EP0286676A1 - Pipette - Google Patents

Abstract

A pipette allowing quick variation of the dosing volume comprises a casing (1) in which a movable piston (5) with the rod (6) is mounted. An adjusting bushing (8) connected to a device for visual reading of the dose value serves for presetting the length of piston travel and thus for presetting the dose volume. The position of the bushing (8) is set by means of a regulating nut (11) and where the nut (11) is disengaged from the bushing (8) - by means of a knob (7) fixed at the upper end of the rod.

Description

The present invention relates to the laboratory device, in particular, pipettes, intended for the removal and transfer of given liquid doses with rapid coverage of the entire dosing range.

Most conveniently, the present invention is used in biochemical, biological, and chemical research where the need to withdraw and transfer various volumes by volume of liquids, solutions, arises regularly.

It can also be used when carrying out analyzes in applied fields of biology, chemistry, medicine.

Previous state of the art

The known pipette (advertising leaflet from "Ortho Diagnostic Systems, GmbH, FRG) for withdrawing and transferring certain doses of liquids, which provides a housing which has an upper part and a conical lower part on which replaceable end pieces are placed. The housing has one continuous longitudinal cavity, in the lower part of which a piston with a rod moves, which passes through the upper part of the pipette In the upper part of the pipette housing there is a threaded regulating bushing in its lower part, the upper part of which protrudes above the housing, and the thread of the bushing is constantly interlocked with the movable nut which is installed in the upper part of the housing interior. There is an immovable nut in the upper part of the housing r with flange, which rests on the upper end face of the pipette housing. The movable nut is up to the stop on the immovable with respect to the housing Suspended nut, fixed against rotation around the axis and can move in the longitudinal direction. The piston rod is cushioned upwards with respect to the housing up to the stop with the upper end of the regulating bush. When turning the regulating bushing around the axis, it can move in the longitudinal direction in the area of its thread. When pressing on the upper end of the socket, it can move together with the movable nut. The side surface of the regulating bushing is provided with a linear scale, while the upper side of the flange of the immovable nut has an annular scale.

To withdraw a dose of liquid, the pipette housing is held with one hand, with the finger of the same hand you press down on the upper end of the regulating sleeve until it stops, the lower part of the replaceable end piece is immersed in the liquid, after which the sleeve is released . This creates a negative pressure in the pipette cavity, which is located under the plunger and is connected to the liquid to be metered via the lower end face of the exchangeable end piece, as a result of which the liquid dose enters the exchangeable end piece. To displace the dose, press the end of the socket; the excess pressure generated under the piston displaces the liquid from the replaceable end piece. To change the size of the volume to be dosed, turn the regulating bushing, which moves it up or down. The reading takes place according to the scales, whereby the linear scale is used for the approximate reading and the ring scale for the exact reading.

The pipette allows the necessary setting accuracy of the dose size to be ensured in the entire dosage range, but when switching from one dose size to another, the socket must be turned continuously, whereby one successively all intermediate values of the dose sizes passed. Therefore, the use of the pipette is inconvenient in those cases where there are numerous and in size outgoing doses are necessary.

Also known is the pipette (advertising letter from "Gilson", France), which provides a housing with a piston with a rod arranged movably therein. The piston rod protrudes over the upper part of the housing and ends with a push button attached to it. In the inner part of the housing, the rod has an immovable limit stop, underneath which is a spring for returning the rod, which springs the rod upward with respect to the housing. A nut and a regulating bushing are immovably arranged in the housing, which is constantly toothed with the nut by means of a thread and which can be displaced in the longitudinal direction during rotation. The limit stop of the rod interacts with the regulating bush by leaning on it under the action of the return spring. In the upper part of the socket there is a fixed adjusting nut, the side surfaces of which protrude from the housing cutouts, and the socket is kinematically connected to a counting device in the form of a mechanical counter, the details of which can be seen in the housing window. The bushing of the intermediate stop, which is cushioned upward with respect to the housing, is also movably arranged in the housing. When the rod is displaced downwards, its stop comes into contact with the bushing of the intermediate stop in the lower position, which differs from the lower end position by the size of the passage of the bushing of the intermediate stop.

To remove a dose of liquid, press the push button down to the intermediate stop, which can be felt after the strong change in the pressing pressure. In order to displace the dose, the push button is moved further down by the aisle size of the bushing of the intermediate stop.

The required dose size is set according to the information provided by the mechanical counter.

