UA124064U - NIPPLE OR AUTOMATIC NIPPLE FOR DRYING LIQUIDS - Google Patents

Abstract

The pipette nozzle or automatic liquid pipette, for example, has a blade with a concave lower edge, has an opening inside, and is adapted for mounting at the end of a pipette or automatic pipette.

Description

The useful model belongs to medicine and biology and can be used in the work of clinical, cytological and pathohistological, microbiological laboratories, in medical and biological educational institutions when processing (staining) mounted on slides histological, cytological, hematological, microbiological preparations and other biological samples for further research.

Diagnostic methods of biological material mounted on a glass slide are used in clinical and research work. These methods, as a rule, consist in preparing a preparation of a biological sample, staining it according to the diagnostic task (criterion) method and studying the preparations under a microscope. Performing these procedures in clinical practice and research laboratories is usually carried out with a large number of glasses, which takes a lot of time and is a routine, time-consuming procedure. When performing diagnostic methods, time is of great importance both for the patient who is being diagnosed and for the reliability of the results obtained, when it comes to the clear execution of the prescription in time, according to which the actual staining of the drugs is carried out. Also important when performing diagnostic methods are the conditions under which staining is carried out, which is essentially a chemical reaction of the applied reagents with the chemical components of the biological material. At the same time, standardization of the volumes of used reagents when performing the same repetitive actions is of great importance.

During the staining of preparations, it is important to apply the dye evenly and in sufficient volume to the samples of biological material mounted on the slide.

Equipment for the specified purposes is known from the state of the art. For example, an eye drop pipette containing a tube made of translucent material with a tapered distal end and a canister of resilient material mounted on the proximal end of the tube is described (VO 55282 01, 10.08.2006). This device allows you to apply the reagent to the glass slide only in individual drops and does not distribute it evenly over the entire surface of the sample of biological material.

Also known is the automatic dosing pipette (5) 1763002 (AT), 23.09.1992), which consists of a housing, a dosing unit, which contains a nozzle with an axial channel fixed in the lower part of the housing, and a resilient rod installed with the possibility of axial movement, on the end a part of which is fixed with an elastic pad and a replaceable tip installed under the nozzle. A cavity in the form of a spherical segment is made in the upper part of the nozzle. This design is not intended for uniform distribution of liquid over the drug. Also, the disadvantage of this design is the complexity of the device.

Document NO 1018711, 23.05.83 discloses a pipette consisting of a cylindrical body, which has a spout with an inlet at one end. The upper part of the pipette is connected to a rubber bulb. This pipette does not allow you to quickly cover the drug with an even layer of the reagent.

The general disadvantage of these devices is that during the application of the dye on the glass there is a risk of damage to the biological material mounted on the glass and uneven distribution of the reagent on the surface of the preparation.

The state of the art contains information about another device for distributing the applied dye on the Eire spatula preparation (GOST R 57005-2016 Diagnostics in oncology; perz//lmebr.agspime.ogd/lmer/20120504110414/pNr://teatapt.ogu/Kaiaiod/27opaugodepinaIpuv/ 5Prayvi-eiga), which has a concave shape of the lower edge of the spatula, thanks to which the dye is evenly and safely distributed on the glass for the biological sample fixed on the glass. The disadvantage of the specified technical solution is that the spatula is used to evenly distribute the reagent previously applied to the glass. Thus, it is necessary to spend time first on applying the dye to each individual glass, and then on distributing the dye on each glass.

The task of the useful model is to create a device, thanks to which it is possible to carry out methods of staining a large amount of biological material mounted on glass slides.

At the same time, the device should be such as to ensure the simultaneous application of a sufficient volume of dye to the biological sample mounted on the slide and its uniform distribution on the slide (biological sample), standardized and fast application of the dye without damaging the biological sample, economical use of reagents. The device should be relatively easy to use. The proposed device must be made of available materials, which will determine its availability for use in any laboratory.

The task is solved by the fact that the nozzle for a pipette or an automatic pipette for applying liquids to a sample, which has a blade-like shape with a concave lower edge, has a hole inside and is adapted for mounting on the end of a pipette or an automatic pipette.

According to the useful model, the nozzle is connected to the pipette through an opening.

According to a useful model, the pipette or automatic pipette, on which the nozzle is mounted, has a balloon or other device for collecting (injecting) liquid at the opposite end.

A pipettor or automatic pipettor nozzle is designed for applying liquids to a biological sample mounted on a glass slide. The nozzle 2 has a blade-like shape with a concave lower edge, has a hole 3 inside, and is adapted for mounting on the end of the body 1 (glass pipette, Pasteur pipette, automatic pipette, etc.) (Fig. 1). The body 1 is hollow inside and is made in such a way that the cavity of the nozzle 2 and the cavity of the body 1 are coaxial with each other (Fig. 1-2). The body 1 at the opposite end has a cylinder 4 or another device for collecting (suction) liquid (Fig. 1).

The manufactured nozzle 2 has the appearance of a spatula with a hole C in the middle, flattened and concave on the lower edge (Fig. 1). The nozzle is mounted with a hole on the lower end of the housing 1, the upper end of the pipette is equipped with a rubber balloon 4 or another device for collecting (suction) liquid (Fig. 1-2). The nozzle 2, the body 1 and the cylinder 4 contain a coaxial internal cavity, which allows collecting liquid 7 (dye solution) (Fig. 1-3). The nozzle 2 allows you to apply the dye to the glass slide 5 without damaging the biological sample and at the same time distribute the drug evenly over its surface (Fig. 2-3). The size of the nozzle 2 corresponds to the width of the glass slide 5 with the biological sample 6. The balloon (pear) 4 is chosen in such a size that the collected solution 7 is enough for one glass 5 or for several preparations (glasses) (Fig. 2-3).

An example of the implementation of a useful model 2

A sample of biological material (cytological smear or print, histological section, microbiological smear, etc.) is mounted on a slide and fixed.

The finished dye is drawn into the device with a nozzle 2, using a balloon 4 or an automatic pipette (Fig. 1-2). Then apply the lower edge of the nozzle 2 to the edge of the object glass 5 and push it in the direction 8 from this edge along the glass to the field for inscription (Fig. 3). During this action, they press on the cylinder 4 with the dye 7 (Fig. 2-3). The latter passes through the internal cavity of the device, enters the gap between the concave edge of the nozzle 2 and the glass 5 (Fig. 2). As a result, the dye solution is evenly distributed over the surface of the glass slide 5, that is, over the surface of the biological sample and forms a continuous layer (Fig. 3). The operation is carried out

From alternately on all drugs. The same volume of dye is used. The biological material 6 is not damaged, because the concave edge of the nozzle 2 always leaves a gap between the surface of the glass slide 5 and the nozzle 2 (Fig. 2).

Claims (3)

USEFUL MODEL FORMULA 1. A pipette or automatic pipette nozzle for applying liquids to a sample, having a paddle-like shape with a concave lower edge, having an opening inside and adapted to be mounted on the end of a pipette or automatic pipette. 2. The nozzle according to claim 1, which differs in that the nozzle is connected to the pipette through an opening. 3. The nozzle according to claim 1, which differs in that the pipette or automatic pipette on which the nozzle is mounted has a cylinder or other device for collecting (injecting) liquid at the opposite end.