DE102004050467B3 - Device for accurate linear application of inoculation solution to nutrient medium surface, to be incubated to detect specific microorganisms, comprising pipette with elastically bendable end piece - Google Patents

Abstract

In a device for linear application of an inoculation solution (7) for incubation on the surface (2) of a nutrient medium (2), comprising a pressurizable pipette (8) with a delivery opening (10) (to be held over the surface and moved relative to the surface), a main part (15) and an end piece (16) at the delivery opening end, the end piece is elastically bendable and the pipette is held over the surface at a distance such that the end piece lies on the surface in bent, spring-pressurized form, with the terminal region of the end piece parallel to the surface.

Description

The The invention relates to a device according to the preamble of the claim 1.

applicators Serve for Impflösungen on nutrient media for the detection of in the vaccine incubate existing germs. First, the inoculum on the surface of the nutrient medium flat applied and then the culture medium, usually in a Petri dish, in an incubator at a predetermined temperature for some Time incubated. In the vaccine solution existing germs, e.g. Bacteria, fungi and the like, grow then on the usual for special proven Germs specifically selected material of the nutrient medium to visible spots forming colonies that counted and can be evaluated.

at generic devices becomes the vaccine applied line by line, usually in a spiral line. This can be achieved by targeted control of the discharge rate the thickness of the line, ie the concentration of the solution, be changed.

Such generic devices need a drive that holds the pipette relative to the surface of the breeding ground emotional. This can be done by moving the pipette over the resting medium happen, with any, e.g. straight, line shapes are possible. It is usual a construction similar a record player, wherein the fertile Petri dish is driven in rotation and the pipette moves in radial motion becomes, so in a train similar the needle of a record player.

The Pipette must be there with its discharge opening very close to the surface of the nutrient medium be a smooth, trouble-free Order to enable.

Generic constructions according to US 3,799,844 and US 4,273,877 have a rigid pipette that needs to be adjusted with elaborate control to the surface of the medium. It comes, for example, on uneven surface of the medium, to application fluctuations. There may also be contact with the culture medium, which can damage its sensitive gelatinous surface. Such known devices are therefore structurally complex and can be operated only very slowly, are therefore poorly suited for mass inoculation of culture medium for screening.

The DE 100 11 310 C2 shows a construction which has resilient tines instead of a pipette, which wipes liquid on the nutrient medium. With this design, the elastic compliance of the tines ensures that the nutrient medium is not damaged. Elaborate adjusting and spring devices, as in the aforementioned prior art are therefore unnecessary.

It disturbs however in all known constructions, the high point load on the surface of the nutrient medium, which can lead to injuries.

The Object of the present invention is in a generic device the Risk of injury for the surface of the nutrient medium to reduce.

These The object is achieved with the features of claim 1.

This is according to the invention tail the pipette elastically bendable and is formed by appropriate Spacing to the breeding ground this created resiliently with a bend. By the plant of the end piece is the discharge opening always in a defined position directly on the surface of the medium, resulting in a highly constant application allows becomes. The elasticity of the end piece prevents damage to the surface of the Culture medium. The bend of the tail can do all the distance changes compensate, due to inaccurate height control of the pipette or e.g. caused by bumps on the surface of the medium. at mechanically simpler construction of the device can therefore with greater precision can be applied, and it can be absorbed by the elastic deviations are much higher Achieve application rates. The parallel to the surface fitting End portion of the tail gives a low surface load and a consistent, high precision of the application, wherein in the bent of the surface outgoing area of the tail changes in distance without impairment the position of the adjacent parallel end portion resiliently collected can be.

The flexible end region may be formed integrally with the main part of the pipette. In this case, the pipette may be formed in the usual, tapered out in the tail shape, wherein the end piece, for example, to achieve good elasticity has a small wall thickness or consists of molded other material higher elasticity. Advantageously, however, the features of claim 2 hen vorgese. This results in an end piece of high bending elasticity, which by appropriate choice of Hose piece is easily accessible. With a piece of tubing of very small wall thickness, there is high bending elasticity with low spring force, which is particularly gentle on the surface of the nutrient medium.

is the tail one piece formed with the main part, it results in the usual filling the pipette by suction the problem of suction through the close discharge opening, the for the Purposes of application of the vaccine on the nutrient medium must be very small. There are long filling times, however, which are unavoidable in the prior art. There at Serial examinations usually all applied Impflösungen different are, must be for everyone Ordering the pipette to be changed and refilled. The filling let yourself accelerate with the features of claim 3. That's it tail detachable from the main body, whereby the main part made fillable by the larger dome opening becomes. The main part can therefore be filled much faster, afterwards after coupling the tail to be used for application.

In In the drawings, the invention is for example and schematically shown.

It demonstrate

1 a plan view of a device according to the invention with culture medium and pipette;

2 a section along line 2-2 in 1 ;

3 a side view of a rack with pipette main parts before their removal;

4 the side view of a removed pipette main part when it is filled;

5 the side view of a rack with Pipettenendstücken and

6 the side view of a completely held pipette.

The 1 and 2 show a device according to the invention for the application of a vaccine on the surface 2 of a nutrient medium 1 who is on the ground 3a a petri dish 3 is arranged, which from their soil 3a and a circumferential edge 3b is formed. Usually belongs to such a Petri dish 3 another lid, which serves for the germ-proof closure during the subsequent incubation.

The Petri dish 3 stands with her bottom 3a on a turntable 4 an otherwise not shown drive system with which the Petri dish 3 and the breeding ground 1 around a vertical axis 5 in the direction of the arrow 6 are drivable.

On the surface 2 of the nutrient medium 1 should be vaccine 7 be applied in a pipette 8th is kept ready. The pipette 8th becomes from its one end over a connection hose 9 For example, pressurized with air and brings at its other end through a narrow discharge opening 10 the vaccine 7 in a line 11 out, focusing on the surface 2 of the nutrient medium 1 sets.

