EP1743701B1 - Piston pipette - Google Patents

Description

The invention relates to a piston stroke pipette for exchangeable pipette tips.

Piston lifting pipettes are used for dosing liquids. They take up a certain volume of sample liquid in a pipette tip. The pipette tip is usually made of plastic as a disposable item. After dosing, the pipette tip is interchangeable with a fresh pipette tip. In this way, contamination of the piston stroke pipette and carryover of sample liquid is avoided.

For sucking sample liquid into and ejecting the sample liquid from the pipette tip, the piston stroke pipette has a cylinder with a piston displaceable therein. The cylinder is connected via a connection channel to openings in a seat for releasably attaching a pipette tip. The piston is coupled to a drive device which serves to displace the piston in the cylinder. The piston is displaceable between an upper and a lower stop in the cylinder. Upon displacement, the piston moves an air column, thereby drawing liquid into and out of the pipette tip. At the beginning of the suction of air into the cylinder, the counter-stop is at the lower stop. At the beginning of the displacement of air from the cylinder of the counter-attack is at the top stop. The amount of liquid taken or dispensed depends on the stroke of the piston.

The stroke volume of the piston does not exactly correspond to the amount of liquid taken in and dispensed. Since the air column lengthens slightly under the weight of the liquid, the stroke volume exceeds the liquid volume. The deviation of stroke volume and liquid volume depends in particular on the density and viscosity of the liquid, the temperature, the air pressure and wetting effects. To calibrate Kolbenhubpipetten to a specific metering volume, it is known to adjust the position of the upper stop, for example WO 03/033151 or US-A-3827305 ,

For fixed volume pipettes, the distance between the top and bottom stops is constant. A fixed volume pipette with an upper stop in the form of an adjustable by means of a calibration tool threaded sleeve is made of US 4,020,698 known. The sleeve-like calibration part has a scale on the outside, which is visible from outside through a transparent reading window in the pipette housing.

In piston stroke pipettes with adjustable dosing volume, the position of the upper stop is variable. To change the position of the upper stop adjustable piston stroke pipettes have an adjustable spindle. The deviation of the stroke volume from the metering volume may be different in the adjustment range of meterable liquid volumes. There are Kolbenhubpipetten known in which the display devices are decoupled from the adjustment for the upper stop for calibration. The DE 43 35 863 C1 discloses such a reciprocating pipette with decoupled gears between indicators and adjusters. For decoupling a projecting through an opening of the pipette housing outwardly switching lever must be operated.

In the known Kolbenhubpipetten a factory calibration is made by the pipette manufacturer under standard conditions. The dosing liquid used is bidistilled water at a temperature of 20 to 25 ° C and an air pressure of 1013 mbar. If the user wants to pipette under different conditions (for example, another liquid such as double-distilled water), he must change the factory calibration. The change in the factory calibration usually requires extensive use of tools. Finding the factory calibration requires elaborate gravimetric measurements.

Based on this, the object of the invention is to provide a piston stroke pipette which facilitates the user from changing the calibration and retrieving the factory calibration.

This object is achieved by a Kolbenhubpipette with the features of claim 1. Advantageous embodiments of the Kolbenhubpipette are given in the dependent claims.

• einen Sitz zum lösbaren Befestigen einer Pipettenspitze,
• einen Kolben,
• einen Zylinder, in dem der Kolben verschieblich angeordnet ist,
• einen den Zylinder mit einer Öffnung im Sitz verbindenden Verbindungskanal,
• eine mit dem Kolben gekoppelte Antriebseinrichtung zum Verschieben des Kolbens im Zylinder,
• einen oberen Anschlag und einen unteren Anschlag und mindestens einen Gegenanschlag der Antriebseinrichtung und/oder des Kolbens zum Begrenzen des Hubes des Kolbens,
• einen den unteren Anschlag haltenden Halter,
• eine Überhubfeder zwischen unterem Anschlag und Halter,
• eine Einstelleinrichtung zum Einstellen der Position des Halters bezüglich des Zylinders und
• eine Anzeigeeinrichtung zum Anzeigen der Position des Halters.

