PIPETTE FOR USE WITH A PIPETTE TIP WITH AN INTEGRATED PLUNGER

Abstract

A pipette comprises a housing extending from a lower end to an upper end and a neck extending from the lower end of the housing and configured to hold a pipette tip. A stroke rod comprising an upper end and a lower end is configured to displace a tip plunger in the pipette tip. A drive apparatus is configured to displace the stroke rod to: (1) aspirate a liquid specimen into the pipette tip held on the neck; and (2) to eject the specimen from the pipette tip by means of a tip plunger positively connected to the stroke rod. At least one locking sleeve is arranged coaxially with the stroke rod and configured to be displaceably guided toward the stroke rod in the housing, The locking sleeve is configured to inhibit release of a tip plunger from the stroke rod.

Claims

1. A pipette for use with a pipette tip with an integrated tip plunger, the pipette comprising: a pipette housing extending from a lower end to an upper end; a neck extending from the lower end of the pipette housing and configured to hold a pipette tip; a stroke rod comprising an upper end and a lower end and configured to displace a tip plunger in the pipette tip, wherein the stroke rod comprises a receiving portion positioned at the lower end of the stroke rod and configured to receive an upper end of the tip plunger of the pipette tip that is held on the neck; a drive apparatus configured to displace the stroke rod to: (1) aspirate a liquid specimen into the pipette tip held on the neck; and (2) to eject the specimen. from the pipette tip by means of a tip plunger positively connected to the stroke rod; and at least one locking sleeve arranged coaxially with the stroke rod and configured to be displaceably guided toward the stroke rod in the pipette housing, wherein one of: (1) the at least one locking sleeve is configured to be moved into a locked position in which the at least one locking sleeve borders, on an outside, a lower end of the stroke rod that is configured to expand when the upper end of a tip plunger is inserted into a portion of the stroke rod; and (2) an upper end of the tip plunger is configured to expand when the lower end of the stroke rod is inserted into a portion of the tip plunger, wherein the locking sleeve is configured to inhibit release of a tip plunger from the stroke rod, and wherein the locking sleeve is configured to be displaced upward out of the locked position so that one of: (1) the stroke rod; and (2) the upper end of the tip plunger is at least partially released and the tip plunger is configured to be detached from the stroke rod.

2. The pipette according to claim 1, wherein the stroke rod defines at least one slot running in a longitudinal direction, and wherein when the locking sleeve is in the locked position, the locking sleeve borders the stroke rod on an outside in at least one of: (1) a region of the slot; and (2) the locking sleeve.

3. The pipette according to claim 2, wherein when the stroke rod is in the locked position, the stroke rod is configured to border the tip plunger, wherein the tip plunger comprises at least one slot running in the longitudinal direction at the upper end and is connected to the stroke rod, and wherein the locking sleeve borders the tip plunger on an outside and in the region of the slot.

4. The pipette according to claim 1, wherein the locking sleeve is connected to a first operating element that projects from the pipette housing, and wherein the first operating element is configured to be displaced relative to the pipette housing in order to displace the locking sleeve downward into the locked position and upward out of the locked position.

5. The pipette according to claim 1, further comprising an ejection apparatus comprising: an ejection rod with an upper end and a lower end and configured to be guided inside an axial bore of the stroke rod to be displaceable in a longitudinal direction of the neck, and wherein the ejection rod is arranged with the lower end above the tip plunger when the tip plunger is connected to the stroke rod; and a second operating element connected to the ejection rod and configured to displace the ejection rod, wherein the ejection apparatus is configured to press the tip plunger off of the stroke rod and to press the pipette tip off of the neck by displacing the ejection rod downward when the locking sleeve at least partially releases one of: (1) the stroke rod; and (2) the upper end of the tip plunger.

6. The pipette according to claim 1, wherein the neck is configured to positively connect to the pipette tip so that the pipette tip is pushed onto the neck with at least one of: (1) elastic constriction of the neck; and (2) elastic expansion of the pipette tip before being positively connected to the neck.

7. The pipette according to claim 6, further comprising at least one locking sleeve arranged coaxially with the neck and configured to be guided in the pipette housing toward the neck, wherein the at least one locking sleeve is configured to be displaced into a locked position in which the pipette tip one of: (1) borders a neck configured to be constricted by means of a pipette tip being pushed on; and (2) borders a pipette tip that is configured to be expanded by being pushed onto the neck.