The pipette 8th is doing by a holding arm 12 held, which is moved and adjusted by a drive direction, not shown, that he the pipette 8th in a defined altitude above the surface 2 of the nutrient medium 1 stops and during the rotation of the medium 1 the discharge opening 10 in the direction of the arrow 13 moved radially outward. The on the surface 2 of the nutrient medium 1 applied line 11 of Impflösung therefore forms, as 1 shows, as a spiral line out.

The connection hose 9 is connected to a pressure generating device, not shown, which is for pressurizing the pipette to eject the Impflösung 7 provides. The output can be variably controlled, for example, so that the line 11 is formed from one end to the other end with less and less order to dilute the applied concentration of germs.

Instead of in 1 illustrated embodiment of the device with rotary drive for the nutrient medium 1 and linear feed for the pipette 8th for example, the pipette 8th spiral over the resting medium 1 be moved, or it can by appropriate drive training other forms for the line 11 , eg several parallel straight lines, are selected.

The pipette 8th has a holder 14 on, on which the holding arm 12 and the connection hose 9 attack. This holder 14 Can also be used as a pumping device to pressurize the pipette 8th be formed, in which case instead of the connection hose 9 electrical control lines would be provided to control the pumping process.

The in the 1 and 2 illustrated pipette 8th consists essentially of a main part 15 , with its larger internal volume, the total amount of impflösung to be applied 7 can record. In the embodiment, the main part 15 via a Konussteckkupplung conventional design with the holder 14 coupled.

At the holder 14 opposite end is the main part 15 via a likewise formed in the usual way Konussteckkupplung with an end piece 16 connected, which consists of a coupling piece 17 and a hose 18 consists.

With the coupling piece 17 is the tail to the main part 15 Ankuppelbar, where there is the main part 15 a coupling opening 19 has, which is much larger than the very narrow discharge opening 10 at the end of the tail 16 ,

In an alternative, not shown construction, the tail 16 the pipette 8th be formed in the usual conical pointed shape, but it should be flexurally flexible, which could be achieved for example by suitable material thickness or material selection. The tail can also be integral with the main body 15 be educated.

Due to the flexurally flexible design of the end piece 16 , in the illustrated embodiment by the thin piece of hose 18 can be achieved, how 2 shows, with appropriate height control with the support arm 12 the pipette 8th in the in 2 shown position can be brought. In doing so, the hose piece lays down 18 in the sheet springy of the surface 2 of the nutrient medium 1 on, so that the end portion of the hose piece 18 parallel to the surface of the medium 1 lies.

As 2 shows, this results in a highly defined position of the discharge opening 10 opposite to the surface of the nutrient medium 1 , Occur during the drive height deviations, for example, due to inaccurate movement of the holding arm 12 can arise or eg by different thickness of the culture medium 1 , So these height deviations in the bend of the elastic rule hose piece 18 intercepted resiliently, without causing the position of the discharge opening 10 opposite to the surface of the nutrient medium 1 changed.

Even at high speeds of the pipette 8th above the surface of the nutrient medium 1 In the construction shown, there are no deviations in the application and also no injuries to the sensitive surface of the medium 1 ,

In the illustrated embodiment, the tail is 16 from the main part 15 the pipette 8th removable, in the illustrated embodiment with a cone clutch, in place other types of couplings are possible.

For series tests, in which a lot of Impflösungen be applied to many nutrient media, therefore, in 3 illustrated rack 20 used in which several empty main parts 15 are set up. The holder 14 the pipette 18 can with the support arm 12 in position over the next main part 15 on the rack 20 brought and be verkuppelt after lowering with this.

Subsequently, by appropriate movement of the holding arm 12 the holder 14 with it, still empty, main part coupled with it 15 , as in 4 represented over a sample vessel 21 with the next solution to be processed 7 brought and lowered until the coupling opening 19 of the main part 15 dips. By appropriate negative pressure via the connection hose 9 becomes the main part 15 filled.

In the next step according to 5 becomes the filled bulk 15 by appropriate movement of the holding arm 12 over a rack 22 with stored in it end pieces 16 brought and verkuppelt. After lifting the holding arm again 12 is the completely assembled and filled pipette 8th in position according to 6 and can now by appropriate height and angle control over a Petri dish 3 with nutrient medium 1 in working position according to 1 and 2 to be brought.

Claims (3)

Device for the linear application of a vaccine to be incubated ( 7 ) on the surface ( 2 ) of a nutrient medium ( 1 ), with a discharge opening ( 10 ), pressurizable pipette ( 8th ), whereby the pipette ( 8th ) in deployment position of the discharge opening ( 10 ) against the surface and the pipette ( 8th ) and the nutrient medium ( 1 ) in the direction of the surface ( 2 ) are driven relative to each other, wherein the pipette ( 8th ) from a main part ( 15 ) and at its end the discharge opening ( 10 ) having tail ( 16 ), characterized in that the tail ( 16 ) is elastically bendable, and that the pipette ( 8th ) is held at such a distance from the surface, that the tail ( 16 ) resiliently abuts the surface in a bend, wherein the distance of the pipette ( 8th ) to the surface ( 2 ) of the nutrient medium ( 1 ) is such that the end portion of the end piece ( 16 ) parallel to the surface. Device according to claim 1, characterized in that the end piece ( 16 ) than at the body ( 15 ) of the pipette ( 8th ) attached hose piece ( 18 ) is trained. Device according to claim 1, characterized in that the end piece ( 16 ) with a coupling ( 17 ) at a dome opening ( 19 ) of the main part ( 15 ), which is larger than the discharge opening ( 10 ).