DE19717361C2 - Pipetting device - Google Patents

Description

The invention relates to a pipetting device for aspirating and dispensing a liquid in a pipette with a housing and a holder for a pipette.

Such pipetting devices are already known.

From E 45 628 B, DE 25 25 670 A1 and DE-GM 17 19 579 is a Pipetting device for aspirating and dispensing a liquid in a pipette knows that a housing, a receptacle for the pipette, a cylinder in which a Piston is longitudinally displaceable, and a suction line from the pipette me to the cylinder.

EP 0 456 137 A2, DE 38 18 704 A1 and US 42 57 268 each disclose one Pipetting device in which the suction line can be closed by an actuating element and is taxable.

The object of the invention is to propose a pipetting device with which the sucked liquid easily released and expelled if necessary can be eaten.

According to the invention, this object is achieved by a pipetting device having the features of claim 1. The pipetting device has a housing, a receptacle for a pipette, a cylin the one in which a piston is guided in a longitudinally displaceable manner, a suction line from the Pi pettenaufnahme to the cylinder in which a suction valve is arranged, a vent line, an outside discharge line and an exhaust line  on. The vent line leads from the cylinder to the outside. It ends on the Mouth of the suction line in the side of the piston facing away from the cylinder Cylinder. The drain line branches off from the suction line. It is through a he First actuating element can be closed and opened. The exhaust line branches from the vent line and leads to the pipette holder. The suction line is can be closed and opened at one point by a second actuating element bar, that on the side of the branch of the emptying branch facing away from the cylinder line from the suction line. The vent line is operated by a third button closing element and openable. The exhaust line is through a fourth actuating element can be closed and opened at one point on the side of the branch of the discharge line facing away from the cylinder Vent line is.

The filling process of the pipette, that is, the suction of the liquid into the pipette in an equally controlled manner consequences.

A suction valve is arranged in the suction line. The piston can then several times are operated, whereby larger volumes of liquid are added to the pipette can be. Furthermore, this can result in higher accuracy when filling the pi pette can be achieved. A beak valve is preferably used as the suction valve det. The suction valve or beak valve is preferably in the cylinder or in one Bulge of the cylinder or cylinder housing provided.

Due to the vent line leading into the open or into the environment, a Pressure compensation during the suction stroke from the mouth of the suction line side of the piston.

The drain line is closed while the pipette is being filled. If you is opened, a pressure equalization takes place, through which the liquid from the Pipette is drained.  

Advantageous further developments of the pipetting device are described in the subclaims.

The piston can be spring loaded. The piston is preferably spring-loaded in this way Stead that the suction movement of the piston is opposed to a spring force. It is advantageous to face away from the mouth of the suction line in the cylinder Provide a compression spring on the side of the piston. The compression spring encloses preferentially as a piston rod connected to the piston. If with a pipette advises a suction valve or beak valve in the sow with a spring-loaded piston Slip is provided there is the particular advantage that after a suction Movement of the piston required return movement supported by a spring force can be.

Another advantageous development is characterized in that the pistons movement or the piston stroke is limited by a stop. In this case the pipetting device can also be used as a dosing device. The pipet animal equipment is then suitable for sucking in defined volumes of liquid. Before it is partial to provide a variable stop so that different ones defined volume can be sucked in. The changeable stops can NEN be provided at the end of a piston rod connected to the piston. The piston rod can be turned to adjust the respective stop and / or a stop fixed to the housing can be brought into different positions become.

According to a further advantageous development, there is a pressure valve on the cylinder provided, which is preferably designed as a beak valve. This is in particular this is advantageous if a suction valve is provided in the suction line. By The pressure valve allows air to be removed from the cylinder while the piston executes a pressure stroke between two suction strokes.

Another advantageous development is characterized in that the piston is connected to a piston rod protruding from the cylinder, on which a Actuating part is provided. The actuator can be used as a handle or finger  Handle be designed, especially in the manner of a trigger on a pistol or a gun.