8. The pipette tip of claim 7, wherein the locking sleeve inhibits release of the pipette tip that is positively connected to the neck form the neck, and wherein the locking sleeve is configured to be displaced upward out of the locked position so that at least one of: (1) the neck; and (2) the pipette tip is at least partially released and the pipette tip is configured to be detached from the neck.

9. The pipette according to claim 8, wherein the neck defines at least one slot running in a longitudinal direction and wherein at least one of: (1) when the locking sleeve is in the locked position, the locking sleeve borders the neck on an inside; and (2) when the locking sleeve is in the locked position, the locking sleeve is configured to border a pipette tip comprising at least one slot running in the longitudinal direction at the upper end and that is positively connected to the neck.

10. The pipette according to claim 9, wherein the locking sleeve is arranged between the stroke rod and the neck, wherein when the locking sleeve is in the locked position, the locking sleeve borders on an outside of one of (1) the lower end of the stroke rod; and (2) the upper end of the tip plunger, wherein at a same time the locking sleeve also borders the neck on the inside and inhibits release of a tip plunger positively connected to the stroke rod from the stroke rod, and wherein at the same time, the locking sleeve inhibits the release of a pipette tip from the neck.

11. The pipette according to claim 5, wherein the locking sleeve and the ejection rod are configured to connect to a gear apparatus, wherein the gear apparatus is configured to control displacement of the locking sleeve and the ejection rod in opposite directions when at least one operating element is actuated, wherein the tip plunger is positively connected to the stroke rod and is inhibited from being detached from the stroke rod by the ejection rod being displaced upward and the locking sleeve being displaced downward, and wherein the tip plunger is configured to be detached from the stroke rod and the pipette tip is configured to be detached from the neck by the locking sleeve being displaced upward and the ejection rod being displaced downward.

12. The pipette according to claim 11, wherein when the pipette tip is being pressed off, the gear apparatus is configured to first displace the locking sleeve upward and then configured to press the tip plunger off of the stroke rod and further configured to displace the pipette tip from the neck by displacing the ejection rod downward.

13. The pipette according to claim 11, wherein the at least one operating element controls the displacement of the locking sleeve and the displacement of the ejection rod.

14. The pipette according to claim 11, wherein the at least one operating element controls the drive apparatus.

15. The pipette according to claim 1, wherein the stroke rod is configured to connect to the tip plunger and wherein the tip plunger is configured to be inserted into a portion of the stroke rod prior to being coupled to the stroke rod, wherein the lower end of the stroke rod is configured to elastically expand.

16. The pipette according to claim 1, wherein the stroke rod is configured to be inserted into a portion of the tip plunger prior to being coupled to the tip plunger, and wherein the upper end of the tip plunger is configured to elastically expand.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0033] The invention is explained in greater detail below based on the attached drawings of an exemplary embodiment. In the drawings:

[0034] FIG. 1 illustrates a partial cut-away view of an embodiment of a positive displacement pipette with a pipette tip mounted on the neck;

[0035] FIG. 2 illustrates an enlarged perspective view of the embodiment of the positive displacement pipette with a pipette tip mounted on the neck from FIG. 1 and further showing an embodiment of a slotted neck with an inner adjacent locking sleeve;

[0036] FIG. 3 illustrates a side view of the embodiment of the positive displacement pipette with a pipette tip mounted on the neck of FIG. 1;

[0037] FIG. 4 illustrates a longitudinal view of the embodiment of the positive displacement pipette with a pipette tip mounted on the neck of FIG. 1;

[0038] FIG. 5 illustrates an exploded view of the positive displacement pipette with a pipette tip mounted on the neck of FIG. 1;

[0039] FIG. 6 illustrates an exploded view of the positive displacement pipette with a pipette tip mounted on the neck of FIG. 1 without the pipette housing;

[0040] FIG. 7 illustrates a. perspective view of an embodiment of a rotating sleeve with the ejection rod and the locking sleeve of the embodiment of the positive displacement pipette with a pipette tip mounted on the neck of FIG. 1 in the start position;

[0041] FIG. 8 illustrates a partial cut-away side view of the embodiment of the positive displacement pipette with a pipette tip mounted on the neck of FIG. 1;

[0042] FIG. 9 illustrates a partial cut-away side view of the embodiment of the positive displacement pipette with a pipette tip mounted on the neck of FIG. 1 while pipetting;

[0043] FIG. 10 illustrates a partial cut-away side view of the embodiment of positive displacement pipette with a pipette tip mounted on the neck of FIG. 1 while ejecting;

