DE4026620C1 - Transfer device for very small amt. of calibrated sample vol. - transfers it from outer chamber to reagent medium in measuring chamber using transfer slide plug - Google Patents

Abstract

The transfer slide plug (3) is displaced in a housing bore designed as a sealing seat, which has a duct designed as a capillary forming the sample vol. The transfer slide plug (3) is moved from a filling setting before a take up opening (6) connected to the outer chamber for filling the sample vol., in to a measuring setting, such that simultaneously the take up opening is closed by the transfer sliding plug (3) and the sample vol. is emptied in to the measuring chamber. A sealing lip (7) is arranged at the mouth of the housing bore (2), aligned in the measuring chamber, which only then engages with the transfer slide plug sealing and wiping it, when this is displaced from the filling position to the measuring position. ADVANTAGE - Transfers smallest amount sample vol., whereby mfg. tolerances and esp. physical variables such as adhesion and capillary forces do ot alter size of calibrated sample also given in measuring chamber.

Description

The invention relates to a device for transferring a very small amount of a calibrated sample volume from an outside to a reagent medium in a measuring room by means of a housing bore designed as a sealing seat adjustable transfer valve, the one that Sample volume forming and designed as capillaries Has channel that from a filling position in front of a the outside opening connected to fill the The sample volume has to be moved into a measuring position so that at the same time the opening through the transfer valve  sealed and the sample volume for emptying is introduced into the measuring room.

In such a known from DE-OS 35 07 032, trained as a disposable device and essentially from Plastic-made transfer device with which one very small amount of a calibrated sample volume in a hermetically sealed measuring room containing a reagent contains, can be introduced without the closure of the measuring room can, due to and / or capillary forces in the sealing seat between the transfer valve and housing drilling sample medium during filling of the channel forming the sample volume in the transfer valve penetration. These microdrops adhering to the transfer valve of the sample medium thus reach the calibrated one Sample volume in the measuring room and change the in the Sample size to be dispensed, what z. B. in quantitative Analyzes lead to large incorrect measurements.

From US-PS 39 91 055 is still one for an analyzer Device for measuring and transferring a variety of different Amounts of liquid known. This device  has an axially displaceable in a housing bore Transfer valve with several radial bores on the with appropriate extensions in the housing wall and inlet bores, can be connected to the inlets and outlets are, by adjusting the transfer valve in the Housing bore can be connected. The Transfer valve is only opposite at its ends Housing wall, but not opposite the outlet and inlet bores sealed in this wall. Although the dimensions the housing bore and the transfer valve in such a way are coordinated that a sealing seat can be created Liquid adhering to the wall of the housing bore when adjusting the transfer valve from a radial bore get to the other, leading to incorrect analyzes leads.

In DE-OS 14 73 169 there is also a valve for dispensing measured quantities of a liquid under pressure described from a container. This valve has one cylindrical transfer valve that slides in a sleeve is stored with a circumferential recess on. The areas adjacent to the recess lie here  of the transfer valve sealing against the sleeve, so that the recess together with the inner wall of the sleeve forms the measuring chamber for the liquid to be dispensed. The The liquid to be dispensed can flow into the transfer valve incorporated inlet and outlet openings depending on closed by the slide from the sleeve or be opened, in or out of the measuring chamber emerge. Special precautions that a transfer of liquid adhering to the sleeve wall when adjusting prevent the transfer valve from entering the measuring chamber, have not been hit.

Finally, DD-PS 2 53 083 describes a metering device, which has a stator and a rotor. Inlet and outlet openings are provided in the stator and in the rotor. To prevent that from the stator bores medium entering the radial bores into the space between penetrates these two bodies, show the stator bores still axially elastic sealing elements that interact with the adjacent rotor surface.

The object of the invention is now to develop a device Transfer the smallest amount of a calibrated sample volume  to move from an outside space into a measuring room, in manufacturing tolerances and in particular physical quantities such as adhesion and capillary forces the size of the calibrated and to be entered in the measuring room Do not change the sample.

This object is achieved on the basis of a Transfer device of the type described above solved in that the housing bore directed into the measuring space a sealing lip is worked on with the Transfer slide when it is adjusted from the filling to the measuring position comes into sealing and stripping engagement.

With the according to the invention at the mouth of the housing bore provided in the measuring room sealing lip that only during adjusting the transfer valve from its filling in the measuring position sealingly rests against it also the smallest amount adhering to the transfer valve stripped of the sample volume so that only the calibrated Sample volume enters the measuring room. It did proven to be particularly advantageous that the sealing lip no sealing functions while filling the new ones  Transfer device comes, but only this for wiping off the microdroplets adhering to the transfer valve of the sample medium. The sealing lip lies therefore not on before using the transfer device Transfer valve and is therefore not a mechanical one Exposed to cold flow the sealing lip made of plastic and can impair their ability to be stripped.