The first actuator and the second actuator are preferably two provided on a valve operating lever. It is advantageous if the valve operating lever in the housing of the pipetting device, that is to say fixed to the housing, rotatable is stored. The valve actuation lever is preferably with an outward, ie arm guided out of the housing for actuation or manual actuation see.

The third actuator and the fourth actuator are preferred provided on a valve operating lever. This is preferably the case around the same valve actuation lever on which the first actuation element is located and the second actuator are provided. The valve actuation lever is preferably rotatably mounted in the housing.

Exemplary embodiments of the pipetting device are described below with reference to the attached Drawing explained in detail. In the drawing shows

Fig. 1, a pipetting device in a sectional view from the side,

Fig. 2 is a schematic view of the pipetting apparatus during the suction operation,

Fig. 3 is a schematic view of the pipetting apparatus while the liquid keits-dispensing operation,

Fig. 4 is a schematic view of the pipetting apparatus-discharging operation during the off,

Fig. 5 is a further schematic view of the pipetting apparatus and

Fig. 6 shows a modified embodiment of the pipetting device in a sectional view from the side.

The pipetting device shown in FIG. 1 has a housing 1 in which a cylinder 2 is provided. A piston 3 is guided in a longitudinally displaceable manner in the cylinder 2 . A suction line 4 leads from the cylinder 2 to a pipette holder 5 , in which a pipette 6 is detachably fastened, namely inserted. The pipette holder 5 is inserted into a housing attachment 7 , which is screwed onto the housing 1 .

The cylinder 2 consists of a cylinder part 8 and a head part 9 . It is framed by cylinder holders 10 , 11 , which are connected to the housing 1 .

The longitudinally displaceably guided in the cylinder 2 piston 3 is cup-shaped tet ausgestal. The front part of the piston 3 is connected to a piston rod 12 , at the end facing away from the piston 3 is a U-shaped extension 13 which is connected to an actuating part 14 . The actuating part 14 is designed as a finger actuation supply part and has the form of a trigger of a pistol. It is guided in a slot 15 of the housing 1 and is arranged at a distance from a handle part 16 of the housing 1 in such a way that one-hand operation is possible. For this purpose, the grip part 16 is gripped with the fist, the fingers lying in the depressions of the grip part 16 . The index finger can then pull the grip 17 of the actuating part 14 , ie move in the direction of the arrow 18 .

One end of a compression spring 19 , which surrounds the piston rod 12 and is inserted in the cylindrical shoulder of the cup-shaped piston 3 , is supported on the rear of the end part of the piston 3 . The other end of the compression spring 19 is supported on the cylinder holder 11 . The piston rod 12 is guided in a sleeve-shaped extension 20 in the cylinder holder 11 . With the piston rod 12 , an aligned extension 21 is connected, which is guided in a shoulder 22 of the housing 1 and at the end of which a plurality of stepped shoulders 23 are provided, which form different stops for the piston rod 12 and thus the stroke movement of the piston 3 .

In the suction line 4 is designed as a beak valve suction valve 24 see easily. It is located in a lug 25 which is integrally formed on the head portion 9 of the cylinder. 2 Furthermore, a pressure valve 26 which is also designed as a beak valve is provided on the cylinder 2 and is attached to a further attachment provided on the head part 9 of the cylinder 2 .

A vent line 27 leads from the cylinder 2 into the open. The vent line 27 opens through the cylinder holder 11 into the cylinder 2 , on the mouth of the suction line 4 in the cylinder 2 facing away from the Kol bens 3rd

A drain line 28 leading from the outside branches off from the suction line 4 . From the vent line 27 branches off an ejection line 29 , which leads to the pipette 5 . The suction line 4 and the discharge line 29 are brought together at point 30 into a common line 31 leading to the pipette holder 5 .