[0044] FIG. 11 illustrates a longitudinal sectional view or an embodiment of a slotted pipette tip on a neck of another embodiment of a positive displacement pipette with a locking sleeve lying on the outside of the pipette tip;

[0045] FIG. 12a illustrates a side view of an embodiment of a stroke rod of the positive displacement pipette;

[0046] FIG. 12b illustrates a side view of an embodiment of a locking sleeve of the positive displacement pipette;

[0047] FIG. 12c illustrates a side view of an embodiment of a neck of the positive displacement pipette;

[0048] FIG. 12d illustrates a side of an embodiment of a pipette tip of the positive displacement pipette;

[0049] FIG. 12e illustrates a side view of an embodiment of a tip plunger of the positive displacement pipette;

[0050] FIG. 13a illustrates a perspective side view of an embodiment of the lower end of the stroke rod of the positive displacement pipette;

[0051] FIG. 13b illustrates a perspective side view of an embodiment of the stroke rod inserted in the locking sleeve of the positive displacement pipette;

[0052] FIG. 13c illustrates a perspective side view of an embodiment of the stroke rod and locking sleeve inserted in the neck of the positive displacement pipette;

[0053] FIG. 14a illustrates a side view of an embodiment of the upper end of the plunger rod and lower end of the stroke rod of the positive displacement pipette prior to positive connection;

[0054] FIG. 14b illustrates a side view of an embodiment of the upper end of the plunger rod and lower end of the stroke rod of the positive displacement pipette after positive connection;

[0055] FIG. 14c illustrates a side view of an embodiment of the upper end of the plunger rod and lower end of the stroke rod of the positive displacement pipette after the locking sleeve has been pushed on;

[0056] FIG. 14d illustrates a side view of an embodiment of the pipette tip of the positive displacement pipette prior to positive connection with the neck;

[0057] FIG. 14e illustrates a side view of an embodiment of the pipette tip of the positive displacement pipette alter positive connection with the neck; and

[0058] FIG. 14f illustrates a side view of an embodiment of the pipette tip of the positive displacement pipette with the locking sleeve in the locked position.

DETAILED DESCRIPTION OF THE INVENTION

[0059] In the present application, the expressions “upper” and “lower” or “top” and “bottom” as well as “vertical” and “horizontal” and terms derived therefrom such as “above” and “below”, “standing upright” and “upside down” as well as “one over the other” refer to an arrangement of the pipette in which the neck is oriented vertically, and is located on the downwardly facing end of the pipette housing. With regard to the pipette tip, these expressions refer to a vertical orientation of the central axis of the pipette tip, wherein the tip opening is arranged at the bottom and the mounting opening is arranged at the top.

[0060] An exemplary embodiment for securing a pipette tip to the neck of a pipette by means of a locking sleeve that borders the neck on the inside in the locked position will be explained based on FIGS. 1 to 10. An exemplary embodiment for securing a pipette tip to the neck of a pipette by means of a locking sleeve that borders the pipette tip on the outside will be explained based on FIG. 11. An exemplary embodiment for securing a tip plunger to a stroke rod by means of a locking sleeve that border the lower end of the stroke rod on the outside in the locked position will be explained based on FIGS. 12 to 14. In this exemplary embodiment, the pipette tip is also secured to the neck by means of the same locking sleeve in that same borders the neck on the inside. The explanations regarding the pipette from FIGS. 1 to 10 also apply to the pipette according to FIGS. 12 to 14.

[0061] According to FIG. 1, a pipette 1 configured as a positive displacement pipette has a rod-shaped (e.g. cylindrical) pipette housing A hollow cylindrical shaft 3 projects downward from the lower end of the pipette housing 2. A neck 4 projects downward from the lower end of the shall 3, which, according to FIGS. 1 and 4, has a through-bore 5 with a through-hole in the lower end. The inner diameter of the through-bore 5 is smaller than the inner diameter of the shaft 3.

[0062] The neck 4 has a top neck section 6 in the shape of a hollow cylinder, and underneath, a lower neck section 7 in the shape of a hollow cone. An annular groove 8 runs around the outer circumference of the neck 4 between the upper neck section 6 and the lower neck section 7. The upper neck section 6, the annular groove 8, and the lower neck section 7 form first means for positively connecting 9 the pipette to a pipette tip. Furthermore, the neck 4 comprises slots 10 running in the longitudinal direction thereof which are distributed evenly over the circumference. The slots 10 extend from the lower end 11 over the entire length of the neck 4.

