DE3514668C2 - - Google Patents

Description

The invention relates to a dispensing device for selective Dispensing certain amounts of various liquid reagents from test tubes into test tubes.

Multiple reagent dispensers are available known in automatic analyzers. they were endowed with a variety of groups of Dispensing pipettes or nozzles. Another way be is a single nozzle with a hypodermic syringe to be provided for several test tubes, each of which a reagent is drawn in. Finally, it is known a hypodermic syringe selectively with one of several connecting nozzles via a rotatable reusable valve (JP-A1-76 764/83, published May 9, 83). The former Device is voluminous and the second has the Disadvantage that a mechanism for the movement of the nozzle to the individual test tubes is required, the con can be structurally complicated. The third named before direction requires aspiration of the reagent in one ge  amount and its delivery through a nozzle together with a washing liquid that acts as a diluent. At this device is a line between the nozzle and Rotary valve or reusable tap with a washing liquid to wash. However, it is not possible to withdraw reagent only ben. While the reagent is held in the nozzle, it diffuses into the washing liquid. If the wash liquid containing diffused reagent, so this is not completely in the flow path between the nozzle and multi-way valve or rotary valve removed. The consequence of this is that the contaminated with diffused reagent Wash liquid affect the next reagent delivery can. This leads to a non-negligible ver reagents dirty together. Beyond that it with a device with a rotary valve or a multi-way valve difficult, the number of reagents that are dispensed are supposed to enlarge. If this were necessary, one must in generally replace the valve or tap.

DE-OS 31 34 926 is a device for microdosing known from liquids, which test tubes, reagent nozzles, reagent valves and a device for suction and Donation includes. The device for automatic analysis of liquid samples according to DE-OS 31 15 600 just contains if these components. Due to the large number of pump units and system of allocation units required for each reagent the known facilities are right complicated devices.

The object of the invention is to provide a dispenser which contaminates one reagent with the Reagent of the previous delivery cycle is avoided and which are essential compared to the known facilities Advantages in terms of simplicity and operational safety points.  

This task is handled by a dispenser like this is characterized in the main claim above, fulfilled. Before drafted configurations are specified in the subclaims.

The invention is based on the circuit diagram explained in more detail.

Reaction tubes ( 3 a , 3 b , 3 c , 3 d) are arranged below the reagent nozzles ( 4 a , 4 b , 4 c , 4 d) for the individual reagents. The number of reagent nozzles is not limited to the 4 shown, it corresponds to the required number of reagents. On the feed side, the nozzles are connected to the outputs of switchable reagent valves ( 1 a , 1 b , 1 c , 1 d) for the flow of the reagent. The valves have the same construction and have blind outputs (A, A ′, A ′ ′, A ′ ′ ′) that have no connection, first outputs (B, B ′, B ′ ′, B ′ ′ ′) , which are connected to the reagent nozzles, and second outputs (C, C ', C'',C''') , which with test tubes ( 2 a , 2 b , 2 c , 2 d) via their own suction tubes ( 18 a , 18 b , 18 c , 18 d) are connected. In this embodiment, the valve ( 1 a) is a rotatable valve, the housing of which has the outputs A, B and C and the plug has a radial recess and is rotatable in the housing. One end of the radial recess or bore is directed to the central third output O and the other end of the bore is selectively directed to the outputs A, B or C by rotating the plug.

The third outputs (O, O ' ...) Of the valves are connected via their own third lines ( 15 a , 15 b... ). The washing device ( 20 ) comprises a dispensing pump ( 9 ) for washing liquid, a three-way valve ( 10 ) with a common third output ( COM) - connected to the pump ( 9 ) -, a normally open first output (NO) and one normally closed second outlet (NC) , a washing liquid keits vessel ( 11 ) with the normally open outlet (NO) of the three-way valve ( 10 ) in connection. The normally closed outlet (NC) of the three-way valve ( 10 ) is connected to a suction and delivery device ( 5 ) for reagent. Pump ( 9 ) need not have high precision, but the dispenser ( 5 ) must have high precision so that an exact amount of reagent can be sucked in and dispensed.