The dose size is set with the required accuracy in the form of immediately readable tens. To change from one dose size to another, however, you have to continuously turn the adjusting nut, passing through all intermediate sizes of the doses. Another disadvantage is that the construction of the adjustment mechanism and the reading of the dose size are complicated, which leads to an increase in the size and weight of the pipette, as well as its price.

Disclosure of the invention

The object of the present invention is to develop a pipette with a swift encompassment of the entire dosing range, in which the possibility of a rapid readjustment of the dose size from starting variables to any other would have been ensured with simple design means:

The essence of the invention is that in the pipette, which has a housing with an upper part and a conical lower part, placed on the exchangeable conical end pieces, a piston which is movably installed in the housing, the rod of which is located above the upper part of the housing protrudes outward where the push button is attached, a regulating bushing which has an external thread and is movably arranged in the housing on the piston rod, which has a stop with which the rod interacts with the regulating bushing, as a result of which the piston movement depends given by the position of the regulating bushing, a return spring of the rod which springs the rod with respect to the housing from the side of its lower part, an adjusting nut arranged in the bushing with the possibility of its inevitable rotation, and a device for visual reading of the cans, Kinematically connected to the socket, provides, according to the invention, the adjusting nut is built into the housing, with a possibility of displacement in the transverse direction to the piston rod, and can take two positions, one of which interacts with the thread of the regulating bush occurs to move them in the axial direction, and in the other - comes out of the toothing with the thread of the regulating bush, and the device for reading the cans is designed in the form of a gear wheel, connected to a ring scale and reading mark, and, arranged in the housing with constant toothing with the regulating bush, which is fixed in the housing against rotation about its axis.

The design of the setting and reading device of the dose size in the pipette according to the invention, by executing the adjusting nut from the toothing with the regulating bush, allows the position of the regulating bush to be changed quickly by orienting oneself on the ring scale, adjusting the required dose size and after guides the adjusting nut back into the toothing with the bush to fix the set position of the bush. This enables a rapid readjustment of the dose size, which saves the time for the researchers to manipulate two new readings of the dose size and allows an instrument to be used for dosing in the entire range instead of a few. The mechanism of the pipette is simple and contains a smaller number of parts, which makes the pipette lighter and more compact.

It is possible to make the adjusting nut with an opening larger than the maximum dimension of the regulating bush in cross-section and to install it with the possibility of rotation in a space that directs the displacement of the adjusting nut in the transverse direction to the rod axis.

Such a design of the nut allows the entry and the execution of the thread interlocking between the regulating bushing and the adjusting nut to be accomplished without complicating the mechanism with additional parts, and consequently increasing the technology conformity of the design and the reliability of the product.

It is desirable in the pipette according to the invention for the bracket to be transverse to the housing Cushion the rod axis.

Such a design allows a constant interlocking between the adjusting nut and the regulating bushing, except for the moments of the readjustment of the dose, which eliminates the need for the mechanism to inevitably return to the state of the interlocking of the nut and the bushing.

In the pipette according to the invention, it is desirable to cushion the regulating bushing with respect to the housing on the part of its upper part.

Such a design of the socket allows the dose size to be readjusted quickly using the same push button with which the liquid dose is withdrawn and displaced.

In the pipette according to the invention, it is possible to provide the adjusting nut with a cylindrical scale for the exact counting of the dose.

Such a design of the adjusting nut makes it possible to adjust the dose size with high accuracy, for which purpose the scale on the nut is used.

A variant of the regulating bushing is also possible, where the regulating bushing has an external thread on the section which interacts with the adjusting nut and on the section which interacts with the gear wheel of the device for adjusting the dose, the regulating bushing has a surface, executed in the form of a toothed bar.

Such a design of the regulating bushing additionally improves the toothing between the bushing and the gearwheel, which increases the reliability and longevity of the device.

It is preferable in the pipette according to the invention to design the gear wheel of the device for dose reading with a round scale, arranged on the front side of the gear wheel, while the reading mark is to be carried out in the form of an arrow, immovable with respect to the housing.

Such a design simplifies the design and increases technology fairness by combining the functions of the mechanical connection of the parts and the display of the set dose sizes in one part.

Brief description of the drawings

• Fig. 1 eine Gesamtansicht der erfindungsgemässen Pipette;
• Fig. 2 in vergrössertem Masstab den Oberteil einer Pipette im Querschnitt;
• Fig. 3 einen Querschnitt III-III der Fig. 1;
• Fig. 4 eine Ansicht in Richtung des Pfeils A auf die Mutter mit zylindrischer Skale.