[0063] According to FIGS. 1, 5 and 6, there is a drive apparatus 12 in the pipette housing 2 that comprises a transmission element 13 in the form of a transmission rod 14, a transmission mechanism 15 and a drive element 16 in the form of a stroke rod 17. Furthermore, the drive apparatus 12 comprises an operating element 18 in the form of an operating lever 19 that is securely connected via a bar 20 to a support plate 21.

[0064] According to FIG. 6, the support plate 21 has an oval shape with a wide, rounded end and a narrow rounded end, wherein the operating lever 19 projects from the edge of the narrow rounded end. In addition to this edge, the support plate 21 has a first curved slot 22 that runs approximately parallel to the contour of the narrow rounded end. Furthermore, the support plate 21 has a rectangular first edge cutout 23 in the center of the first curved slot 22 on the side of the narrow rounded end.

[0065] According to FIGS. 1 and 5, the stroke rod 17 is inserted from above into the shaft 3 and the neck 4. According to FIG. 4, it is hollow and provided with an axial bore that extends down to a hole in the lower end of the stroke rod. Furthermore, the stroke rod 17 comprises a longitudinal slot 24 that runs in the longitudinal direction proceeding from the lower end. Because of the longitudinal slot 24, the stroke rod 17 has a C-shaped cross-section. Its lower end forms a receiving means 25 for the upper end of a plunger rod.

[0066] The transmission mechanism 15 is configured so that the stroke rod 17 is alternatingly displaced downward and upward during sequential downward displacements of the operating lever 19 between which the operating lever 19 is displaced upward. Consequently, by pressing the operating lever 19 downward, the stroke rod 17 can be displaced out of an upper position into a lower position, the stroke rod 17 retains the lower position during the subsequent upward displacement of the operating lever 19, and the stroke rod 17 is again displaced upward by subsequently pressing the operating lever 19 downward. This can be repeated as frequently as desired.

[0067] According to FIGS. 1, 5, and 6, the pipette 1 is provided with an ejection apparatus 26. This comprises a curved support 27 that is rotatably mounted in. the pipette housing 2 and is designed as a hollow cylindrical rotating sleeve 28. The rotating sleeve 28 is for example rotatably mounted by its outer circumference on the inner circumference of the pipette housing 2 and the upper and lower ends are braced against ledges of steps on the inner circumference of the pipette housing 2 so that it cannot be displaced in an axial direction in the pipette housing 2 The rotational axis of the rotating sleeve 28 coincides with the longitudinal axis of the pipette housing and the longitudinal axis of the neck 4.

[0068] The rotating sleeve 28 has parallel cutouts 29, 30 on two diametrically opposing sides parallel to its rotational axis which extend from the upper edge of the rotating sleeve 28 and terminate at a distance from its lower edge. Below the cutouts, the rotating sleeve 28 accordingly consists of an annular base 31, and it also consists of two diametrically opposing sectors 32, 33 of an annulus that border the two cutouts 29, 30 on the side.

[0069] A first curve 34 and a second curve 35 are arranged on the outer circumference of the annular base 31 of the rotating sleeve 28. The first curve 34 is configured as a first groove 36 in the form of an inverted (upside down) Y. The vertical part 37 of the Y extends far upward to a sector 32 just short of the upper edge of the sector 32. The second curve 35 is a second groove 38 in the outer circumference of the base 31 of the rotating sleeve 28 in the form of an upright V. The first curve 34 and the second curve 35 are arranged so as to be offset by, e.g., 80° relative to each other on the circumference of the rotating sleeve. The first curve 34 and the second curve 35 each extend over an angular range of less than 90° over the circumference of the rotating sleeve 28.

[0070] According to FIGS. 1, 5 and 6, the ejection apparatus 26 comprises an ejection rod 39 that comprises a strip-shaped upper ejection rod part 40 and a cylindrical lower ejection rod part 41. An accordingly curved, continuous wire may be used instead of the ejection rod 39. The upper and the lower ejection rod part 40, 41 are parallel to each other and arranged so as to be laterally offset relative to each other. The lower end of the upper ejection rod part 40 is connected to the upper end of the lower ejection rod part 41 by a strip-shaped connecting rod part 42 angled obliquely relative to the two ejection rod parts. A first sensing element 43 in the form of a first guide pin 44 projects at a right angle from the inside of the upper ejection rod part 40. The ejection rod 39 is preferably designed as a single part, for example from a rigid plastic.

