DD282082A5 - DEVICE FOR DISTRIBUTING SAMPLE LIQUIDS - Google Patents

Abstract

The invention relates to a device for distributing sample fluids from source investigation tubes in assay tubes. It has distribution tips and air supply devices for feeding air into the tips at a low speed. The tips are lowered into the source tubes as the air rushes out of the devices and through the tips. By the time the tips reach the surface levels of the liquids contained in the source tubes, the air pressure changes. When this change is detected, the tips begin to suck the fluids from the source wells. A device similar to that mentioned above has distribution units each having a tip, a lever with a slot, and pins protruding from the units and inserted into the slot. The lever rotates, changing the gap between the distribution units to the gap between the source and destination tubes, which are held in a rack. A similar device has distribution tips and a shell. The shell is kept away from below the tip, while the sample fluids from the source tubes are sucked into the tips or distributed from the tips into the destination tubes, and it is located below the tips while the tips are being moved. A similar device includes distribution units each having a tip and a device having cutouts as the distribution units are moved upwardly from the device, thereby separating the tips from the units. Quellenuntersuchungsroehrchen; Bestimmungsuntersuchungsroehrchen; Distribution points; Luftzufuehrungsvorrichtung; Liquid; Oberflaechenpegel; Air pressure; Distribution point; Lever; Slot}

Description

For this 5 pages drawings

Field of application of the invention

The present invention relates to a device for distributing a priming fluid, for example withdrawn Blui, from a priming tube in a plurality of other tubes so that the advantageous portions of the sample fluid are exposed to different items of analysis.

Characteristic of the known state of the art

In order to analyze a sample liquid, for example blood, to thereby determine whether or not germs are contained in the liquid and what kind of these germs are, if they are contained in the liquid, it is necessary to place the sample liquid in a plurality of test tubes to sort out, to sort the test tubes containing the distributed portions of the liquid in groups in accordance with the items of the analysis and to feed these test tubes sorted on this Woiso, with the various analyzers for carrying out the analysis copies in the sample liquid. There are Analysemessgeräto develop. and, to a considerable extent, improved analyzers have been put to practical use. The blood analyzer bumper is a good example. Nonetheless, the distribution of a liquid product is carried out solely by one manpower, as found in hospitals and research institutes. No automatic devices have been developed for distributing a sample liquid into a plurality of test tubes or the like.

There is a problem in distributing a proof liquid carried out by a human worker. Erstons the liquid can be spilled and moisten the hand of the persons who are equipped with the Vorortoilung of the liquid or it can be dyed the floor. Secondary, the examination tube, from which sample liquid is used, or the sample tubes, divided into liquid, may be dropped on the floor by a personal error; the consequence is an inevitable coloring of the floor. Third, the sample distribution by manual labor takes a long time and is more susceptible to errors. Because of these problems, it is difficult to keep the sample distribution room sufficiently clean and hygienic, or to achieve a sufficiently high work efficiency.

The inventors investigated the possibility of developing a device which includes distribution tips, vacuum means for supplying a sample liquid into the tips of an assay tube, transport means for moving the tips containing the liquid to other assay tubes, and sample distribution means for distributing the sample liquid portions from the tips into the examination tube. They have found that such a device can not practically be used if the following requirements are not satisfactory:

(1) Each spreading tip must be set in such an appropriate level in a breather tube that the sample liquid can be conducted from the assay tube to the tip, and / was without the use of oinos complex sensor (for example, a photosensor) for detecting the surface level of the liquid in dom tubes or complex control means for moving the tip to dom desired tone in accordance with the signal output at the sensor and the representation of the surface area of the liquid.

(2) The distribution tips must be arranged quickly and accurately with donut-like interstices, like the test tubes, which are supported in a rack and in which the sample liquid is used. This is the same as where different types of racks are used, with each rack having holes for holding the test tubes at regular intervals, especially at the stud.

(3) Measurements must be made so as to prevent dropping of the sample liquid into other than the desired test tubes while moving the distribution tips from the donor tubes to the assay tubes, in response to vibration or gloichon, which will affect the distribution peak of transport.

