RU2135286C1 - Pipet holder - Google Patents

Abstract

FIELD: laboratory equipment. SUBSTANCE: pipet holder gas casing with coupling for pipet connection and suction-drain assembly communicating with it. Suction-drain assembly includes disc mounted for rotation about axis. Disc interacts with elastic tube adjacent to supporting member through side projection provided on it. Novelty is that projection is made as roller, and operating surface of supporting member is bent to fit arc of circumference concentric relative to arc described by projection (roller) during disc rotation. EFFECT: simplified construction. 2 cl, 5 dwg

Description

 The invention "pipettor" relates to laboratory equipment and is intended for pipetting (dosing) of liquids using pipettes in chemical and clinical diagnostic laboratories.

 A device for working with graduated glass pipettes is known, consisting of a housing in which the pipette attachment unit, a variable-volume container in the form of an elastic tube sandwiched between two spring-loaded disks, and a mechanism for disengaging the disks are placed. In this mechanism, the axis of the driven disk protrudes on the outer part of the housing and can be moved in curved slots made in the side walls of the housing to disconnect the disks when the pipette is empty.

The disadvantage of this device is the relative complexity of the design. In addition, when working with him there are certain inconveniences. When using the device, the drive disk is in the same plane with the palm surface, and the movements made with the thumb in the same plane in order to rotate the disk are unusual, uncomfortable and therefore tiring, especially during intensive work. In addition, it is necessary to exert great effort to rotate the discs spring-tightened in order to pull the tube sandwiched between them. And all this work is carried out with the help of the thumb alone, which is also in an uncomfortable working position. All this allows us to talk about unsatisfactory ergonomics of the considered device (RF Patent N 2004325, CL B 01 L 3/02, 1993)
A device for working with pipettes is known, consisting of a housing with a sleeve for connecting the pipettes and a suction-emptying unit communicating with it, including a disk that is mounted rotatably around an axis and interacts with a container in the form of a tube of elastic -elastic material, and the working surface of the protrusion from the side of the tank is made in the form of a coil of a spiral or cylindrical spring (prototype) (RF Patent N 2108157, CL B 01 L 3/02, 1998).

 The disadvantage of this device is the relative complexity of its design. The tubular container is compressed in the transverse direction, and therefore there is no direct proportional relationship between the degree of movement of the compressing element and the degree of change in the volume of the deformable elastic-elastic container. As a result of this, it becomes very difficult to further improve the device, in particular, equipping it with a mechanism for programming volumes of sequentially measured doses of liquid.

 The objective of the invention is to simplify the design of the device for pipetting liquids (pipettor) and to facilitate the programming of volumes of sequentially measured doses of liquid.

 When realizing the task, a positive technical result is achieved due to the fact that in the known device for pipetting liquids, including a housing, in the lower part of which there is a sleeve for connecting the pipette, and in the upper part is mounted with the possibility of rotation around the axis of the disk with a protrusion on the side surface, interacting with a tube of elastic material that is laid on the working surface of the supporting element, the protrusion is made in the form of a roller, and the working surface of the supporting element is bent and a circular arc which is concentric with respect to the arc described by the projection (roller) when the disc rotates.

 In FIG. 1 shows a general view of the pipettor, a front view in section; in FIG. 2 - same, left view; in FIG. 3 - same, right view; in FIG. 4 - the second embodiment of the pipettor, left view; in FIG. 5 - operating position of the pipettor in the operator’s hand.

 The pipettor consists of a hollow body 1 (Figs. 1–4), in the central hole of which a rubber sleeve 2 (Figs. 1, 2) is tightly inserted with a conical central hole for connecting glass or plastic graduated pipettes. The upper part of the housing 1 is represented by a disk-shaped rack 3 (Fig. 1, 2), on which an elastic-elastic tube 4 (Fig. 1, 2) with the same clearance throughout its entire working area is laid on an arcuate envelope surface. From one end of the tube 4 is put on the pipe 5 (Fig. 1, 2) and through it communicates with the sleeve 2. This end of the tube 4 is fixed in the slot 6 (Fig. 1) of the sidewall 7 (Fig. 1, 2). The other, open end of the tube 4 is fixed in a similar slot in the sidewall 8 (Fig. 2). A disk 9 (Fig. 1-3) is mounted on the disk-shaped rack 3 and coaxially with it rotatable around the axis, having a lateral protrusion in the form of a roller 10 (Fig. 1, 2), which presses the tube 4 to the disk-shaped rack 3, making it local clamping. The working surface of the rack 3 has a bend in the form of a circular arc, which is concentric with respect to the circular arc described by the roller 10 during the rotation of the disk 9. In the above form, the pipettor is operable and can be used to dispense liquid using a graduated pipette connected to it.