The piston stroke pipette according to the invention for exchangeable pipette tips comprises

• a seat for releasably securing a pipette tip,
• a piston,
• a cylinder in which the piston is displaceably arranged,
• a connecting channel connecting the cylinder to an opening in the seat,
• a drive device coupled to the piston for displacing the piston in the cylinder,
• an upper stop and a lower stop and at least one counter stop of the drive device and / or the piston for limiting the stroke of the piston,
• a holder holding the lower stop,
• an overstroke spring between lower stop and holder,
• an adjusting means for adjusting the position of the holder with respect to the cylinder and
• a display device for displaying the position of the holder.

In the Kolbenhubpipette invention, the user can make a calibration, for example, when a liquid is to be metered, which has a different density or viscosity than the factory calibration of the underlying fluid, or if you want to work at a different air pressure or temperature. This user calibration is done only by adjusting the bottom stop. The positioning of the upper stop made during factory calibration is therefore not changed. The display device displays the respective position of the holder holding the stop. The position taken by the lower stop during factory calibration can thus be found again at any time. This allows the user to find the factory calibration without expensive gravimetric measurement and without additional tools. The Piston stroke pipette thus again corresponds to the delivery state with regard to the calibration. The adjusting means for adjusting the position of the holder and thus the lower stop can be designed so that it is easy to operate without tools. The user calibration is therefore particularly easy to carry out. Included are both versions in which the upper stop is factory set once final, as well as versions that have an adjustable upper stop, which allows a later correction of factory calibration. A check and correction of the factory calibration may optionally be made in a conventional manner by adjusting the position of the upper stop.

According to one embodiment, the pipette has a return spring, which loads the piston or the drive device in the direction of the abutment of the counter-stop on the upper stop. As a result, the piston is brought into a defined starting position, from which starting a dosing process can be started. This embodiment is particularly advantageous in manual Kolbenhubpipetten having a manually operable drive means. In electronic pipettes having an electric drive means, the initial positioning is done via an electronic control, so that a return spring can be omitted. The invention relates to both manual and electronic Kolbenhubpipetten.

According to one embodiment, the drive device comprises a displaceable in a guide lifting rod, which is connected at one end to the piston or coupled and the other end is connected to a control knob. This embodiment particularly relates to manually operated piston stroke pipettes. The lifting rod is connected to the piston, for example, by being integrally formed with this or screwed to this or otherwise firmly connected to this. In another embodiment, it can be coupled to the piston, for example, by abutting against an end face of the piston and held by the return spring in abutment becomes. This is particularly advantageous in the case of reciprocating pipettes with a top part comprising the drive device and a lower part which is detachable from it and comprises cylinders and pistons. In an electronic pipette, the piston is movable, for example, by a motor-driven spindle.

According to one embodiment, the counter-stop is a bead on the circumference of the lifting rod. The bead can rotate completely or partially around the circumference of the lifting rod.

According to one embodiment, the lower stop plate-shaped and the lifting rod passed through a central through hole of the lower stop. The guided part of the lifting rod is connected to the piston or coupled. According to a further embodiment, the lower stop is dome-shaped on the side facing the counter-stop. According to a further, the centering of the lifting rod and the stop supporting embodiment, the lower stop on the side facing away from the counter-stop on a sleeve-shaped projection, through which the through hole extends.

According to a further embodiment, the holder has the shape of a pot having in the bottom a central bottom hole through which the lifting rod is passed, the lower stop is slidably disposed in the holder, the holder has at its opening an inwardly projecting, the stop cross-over edge and is arranged in the holder, the over-travel spring and supported at one end on the ground and the other end on the underside of the stop. In this way, lower stop, overstroke spring and holder are advantageous zusammenfaßbar to form an assembly.