(4) It is necessary to use a device which makes it possible to replace the distribution tips with nouan and cleanon distribution tips, easily and quickly, at any time by distributing a sample liquid from the tips into the examination tube.

Object of the invention

The aim of the invention is to ensure an accurate and clean distribution of Probonflüssigkoit without the recent shortcomings.

Explanation of the essence of the invention

It is an object of the present invention to provide an apparatus which; automatically dispenses sample liquid from distribution tips into assay tubes without the liquid dripping onto the bottom and causing unavoidable staining of the floor, and which can introduce pre-alignment spit into the assay tube at an appropriate level, without the use of a complex sensor, for example of a Fof sponsor, whereby a sufficiently efficient sample distribution is achieved.

It is also an object of the invention to provide an apparatus which can automatically distribute a sample liquid from distribution tips into test tubes, and which can quickly arrange the distribution tips at the same intervals as the test tubes held in a rack. It is also the object of the invention to provide a device which can automatically distribute a Probonflüssigkeit from Verteilungsspitzon in test tubes and at the same time prevent the sample liquid from dropping out of the tips in other tubes than the test tube test tubes, while the tips of the source tubes to the determination tube has been moved due to the vibration or the like applied to the tips during transportation and, finally, the object of the invention is to provide a device which can automatically distribute a sample liquid into test tubes from pre-spotting tips and the advantage peak automatically, quickly and gently replaced by new and clean. To accomplish this object, there is provided an apparatus comprising displacement tips, vacuum means for supplying a sample liquid from a source inspection tube into the distribution tips, transporting the tips containing the sample liquid to the quickening roller, and sample reservoir oil Distributing the amounts of sample liquid from the tips into the sampling tube The Dio distribution tips are connected to air tubes The air tubes are respectively connected to changeover valves The changeover valve has two air inlet channels The first air inlet channel is connected to a pressure detector. which is in turn coupled to an air supply device The second air flow passage is connected to an air cylinder containing a piston The pressure detector generates an electrical signal upon detection of a change in the pressure of the air coming from the air supply ungsvorrichtung is supplied, and passes this signal to the switching valve. Triggered by this signal, the trachea chokes with the air supply inlet or the air humidifier. When the tube is connected to the air delivery device, the tube liquid may be aspirated from dom source tubes by moving the plug in a first direction into the distribution tip, or by moving the plunger in a second direction opposite the first direction from the tip into the sampling tube become.

In the operating state, the air supply device is started, and air is supplied from the distribution strand at a low speed. The tip is gradually filled into the quollone tube. When the tip reaches the surface of the probiotic fluid contained in the tube, the air pressure of the air supplied from the air supply device changes, whereby the pressure detector generates a signal. Triggered by this signal, the changeover valve connects the air tube to the air cylinder. The piston of the air cylinder is moved in the dio direction, whereby a quantity of the liquid is sucked into the distribution tip and remains there. Thereafter, the distribution tube from the source tube becomes the destination destination. ^h ° r. bowogt. Dor Kolbon is wound in the second direction, which distributes the liquid from the tip into the assay tube. In a rfioso way, no sensors are needed to detect the surface area I of the liquid in the source tube and to set the tip at a suitable position within the source tube.

Further, an apparatus is provided which includes distribution tips, vacuum means for supplying sample liquid from a source inspection tube into the distribution tips, transport means for moving the tips containing the frozen fluid to the destination tubes, and sample distribution means for distributing the lotgon of the coupon liquid into the pesticide tubes include. The device includes where from a Provorvorstungsboreich distribution Einhoiten. Each pre-dividing unit has a tip holder for holding the advantage tip. From the tip holders, pins protrude from the tip of the tip, or from the elements supporting the tip holders. The tip holders are set with regular intervals separately, and the pins are therefore also set with 'yellowish intervals. Dioso pins are in a slot oingosotzt, which is cut into a slanted planer. The lever is fixed at one end and can be rotated by drive means, such as a pulse motor.

In operation, the separately adjusted gaps between the pin are changed when the planer is rotated in any direction by the drive means. Consequently, even the regular intervals between the advantage peak tone have been changed. In this way, the pretorting tips can be set at the same regular intervals as the assay tubes, thereby simultaneously dispensing the Mengon dor sample liquid into this underdrawing tube.

