前苏联专利SU1507205A3 Machine for dialysis

专利PDF首页>>前苏联专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
A method and apparatus for sterilization of a dialysis system. The dialysis system comprises a dialyzer, a receptacle for water and a receptacle for dialysis concentrate, and fluid conducting means for conducting fluids from the receptacles for water and dialysis concentrate to and through the dialyzer. The method includes the steps of terminating the conducting of dialysis concentrate through the fluid conducting means, introducing sterilizing agent into the fluid conducting means at a first point in the fluid conducting means, conducting the sterilizing agent through the fluid conducting means downstream of the first point, and directing a portion of the sterilizing agent from a second point in the fluid conducting means to a third point in the fluid conducting means, the second point being downstream of the first point and the third point being upstream of the first point. The apparatus includes a source of sterilizing agent, means for introducing sterilizing agent into the fluid conducting means at a first point in the fluid conducting means, and fluid return means for conducting a portion of the sterilizing agent from a second point in the fluid conducting means to a third point in the fluid conducting means, the second point being downstream of the first point and the third point being upstream of the first point. With such a method and apparatus, sterilizing agent is conducted substantially throughout the fluid conducting means of the dialysis system.
公开号:SU1507205A3
申请号:SU772533854
申请日:1977-10-13
公开日:1989-09-07
发明作者:Рид Герхард；Леннарт Ларссон Ларс-Оке；Йохан Роланд；Андерссон Эдвин；Андерс Йенссон Свен
申请人:Гамбро Аб (Фирма)；
IPC主号:

专利说明:

The invention relates to medical technology and can be used in dialysis systems.
The aim of the invention is to simplify the system.
The drawing shows the block diagram of the dialyzing system.
The system comprises a water tank 1, provided with a float type valve 2 and a water heating device 3, for example, a heating coil element. The valve 2 is designed to shut off the water inlet line 4 by means of a locking cone 5 when filling the water tank 1. The water supply is carried out by means of the pipeline 6. The water tank 1 is equipped with high and low pressure regulators 8
levels to control the level of fluid in the tank. Regulators 7 and 8 can be adapted to regulate the inlet valve 9 in the water supply pipe 6 to the water tank 1. The latter is also provided with filtering membrane 10 and communicated by pipe 11 with a branch point 12. A temperature sensor 13, a shut-off valve 14 and a throttle valve 15 are installed on pipe 11. Point 12 is branched off and is simultaneously connected to the tank 16 of the salt and sterilizing solution, in front of which the throttle valve 17 is installed, and through the control pressure sensor 1B to the pump 19. The pump 19 is in communication with the bubble separator 20
SP
about
to
about
SP

