measuring head is arranged within a region of the protective cylinder having openings; a first treatment chamber formed between the guiding passageway and the immersion tube; a second treatment chamber formed between the guiding passageway and the immersion tube and adjoining the first treatment chamber on a side of the first treatment chamber facing away from the process connection; and a seal arranged between the first and second treatment chambers, wherein the immersion tube has a first section with a first outer diameter and a second section adjoining the first section and having a second outer diameter smaller than the first outer diameter, so that, through axial shifting of the immersion tube, the seal arranged between the first and second treatment chambers can be opened.
대표청구항
▼
1. A probe system for measuring a measured variable of a fluid, especially a liquid, contained in a process container, comprising: a probe body, which is connectable to the process container by means of a process connection;an immersion tube axially shiftable in a guiding passageway of the probe bod
1. A probe system for measuring a measured variable of a fluid, especially a liquid, contained in a process container, comprising: a probe body, which is connectable to the process container by means of a process connection;an immersion tube axially shiftable in a guiding passageway of the probe body between a measuring position and at least two different treatment positions, said immersion tube, having a front end and a protective cylinder on said front end immersible in the fluid;a measuring probe held in the immersion tube, said measuring probe having a measuring head, wherein said measuring head is arranged within a region of said protective cylinder having openings;a first treatment chamber formed between said guiding passageway and said immersion tube;a second treatment chamber formed between said guiding passageway and said immersion tube, and adjoining said first treatment chamber on a side of said first treatment chamber facing away from said process connection;a seal arranged between said first and said second treatment chambers; andat least two fluid transport lines, which open into said first treatment chamber, of which one serves as a supply line and another as a drain line, as well as one other fluid transport line opening into said second treatment chamber and selectively serving as a supply line or as a drain line; wherein:said immersion tube has a first section with a first outer diameter and a second section adjoining said first section and having a second outer diameter smaller, than the first outer diameter, so that, by axial shifting of the immersion tube, the seal arranged between the first and the second treatment chambers can be opened. 2. The probe system as claimed in claim 1, wherein: said second section adjoins said first section in the direction of said front end of said immersion tube;in a first treatment position of said immersion tube, said seal seals said first treatment chamber and said second treatment chamber from one another;in the case of an axial shifting movement of said immersion tube in a direction facing away from said process connection into a second treatment position, said seal is opened and a fluid passageway forms between said first and said second treatment chambers. 3. The probe system as claimed in claim 2, wherein: said seal is formed arranged within said guiding passageway by a sealing element, which, in said first treatment position of said immersion tube, lies against said first section with said first outer diameter. 4. The probe system as claimed in claim 3, wherein: in said second treatment position, between said sealing element and said second section of said immersion tube, due to the smaller second outer diameter relative to the first outer diameter, a gap is opened, which connects said first treatment chamber and said second treatment chamber with one another. 5. The probe system as claimed in claim 1, wherein: each fluid transport line, which opens into said first treatment chamber, is closable by means of a valve. 6. A method for operating a probe system as claimed in claim 1, whose immersion tube can be shifted axially into a measuring position, a first treatment position and a second treatment position, comprising steps of: shifting the immersion tube into the second treatment position, in which the seal between the first and the second treatment chamber is opened, so that the first and second treatment chamber are connected with one another;securing a measuring probe within the immersion tube, while the immersion tube is located in the second treatment position; and further comprising at least one of the following steps:supplying a sterilization medium into the connected treatment chambers and sterilizing the sections of the immersion tube located within the first and second treatment chambers and the measuring head of the measuring probe accessible via washing, and/or rinsing, openings within the protective cylinder on the front end of the immersion tube while the immersion tube is located in the second treatment position;supplying a sterilization medium into the first treatment chamber and sterilizing the section of the immersion tube located within the first treatment chamber and the measuring head of the measuring probe accessible via the washing, and/or rinsing, openings within the protective cylinder on the front end of the immersion tube while the immersion tube is located in the first treatment position, in which the first and the second treatment chamber are sealed from one another;supplying a washing, and/or rinsing, liquid into the first treatment chamber and washing and/or rinsing the section of the immersion tube located within the first treatment chamber and the measuring head of the measuring probe accessible via the washing, and/or rinsing, openings within the protective cylinder on the front end of the immersion tube while the immersion tube is located in the first treatment position; andsupplying a calibration liquid into the first treatment chamber and calibrating the measuring probe, whose measuring head is supplied with calibration liquid via the washing, and/or rinsing, openings within the protective cylinder on the front end of the immersion tube, while the immersion tube is located in the first treatment postion. 7. A probe system for measuring a measured variable of a fluid, especially a liquid, contained in a process container, comprising: a probe body, which is connectable to the process container by means of a process connection;an immersion tube axially shiftable in a guiding passageway of the probe body between a measuring position and at least first and second different treatment positions, said immersion tube, having a front end and a protective cylinder on said front end immersible in the fluid;a measuring probe held in the immersion tube, said measuring probe having a measuring head, wherein said measuring head is arranged within a region of said protective cylinder having openings;a first treatment chamber formed between said guiding passageway and said immersion tube;a second treatment chamber formed between said guiding passageway and said immersion tube, and adjoining said first treatment chamber on a side of said first treatment chamber facing away from said process connection; anda seal arranged between said first and said second treatment chambers; wherein:said immersion tube has a first section with a first outer diameter and a second section adjoining said first section and having a second outer diameter smaller, than the first outer diameter, so that, by axial shifting of the immersion tube, the seal arranged between the first and second treatment chambers can be opened;on the side of said first treatment chamber facing said process connection, a second seal is arranged, which seals said first treatment chamber relative to said process container, when said immersion tube is located in said second treatment position; andspaced from said second seal on said process connection side end region of said probe body, a third seal is arranged, which seals said guiding passageway and said first treatment chamber relative to said process container, when said immersion tube is located in said measurig position or in said first treatment position. 8. The probe system as claimed in claim 7 wherein: adjoining said first section of said immersion tube with the first outer diameter on its side facing away from said front end of said immersion tube, is a third section of said immersion tube, which has a third outer diameter smaller than said first outer diameter; andsaid third outer diameter, especially, is equally as large as said second outer diameter, so that, by axial shifting of said immersion tube in the direction of said process connection into said measuring position, said second seal is opened. 9. The probe system as claimed in claim 8, wherein: said second seal is formed arranged within the guiding passageway by a second sealing element, which, in said second treatment position, lies against said first section of said immersion tube, while in said measuring position of said immersion tube, between said second sealing element and said third section of said immersion tube, due to said first outer diameter being smaller than said third outer diameter, a gap is present, which makes said second sealing element accessible for liquid supplied via said supply line into said first treatment chamber.
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