An apparatus is provided externally with distribution tips, vacuum means for supplying sample liquid from a source tube into the distribution peak, transport means for moving the tips containing the sample liquid, and sample pre-aging means for extracting the amounts of sample liquid from the tips in the egg collection tubes. The apparatus further comprises a sample delivery compartment with distribution inlets and a number of dishes of trays. Each distribution unit has a Spitzonhalter for holding the Vertoilungsspitzo. Dio cups are located below the distribution tips that are held by the holders, while the tips of the source tube are moved to the ventricular tubes and vice versa; Sio have been moved by drive means and remain away from the tips, while the sample liquid is sucked into or supplied from the distribution nozzle. The liquid then falls into this diox, as it drips during the transport of the tips, into the dioon, and not into any other ducting tube than the tube of the vaporizer.

To accomplish the object, there is also provided a device vorgosohon, wclcho distribution peak, Vakuummittol for supplying a Probonflüssigkoit from a Quollonustorsuchungsröhrchen in the distribution tips, transport means for moving the tips, the dio liquid containing, to donation tubes, and Probonvortoilungsmittol for Vertoilon the amounts of Probonflüssigkeit lus the Spikes in dio determination tube includes. The device further comprises an oocyte device and a sample beneficiary with distribution inclusion. Each benefit unit includes a tip holder and a plug attached to the support. The plug has a null ring bofersligt thereon and can be removably pressed into the immediate end of the held by the holder Vertoilungsspitzo. Dio device is a rectangular plate with semicircular notches cut in on one side. Dio baskets have such a radius that the plugs can be inserted into them, except that the un mid-colonial endon dor Spitzon can not be inserted into sio. The device may be bowed relative to the point of benefit, both in the vertical direction and in the horizontal direction. While in operation, the device or tips are moved vertically and horizontally, the spotting tips are easily mounted on and detached from the donation shelves.

embodiment

The invention will be explained in more detail below with reference to the accompanying drawing in an embodiment. Show:

Fig. 1: eino front view of a device according to the present invention; FIG. 2 is a side view of the device shown in FIG. 1; FIG.

3 shows a schematic representation of the sample preparation section, that is to say in FIGS. 1 and 2

is installed; Fig. 4 is a perspective view of the sample advorting section of the apparatus when viewed from the rear

Fig. 5 is a perspective view of the pretorting section as viewed from the front; Fig. 6 is a side view of one of the distribution attitudes contained in the sample pre-settlement section; and Figure 7 is an oinigal perspective view of the device kegon-toned mechanism for attaching the benefit pellet to the preprocessing unit and releasing it.

Figures 1 and 2 show an apparatus according to the present invention which can automatically benefit from oxy proof fluid from a source examination tube. Wio is shown in clieson figures, d ^> i device comprises a 1, a movable bed 2 and including five Vorteilungsspitzon 3, oino L-shaped column 4 with a vertical Boreich which protrudes from dom housing 1 upwards, and oinon horizontal area extending from the vertical area, and a console panel 5 fixed to the free end of the L-shaped column 4. The housing 1 contains a control system including an accessory. The bed 2 can be moved in the direction of the arrow X and also in the direction of the arrow Y, as shown in Figs. 1 and 2.

The apparatus further comprises a sample distribution area having five identical distribution units. Fig. 3 schematically shows the sample pre-settlement area. The quollustomy tube contains a blood sample with serum 12 separated from the cells 13 by a separation means 11. Each distribution tip 3 can be moved up and down by a drive mechanism (not shown) so that its distal end can be inserted into the source tube 10. The immediate end of the tip 3 is gokoppolt with one end of the trachea 20 in airtight form. The other end dos Röhrchons 20 is connected to a switching valve 21 with zwoi Lufteinlaßkanalon 21 a and 21 b