A valve actuation lever 32 is provided in the housing 1 and is mounted rotatably about an axis 33 . On the valve actuating lever 32 , a first actuating element 34 is provided, through which the drain line 28 can be closed and opened, a second actuating element 35 , through which the suction line 4 can be closed and opened, a third actuating element 36 , through which the vent line 27 can be closed and open is, and a fourth actuation element 37 , through which the discharge line 29 can be closed and opened. The valve actuating lever 32 has a first lever arm 38 and a second lever arm 39 , which enclose an angle of approximately 90 ° between them. The first actuating element 34 and the second actuating element 35 are located at the end of the first lever arm 38 . The actuators 34 , 35 include a win angle of about 90 °, the first lever arm 38 extending substantially in the direction of the bisector. In an analogous manner, the third actuating element 36 and the fourth actuating element 37 are arranged at the end of the second lever arm 39 . The actuating elements 36 , 37 form an angle of approximately 90 ° with one another, the second lever arm running essentially in the direction of the angle bisecting.

The suction line 4 is ver be closed and the second operating member 35 at a location openable, the side of the Ab on the cylinder 2 facing away from the discharge branching pipe 28 is located. The exhaust line 29 can be closed and opened by the fourth actuating element 37 at a point which is on the side of the branch of the exhaust line 29 facing away from the cylinder 2 .

In Figs. 2, 3 and 4, the switch positions of the actuating elements for the functions "suction" (Fig. 2), "delivering" (Fig. 3) and "discharging" (Fig. 4) is shown.

In FIG. 2, the valve operating lever 32 is in the position "suction". In this position, the drain line 28 is closed by the first actuating element 34 . The suction line 4 is controlled by the second actuating element 35 . The vent line 27 is controlled by the third actuating element 36 . The exhaust line 29 is closed by the fourth actuator 37 ver. When the piston 3 moves in the direction of the arrow 18 , that is to say in the suction direction, the pressure valve 26 closes and the suction valve 24 is opened. The air is sucked into the cylinder 2 by the pipette 6 through the suction line 4 . On the back of the piston 3 , the air can flow out through the vent line 27 . The liquid 40 is sucked into the pipette 6 to form a liquid column 41 .

The suction process can be repeated. When the actuating part 14 is released, the compression spring 19 pushes the piston 3 against the arrow direction 18 back into the starting position. During this movement, the suction valve 24 closes and the pressure valve 26 opens. The air in the cylinder 2 escapes through the pressure valve 26 opened . Air flows through the opened ventilation line 27 to the rear of the piston 3 . The liquid column 41 remains unchanged. At closing, a new suction process can be carried out, through which the liquid column 41 rises further.

In FIG. 3, the valve operating lever 32 is in the position "dispense". It was brought into this position by moving the lever arm 42 against the force of the compression spring 43 fixed to the housing. The scale designation "0" denotes the position "suction", the scale designation "a" the position "discharge" and the scale designation "b" the position "ejection". The positions a and b are achieved by manual actuation of the lever arm 42 , by means of which the valve actuating lever 32 is rotated about the lever pivot point or the axis of rotation 33 .

In the "delivery" position shown in FIG. 3, the drain line 28 has been opened by the first actuating element 34 . The suction line 4 is still opened by the second actuating element 35 . The vent line 27 is still opened by the third actuating element 36 . The discharge line 29 has been opened by the fourth actuating element 37 . All actuation elements therefore control the associated line. Air flows into the pipette through the discharge line 28 and the suction line 4 . Since the drain line 28 leads to the outside, there is a pressure equalization through which the liquid flows out of the pipette 6 downwards. Furthermore, air flows through the vent line 27 and the discharge line 29 into the pipette. Since the vent line 27 also leads outside, that is to say it is connected to the ambient pressure, the liquid is also removed from the pipette 6 in this way.

In FIG. 4, the valve operating lever 32 is in the position "ejection". The valve actuation lever 32 has thus been rotated further counterclockwise about the axis of rotation 33 , so that the lever arm 42 has reached the scale designation b. In the "eject" position, the drain line 28 is still opened by the first actuating element 34 . The suction line 4 has been closed by the second actuating element 35 . The vent line 27 has been closed by the third actuating element 36 . The ejection line 29 has remained open by the fourth actuating element 37 .