[0071] According to FIGS. 1, 4 and 7, the ejection rod 39 is guided by the guide pin 44 in the first groove 36, the connecting rod part 42 penetrates the longitudinal slot 24 of the stroke rod 17, and the lower ejection rod part 41 extends within the stroke rod 17 almost up to the lower end thereof.

[0072] According to FIGS. 1, 4, 5 and 6, the pipette 1 comprises a locking apparatus 45 that comprises a locking sleeve 46 and a strip-shaped control rod 47 parallel thereto. The upper end of the locking sleeve 46 and the lower end of the control rod 47 are connected to each other by a second connecting rod part 48 that is angled obliquely to the locking sleeve 46 and to the control rod 47. A second sensing element 49 in the form of a second guide pin 49.1 projects from the inside of the control rod 47.

[0073] According to FIGS. 1 and 7, the second guide pin 49.1 is guided in the second groove 38. According to FIG. 1 and 4, the locking sleeve 46 is inserted from above into the shaft 3 and lies against the inner side of the neck 4. The stroke rod 17 and the ejection rod 39 are inserted from above into the locking sleeve 46.

[0074] With the first curved slot 22, the operating element 18 is pushed onto the sector 32 of the rotating sleeve 28 on which the first groove 36 extends. According to 1, 6 and 7, the rotating sleeve 28 is connected at the top to a support ring 50 that bridges the two sectors 32, 33 and stabilizes the rotating sleeve 28. On the outer edge, the support ring 50 has a downwardly projecting lateral surface 51 that laterally surrounds the outer edges of the two sectors 32, 33. Furthermore, it has a second curved slot 52 that accommodates the upper edge of the sector 33, which is not provided with a groove 36, 38. On the diametrically opposite side, there is a rectangular second edge cutout 52.1 in the lateral surface 51 that is open at the bottom and is designed to accommodate the bar 20 between the operating lever 19 and support plate 21.

[0075] The support ring 50 is for example connected to the rotating sleeve 28 by adhesion.

[0076] The rotating sleeve 28 and the locking sleeve 46 as well as the operating element 18 are for example made of one or more rigid plastics and/or metal. The rotating sleeve 28, the support ring 50, the operating element 18 and/or the locking sleeve 46 are preferably each designed as a single part. An operating button of the operating element 18 can also be produced from an elastic or soft elastic plastic or rubber.

[0077] So that it can be operated from the outside, the operating lever 19 extends out of the pipette housing 2 through a first housing slot running transverse to the longitudinal axis of the pipette housing 2 and extending over a part of the circumference of the pipette housing 2. The first housing slot is connected in the middle to a second housing slot running in the longitudinal direction of the pipette housing 2.

[0078] The operating lever 19 can be displaced downward counter to the effect of a spring apparatus, starting from the support ring 50, along the second housing slot, wherein it slides with the first curved slot 22 on the sector 32 of the rotating sleeve 28. After being relieved, the spring apparatus independently displaces the operating lever 19 back upward.

[0079] A sleeve-shaped third sensing element 53 is guided on the outside of the shaft 3. A spring apparatus in the form of a helical spring 54 guided on the shall abuts the bottom side of the pipette housing 2 and the top side of the third sensing element 53. By means of the helical spring 54, the third sensing element 53 is pressed from above against a stop element on the shaft 3 or the neck 4.

[0080] An adjusting knob 55 for adjusting a metering volume is arranged on the top side of the pipette housing 2. The metering volume can be adjusted by turning the adjusting knob 55. A counter 56 arranged thereunder in the pipette housing 2 indicates the respectively set metering volume. The adjusting knob 55 and/or the counter 56 is coupled to the transmission mechanism 15. The transmission mechanism 15 is designed to change the stroke of the stroke rod 17 according to the respectively set metering volume, which stroke is performed by means of the downward displacement of the operating element 18.

[0081] According to FIGS. 1 and 4, a pipette tip 57 is mourned on the neck 4. The pipette tip 57 comprises a tubular body 58 that has a tip opening 59 in the lower end, a collar 61 having a mounting opening 60 on the upper end, and a seat region 62 on the inner circumference of the collar 61 for clamping onto the neck 4. The seat region 62 has a contour complementary to the neck 4 that has a conical. lower seat section 63 at the bottom for accommodating the conical lower neck section 7, above which is a circumferential bead 64 for engaging in the annular groove 8 of the neck 4, and above which is a cylindrical upper seat section 65 for accommodating the cylindrical upper neck section 6. The lower seat section 63, the head 64, and the upper seat section 65 form second means for positively connecting 66 the pipette tip 57 to the pipette 1.