The objectives and advantages of the present invention are explained in more detail by the following example of its implementation and the attached drawings, in which it shows:

• 1 shows an overall view of the pipette according to the invention;
• Fig. 2 on an enlarged scale the upper part of a pipette in cross section;
• Fig. 3 shows a cross section III-III of Fig. 1;
• Fig. 4 is a view in the direction of arrow A on the nut with a cylindrical scale.

Best embodiment of the invention

The pipette according to the invention contains a housing 1 (FIG. 1) which has an upper part 2 and a lower part 3, on which exchangeable conical end pieces 4 are placed. _The conical lower part 3 of the housing 1 can be designed as separable from the remaining part of the housing 1 and have a different length depending on the need. The housing 1 of the pipette has an internal cavity in which a piston 5 is movably installed with a rod 6, the upper end of which protrudes over the upper part 2 of the pipette housing. On . the outstanding end of the rod 6, a push button 7 is attached.

The piston 5 and the rod 6 can be designed in the form of a plunger which has the same cross section in its entire longitudinal direction, as shown in FIG. 1, or can have a different diameter at different points along its length.

In the cavity of the housing 1, a regulating bushing 8 (FIG. 2) is arranged on the rod 6, which enables to move in the longitudinal direction and which has an external thread. On the rod 6 there is a stop 9, by means of which the rod 6 interacts with the regulating bush 8, in such a way that the position of the bush 8 in the cavity of the housing 1 determines the size of the operation of the piston and thereby the possibility regulation of the dose size. The regulating bushing 8 is fixed in the housing 1 against rotation about the axis. For this purpose, for example, the socket 8 may have longitudinal flats on three sides, at an angle of 90 ° to one another, while the cavity in the housing 1 is designed with a rectangular cross-section and dimensions which secure the longitudinal displacement of the socket 8 without play around the axis.

A spring 10 (FIG. 1) for returning the rod 6 is arranged under the stop 9 on the rod 6, cushioning the rod 6 with respect to the housing 1 on the part of its lower part 3 until the stop 9 contacts the socket 8.

In the cutout of housing 1, an adjusting nut 11 (FIGS. 1, 2) is arranged, with the possibility of its inevitable displacement in the transverse direction to the axis of the piston 6. The nut 11 can, as intended, assume two positions, in one of which it is is in toothing with the thread of the regulating bush 8, and in the other, where it emerges from the toothing. In this case, the bushing 8 is held in the first position by the nut 11 from longitudinal displacements, and in the second position it is given the opportunity to move independently of the nut 11. In the state of interlocking socket 8 with nut 11, longitudinal displacements can be communicated to the socket by rotating nut 11.

The pipette has a device for visual dose reading, designed in the form of the gear wheel 12 (FIGS. 2, 3), which is in constant toothing with the socket 8 and is kinematically connected to the circular scale 13 and the reading mark 14 (FIG. 1). The verb tion between socket 8 (Fig. 2, 3), gear 12 and scale 13 with reading mark 14 (Fig. 1) is designed so that the mutual position of the scale 13 and mark 14 clearly by the position of socket 8 in the housing 1 of Pipette is intended.

In order to ensure the possibility of leading the adjusting nut 11 out of the toothing with the thread of the regulating bushing 8, the opening in the nut 11 can be made larger than the maximum dimension of the cross section of bushing $. In order to exclude the possibility of a possible play of the longitudinal displacement of bushing 8 when the nut 11 is rotated, the nut 11 can be installed with the possibility of a rotation in ring 15 (FIG. 2), which displaces the nut 11 in the transverse direction to the axis of Rod 6 aligns. The ring 15 can be designed, for example, either as a part apart from the housing 1, or as a special bearing eye in the housing 1, in which the nut 11 is installed.

In order to fix the toothing with bushing 8, the nut 11 is cushioned with respect to the housing 1 in the transverse direction to the axis of rod 6 by the spring 16, which acts on the nut 11, for example via the movable ring 15. The effect of spring 16 on nut 11 via ring 1 ensures the interlocking of the thread of nut 11 with the thread of bushing 8 in the first position of nut 11. When pressure is exerted on nut 11 (or ring 15) in the direction contrary to the action of spring 16, _m can be moved to the nut 1 ₁ in the transverse direction so that it emerges from the toothing with bushing 8, which means the second position. The design provides such dimensions and shape of the ring 15 and the portion in the housing 1, so that the second position of the nut 11 would have been reached by pressing on the nut 11 (or on the ring 15) in the transverse direction up to the stop, while the direction transverse displacement would be the only possible.

If nut 11 is led out of the toothing with the thread of bushing 8, bushing 8 is given the possibility of a longitudinal displacement independently of nut 11, but remains connected to the device for. visual adjustment of the dose.