The suction and discharge device ( 5 ) is also connected to the general outlet (COM) of a three-way valve ( 6 ), which serves as a general switching point for the liquid path, the normally open first outlet (NO) of which is connected to a drain ( 7 ) is connected via a first line ( 14 ) and a shut-off valve ( 8 ). The line ( 14 ) extends from the normally open outlet (NO) of the three-way valve ( 6 ) to the shut-off valve ( 8 ). The third lines ( 15 a , 15 b, 15 c , 15 d) between the central third outputs (O, O ′, O ′ ′, O ′ ′ ′) of the valves ( 1 a , 1 b , 1 c , 1 d) and the first line ( 14 ), with which they are connected via third connection points ( 12 a , 12 b , 12 c , 12 d) , are connected to fourth lines ( 16 a , 16 b , 16 c , 16 d) via first connection points ( 17 a , 17 b , 17 c , 17 d) , while the fourth lines ( 16 ) are connected to a second line ( 19 ) via second connection points ( 13 a , 13 b , 13 c , 13 d) stand. The second line ( 19 ) is connected to the normally open outlet (NC) of the three-way valve ( 6 ). If the number of reagents for dispensing is to be increased, one only needs to provide one or more further valve (s), the central third outputs of which are connected to the first and second lines ( 14 ) and ( 19 ) via the second or third line - similar to above - are connected. It is therefore very easy with the device according to the invention to increase the number of reagents.

The device according to the invention can be different Modify way. So the washing device as a pump Hypodermic syringe or another type of pump have and for a smaller or larger number of Reagents can be designed. The rotary valves or reusable cocks can have any common constructions.

The operation of the apparatus of the invention will now be further explained with the aid of suction and dispensing of a single reagent from the reagent vessel (2 a).

To start up the dispensing device according to the invention, the valve ( 1 a) is actuated so that the central outlet (O) communicates with the first outlet B , which in turn is connected to the nozzle ( 4 a) . The central outputs (O ′, O ′ ′, and O ′ ′ ′) of the other valves ( 1 b , 1 c and 1 d) are connected to the blind outputs (A ′, A ′ ′ and A ′ ′ ′) .

If the piston of the pump ( 9 ) for suction of washing liquid in the container ( 11 ) is raised, it passes through the normally open first outlet (NO) and the common third outlet (COM) of the three-way valve ( 10 ) the pump ( 9 ). Now the three-way valve ( 10 ) is set such that the common third output (COM) with the normally closed second output (NC) comes into connection. Then the piston of the pump ( 9 ) is pressed and thus the washing liquid with the aid of the piston of the pump ( 5 ) via the three-way valve ( 6 ) (COM-NO) , the first line ( 14 ), the third line ( 15 a) and the valve ( 1 a) (OB) of the nozzle ( 4 a) supplied. During this time, the shut-off valve ( 8 ) is kept closed. If the washing liquid is not discharged from the nozzle ( 4 a) by actuating the pump ( 9 ) once, the process is repeated until all the washing liquid has left the nozzle ( 4 a) .

Now the valve ( 1 a) is set so that the central third outlet (O) comes to the blind outlet (A) and the valve ( 8 ) is opened and the above process for discharging the washing liquid serves to discharge it via the drain ( 7 ) to be derived. In this case too, the pump ( 9 ) can be operated several times. In this way, the first line ( 14 ) is filled with fresh washing liquid.

As soon as the common third output (COM) of the three-way valve ( 6 ) communicates with the normally closed first output (NC) , the valve ( 8 ) is closed and brought into the original position, so that the washing process begins again. Then the washing liquid via the three-way valve ( 10 ) (COM-NC) , the pump ( 5 ), the three-way valve ( 6 ) (COM-NC) , the second line ( 19 ), the fourth line ( 16 a ) , the third line ( 15 a) and the valve ( 1 a) (OB) from the nozzle ( 4 a) .

In the same way, the nozzle ( 4 a) , valve ( 1 a) , lines ( 14, 15 a , 16 a and 19 ) and the pumps ( 5 ) and ( 9 ) are filled with washing liquid.