cm
21. A pipeline 22 is also connected to the bubbling separator 20 to remove gas and a return pipe 23 connecting the upper points of the separator 20 and the water tank 1. In order to shut off the pipeline 22 in the case of filling the separator 20, a float valve 24 serves. The return pipe 23 is provided with a check valve 25. The bubble separator 20 is connected to the tub by means of a pipe 26 equipped with an electrical conductivity sensor 27 with a branch point 28. Using the conductivity sensor 27, the throttle valve 17 is controlled. The junction point 28 is connected simultaneously to the bypass pipe 29 provided with the valve 30 and through pipe 31 to the dialyzer 32. Bypass through pipe 29 is performed during sterilization or deviation from such parameters as temperature and salt composition. A valve 33 and a flow meter 34 are installed on the pipe 31. The dialyator is transported through the cutter through input 35 and output 36. A detector 37 is installed at the output of the dialyzer to detect blood, trigger an alarm and turn off the system when blood enters the dialysis solution. A manometer 38 is installed downstream of the detector, which is predetermined together with a pressure regulator 39 for controlling the pump 40.
In addition, the dialyzing system contains a temperature controller 41 associated with a heating device 3 and a temperature sensor 13, a pressure controller 42 associated with a pump 19 and a pressure sensor 18, a controller 43 connected with an electrical conductivity sensor 27 and a throttle valve 17.
The dialysing IBS theme can, if necessary, be equipped with a separate reservoir 44 for sterilizing a lean solution. The dialpsing system also provides a safety bypass line 45 for sterilizing the system. The tanks for the solutions are communicated by common pipe 46 to the pump inlet.
The dialysing system works in a skinny manner.
During sterilization, sterilizing solution from reservuprg 16 I1P in case of
five
0
five
0
five
0
five
0
five
In a separate tank, 44 of the latter with pump 19 through bubble separator 20 and check valve 25 through Jpy passage 23 to water tank 1 with valves 30 and 33 closed. At that, float valve 24 blocks access of sterilizing solution to pipe 22 to remove gas. After filling the sterilized solutions of the closed-loop system, which includes the bubbling separator 20 and the tank-1 for water, using the valves 30 and 33, pass the sterilizing solution through the bypass pipeline 29, pipeline 31, to the safety bypass line 45 up to the pump 40.
After sterilization, the dialyzing system is rinsed with water, fed through an inlet line 4 and passed through lines 11, 21, 23, 29 and 31, and then with a pump 40 to a drain.
During dialysis, heated by means of the device 3 for heating water through the filter element 10 through line 11 is sucked in by pump 19, and the salt solution from the reservoir 16 is also sucked in. In a bubbling separator 20, the dialysis solution supplied by pump 19 is released from the gas is removed through conduit 22 due to the discharge generated by pump 40. Then, the dialysing solution is fed with valve 33 open and valve 30 closed to dialyzer 32. In the case of dialysis fluid 37 for blood, an alarm is given and the system shuts down. A pump 40 directs the dialysis fluid to a drain or recirculation system. The bypass line 29 is used during dialysis in the event that a deviation from the normal temperature or the saline composition of the dialysis solution is detected, at that the valve 33 is closed and the valve 30 is opened. temperature The control and regulation of the salt composition of the dialyzing solution is carried out using the conductivity sensor 27, the regulator 43 and the throttle valve 17.
515072056
Thus, in the proposed system can be implemented as
sterilization and dialysis.
relatively simple dialysis

权利要求:
Claims (4)
[1]
1. A DIALYSIS SYSTEM containing a water tank, reservoirs and pipelines for solutions, a pump for pumping solutions and a dialyzer ¹ , characterized in that, in order to simplify the system, the reservoirs for solutions are communicated by a common pipe to the pump inlet, at the pump outlet a bubble separator with a shut-off valve is installed, and a return pipe is installed between the upper points of the separator and the water tank.
[2]
2. System pop. 1, characterized in that between the separator and the water tank is installed a check valve.
[3]
3. · System pop. 1, characterized in that a bypass pipe is installed parallel to the dialyzer.
[4]
4. The system is pop. 1, characterized by the fact that valves are installed between the pump and the dialyzer.

类似技术:

公开号 | 公开日 | 专利标题

SU1507205A3|1989-09-07|Machine for dialysis

US3744636A|1973-07-10|Dialysis liquid monitoring and generating assembly

US4060485A|1977-11-29|Dialysis apparatus

US4153554A|1979-05-08|Apparatus for use in artificial kidney system

US5660722A|1997-08-26|Hemo|filtration apparatus and filtrate flow regulator

US6551513B2|2003-04-22|Cleaning and priming method for dialysis system

US4618343A|1986-10-21|Apparatus for peritoneal dialysis

US6274034B1|2001-08-14|Dialysis system and cleaning and priming method thereof

US7077956B2|2006-07-18|Device for preparing dialysate for a dialysis machine

US3979284A|1976-09-07|Artificial haemodialysis kidneys

US7108790B2|2006-09-19|Method and apparatus for generating a sterile infusion fluid

JP4384437B2|2009-12-16|Method and apparatus for suspending extracorporeal blood treatment or continuing extracorporeal blood treatment at a modified flow rate

US20140238909A1|2014-08-28|Batch filtration system for preparation of sterile fluid for renal replacement therapy

US4293409A|1981-10-06|Artificial kidney dialysate preparation system

US8182691B2|2012-05-22|Apparatus for extracorporeal blood treatment with a device for checking a sterile filter, and method of checking a sterile filter of an extracorporeal blood treatment apparatus

EP2150290B1|2017-11-29|A device for connecting to a liquid source

US4783273A|1988-11-08|Method and apparatus for supplying concentrate for use in medical treatments

JP2003320023A6|2009-12-24|Method and apparatus for suspending extracorporeal blood treatment or continuing extracorporeal blood treatment at a modified flow rate