A mechanical bond can be created between the position of bush 8 and the position of rod 6, where the nut is in the second position. This allows the longitudinal position of the bushing 8 to be controlled by means of the push button 7. For this purpose, on the rod 6, in its upper part, which is located within the housing, the spring 17 is arranged, which cushions the bushing 8 with respect to the housing 1 on the part of its upper part.

If the nut 11 is led out of the toothing with the bushing 8 by the action of spring 17, bushing 8 proves to be pressed against the stop 9 of the rod in any position. By moving the rod 6 with the help of the push button 7, the bushing 8 can be given any position from the possible in the longitudinal direction, thereby setting the limits of the movement of the piston 5 (FIG. 1), and with the aid of the reading device of the cans , determine the set size of the dose.

In order to increase the accuracy of setting the dose size, the adjusting nut 11 can be provided with a cylindrical scale 18 (FIG. 4) for precise dose reading. If the scale value of the round scale 13 (FIG. 2) is a multiple of a rotation of the nut 11 about the axis, a constant connection between the displays of the round scale 13 and the cylindrical scale 18 (FIG. 4) is maintained with any displacements of the regulating bushing 8 .

.. In order to increase the reliability and longevity of the work of the mechanism for adjusting the dose in the pipette according to the invention, the regulating bushing 8 (FIG. 2) on the section of the toothing with nut 11 in the form of a thread, and on the section of the toothing with the gearwheel 12 in the form of a toothed bar. The mutual position of nut 11 and gear 12 in the housing 1 of the pipette is such that, in any position of the socket 8, the nut 11 can only be toothed with the thread and the gear 12 can only be toothed with the toothed strip.

To simplify the design of the pipette and its greater suitability for technology, the circular scale 13 (FIG. 3) can be arranged on the end face of the gear wheel 12. The gear wheel 12 can be designed with the scale 13 in the form of a part and built into the bearing eye of the housing 1-j, which is covered by a transparent cover 19 from the side of the scale, and in the same plane with the surface of the housing, immovable to it, is arranged. The reading mark of the round scale can be placed on the cover 19.

To eliminate the play in the toothing between the gear 12 (Fig. 2) and the bushing 8 and thus for the precision of the reading of the dose size, the gear 12 can with respect to the housing by a spiral spring (not shown in the drawings) in the direction of its rotation to be cushioned around the axis.

As in other pipettes of this type, a mechanism of the intermediate stop can be considered in the pipette according to the invention which, when the dose is being displaced, allows the piston 5 (FIG. 1) to be additionally displaced, which is also necessary and for removing the Dose is strictly given. Such a mechanism can be implemented, for example, in the form of a bush 20 (FIG. 1, 2) of the intermediate stop and a spring 21, which cushion the bush 20 upwards with respect to the housing 1 up to the stop on the upper part 2 of the housing. The upper end face of the socket 20 protrudes above the upper part 2 of the housing. The pressure force of spring 21 is such that when button 7 strikes the end face of socket 20, a clearly noticeable change in the resistance to further adjustment of button 7 is created.

When working with the pipette for taking and displacing the dose, the same operations are carried out as with other pipettes of analogous purpose. The interchangeable end piece 4 is placed on the conical lower part. By holding the housing 1 of the pipette with one hand, press the button of the same hand on button 7 until the intermediate stop at socket 20. By immersing the lower opening of the interchangeable end piece 4 in the liquid, you release the button 7 . Under the action of the pressure drop in the cavity under the piston 5 and in the surrounding space, the liquid dose enters the end piece 4. In order to displace the liquid, the button 7 is pressed again, in order to ensure a complete displacement of the dose, one pushes beyond the intermediate position by overcoming the additional pressure of the spring 21 of the intermediate stop.

The readjustment of the dose size can be carried out gradually in the pipette according to the invention as well as in other pipettes. Transition across the entire can range. For this purpose, the adjusting nut 11 has to be turned, passing all intermediate quantities of the dose (observing the information from the reading device). The rotation of the nut 11, which is meshed with the bushing 8, forces the bushing 8 to shift in the longitudinal direction into a new position, which determines the new dose size. To reset a dose size that differs greatly from the first one, it is necessary to carry out a large number of rotations of the adjusting nut 11, which is time-consuming. With repeated readjustments, the necessity of which often arises in laboratory practice, this time is long overall, and the manipulations to readjust the dose size are exhausting.