Now the three-way valve ( 6 ) is set so that the common third output (COM) with the normally open first output (NO) and the central third output (O) of the valve ( 1 a) with the second output (C ) communicate which is connected to the reagent vessel ( 2 a) via the tube ( 18 a) . The piston of the pump ( 5 ) is pulled up to reactant from the vessel ( 2 a) in the third line ( 15 a) to a point near the connection point ( 17 a) between the third and fourth lines ( 15 a or 16 a) . The valve ( 1 a) is then set so that the central third output (O ) communicates with the first output (B) . If the piston of the pump ( 5 ) is now depressed, the reagent drawn into the valve ( 1 a) and the third line ( 15 a) is dispensed via the nozzles ( 4 a ). If this does not succeed in a single operation, this can be repeated until the reagent is completely dispensed.

In this way, the lines between the vessel, (2 a) and the nozzle (4a) completely filled via valve (1 a) with fresh reagent. A small amount of reagent can remain in the third line ( 15 a) .

These preparatory measures are now carried out for the other reagents in the tubes ( 2 b , 2 c and 2 d) .

After completing these preparations, the central third output (O) of the valve ( 1 a) is connected to the second output (C) , while the three-way valve ( 6 ) is such that the common third output (COM) with the normally open first output (NO) communicates. If the piston of the pump ( 5 ) is raised to draw a predetermined amount of reagent from the vessel ( 2 a) or an amount slightly larger than the predetermined amount, the reagent reaches the third line ( 15 a) up to one Point between valve ( 1 a) and connection point ( 17 a) . Now the valve ( 1 a) is set so that the central second outlet (C) communicates with the first outlet (B) , whereupon the piston of the pump ( 5 ) is pushed in to a certain extent, causing a predetermined amount of reagent to flow Nozzle ( 4 a) in the reaction vessel ( 3 a) , which has just been transported under the nozzle ( 4 a) , is released. In this way, a reagent is dispensed into a reaction vessel. During this time, the valves ( 1 b , 1 c and 1 d) are in the non-operating state, which means that the central third outputs (O ′, O ′ ′, O ′ ′ ′) with the blind outputs (A ′, A ′ ' And A''') communicate. By selectively operating the valves ( 1 a , 1 b , 1 c , 1 d) , it is possible to selectively dispense any number of reagents using a single pump.

Each time a predetermined amount of a reagent has been dispensed into the reaction vessel, the first to fourth lines ( 14 , 15 a , 15 b , 15 c , 15 d , 16 a , 16 b , 16 c , 16 d and 19 ) washed. Then all valves ( 1 a , 1 b , 1 c , 1 d) are brought into the non-operating state by the common third output (COM) of the three-way valve ( 6 ) communicating with the normally open first output (NO) , and the valve ( 8 ) opened. Then the pump ( 9 ) is raised to draw in washing liquid via the three-way valve ( 10 ) (NO-COM) , whereupon the three-way valve ( 10 ) is set so that the common third outlet (COM) with the normally closed second output (NC) communicates. The piston of the pump ( 9 ) is pressed and thus washing liquid is pressed through the three-way valve ( 10 ), pump ( 5 ), three-way valve ( 6 ), first line ( 14 ), valve ( 8 ) and discharge line ( 7 ). This washing process can be repeated several times if desired.

The common third output (COM) of the three-way valve ( 6 ) is then put into communication with the normally closed second output (NC) , the pump ( 9 ) and the three-way valve ( 10 ) are actuated again to supply washing liquid via the pump ( 5 ), three-way valve ( 6 ), second line ( 19 ), fourth line ( 16 a , 16 b , 16 c , 16 d) , parts of the third line ( 15 a , 15 b , 15 c , 15 d) , bring first line ( 14 ), valve ( 8 ) and derivative ( 7 ). In this way, whenever a reagent has been dispensed, the first, second, third and fourth lines and the three-way valve ( 6 ) can be washed. Even if the reagent has penetrated into a third line, it is not distributed into the other third lines and contamination of the reagents among one another is thus completely ruled out.

As noted above, with the fiction device using one reagent umpte reagent pump are delivered, so that the whole Kon structure is extremely simple. Beyond that whenever a reagent has been dispensed through the nozzle, some of the lines connected to the nozzle have been washed, so that the reagents are contaminated with one another is avoided.