JPH11267197A|1999-10-05|Method and apparatus for supplying refined dialysis solution

WO1981001800A1|1981-07-09|Flow reversing mechanism for use in a dialysis machine

US3528550A|1970-09-15|Dialysis water system

JP2001000969A|2001-01-09|Reverse osmosis membrane type refined water making apparatus

US4055496A|1977-10-25|Dialysis apparatus

US4758336A|1988-07-19|Dialytic apparatus

US3601255A|1971-08-24|Dialysate delivery system

同族专利:

公开号 | 公开日

FR2367516A1|1978-05-12|

GB1587138A|1981-04-01|

CH618881A5|1980-08-29|

US4158034A|1979-06-12|

YU241277A|1982-06-30|

BE859539A|1978-02-01|

FR2367516B1|1984-06-29|

SE7611388L|1978-04-15|

PL111603B1|1980-09-30|

JPS5348980A|1978-05-02|

PL201467A1|1978-06-05|

SE401893B|1978-06-05|

YU40907B|1986-08-31|

NL7710218A|1978-04-18|

NL181712C|1987-10-16|

BR7706440A|1978-06-27|

JPS6336806B2|1988-07-21|

DE2745573A1|1978-04-20|

DE2745573C2|1991-01-24|

NL181712B|1987-05-18|

IT1125798B|1986-05-14|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US3406826A|1965-11-17|1968-10-22|Charles B. Willock|Artificial kidney liquid metering and dispensing device|

US3474907A|1966-03-15|1969-10-28|Sweden Freezer Mfg Co|Dialysis control system|

US3441136A|1966-07-07|1969-04-29|Milton Roy Co|Controlled blood dialysis system|

US3598727A|1969-04-07|1971-08-10|Charles B Willock|Artificial kidney|

DE1927615A1|1969-05-30|1970-12-10|Nephro Dialysiergeraete Gmbh|Dialysis system|

JPS5626445B1|1970-05-25|1981-06-18|

US3814249A|1970-05-25|1974-06-04|Eaton Medical Electronics Inc|Dialysis apparatus|

FR2120507A5|1971-01-06|1972-08-18|Rhone Poulenc Sa|

US3727612A|1971-01-18|1973-04-17|R Sayers|Dialysis method and apparatus|

GB1388170A|1971-12-06|1975-03-26|Milton Roy Co|Dialysis system|

GB1368518A|1972-03-14|1974-09-25|Dialysis Systems Ltd|Artificial kidney machines|

US3844940A|1973-04-26|1974-10-29|Kopf D Systems|System for measuring ultrafiltration rate|

FR2237639B1|1973-07-20|1977-02-25|Gensollen Yves|

US3878095A|1974-05-02|1975-04-15|Advanced Medical Sciences Inc|Dialysis apparatus|

CA1033954A|1974-10-21|1978-07-04|Baxter Travenol Laboratories|Dialysis machine|

IT1029316B|1975-01-02|1979-03-10|Dasco Spa|DEVICE FOR WASHING AND STERILIZING THE DIALIZER FILTER IN A SINGLE ARTIFICIAL KIDNEY IMPLANT|

US4060485A|1975-06-09|1977-11-29|I T L Technology, Inc.|Dialysis apparatus|SE403004B|1976-12-03|1978-07-24|Gambro Ab|PRESSURE GUARD|

IT1092077B|1978-01-20|1985-07-06|Bellco Spa|PORTABLE MACHINE FOR REGENERATION DIALYSIS|

DE7925389U1|1979-09-07|1981-01-15|Akzo Gmbh, 5600 Wuppertal|DEVICE FOR REDUCING ALCOHOLIC ALCOHOLIC BEVERAGES|

US4444596A|1980-03-03|1984-04-24|Norman Gortz|Automated cleaning method for dialyzers|

US4332264A|1980-03-03|1982-06-01|United Healthcare Association|Automated cleaning system for dialyzers|

US4444597A|1980-03-03|1984-04-24|Norman Gortz|Automated cleaning method for dialyzers|

US4432766A|1981-07-29|1984-02-21|Baxter Travenol Laboratories, Inc.|Conduit connectors having antiseptic application means|

WO1983000447A1|1981-07-29|1983-02-17|Baxter Travenol Lab|Conduit connectors having antiseptic application means|