In an expedient development of the invention it has proven itself on the transfer valve between the Sample volume forming channel, which is called the transfer valve penetrating hole or as the transfer valve outside can be formed on at least 180 ° circumferential groove and its end pointing into the measuring space one with the housing bore cooperating sealing bead to provide both a loss of reagent medium from the measuring room during the storage of the transfer device after its manufacture as well as penetration of sample medium into the measuring room during the filling of the sample volume due to leaks of the sealing seat between the housing bore and the transfer valve to prevent. The sealing bead has proven its worth  form as an elastic sealing ring, which in a Transfer slide integrated ring groove is inserted.

Embodiments of the transfer device according to the invention will be described with reference to the drawings. They represent:

Fig. 1 on an enlarged scale a schematic sectional view of a transfer device in the filling,

Fig. 2 is a sectional view of the transfer apparatus of FIG. 1 in the measuring position,

Fig. 3 in an enlarged scale a schematic sectional view through another embodiment of a transfer device in the filling,

Fig. 4 on an enlarged scale a partial sectional view through a further embodiment of a transfer device in the filling,

Fig. 5 is a sectional view through the transfer device shown in FIG. 4 along line AA.

The devices shown in FIGS . 1 to 3 for transferring a calibrated sample volume from an external space to a reagent in a measuring space consist of a housing 1 made of plastic with an axial housing bore 2 , into which a stamp-shaped transfer slide 3 is inserted. The contacting surfaces of the housing bore 2 and the transfer slide 3 form a sealing seat. The transfer slide 3 , which carries a pressure plate 4 at one end, is penetrated by a bore 5 designed as a capillary ( FIGS. 1, 2 and 3) or by a groove 10 likewise configured as a capillary and extending externally at least 180 ° ( FIG. 4 and 5), which represent the sample volume. In the filling position ( FIGS. 1, 3 and 4 or 5) of the transfer device, the bore 5 or the groove 10 are aligned with receiving openings 6 in the housing 1 . An annular sealing lip 7 is formed on the opening of the housing bore 2 opposite the pressure plate 4 of the transfer slide 3 and opening into the measuring space (not shown), the inside diameter of which is smaller than that of the housing bore 2 or as the outer diameter of the transfer slide 3 .

In the transfer device shown in FIGS. 1 and 2 or 4, the transfer slide 3 in the end region opposite the pressure plate 4 has a sealing bead 8 which, in the filling position ( FIGS. 1 and 4) of these devices, lies sealingly against the wall of the housing bore 2 .

In the embodiment of the transfer device according to the invention according to FIG. 3, this sealing bead is designed as an elastic sealing ring 9 which is inserted into an annular groove incorporated in the transfer slide 3 .

The transfer device according to the invention is manufactured with a permanently attached, but not shown, measuring space, in which a predetermined amount of a reagent medium is filled, and is delivered with the transfer slide 3 in the filling position, in which the sealing bead 8 or the sealing ring 9 on the housing bore 2 rests between its mouth into the measuring space and the receiving openings 6 and, in particular during the storage of the transfer device, prevents the escape of reagent medium from the measuring space via the sealing seat between the housing bore 2 and the transfer slide 3 . However, the sealing bead 8 or the sealing ring 9 also prevents sample medium from unintentionally entering the measuring space in the opposite direction while the sample volume 5 or 10 is being filled.

After the sample volume 5 or 10 has been filled, the transfer slide 3 is adjusted from the filling position shown in FIG. 1 to the measuring position according to FIG. 2 by exerting a pressure on its pressure plate 4 . The transfer slide 3 comes into engagement with the sealing lip 7 , which strips off sample medium adhering to the transfer slide 3 , so that only the amount of sample medium in sample volume 5 or 10 is fed into the measuring space and reacts there with the reagent, thereby eliminating measurement errors.

Claims (5)

1.Device for transferring a very small amount of a calibrated sample volume from an external space to a reagent medium into a measuring space by means of a transfer slide adjustable in a housing bore designed as a sealing seat, which has a channel forming the sample volume and configured as a capillary, which consists of a filling position in front of a the opening connected to the outside for the filling of the sample volume is to be moved into a measuring position in such a way that at the same time the opening is closed by the transfer slide and the sample volume is introduced into the measuring space for emptying, characterized in that the opening of the housing bore directed into the measuring space ( 2 ) a sealing lip ( 7 ) is worked on, which only comes into sealing and wiping engagement with the transfer slide ( 3 ) when it is moved from the filling position into the measuring position. 2. Apparatus according to claim 1, characterized in that the transfer slide ( 3 ) between the sample volume ( 5 ) forming the bore and its end directed into the measuring chamber one with the area of the housing bore ( 2 ) between the receiving opening ( 6 ) and sealing lip ( 7th ) has interacting sealing bead ( 8 ). 3. Apparatus according to claim 2, characterized in that the sealing bead ( 8 ) is designed as an elastic sealing ring ( 9 ) which is inserted into an annular groove incorporated in the transfer slide ( 3 ). 4. Device according to one of claims 1 to 3, characterized in that the channel forming the sample volume as the transfer slide ( 3 ) penetrating bore ( 5 ) is formed. 5. Device according to one of claims 1 to 3, characterized in that the channel forming the sample volume as the transfer slide ( 3 ) is formed on the outside at least 180 ° circumferential groove ( 10 ).