The lower stop is supported by an overstroke spring on the holder to blow out a liquid when dispensing liquid from a pipette tip to carry out residual liquid from the pipette tip. The user or the control electronics of an electronic pipette detects the achievement of the lower stop by the increased resistance at the beginning of the deformation of the over-travel spring. Before sucking liquid into the pipette tip, the drive device is only actuated until the counter-stop reaches the lower stop. When ejecting the liquid from the pipette tip of the counter-stop is pressed by means of the drive device against the lower stop, so that the over-stroke spring rebounds and residual liquid is blown out of the pipette tip.

According to one embodiment, the overstroke spring and / or return spring is / are a helical spring.

According to one embodiment, the adjusting means on an external thread on the holder and a cooperating, with respect to the cylinder fixed internal thread. External thread and internal thread serve as adjusting thread for the positioning of the holder with respect to the cylinder. This embodiment is particularly in execution of the holder in the form of a pot of advantage.

In principle, it is possible to adjust the position of the lower stop by screwing the holder in the adjusting thread. For example, For this purpose, the holder is screwed manually after opening a housing of Kolbenhubpipette or with the aid of a tool.

According to one embodiment, the adjusting devices have an actuator interacting with the holder. The actuator facilitates the adjustment of the lower stop, possibly without opening the pipette housing.

According to one embodiment, the actuator has a calibration lever connected to the holder and / or a control gear coupled to the holder. By means of a calibration lever or a setting gear is e.g. a holder in an internal thread screwed. The calibration lever is e.g. manually operable. According to one embodiment, the calibration lever is at the same time a pointer of the display device and, in the swivel range of the calibration lever, a scale of the display device fixed relative to the cylinder is assigned. The calibration lever is e.g. led out through a slot from a housing of Kolbenhubpipette so that it can be actuated from the outside. According to a further embodiment, the calibration lever carries at its end a curved diaphragm which covers a slot in a housing fixed relative to the cylinder, to which a scale on the outer circumference of the housing is assigned. The shutter prevents dirt from entering through the slot in the housing.

The actuating mechanism can be designed in different ways. Basically, all transmission types come into consideration, in particular gear transmission. According to one embodiment, the actuating gear on a driven gear on the circumference of the holder and a meshing, manually operable drive gear on. According to a further embodiment, the drive gear of the adjusting gear has a projecting from a housing actuating portion or is associated with a housing opening, through which it can be actuated from the outside. According to a further embodiment, the holder on the casing has a scale of the display device, which is associated with a stationary relative to the cylinder marking of the display device. According to a further embodiment, the scale is visible through a housing opening of a housing which has a mark on the housing opening or only lets the set scale value be visible from the outside.

According to one embodiment, the actuating gear is a spur gear and / or a bevel gear.

The invention relates both to fixed-volume pipettes and piston-operated pipettes with adjustable metering volume. According to one embodiment, a piston stroke pipette with adjustable metering volume has a spindle which can be screwed into a spindle nut fixed with respect to the cylinder, the lower end face of which forms the upper stop, which has a through-channel through which the lifting rod is passed and in which the spindle is rotationally coupled to a volume adjusting device ,

The volume adjusting device can be designed in various ways. In principle, it is possible to adjust the spindle directly and to provide this example by means of a manually operable actuator. According to one embodiment, the volume adjusting device comprises a coaxially receiving, rotatably mounted adjusting sleeve, which has inside axial grooves into which engages a driver which is rotatably connected to the spindle. According to a further embodiment, the adjusting sleeve is coupled via a gear with a counter for displaying the volume setting.

According to a further embodiment, a device for decoupling two transmission elements of the transmission between adjusting sleeve and counter is present. When the gearbox is decoupled, the upper stop can be moved by actuating the adjusting sleeve to carry out a factory calibration. After setting the upper stop, adjusting sleeve and counter are coupled together again. According to one embodiment, the gear has a gear set, which meshes with a gear on the circumference of the adjusting sleeve and a gear on an initial role of Zählrades and by means of the decoupling device with decoupling at least one gear along an axis is displaceable. This configuration results in a minimization of the meter jump result, ie the adjustment of the counter, the at Coupling due to the overlap of the gears of drive sleeve and counter comes about. This minimizes calibration errors.