vorbunden. The first port intake passage 21a is connected through a pipe 22 to an air supply device 23 which includes a compressed air source 23a and a pressure regulator 23b. The second air inlet passage 21 b is connected by a pipe 25 with an air cylinder 2Θ having a piston. The pressure detector 24 is coupled to the pipe 22 for detecting changes in the air pressure, with the air flowing through the pipe 22. Upon detection of a change in air pressure, the detector 24 generates a signal and passes it to the changeover valve 21. Triggered by this signal, the valve 21 connects the tube 20 to the tube 25. As long as the valve 21 connects the tubes 20 and 25, the Sorum 12 has been sucked from the tube 10 into the tip 3 and remains therein as the piston is moved in the direction of arrow A, and may be distributed from the tip 10 into a detection tube (not shown) when the piston is in the direction dos arrow B is moved. The pressure switch 27 is connected to the pipe 20 for checking the tip 3 in an abnormal state such as clogging.

The function of the sample distribution area will be explained below. First, the air supply device 23 is turned on, whereby the air at a low speed to the top 3 by Hon pressure detector 24 and the switching valve 21 is passed. Consequently, the air is continuously conducted from the distribution tip 3 through the distal end thereof. Under this condition, the Spitzo 3 is gradually lowered into the source tube 10. By the time the distal end of the tip 3 reaches the serum 12, the air flow is resisting and the pressure of the air flowing through the tubes 20 and 22 increases. Dor pressure detector 24 takes this increase in pressure true and generates and delivers a signal to the switching valve 21. Triggered by dioses signal, the valve 21 separates the tube 20 from dom first channel 21 a and connects the tube 20 with the zweion channel 21 b; In diose manner results in a Vorbindung between dom tube 20 and dom tube 25. Subsequently, the piston dos the air cylinder 26 is moved in the direction of arrow A. Finally, the serum 12 is sucked into the distribution tip 3. At the same time, the pressure switch 27 determines whether the Spitzo 3 is clogged or not. When a predetermined amount of the serum 12 has been introduced into the tip 3, the piston is stopped and this serum quantity is held in the tip 3.

Mongedes serum 12, in which source tube is mononalton, is calculated on the basis of the surface area of release agent 11, the level of cervix of serum 12, and the internal diameter of tube 10. The advantage tip 3 is abgosenkt in accordance with the calculated amount dos serum 12 so that the distal end of the release agent 11 is not sufficient.

Thereafter, the moveable bed 2 is bowed to the stello where the mooding tube is located until the distribution tips 3 are positioned respectively to the right above the voiding tube. Each tip 3 is then exhaled until its distal end enters the ventricular tube. The piston of the air cylinder 26 is moved in the direction of arrow B, whereby the serum 12 is fed from the tip 3 into the determination tube. Therefore, the serum 12 from the source tube 10 is biased into the destination tube. Thereafter, the tip 3 is replaced with a new tip, so that another sample liquid is distributed from a source examination tube into a determination sample tube. Serum can be distributed from tip 3 into a variety of assay tubes. Fig. 4 is a perspective view of the sample distribution area when viewed from the rear. Wio is shown in this figure, the area comprises two vertical plates 30a and 30b arranged opposite one another and five distribution hubs 31 to 35 inserted between the plates 30a and 30b. Of these units, the units 31 and 35 are fixed to the plates 30a and 30b, respectively. The remaining units 32; 33 and 34 can slide on guide rails (not shown) which extend between the plates 30 a and 30 b. The distribution units 31 to 35 each have an advantage point 3 (not shown). The pickup 31 is fixed to the plate 30a, and the unit 35 is fixed to the plate 30b. Dio rectangular plates 41 to 44 are attached to the backs of the units 31 to 34, respectively. The plates 41 to 44 extend horizontally and parallel to each other and are offset in the vertical direction. They have pins 51 to 55 which protrude from their free ends. The pins 51 to 54 are arranged in a line inclined to the direction in which the units 32; 33 and 34 can glide on the tracks. The pins 51 to 54 s'nd inserted into a slot 61 which is cut into a lever 60. The lever 60 is held at one end by a pin 62 which protrudes from the rear of the distribution unit 35 and thus can rotate about the pin 62.