[0082] Below the seat region 62, the tubular body 58 has a cylindrical plunger travel region 67. Thereunder, the tubular body 58 has a downwardly tapering tip section 68 with the shape of a hollow conical frustum. The tip section 68 is shown in FIG. 4 and is omitted in the other drawings for reasons of simplification. A tip plunger 69 is inserted into the tubular body 58. This comprises a plunger 70 that is guided in the plunger travel region 67. A plunger rod 71 projects upward from the plunger 70 and has a smaller diameter than the plunger 70. At the upper end, the plunger rod 71 has a plunger head 72. According to FIG. 4, the plunger head 72 is pressed downward into the receiving means 25 of the stroke rod 17.

[0083] One method for using the pipette 1 will now be discussed. According to FIGS. 1 and 8, a pipette tip 57 is held on the pipette 1 in a pipetting position. The seat region 62 is positively connected to the neck 4 in particular by means of the bead 64 engaging in the annular groove 8. The operating element 18 is located in the pipetting position at the upper end of the second housing slot and can be screwed into the first housing slot in both directions. The maximum angle of rotation is limited by the extent of the first and second grooves 36, 38 in the circumferential direction or the first housing slot depending on which extent is smaller.

[0084] The locking sleeve 46 is arranged in the lowest position according to FIG. 4 so that it prevents the pipette tip 57 from unintentionally releasing from the neck 4. For the positive connection to be released, a radial constriction of the neck 4 that the locking sleeve 46 does not permit in this position would in fact be necessary. The tip plunger 69 is securely clamped to the plunger head 72 in the receiving means 25 of the stroke rod 17.

[0085] To draw liquid, the pipette 1 is immersed in a liquid by the lower end of the pipette tip 57 held thereon. Then the operating element 18 is pressed downward. This movement is converted by the transmission apparatus 15 into a stroke movement of the stroke rod 17. As a result, the tip plunger 69 is displaced upward. In so doing, the plunger head 72 entrains the ejection rod 39 so that the first guide pin 44 slides upward in the vertical part 37 of the Y-shaped first groove 36. During this, the locking sleeve 46 retains its position. This is shown in FIG. 9.

[0086] Once the operating element 18 has performed the set stroke, the pipette tip 57 is filled with a certain amount of liquid. Then the operating element 18 is relieved and is displaced back upwards by the spring apparatus up to the stop on the support ring 50. To discharge this amount of liquid, the pipette tip 57 of the pipette 1 can be oriented over another vessel. By again pressing the operating element 18 downward, the stroke rod 17 is displaced downward and the quantity of liquid is discharged. In so doing, the first guide pin 44 slides downward to the node of the first groove 36.

[0087] When liquid is being drawn up, an operating stroke that depends on the set quantity of liquid is performed by the operating element 18. The operating stroke for dispensing the liquid is always the full operating path, regardless of the set quantity of liquid. Liquid can be drawn and discharged several times.

[0088] To eject the pipette tip 57, the operating lever 18 is swung to the right or to the left proceeding from the pipetting position. This rotates the rotating sleeve 28 so that the second groove 38 displaces the second guide pin 49.1, and therefore the locking sleeve 46, upward until the locking sleeve 46 has released the neck 4 until it can be deformed radially inward. In the exemplary embodiment in FIGS. 12 to 14, in the process, the lower end of the stroke rod 17 is additionally released from the locking sleeve 46 until it can be deformed radially outward. To accomplish this, preferably the locking sleeve 46 is pulled out of the through-bore 5. Furthermore, by rotating the rotating sleeve 28, the first guide pin 44 is displaced downward in one of the two lateral sections of the bottom part of the first groove 36 so that the ejection rod 39 presses against the tip plunger 69, which abuts the tip section 68 at the bottom. In so doing, the bead 64 exerts a radial force on the neck to constrict it, and the positive connection between pipette tip 57 and neck 4 is released. This releases the pipette tip 57 from the neck 4. This is shown in FIG. 10. In the exemplary embodiment in FIGS. 12 to 14, in the process, the annular groove 77 or the thickening 75 exerts a radial force on the stroke rod 17 so that same expands and the positive connection between the tip plunger 69 and stroke rod 17 is released. The scraping of the pipette tip 57 off the neck 4 can be assisted by the sensing element 53, which is pressed by the pretensioned helical spring 54 against the top edge of the pipette tip 57.