Another method for readjusting the dose size is also possible in the pipette according to the invention, which literally allows this operation to be carried out in seconds. To reset the dose size one presses on the nut 11 (or the ring 15) in the transverse direction to the axis of the rod 6 and moves the knob 7 in one direction or the other. By observing the readings on the Rundskale 13, to set on the scale 13, the dose required ^ize a. After the nut 11 (or the ring 15) has been released, the set size is fixed and the exact value of the dose size is set by rotating the nut 11 in a small area according to the cylindrical scale 18 (FIG. 4). The interactions that occur are as follows: when pressure is exerted on the nut 11 (or the ring 15) (FIG. 2) in the transverse direction, the bushing 7 frees itself from the toothing with the nut 11. The spring 17 presses Bush 8 to the stop 9 of the rod 6 and moves in the longitudinal direction together with the rod 6. The gear 12, which is in constant toothing with the bush 8, rotates, changing the position of the circular scale 13 connected to it.

When the nut 11 (or the ring 15) is released, the bush 8 engages again with the nut 11 and when the button 7 is subsequently pressed, it correspondingly limits the gear of the rod 6 and piston 5 without changing the set position. When the nut 11 is rotated in connection with the setting of the exact dose size, the bushing 8 shifts in a small range in the longitudinal direction, limiting the range of displacement of the rod 6 with the required accuracy.

In addition to the operational advantages mentioned, the reading device in the pipette according to the invention is of a simpler design than in other known pipettes, with gradual coverage of the metering range, which allows the device to be made lighter and smaller in size.

Industrial applicability

It is expedient to use the pipette according to the invention in the practice of laboratory work associated with biology, biochemistry, chemistry and medicine for metering liquids in those cases where, depending on the working conditions, the need for frequent changes in the sizes of the volumes of liquids to be metered arises . Thanks to its convenient operation and simple design, which guarantees technology fairness and low production costs, this pipette is also competitive in all other cases where pipettes are used for analog purposes

Claims (7)

1. Pipette, which has a housing (1) with an upper part (2) and a conical lower part (3) on which replaceable conical end pieces (4) are placed, a piston (5) which is movably positioned in the housing (1), that its rod (6) with its upper end, on which the push button (7) is attached, protrudes outwards over the upper part (2) of the housing, a regulating bushing (8), which has an external thread and is movable in the housing on the rod (6) of the piston (5) is arranged, which has a stop (9) through which the rod interacts with the regulating bushing (8), giving up the piston movement depending on the position of the regulating bushing (8), a spring ( 10) for returning the rod (6) which springs the rod (6) with respect to the housing (1) on the part of its lower part (3), an adjusting nut (11) arranged on the bushing (8) with the possibility of its inevitable Rotation and a device for the visual reading of the cans, kinematically connected to the socket (8 ), characterized in that the adjusting nut (11), built into the housing (1) with the possibility of a displacement in the transverse direction to the axis of the rod (6) and capable of taking two positions, in one of which it with the thread of the regulating bush (8) for the purpose of its displacement in the axial direction, it comes into wake-up action, and in the other - comes out of the toothing with the thread of the regulating bushing (8), the device for dose reading being designed in the form of a gear wheel (12) connected to a round scale ( 13) and reading mark (14), and is built into the housing (1) with constant toothing with the regulating bushing (8), which is fixed in the housing (1) before rotation about its axis. 2. Pipette according to claim 1, characterized in that the adjusting nut (11) has an opening larger than the maximum dimension of the regulator Lierbuchse (8) in cross section and with a possibility of rotation in the ring (15) is arranged, which controls the displacement of the adjusting nut in the transverse direction to the rod axis (6). 3. Pipette according to claim 2, characterized in that the ring (15) is cushioned with respect to the housing in the transverse direction to the rod axis (6). 4. Pipette according to any one of claims 1-3, characterized in that the regulating bushing (8) is cushioned with respect to the housing (1) on the part of its upper part (2). 5. Pipette according to any one of claims 1-4, characterized in that the adjusting nut (11) is provided with a cylindrical scale (18) for accurate reading of the dose. 6. Pipette according to any one of claims 1-5, characterized in that the regulating bushing (8) has an external thread on the section which interacts with the adjusting nut (11) and on the section which engages with the gear wheel (12 ) the device for dose reading interacts, the regulating bushing (8) has a surface which is designed in the form of a toothed strip. 7. Pipette according to any one of claims 1-6, characterized in that the gear (12) of the device for dose reading is designed with a round scale (13), is arranged on the end face of the gear (12), and the reading mark ( 14) has the shape of an arrow that is immovable with respect to the housing.

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