As shown in Fig. 4, the sample distribution area further comprises a motor support 70 extending horizontally from the upper end of the plate 30b to the plate 30a and having a rectangular part projecting upwardly from the free end. Dor pulse motor 71 is fixed to the carrier 70. The shaft 72 of the pulse motor 7 st fixed to dom threaded rod 73, welcher is attached to the wool 72 of the pulse motor 71. The rod 73 extends the hole cut in the rectangular part of the carrier 70 and is set in screw engagement with the screw hole cut in the upper end part of the plate 30a. Therefore, when the pulse motor 71 is driven in one direction, the plate 30n, and thus the distribution unit 31, has been moved away from the plate 30b, whereby the lever threatens counterclockwise (Figure 4) and the plates 42; 43 and 44 move so that the gap between don plates 41 to 44 increases. Conversely, when the pulse motor 71 is driven in the other direction, the plate 30a and thus the distribution unit 31 have been moved toward the plate 30b, whereby the lever 60 rotates clockwise (Fig. 4); thereby moving the plates 42; 43 and 44 such that the gap between the plates 41 to 45 decreases.

If the gap between the tips 3 attached to the distribution units 21 to 35 is shorter than the space at which the inspection tubes are arranged, from which the sample liquids must be sucked into the tips 3 or into which they are made from the tips 3 must be increased, it must be increased to the space between the tubes. In order to increase the gap between the tips 3, the pulse motor 71 is driven in the forward direction. The threaded rod 73 is rotated, thus, the plate 30a and the distribution unit 31 move in the direction of the arrow shown in FIG. Finally, the lever 60 rotates counterclockwise about the pin U2, and in this way the distribution units 32 rotate; 33 and 34 so that the gap between the distribution units 31 to 35 increases toward the interstitial space of the inspection tubes.

-5- 282 032

If the gap between the tips 3 is greater than the intermediate space in which the pilot tubes are located, it must be reduced to the gap in which the tubes are located. In order to increase the gap between the tips 3, the pulse motor 71 is driven in the reverse direction. The threaded rod 73 rotates, and thus the plate 30a and the pre-dividing unit 31 move in the opposite direction shown by the arrow. As a result, the lever 60 rotates clockwise around the pin 62, and thus the distribution units 32; 33 uiul 34, so that the gap between the units 31 to 35 decreases to the interspace of the examination tube out

 Therefore, the sample distribution area 30 can use it! For example, it has been proposed to hold a distribution from the source probe tubes held in the holes of a rack, in whichever spaces there are arranged, in the destination tubes, held in the holes of a rack arranged at random intervals are.

Fig. 5 is a perspective view of a Probenvertoilungsbereiches 30, which is viewed from the front. Fig. 6 is a side view of one of the distribution units within the practice apparatus 30. Referring to Figs. 5 and 6, each of the distribution units 31-35 has a distribution tip 3. Dor Probonverteilungsboreich 30 is attached to the movable bed 2 and can be moved in the directions of arrows X and Y (Fig. 1 and 2), along the movable bed 03 2. The Probonverteilungsbereich 30 has a loading mechanism 80, which dor a shell 81, two parallel rods 82 and a drive cylinder 83. With the tips 3 positioned over the tube to aspirate the serum 12 therefrom or placed over the vaso-sampling tube to distribute the serum there, the driver cylinder 83 pulls the rods 82 in the direction of arrow C (Fig. 5). and, in a manner, the shell 81 moves from the position below the tips 3. Once again, the shell 81 is no longer located between the tips 3 and the source or buccal tubes, and, more or less, the serum 12 may be aspirated from the source tube into the tips 3 or from Spitzon 3 into the destination tube. After the serum 12 is sucked into the tips 3 or distributed in the determination tube, the drive cylinder 83 pulls the rods 82 in the direction of the arrow D (Fig. 5), and thus the S -hale 81 moves to the position under the tips 3.

Thus, the shell 81 remains below the tips 3, while the spike 3 has been moved from the quillone tube to the determination tubes or vice versa. When the serum drips from the tips 3, os falls on the dioxin 81 and not in any other tubes than in the destination tube.