[0089] Once the used pipette tip 57 is released from the neck 4, a new pipette tip 57 can be connected to the neck 4. To accomplish this, the pipette 1 can be inserted with the neck 4 into the drawing opening 68 of a pipette tip 57 provided in a support. In so doing, the sensing element 53 is displaced upward and pretensions the helical spring 54. Furthermore, the plunger head 72 presses against the bottom side of the ejection rod 39 so that the first guide pin 44 slides up to the first branching point of the first groove 36. In so doing, the rotating sleeve 28 is rotated in the pipette housing 2 until the operating element 18 is located in. the pipetting position. At the same time, the second guide pin 49.1 slides in the second groove 38 to the low point. This displaces the locking sleeve 46 into the locked position in FIG. 4, in which it prevents the pipette tip 57 from becoming released from the neck 4. In the exemplary embodiment in FIGS. 12 to 14, the locking. sleeve 46 in the locked position also prevents the tip plunger 69 from becoming released from the stroke rod 17. The connection of the tip plunger 69 to the stroke rod 17 and the pipetting can be carried out in the above-described manner.

[0090] The exemplary embodiment in FIG. 11 differs from that described above in that the locking sleeve 46 is pushed in the locked position beyond the outer circumference of the collar 61 of the pipette tip 57. This positive displacement pipette uses pipette tips 57 that have at least one longitudinal slot that proceeds from the upper end. The longitudinal slot enables a radial expansion of the pipette tip 57 in order to establish a positive connection between the pipette tip 57 and the neck 4. The positive connection is prevented from becoming released when the locking sleeve 46 is located in the locked position as shown in FIG. 11. To release the pipette tip 57 from the neck 4, the locking sleeve 46 is displaced upward by means of the rotating sleeve 28 as in the above-described exemplary embodiment, and then the pipette tip 57 is released from the neck 4 by pressing against the top side of the tip plunger 69.

[0091] According to FIG. 12a to e, a pipette 1 comprises a neck 4 with slots 10 proceeding. from the lower end, a stroke rod 17 with additional slots 73 proceeding from the lower end, and a locking sleeve 46 with a control rod 47 at the upper end. The neck 4 comprises a circumferential annular groove 8 in the region of the slots 10.

[0092] In FIG. 12, a fitting pipette tip 57 and a fitting tip plunger 69 are also shown. The pipette tip 57 comprises a tubular body 58 with a tip opening 59 at the lower end and a mounting opening 60 at the upper end. The pipette tip 57 has a collar 61 with a seat region 62 on the inner circumference in which an inwardly projecting bead 64 circumferentially extends.

[0093] Below the collar, the pipette tip 57 has a plunger travel region 67 on the inside. A tip plunger 69 is inserted into the tubular body 58 through the mounting opening 60. This comprises a plunger 70 that is guided in the plunger travel region 67.

[0094] A plunger rod 71 projects upward from the plunger 70 and has a smaller diameter than the plunger 70. At the upper end, the plunger rod 71 has a plunger head 72.

[0095] Below the plunger head 72, the plunger 70 has a downwardly tapering cone 74, by means of which the tip plunger 69 is centered at the upper end of the plunger travel region 67 when said tip plunger is inserted as far as possible into the body 58.

[0096] Above the cone 74, the plunger head 72 has a cylindrical thickening 75 with a run-on slope 76 on the upper end. Another annular groove 77 extends circumferentially below the thickening 75.

[0097] In FIG. 13a, the lower end of the stroke rod 17 with the three slots 73 is shown in an enlarged view.

[0098] The segments of the stroke rod 17 formed between the slots 73 have an inwardly projecting hook 78 at the bottom which is shaped and dimensioned so as to snap into the annular groove 77 on the plunger head 72.

[0099] According to FIG. 13b, the locking sleeve 46 is pushed onto the stroke rod 17 past the start of the slots 73.

[0100] According to FIG. 13c, this arrangement is inserted into the neck 4. The stroke rod 17, the locking sleeve 46 and the neck 4 are shaped and dimensioned so that, in the locked position of the locking sleeve 46 shown in FIG. 13c, the stroke rod 17 cannot be elastically expanded any further in the region of the slot 73 and the neck 4 cannot be elastically compressed any further in the region of the slots 10. When the hooks 78 engage in the annular groove 77 of the tip plunger 69, the locking sleeve 46 thus prevents release of a tip plunger 69 from the stroke rod 17.

