DE4016291C1 - Device for measuring coated structures of sample e.g. blood - has magnifying glass around centrifugal tube carrier and A=D converter forming digital signals for computer - Google Patents

Abstract

Coated, possibly differently coloured, structure of a sample, partic. blood constituents, are measured in an arrangement of a base plate (1) with a carrier (2) for centrifuged tubes (3), about which is a magnifying glass (6). A measuring device (8) with pointer (10) forms part of an electrical circuit (11) contg. an A/D converter forming digital signals for a computer, an input key (14) allowing input of a position. The computer calculates structure quantities from interface positions and stored characteristics. ADVANTAGE - Testing of samples on slit.

Description

The invention relates to an apparatus and a method for Measuring of centrifuged tubes layered, possibly differently colored structures a sample according to the preamble of the claims 1 or 9.

From DE / EP 01 42 120 T1, corresponding to US-PS 45 58 947, is a device of the beginning known type known for counting blood components is provided in whole blood. She sees as a scanner a photo sensor device movable relative to the sample, which is focused on the sample and during the axial Scanning the sample a characteristic of the measured intensity of the individual structures of the sample and recorded as Analog values to an A / D converter (analog-digital converter) leads. The digital signals emanating from this will be from the computer device with the structure stored there specific characteristic values converted into the measured values sought and spent as such.  

In order to enable the sample to be scanned, its is Carrying device arranged axially displaceable to the tube. This is done via a movable by means of a stepper motor Spindle. The respective number of revolutions of the stepper motor goes into the A / D converter as an additional analog signal.

The known device requires a relatively large one construction effort and can therefore only be stationary appropriately set up testing laboratories. It is also very expensive and therefore not for every professional affordable.

The present invention has for its object a To simplify the device of the type mentioned and to improve that, if necessary, also on site, e.g. B. from one Veterinarian or a hygienist to check milk pro ben, water samples or body fluids on cells, Microorganisms, fat components or the like can be used.

Portable centrifugation devices for measuring tubes exist it already. The capillary tubes have a length of z. B. 75 mm.

The solution to the task could not simply be one model reduction of the known device. Rather, the elaborate one had to be from one lighting unit with lens and a photocell unit with lens existing photo sensor unit through a simpler scanning stone direction to be replaced.

The invention was based on the knowledge that the Length of a sample structure is the essential measure of the one in it is the amount of particles. Accordingly, the scanning stone had to towards the measurement of the axial lengths of the structures be simplified. By eliminating the well-known photo intensi on the one hand and the engine operation of the Tragein  direction on the other hand was also a smaller computer setup tion possible.

The object is achieved according to the invention in a device according to the preamble of the patent Claim 1 or in a method according to the preamble of claim 9 by the in the respective characterizing parts specified characteristics. Further advantageous embodiments of the invention are in the Subclaims specified. Favorable uses indicate claims 11 and 12.

Such a device can be used, for example, as a scanning device Det, as is known from DE 34 41 271 A1. they measures a distance by changing a linear resistance the or an angle by changing a circular Resistance. Another scanner is from the DE 34 36 681 A1 known, after a distance through capacitive elements of a circuit is measured.

The movement of the tapping element over the rigid Coupling with the switching element in pairs of electrical values electrical circuit generated that of the measured length any structure, d. H. the measuring section are analog. These Value pairs become the A / D converter with the help of the enter key fed them into the computer as digital signal pairs enters facility. This can be the size of a pocket rake ners and calculated with the entered digital Pairs of values and the saved, structure spec specific characteristic values the measured values sought.

This enables a portable construction whose manufacturing costs a fraction of that known device.

The tapping element can be moved linearly parallel to the tube will. It can also be fixed and rotated.  

The device according to the invention is particularly suitable for the determination of reagent-added milk samples as well as for the testing of liquids, in particular Body fluids and waste water on microorganisms.

The invention based on the drawing is an example explained in more detail. It shows

Fig. 1 is a schematic plan view of an embodiment of a device according to the invention,

Fig. 2 shows a cross section along the line II-II in Fig. 1 and

Fig. 3 is a schematic plan view of a modified device.

Fig. 1 shows a base plate 1 supporting means 2 for centrifuged tube 3.. These have e.g. B. a length of 75 mm and contain a sample to be examined which, after the tube with the sample has been centrifuged, is present in layered, possibly differently colored or differently visible structures only under certain lighting.

The tube 3 can also be mounted rotatably about its longitudinal axis in the support device 2 . In this case, the support device has a preferably continuous rotary drive 4 . This is only intended to be able to determine an average value of any layer boundaries 5 of the sample that are not exactly perpendicular to the tube axis.

A parallel axial magnifying glass 6 is arranged above the carrying device 2 and enlarges the image of the sample.

Parallel to the support device 2 and the tube 3 , a guide rail 7 is arranged, on which a manually operable tapping element 8 of a scanning device 9 is guided axially. Arranged on the tapping element 8 is a pointer 10 or the like, the tip of which is directed towards the tube and can aim at a layer boundary 5 in each case. Possibly. the tapping element 8 can also be equipped with a sighting device (not shown).

The tapping element 8 is at the same time in operative connection with an electrical switching element, which as a variable element, for. B. potentiometer element, capacitor, measuring coil, magnet or the like. Can be formed and belongs to an electrical circuit, which is schematically designated 11 . An essential part of this circuit 11 is a conductor 12 , which can possibly lie in the guide rail 7 , and the effective length of which is a measuring distance corresponding to the displacement of the tapping element 8 between the two boundary layers 5 of a structure of the sample.