According to a further embodiment, pistons, seat for the pipette tip, cylinder, connecting channel, drive device, stops, holders, overstroke spring, adjusting device and display device are arranged in or on a housing.

According to a further embodiment, the pipette is a hand-held pipette.

Finally, according to one embodiment, the pipette is a manually operable pipette.

Fig. 1

eine manuell betätigbare Handpipette in Seitenansicht;

Fig. 2

dieselbe Handpipette nach vorgenommener Werkskalibrierung in einem Längsschnitt;

Fig. 3

dieselbe Handpipette nach vorgenommener Anwenderkalibrierung in einem Längsschnitt;

Fig. 4

Einstellhülse und Zählwerk mit diese koppelndem Getriebe in einer perspektivischen Seitenansicht;

Fig. 5

Überhubsystem mit einem Stirnradgetriebe in einer perspektivischen Seitenansicht;

Fig. 6

Gehäuseoberteil einer Kolbenhubpipette mit einem Überhubsystem gemäß Fig. 5 in einer perspektivischen Seitenansicht;

Fig. 7

Überhubsystem mit einem Kegelradgetriebe in einer perspektivischen Seitenansicht;

Fig. 8

Gehäuseoberteil einer Kolbenhubpipette mit einem Überhubsystem gemäß Fig. 7 in einer perspektivischen Seitenansicht.

The invention will be explained in more detail with reference to the accompanying drawings of exemplary embodiments. In the drawings show:

Fig. 1

a manually operable hand pipette in side view;

Fig. 2

the same hand pipette after factory calibration in a longitudinal section;

Fig. 3

the same hand pipette after the user calibration in a longitudinal section;

Fig. 4

Adjustment sleeve and counter with this coupling gear in a perspective side view;

Fig. 5

Overlift system with a spur gear in a perspective side view;

Fig. 6

Upper housing part of a piston stroke pipette with an overstroke system according to Fig. 5 in a perspective side view;

Fig. 7

Overlift system with a bevel gear in a perspective side view;

Fig. 8

Upper housing part of a piston stroke pipette with an overstroke system according to Fig. 7 in a perspective side view.

According to Fig. 1 to 3 a pipette 1 according to the invention has a housing 2 with an upper housing part 3 and a lower housing part 4.

The lower housing part 4 comprises a cylinder 5 and a slightly conical, sleeve-shaped projection 6, which has a seat 7 for attaching a pipette tip at the end. The cylinder 5 is connected via a connecting channel 8 with an opening 9 in the center of the seat 7.

Furthermore, the lower housing part 4 comprises a piston 10, which is guided into the cylinder 5 via a sealing system 11.

The upper housing part 3 includes a lifting rod 12 whose lower end is connected via a coupling 13 with the piston 10. At the top, the lifting rod 12 carries an actuating button 14.

The lifting rod 12 is passed through a spindle 15 arranged in the upper housing part 3. The spindle 15 has externally an external thread which can be screwed into an internal thread of a lifting body 16, which is fixed in the upper housing part 3. Thus, the lifting body 16 forms a spindle nut.

The lower end face of the spindle 15 forms an upper stop 17 for an annular bead 18 on the circumference of the lifting rod 12.

The spindle 15 is rotatably connected to a driver 19 at the upper end. The driver 19 engages by means of radially projecting ribs 20 in axial grooves of an adjusting sleeve 21 a. The adjusting sleeve 21 is arranged concentrically to the spindle 15 and rotatably supported between the lifting body 16 and the upper housing part 3. The adjusting sleeve 21 protrudes with an upper actuating end, which has a corrugation 22 at the top of the circumference, out of the upper housing part 3.

The adjusting sleeve 21 has at the bottom of the circumference a gear 23. Further, a counter 24 is provided with a further gear 25 at an initial role. The number wheels of the counter 25 are visible from outside the housing upper part 3 through a window 26 having a transparent cover 27.