 The presented device can additionally be equipped with a mechanism for fixing the disk 9 in successively predetermined positions corresponding to the beginning and end of the process of measuring discrete volumes of liquid. For this purpose, holes 11 (Fig. 1, 3) are made along the periphery of the disk 9 at predetermined distances from each other, with which, in the process of rotation of the disk 9, a spring-loaded ball 12 (Fig. 1) interacts sequentially located in the housing 1. The degree of spring load of the ball 12 is regulated by a screw 13 (Fig. 1), compressing the spring 14 (Fig. 1).

 In FIG. 4 shows an embodiment of the pipettor, which differs from the above in that the working tube 4 in it is pressed by the roller 10 against the inner surface of the arcuate element 15 in the upper part of the housing 1.

 The position of the pipette in the hand of the operator is shown in FIG. 5. The role of the handle is performed by the lower part of the housing 1. From the bottom, a pipette 16 is inserted into the rubber sleeve 2 (Fig. 5). Then, by rotating the disk 9 with the thumb and forefinger (or only one of them), the roller 10 is moved to the sidewall 7. The lower end of the pipette 16 is immersed in the liquid to be dosed and the disk 9 begins to rotate in the direction of the sidewall 8. In this case, the roller 10 will move along the tube to its open end. Rolled section of the elastic-elastic tube 4, when straightened, will create a vacuum in the system "tube 4 - pipe 5 - coupling 2 - pipette 16" and thereby determine the filling of the pipette 16 with liquid. The process of measuring liquid is carried out under visual control. When the liquid reaches a predetermined level in the pipette 16, the rotation of the disk 9 is stopped and the pipette is removed from the dosed liquid. By rotating the disk 9 in the opposite direction, i.e. in the direction of the sidewall 7, the portioned emptying of the pipette 16 is carried out visually focusing on the graduation on the transparent wall of the pipette.

 When using a pipette with a locking mechanism that is triggered at the end of the process of measuring out each programmed dose of liquid, the pipette is emptied in portions, the volume of which will be determined by the size of the lumen of the working tube 4 and the distance between the wells 11, into which the spring-loaded ball 12 is sunk at the corresponding moments. End of delivery of the programmed the dose of fluid is recorded by a characteristic click, which accompanies each sliding of the spring ball 12 into the hole 11. With this the pipetting mode of operation eliminates the need for visual monitoring of portioned emptying of the pipette 16. In order to expand the functionality, a set of interchangeable working tubes 4, differing in internal diameter, as well as several interchangeable disks 9, differing in the distances between the holes 11, can be included in the pipette. a pre-compiled table, by combining the tubes 4 and disks 9 included in the kit, it will be possible to program the operation of the pipettor to measure the volume of liquid spine in a wide range of quantities of individual doses. At the same time, if necessary, the device provides the ability to disable the locking mechanism. To do this, it is enough to eliminate the effect of the spring 14 on the ball 12 by partially unscrewing the screw 13. If necessary, return to the previous mode of operation of the pipettor, the functioning of the locking mechanism can be easily restored by preloading the spring 14 with the screw 13.

 The proposed pipettor, in contrast to the prototype device, is simpler arranged. In addition, it implements the ability to program volumes of sequentially measured doses of liquid.

Sources of information
1. RF patent N 2004325, cl. B 01 L 3/02.

 2. RF patent N 2108157, cl. B 01 L 3/02.

Claims (2)

 1. A pipettor, consisting of a housing, in the lower part of which there is a sleeve for connecting the pipette, and in the upper part mounted with the possibility of rotation around the axis of the disk with a protrusion on the side surface, interacting with a tube of elastic material that is adjacent to the supporting element, characterized in that the protrusion is made in the form of a roller, and the working surface of the support element is curved along an arc of a circle that is concentric with respect to the arc described by the protrusion (roller) during rotation of the disk.  2. The pipettor according to claim 1, characterized in that on the periphery of the disk at predetermined distances from each other are located wells with which a spring-loaded ball located in the housing interacts sequentially.

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