Claims (3)

1. Dispensing device for the selective dispensing of certain quantities of different liquid reagents from test tubes into reaction vessels, consisting of

• a) a plurality of reagent-filled vessels ( 2 a , 2 b , 2 c , 2 d) ,
• b) a plurality of reagent nozzles ( 4 a , 4 b , 4 c , 4 d) for dispensing reagents into different reaction vessels ( 3 a , 3 b , 3 c , 3 d) , each reagent vessel ( 2 a , 2 b , 2 c , 2 d) is assigned its own reagent nozzle ( 4 a , 4 b , 4 c , 4 d) ,
• c) a plurality of reagent valves ( 1 a , 1 b , 1 c , 1 d) , each reagent vessel ( 2 a , 2 b , 2 c , 2 d) having its own reagent valve ( 1 a , 1 b , 1 c , 1 d) and each reagent valve ( 1 a , 1 b , 1 c , 1 d)
  • - a first outlet (B, B ′, B ′ ′, B ′ ′ ′) which is connected to the corresponding reagent nozzle ( 4 a , 4 b , 4 c , 4 d) ,
  • - A second output (C, C ', C'',C''') , which has its own suction tube ( 18 a , 18 b , 18 c , 18 d) with the associated reagent vessel ( 2 a , 2 b , 2 c , 2 d) is connected, and
  • - a third output (O, O ′, O ′ ′, O ′ ′ ′) , which is selective with the first (B, B ′, B ′ ′, B ′ ′ ′) or second (C, C ′, C ′ ', C''') output or with a blind output (A, A ', A'',A''') can be connected without connection,
• d) a washing device ( 20 ),
• e) a suction and discharge device ( 5 ) which is connected to the washing device ( 20 ),
• f) a liquid valve ( 6 ) with a first (NO) , a second (NL) and a third (COM) output, the third output (COM) being connected to the suction and delivery device ( 5 ) and being selectively connected to the first (NO) or second (NL) output can be connected,
• g) a first line ( 14 ) connected to the first outlet (NO) of the liquid valve ( 6 ),
• h) a shut-off valve ( 8 ) connected between the first line ( 14 ) and a discharge line ( 7 ) for washing liquid,
• i) a second line ( 19 ) connected to the second outlet (NL) of the liquid valve ( 6 ),
• j) a plurality of third lines ( 15 a , 15 b , 15 c , 15 d) , with a separate third line ( 15 a , 15 b , 15. ) for each reagent valve ( 1 a , 1 b , 1 c , 1 d) c , 15 d) is provided and the third line ( 15 a , 15 b , 15 c , 15 d) each with one end to the third output (O, O ', O'',O''') belonging to the Reagent valve ( 1 a , 1 b , 1 c , 1 d) and at the other end to the first line ( 14 ), and
• k) a plurality of fourth lines ( 16 a , 16 b , 16 c , 16 d) , with for every third line ( 15 a , 15 b , 15 c , 15 d) a separate fourth line ( 16 a , 16 b , 16 c , 16 d) is provided and the fourth line ( 16 a , 16 b , 16 c , 16 d) each via a first connection point ( 17 a , 17 b , 17 c , 17 d) on the associated third line ( 15 a , 15 b , 15 c , 15 d) and via a second connection point ( 13 a , 13 b , 13 c , 13 d) to the second line ( 19 ).

2. Dispenser according to claim 1, characterized in that the liquid valve ( 6 ) is a rotatable in a housing cock plug and the housing has the first and second output and the cock plug has a radial bore, an opening with the common output and the other Opening can be selectively connected to the first or the second output. 3. Dispenser according to claim 1 or 2, characterized in that the washing device, a vessel ( 11 ) for the washing liquid speed, a three-way valve ( 10 ) with a normally open outlet - connected to the vessel ( 11 ) -, a normally closed Output - connected to the suction and discharge device ( 5 ) - and a common output - selectively connectable to the other two outputs - and a washer fluid delivery pump ( 9 ) connected to the common output of the three-way valve ( 10 ) communicates.