In Fig. 4 For details of the coupling of the adjusting sleeve 21 with the counter 24 are shown. Accordingly, a gear set 29 is mounted on an axle 28. The gear set 29 is connected to a sliding on the axis 28 adjusting block 30. Against the gear set 29 presses a guided on the axis 28 coil spring 31, so that the gear set 29 presses the adjusting block 30 against a seated on the axis 28 ring 32.

By inserting a screwdriving blade into a notch 33 on the outside of the adjusting block 30 and sliding against the action of the coil spring 31, the gear set 29 with its gears 34, 35 from the gear 23 of the adjusting sleeve 21 and the gear 25 on the initial role of the counter 24 can be lifted ,

At the upper edge region of the upper housing part 3 sits next to the adjusting sleeve 21, a Abwerferknopf 36 on a Abwerferstange 37. The Abwerferstange 37 runs parallel to the lifting rod 12 through the upper housing part 3. Its lower end is connected to a lateral attachment lug 38 of a Abwerferhülse 39 which is slidably mounted on the conical projection 6.

The upper housing part 3 has a window 40, through which the notch 33 of the adjusting block 30 is accessible from the outside.

In the upper housing part 3, a cup-shaped holder 41 is disposed below the lifting body 16. The holder 41 has an external thread, which is screwably arranged in an internal thread of a housing-fixed carrier 42.

The holder 41 includes a plate-shaped lower stop 43, which is held under an inwardly bent, upper edge 44 of the holder 41. An overstroke spring 45, which is supported on the bottom of the holder 41, presses the lower stop 43 against the edge 44th

The lifting rod 12 is passed through central passages of the lower stop 43, by the overstroke spring 45 and a central passage in the bottom of the holder 41.

With the circumference of the holder 41, a radially projecting calibration lever 46 is connected, which protrudes through a slot 47 from the upper housing part 3. The calibration lever 46 is laterally connected to a diaphragm 48, which prevents dust from entering the slot 47 from the outside. The upper housing part 3 has on one side of the slot a scale 49, which is assigned to the calibration lever 46 in the manner of a pointer.

The piston 10 is displaced by depressing the actuating knob 14 against the action of a return spring in the cylinder 5, wherein the piston stroke defined by the distance of the upper stop 17 from the lower stop 43 is, between which the counter-stop 18 is displaced. If the counter-stop 18 reaches the lower stop 43, an overstroke is also possible until the over-travel spring 45 moves "on block".

For the factory setting the calibration lever 46 is set to the latched zero point of the scale 49. The factory calibration is done by decoupling the counter 24 of the adjusting sleeve 21. In this case, the counter 24 is adjusted until the display corresponds to the set dosing. This first calibration option is used for permanent calibration ex works and in case of service.

The second calibration option is used to temporarily recalibrate the pipette for different media and ambient conditions (density, vapor pressure, temperature, etc.). For this purpose, the over-lift system is adjusted by operating the calibration lever 46. If the holder 41 is raised, this means a volume reduction. If it is lowered, the dosing volume is increased. If the user wishes to return from the user calibration he has made to the factory calibration, he only needs to turn the calibration lever 46 back into its latched starting position.

• Gemäß Fig. 5 sitzt am Umfang des Halters 41' ein angetriebenes Zahnrad 50, das über axiale Nuten an seinem Innenumfang und über radial vorstehende Rippen am Außenumfang des Halters 41' drehfest mit diesem verbunden ist. Das angetriebene Zahnrad 50 kämmt mit einem Antriebszahnrad 51, das gemäß Fig. 6 durch einen weiteren Schlitz 52 des Gehäuseoberteils 3 hindurch von außen betätigbar ist. Der Halter 41' ist in den Träger 42 im Gehäuseoberteil 3 eingeschraubt. Er hat am Umfang eine Skala 53, die durch eine Gehäuseöffnung 54 des Gehäuseoberteiles 3 hindurch sichtbar ist. Dort ist eine Ablesung der Skala 53 an einer Markierung 55 auf der Außenseite des Gehäuseoberteiles 3 möglich.
• Gemäß Fig. 7 ist das angetriebene Zahnrad 50' des Halters 41" ein Teil eines Kegelradgetriebes 56. Das Antriebszahnrad 52' des Kegelradgetriebes 56 ist mit einem Werkzeugansatz 57 verbunden. Dieser ist gemäß Fig. 8 durch Einsetzen eines Werkzeuges durch eine weitere Gehäuseöffnung 58 im Gehäuseoberteil 3 von außen betätigbar. Auch bei dieser Ausführung kann die Einstellung der Anwenderkalibrierung durch Betrachten einer Skala 53 am Umfang des Halters 50' durch eine Gehäuseöffnung 54 abgelesen werden.