[0101] A pipette tip held in the annular groove 8 of the neck 4 on a bead 64 on the inner circumference of the body 58 is prevented from becoming released by means of the locking sleeve 46.

[0102] FIG. 14 shows the upper end of the tip plunger 69 and the lower end of the stroke rod 17 before being joined. In order to he joined, the plunger head 72 is inserted into the opening in the lower end of the stroke rod 17, wherein the lower end of the stroke rod 17 is gradually expanded when the hooks 78 slide over the run-on slope 76. The elastic expansion of the locking sleeve 46 is facilitated by means of the slots 73. Finally, the hooks 78 slide over the thickening 75 and snap into the other annular groove 77. This is shown in FIG. 14b.

[0103] According to Fig, 14c, the tip plunger 69 is secured on the stroke rod 17 by means of the locking sleeve 46 being pushed over the lower end with the slots 73, since the locking sleeve 46 prevents elastic expansion of the lower end.

[0104] According to FIG. 14d, the pipette tip 57 is mounted by the mounting opening 60 on the cone 4 until the bead 64 snaps into the annular groove 8 of the neck 4. This is shown in FIG. 14e.

[0105] According to FIG. 14f, the positive connection between the pipette tip 57 and the neck 4 is secured by means of the locking sleeve 46, which is pushed into the region of the slots 10, 11. At the same time, the locking sleeve 46 secures the positive connection between the plunger rod 71 and the stroke rod 17.

[0106] .A pipette provided with the components according to FIGS. 12 to 14 can be operated in the same manner as the pipette according to FIGS. 1 to 10.

[0107] List of Reference Signs:

[0108] 1. Pipette

[0109] 2. Pipette housing

[0110] 3. Shaft

[0111] 4. Neck

[0112] 5. Through-bore

[0113] 6. Upper neck section

[0114] 7. Lower neck section.

[0115] 8. Annular groove

[0116] 9. First positive connections means

[0117] 10. Slot

[0118] 11. Lower end

[0119] 12. Drive direction

[0120] 13. Transmission element

[0121] 14. Transmission rod

[0122] 15. Transmission mechanism

[0123] 16. Drive element

[0124] 17. Stroke rod

[0125] 18. Operating element

[0126] 19. Operating lever

[0127] 20. Bar

[0128] 21. Support plate

[0129] 22. First curved slot

[0130] 23. First edge cutout

[0131] 24. Longitudinal slot

[0132] 25. Receiving means

[0133] 26. Ejection apparatus

[0134] 27. Curved support

[0135] 28. Rotating sleeve

[0136] 29. Cutout

[0137] 30. Cutout

[0138] 31. Base

[0139] 32. Sector

[0140] 33. Sector

[0141] 34. First curve

[0142] 35. Second curve

[0143] 36. First groove

[0144] 37. Vertical part

[0145] 38. Second groove

[0146] 39. Ejection rod

[0147] 40. Upper ejection rod part

[0148] 41. Lower ejection rod part

[0149] 42. Connecting rod part

[0150] 43. First sensing element

[0151] 44. Guide pin

[0152] 45. Locking apparatus

[0153] 46. Locking sleeve

[0154] 47. Control rod

[0155] 48. Second connecting rod part

[0156] 49. Second sensing element

[0157] 49.1 Second guide pin

[0158] 50. Support ring

[0159] 51. Lateral surface

[0160] 52. Second curved slot

[0161] 52.1 Second edge cutout

[0162] 53. Third sensing element

[0163] 54. Helical spring

[0164] 55. Adjusting knob

[0165] 56. Counter

[0166] 57. Pipette tip

[0167] 58. Body

[0168] 59. Tip opening

[0169] 60. Mounting opening

[0170] 61. Collar

[0171] 62. Seat region

[0172] 63. Lower seat section

[0173] 64. Bead

[0174] 65. Upper seat section

[0175] 66. Second positive connection means

[0176] 67. Plunger travel region

[0177] 68. Tip section

[0178] 69. Tip plunger

[0179] 70. Plunger

[0180] 71. Plunger rod

[0181] 72. Plunger head

[0182] 73. Slot

[0183] 74. Cone

[0184] 75. Thickening

[0185] 76. Run-on slope

[0186] 77. Annular groove

[0187] 78. Hook