An A / D converter 13 is arranged downstream of the electrical circuit 11 . Between the circuit 11 and this A / D converter 13 , an interrupter 14 designed as an input key is arranged.

The output of the A / D converter 13 is connected to a computer device 15 , which converts the difference between the received digital value pairs with stored characteristic values corresponding to the individual structures into the measured values sought. Instead of between the A / D converter 13 and the circuit 11 , the input key can also be assigned to the computer device 15 .

In addition, light sources 16 are arranged parallel along the tube 3 , which are expediently set up or can be set up in such a way that they can throw light onto the tube with at least one defined wavelength.

In operation, the tapping element 8 , for. B. moved by hand along the tube 3 so that its pointer 10 successively points to the two layer boundaries 5 of a structure of the sample. When the respective end position is reached, the input key of the interrupter 14 is actuated, so that the A / D converter receives an analog electrical signal corresponding to the tapped measuring section 12 . The difference between the two signals is multiplied in the computer device 15 by the specific characteristic values of the structure and results in the measured value sought, eg. B. the number of particles in the structure.

Since these are relatively simple arithmetic operations, the computing device 15 can be approximately the size of a pocket calculator.

The device described is suitable especially for testing reagents Milk samples on udder epithelia, erythrocytes and leukocytes, Fibrin and fat. It is also possible to sewage on Bacteria, food for germs, water for algae or Examine body fluids for microorganisms. Here the volume, number and type of such Structures easily determined.

Fig. 3 shows a similar structure as Fig. 1. Similar parts have the same reference numerals.

Instead of a linearly displaceable tapping element 8 , a stationary, rotatable tapping element 18 is provided here, the electrical switching element of which, for. B. is designed as a rotary potentiometer, variable capacitor or the like. The individual layer boundaries 5 are scanned with the pointer 17 . The pair of electrical values generated by the rotation of the tapping element 18 is then fed to the A / D converter and the computer device as described above and converted into the measured values sought.

Claims (12)

1. Device for measuring in a centrifuged tube, layered, possibly differently colored structures of a sample, with a Tragein direction for the tube, a relatively movable to the tube scanning device for the structures, the scanning device analog electrical signals via a downstream A / D converter inputs as digital signals in a computer device, which in turn outputs specific size values of the measured structures based on the position of the layer limits and structure-specific characteristic values stored in the computer device, characterized in that
that to generate the relative movement of the Abtasteinrich device ( 9 ) has a manually adjustable to the layer boundaries ( 5 ) of the respective structures tapping element ( 8 ), which is operatively connected via a switching element to an electrical circuit ( 11 ), which is a function of gives the respective position of the tapping element ( 8 ) as an electrical parameter a value for a voltage, a resistance, a capacitance or a current,
that between the A / D converter ( 13 ) and the electrical circuit ( 11 ) or the A / D converter ( 13 ) and the computer device ( 15 ), an interrupter ( 14 ) is arranged with an input key to at a position of Tapping element ( 8 ) on the respective layer boundary ( 5 ) to establish a connection with the computer device ( 15 ) for inputting the digitized electrical parameters delivered and digitized by the switching element connected to the tapping element ( 8 ) and
that the computer device ( 15 ) is designed to calculate the specific size values of the structures from the value pairs corresponding to the distances between the layer boundaries ( 5 ) of the respective structures and the stored structure-specific characteristic values. 2. Device according to claim 1, characterized in that the tapping element ( 8 ) is arranged to be movable parallel to the tube ( 3 ). 3. Apparatus according to claim 1, characterized in that the tapping element ( 8 ) is rotatably arranged next to the tube. 4. Device according to one of claims 1 to 3, characterized in that the tube ( 3 ) is assigned at least one light source ( 16 ) definable wavelength. 5. Device according to one of claims 1 to 4, characterized in that the tapping element ( 8 ) has a visor device. 6. Device according to one of claims 1 to 5, characterized in that a magnifying glass ( 6 ) is arranged above the tube ( 3 ). 7. Device according to one of claims 1 to 6, characterized characterized in that the switching element is a potentiometer is. 8. Device according to one of claims 1 to 7, characterized in that the support device ( 2 ) has a rotary drive ( 4 ) for the tube ( 3 ). 9. A method for measuring in a centrifuged tube, layered, possibly differently colored structures of a sample, wherein by scanning the structures, analog electrical signals are generated, which are converted into digital signals and input to a computer device that have the desired specific size values outputs measured structures on the basis of the position of the layer boundaries and of structure-specific characteristic values stored in the computer device, characterized in that a tapping element ( 8 ) of the scanning device ( 9 ), which is operatively connected to an electrical circuit via a switching element, moves to the layer boundaries of the respective structures and is set that, depending on the respective position of the tapping element ( 8 ) as an electrical characteristic, a value for a voltage, a resistance, a capacitance or a current strength via an A / D converter in digitized form e outputs a computer device in which the differences in the pairs of values generated at the respective positions of the tapping element ( 8 ) are converted into the desired measured values using structure-specific characteristic values stored in the computer device ( 15 ). 10. The method according to claim 9, characterized in that the sample stained and with light of a defined wavelength is applied, which is in the sample Structures stimulated with different characters fluorescent intensities. 11. Using a device for measuring in one layered, centrifuged tubes  possibly differently colored structures of a sample according to one of claims 1 to 8 for determining with Reagents spiked milk samples. 12. Using a device for measuring in a centrifuged tube located, layered, possibly different colored structures of a sample according to one of claims 1-8 for testing liquids, especially body fluids liquids or waste water, on microorganisms.