Below are further actuating gear for screwing the holder shown in the housing:

• According to Fig. 5 sits on the circumference of the holder 41 ', a driven gear 50 which is connected via axial grooves on its inner circumference and radially projecting ribs on the outer circumference of the holder 41' rotatably connected thereto. The driven gear 50 meshes with a drive gear 51, which according to Fig. 6 can be actuated from the outside through a further slot 52 of the upper housing part 3. The holder 41 'is screwed into the carrier 42 in the upper housing part 3. He has on the circumference of a scale 53, through a housing opening 54 of the upper housing part 3 is visible through. There is a reading of the scale 53 at a mark 55 on the outside of the housing upper part 3 is possible.
• According to Fig. 7 the driven gear 50 'of the holder 41''is a part of a bevel gear 56. The drive gear 52' of the bevel gear 56 is connected to a tool attachment 57. This is according to Fig. 8 by inserting a tool through a further housing opening 58 in the upper housing part 3 from the outside operable. Also in this embodiment, the adjustment of the user calibration can be read by observing a scale 53 on the circumference of the holder 50 'through a housing opening 54.

Claims (27)

1. A plunger stroke pipette for replaceable pipette points with

   • a seat (7) for the detachable mounting of a pipette point,

   • a plunger (10),

   • a cylinder (5), in which the plunger (10) is movably arranged,

   • a connection channel (8), connecting the cylinder (5) with an opening (9) in the seat (7),

   • a driving equipment (12), coupled to the plunger (10) for displacing the plunger (10) in the cylinder (5),

   • an upper stopper (17) and a lower stopper (43) and at least one counter-stopper (18) of the driving equipment (12) and/or the plunger (10) for limiting the stroke of the plunger (10),

   • a holder (41), holding the lower stopper (43),

   • an overstroke spring (45) between the upper stopper (43) and the holder (41),

   characterized in that the plunger stroke pipette has

   • an adjustment equipment (46) for adjusting the position of the holder (41) with respect to the cylinder (10), and