SE451801B|1983-11-29|1987-11-02|Gambro Lundia Ab|DEVICE FOR BREATHING A FLUID THROUGH A PIPE|

JPH0533063B2|1984-11-30|1993-05-18|Yokogawa Electric Corp|

SE447963B|1985-06-04|1987-01-12|Gambro Ab|DIALYSIS CONTROL SYSTEM|

SE453361B|1985-06-04|1988-02-01|Gambro Ab|SYSTEM FOR MANAGING A MEDICAL TREATMENT, INCLUDING DIALYSIS|

EP0230864A1|1986-01-31|1987-08-05|Vincenzo Buoncristiani|Circuit for sterilising ducts and connection elements between two containers for the effusion of sterilised liquids|

US4789467A|1986-04-30|1988-12-06|Baxter Travenol Laboratories, Inc.|Automated disinfection system|

US4857181A|1986-10-30|1989-08-15|Cobe Laboratories, Inc.|Control of cleaning of dialysate preparation apparatus|

US4784495A|1987-02-06|1988-11-15|Gambro Ab|System for preparing a fluid intended for a medical procedure by mixing at least one concentrate in powder form with water|

US5268144A|1989-11-04|1993-12-07|Fresenius Ag|Method for sterilizing a medical unit|

DE3936785C1|1989-11-04|1991-03-28|Fresenius Ag, 6380 Bad Homburg, De|

US5511875A|1990-02-19|1996-04-30|Gambro Ab|System for the preparation of a fluid concentrate intended for medical use|

SE467816B|1990-02-19|1992-09-21|Gambro Ab|SYSTEM FOR PREPARING A SCIENTIFIC INTENDED FOR MEDICAL USE|

SE9001890L|1990-05-25|1991-11-26|Gambro Ab|SYSTEM FOR MANAGING A MEDICAL TREATMENT, TEX DIALYSIS|

FR2687307B1|1992-02-14|1999-06-04|Lascombes Jean Jacques|DEVICE FOR THE PREPARATION OF A SOLUTION FOR MEDICAL USE.|

US5421813A|1992-03-03|1995-06-06|Kanegafuchi Kagaku Kogyo Kabushiki Kaisha|Method for cleaning humor replacing circuit, joint for forming the circuit, and medical instrument container, for use in medical treatment|

SE9202506D0|1992-09-01|1992-09-01|Gambro Ab|SYSTEM FOR PREPARING A MEDICAL SOLUTION EXTRA DIALYSIS|

US5589070A|1993-07-16|1996-12-31|Cobe Laboratories, Inc.|Method and apparatus for cleaning a dialysate circuit downstream of a dialyzer|

US5409612A|1993-07-16|1995-04-25|Cobe Laboratories, Inc.|Method and apparatus for cleaning a dialysate circuit downstream of a dialyzer|

US5685835A|1995-06-07|1997-11-11|Cobe Laboratories, Inc.|Technique for using a dialysis machine to disinfect a blood tubing set|

US5772624A|1995-07-20|1998-06-30|Medisystems Technology Corporation|Reusable blood lines|

US5853014A|1995-09-13|1998-12-29|Med-O-Tech, Inc.|PC apparatus for cleaning|

US5641456A|1995-09-13|1997-06-24|Marco Equipment Distributors, Inc.|Apparatus and method for cleaning|

US6050278A|1998-09-24|2000-04-18|Minntech Corporation|Dialyzer precleaning system|

DE19929327B4|1999-06-26|2004-11-18|Fresenius Medical Care Deutschland Gmbh|Device for supplying a medical device with a liquid|

US6482370B2|2001-01-29|2002-11-19|Marco Equipment Distributors, Inc.|Apparatus and method for generating and circulating ozone for disinfection/sterilization of dental waterlines|

DE102006026107B3|2006-06-03|2007-12-13|Völker, Manfred|Device for disinfecting a reverse osmosis system|

US8425767B2|2007-05-25|2013-04-23|Gambro Lundia Ab|Device for connecting to a liquid source|

US10426881B2|2017-01-20|2019-10-01|Fresenius Medical Care Holdings, Inc.|Enhanced backflow prevention in a hemodialysis device|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

SE7611388A|SE401893B|1976-10-14|1976-10-14|DIALYSIS SYSTEM|

[返回顶部]