By actuating the piston 3 in the direction of the arrow 18 , the suction valve 24 is opened and the pressure valve 26 is closed. Ambient air flows through the evacuation line 28 and the suction line 4 into the cylinder 2 . Furthermore, the piston 3 presses air on its rear side through the vent line 27 and the discharge line 29 into the pipette 6 . As a result, the drop-shaped liquid residue 44 remaining on the pipette tip can also be reliably blown out. Furthermore, the dispensing process of the liquid from the pipette 6 can thereby be accelerated.

Fig. 5 shows schematically the switching positions of the valve actuating lever 32 and the actuating elements located thereon in their interaction with the various lines. In Fig. 5a the valve actuation lever 32 is in the "suction" position, in Fig. 5b in the "discharge" position and in Fig. 5c in the "blow-out" position.

FIG. 6 shows a modified embodiment which essentially corresponds to that of FIG. 1. In contrast to the embodiment according to FIG. 1, in the embodiment of FIG. 6 the pipette holder 5 'is not arranged below the handle part 16 , but at the lower end of an angled portion 45 of the housing 1 , which adjoins the head part 9 of the cylinder 2 and from runs forward and down there. Accordingly, the common line 31 is guided around the cylinder 2 to the pipette holder 5 '.

Claims (9)

1. Pipetting device for aspirating and dispensing a liquid in a pipette ( 6 )
a housing ( 1 ),
a receptacle ( 5 ) for a pipette ( 6 ),
a cylinder ( 2 ) in which a piston ( 3 ) is guided so as to be longitudinally displaceable,
a suction line ( 4 ) from the pipette holder ( 5 ) to the cylinder ( 2 ), in which a suction valve ( 24 ) is arranged,
a vent line (27) leading from the cylinder (2) into the open air and on the mouth of the suction line (4) opens into the cylinder (2) side facing away from the piston (3) in the cylinder (2),
an emptying line ( 28 ) leading to the outside, which branches off from the suction line ( 4 ) and which can be closed and opened by a first actuating element ( 34 ),
and an ejection line ( 29 ) which branches off from the ventilation line ( 27 ) and leads to the pipette holder ( 5 ),
wherein the suction line ( 4 ) can be closed and opened at a point by a second actuating element ( 35 ) which is on the side of the branch of the emptying line ( 28 ) from the suction line ( 4 ) facing away from the cylinder ( 2 ),
the vent line ( 27 ) by a third actuating element ( 36 ) can be closed and opened ver
and wherein the exhaust line ( 29 ) can be closed and opened by a fourth actuating element ( 37 ) at a point which is on the side of the branch of the exhaust line ( 29 ) facing away from the vent line ( 27 ) facing the cylinder ( 2 ). 2. Pipetting device according to claim 1, wherein the piston ( 3 ) is spring-loaded ( 19 ). 3. Pipetting device according to claim 1 or 2, wherein the piston movement is limited by a stop, preferably a variable stop ( 23 ). 4. Pipetting device according to one of claims 1 to 3, wherein on the cylinder ( 2 ) a pressure valve ( 26 ), preferably a beak valve, is arranged and wherein the suction valve ( 24 ) is preferably designed as a beak valve. 5. Pipetting device according to one of claims 1 to 4, wherein the piston ( 3 ) is connected to a piston rod ( 12 ) projecting from the cylinder, on which an actuating part ( 14 ) is arranged. 6. pipetting device according to one of claims 1 to 5, wherein the first actuating element ( 34 ) and the second actuating element ( 35 ) on a Ventilbetäti supply lever ( 32 ) are arranged. 7. The pipetting device according to claim 6, wherein the valve actuation lever ( 32 ) is rotatably mounted in the housing ( 1 ). 8. pipetting device according to one of claims 1 to 4, wherein the third actuating element ( 36 ) and the fourth actuating element ( 37 ) on a valve actuation lever ( 32 ) are arranged, preferably on the valve actuating lever ( 32 ) with the first actuating element ( 34 ) and the second actuating element ( 35 ). 9. pipetting device according to claim 8, wherein the valve actuating lever ( 32 ) in the housing ( 1 ) is rotatably mounted.