   • an indicating equipment (49) for indicating the position of the holder.
2. A pipette according to claim 1, having a pull-back spring, which charges the plunger (10) or the driving equipment (12) in the direction of the abutment of the counter-stopper (18) on the upper stopper (17).
3. A pipette according to claim 1 or 2, in which the driving equipment comprises a lifting rod (12), displaceable in a guiding, which is connected or couplable with the plunger (10) at the one end and which is connected with an operation button (14) on the other end.
4. A pipette according to claim 3, in which the counter-stopper (18) is a bead on the perimeter of the lifting rod (12).
5. A pipette according to claim 3 or 4, in which the lower stopper (43) is disc-shaped and the lifting rod (12) is guided through a central clearance hole of the lower stopper (43).
6. A pipette according to claim 5, in which the lower stopper (43) is dome shaped on the side facing the counter-stopper (18).
7. A pipette according to claim 5 or 6, in which the lower stopper (43) has a sleeve shaped shoulder on the side opposite to the counter-stopper (18), through which the clearance hole runs through.
8. A pipette according to any one of claims 5 to 7, in which the holder (41) has the form of a pot which has a central bottom hole in the bottom, through which the lifting (12) is guided through, the lower stopper (43) is shiftably arranged in the holder (41), the holder (41) has a brim (44) on its opening, projecting towards the inside and overlapping the stopper, and the overstroke spring (45) is arranged in the holder (41) and props up on the bottom at the one end and on the lower side of the stopper (43) at the other end.
9. A pipette according to any one of claims 1 to 8, in which the overstroke spring (45) and/or the pull-back spring is/are a helical spring.
10. A pipette according to any one of claims 1 to 9, in which the adjustment equipments have an outside thread on the holder (41) and an interior thread, co-operating therewith and being stationary with respect to the cylinder (5).
11. A pipette according to any one of claims 1 to 10, in which the adjustment equipments have an actuating drive (38; 50, 51), co-operating with the holder (41).
12. A pipette according to claim 11, in which the actuating drive has a calibration lever (46), connected with the holder, and/or an actuating gear (50, 51), coupled with the holder.
13. A pipette according to claim 12, in which a scale (49) of the indicating equipment, stationary with respect to the cylinder (5), is assigned to the swivelling range of the calibration lever (46) as the pointer of the indicating equipment.
14. A pipette according to claim 12 or 13, in which the calibration lever (46) bears an annular shaped screen (48) on the end side, which covers a slit (47) in a casing (2) which is stationary with respect to the cylinder (5), to which a scale (49) on the outer perimeter of the casing (2) is assigned.
15. A pipette according to any one of claims 1 to 14, in which the actuating gear has a driven gearwheel (50) on the perimeter of the holder (41') and a driving gearwheel (51), engaging therewith and being manually operatable.
16. A pipette according to claim 15, in which the driving gearwheel (51) of the actuating gear has an operation section, projecting out of a casing (2), or is assigned to a casing opening, through which it is operatable from the outside.
17. A pipette according to any one of claims 10 to 16, in which the holder (41') has a scale (53) of the indicating equipment on its perimeter, to which a mark (55) of the indicating equipment is assigned, which is stationary with respect to the cylinder (5).
18. A pipette according to claim 17, in which the scale is visible through a casing opening (54) of a casing (2).
19. A pipette according to any one of claims 1 to 18, in which the actuating gear is a spur wheel gear (50, 51) and/or a conical wheel gear (50', 51').
20. A pipette according to any one of claims 1 to 19, which has a spindle (15), screwable in a spindle nut (16) which is stationary with respect to the cylinder (5), the lower front side of which forms the upper stopper (17), which has a passage channel through which the lifting rod (12) is guided through and in which the spindle is rotationally coupled with a volume adjustment equipment (21).
21. A pipette according to claim 20, in which the volume adjustment equipment has an adjustment sleeve (21), accommodating coaxially the spindle (15), which has axial grooves in the inside into which a driving tenon (19) engages which is splinedly connected with the spindle (15).
22. A pipette according to claim 21, in which the adjustment sleeve (21) is coupled with a numerator (24) for indicating the volume adjustment via a gear (23, 25, 29).
23. A pipette according to claim 22, in which there is an equipment for uncoupling (30) of two gear elements of the gear (23, 25, 29) between adjustment sleeve (21) and numerator (24).
24. A pipette according to claim 23, in which the gear (23, 25, 29) has a set of gearwheels (29), which engages with a gearwheel (23) on the perimeter of the adjustment sleeve (21) and with a gearwheel (25) on the initial roller of the numerator (24) and is shiftable along an axis (28) by means of the equipment for uncoupling (30), at least one gearwheel (23, 25) being uncoupled from a gearwheel (34, 35) engaging therewith.
25. A pipette according to any one of claims 1 to 24, which has plunger (10), seat (7), cylinder (5), connection channel (8), driving equipment (12), stoppers (17, 43), holder (41), overstroke spring (45), adjustment equipment (46) and indicating equipment (49) in or on a casing (2).
26. A pipette according to any one of claims 1 to 25, which is a hand-held pipette.
27. A pipette according to any one of claims 1 to 26, which is a manually operatable pipette.

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