FIG. 7 is a perspective view of the mechanism 90 for attaching the stiffening tube to the distribution units of the sample preparation borehole 30 and for releasing them. The mechanism 90 comprises support plates 91 (only one shown), chestnut 92 (only one shown), fixed to support plates 91, and plugs 93 (only one shown) suspended from the Käston 92. The trachea tubes 20 are connected to the upper ends of boxes 92. Dio plugs 93 are made of rubber, for example, and shaped so that they can be inserted in the immediate ends of the tips 3. Sio have through holes and are connected by air tubes with the boxes 92. The through holes of the plugs 93 communicate therewith with the tube 20. Between each box 20 and each plug 93, the coil spring 94 is interposed and fixed to the tube connecting the plug and the box. At the outer periphery of each plug 93, a null ring 95 is attached between the plug 93 and the tip 3 to form a sufficient airtight connection.

The mechanism 90 further includes a device 100, which is mounted on the housing 1. The device 100 is a rectangular plate with five semicircular cut-outs 105, which are inserted in a longer side. The cutouts 101 to 105 have a radius such that the plugs 93 can be inserted therein unless the immediate ends of the tips 3 are not used in them. The device 100 can be moved relative to the biasing tip, both vertically and horizontally, by means of a drive mechanism (not shown).

The mechanism 90 operates in the following manner to attach and detach the spike 3 from the presync portion of the proofing area 30. In order to attach the tips 3 to the donor units 31 to 35 of the sample transfer reservoir 30, the drive mechanism (not shown) is botched, and thus the coupon distribution body 30 moves so that the plugs 93 are moved over in a position (not shown). Gohaltonen tips are 3 angeordnot. Subsequently, the Antriobsmochanismus gesötzt in Betriob and this Zoit lowers the Probenvertoilungsboreich 30 so that the plug 93 wordon used in dio immediate ends of Spitzon. As the screwdrivers 94 apply constant force to the plugs 93, the plugs 93 have been gently and permanently inserted into the immediate ends of the tips. Outside, the zero rings 9b mounted on the stuffing horn 93 are in full contact with the inner circumferential line of the tips 3, and, on the other hand, there is an airtight connection between the point 3 and the stoppers 93. The drive mechanism (not shown) then moves the bore 30 upwardly, and thus the pointon 3 has been lifted out of the frame, and is now coupled to the distribution unit 31-35. In order to release the tip 3 from the distributing units 31 to 35, the driving mechanism is actuated, and thus the sample distribution area 30 moves so that the tips 3 blow in the direction of the arrow indicated by a dot line. While dividing pots 31 to 35 are moved obon in the semicircular cutouts 101 to 105 of the apparatus 100, the plugs 93, the diameter of which is smaller than the radius of the cutouts, are lifted by the cutouts except for the tips 3, whose immediate ends are one Having diameters greater than the radius of the cutouts can not become angioheon. As the distribution units 31-35 are further moved upwardly, the plugs 93 are pulled out of the immediate ends of the Spitzon 3 and the tips 3 fall off , Therefore, the mechanism 90 automatically replaces the used tips with new tips.

The present invention is not limited to the embodiment described above. It can also be used with boi devices for automatically distributing sample fluids other than serum.

Claims (1)

Apparatus for distributing sample liquids from source inspection tubes into assay tubes, characterized in that said apparatus comprises: a plurality of distribution tips (3), each having a distal end suitable for insertion into the source examination tubes (10) and the destination tubes; a plurality of air tubes (20) each having two ends and which are connected at the first end with the gungs Venoilungsspirzen (3); a plurality of switching valves (21) connected to the second ends of said air tubes (20) and each having two air intake passages (21 a; 21 b); a plurality of air supply devices (23), which are connected to the first air inlet channels (21 a) of said switching valves; a plurality of pressure detectors (24) connected to said air supply devices (23) for detecting changes in the pressure of the air introduced from said air supply devices (23) and generating a signal upon detection of a change in the air pressure; a plurality of air cylinders (26) connected to said recirculation valves (21) for causing said accumulation tips (3) to aspirate the sample liquid (12) from the source examination tubes (10) and sample liquid (10). 12) into the assay tubes, and means electrically connected to said pressure detectors (24) for interrupting the first air intake passage (21 a) of any one of said switching valves (21) with said air cylinder (26) triggered by the Signal generated by said pressure detector (24) connected to the switching valve (21) is electrically preconnected.