RU180046U1 - PETRI DISH - Google Patents

Abstract

The utility model relates to veterinary microbiology, and in particular to laboratory equipment for the cultivation of microorganisms. The most effective is the use of a Petri dish with a lock for the cultivation and identification of microorganisms, determining their sensitivity to antibiotics. The Petri dish contains a container 1, a cover 2, the grooves 3 on the outer side surface of the container 1 are made at an angle of 45 ° in the form of a L-shaped towards its base and are located opposite each other. The protrusions 4 on the inner side surface of the lid 2 are equidistantly located relative to the grooves and are cylindrical in shape, the diameter of which is equivalent to the width of the grooves 3 on the outer side surface of the container 1. The proposed Petri dish can be successfully used in microbiological studies in veterinary laboratories, laboratory and practical classes and scientific research at the departments: epizootology, parasitology and veterinary and sanitary examination, microbiology. 1 ill.

Description

The utility model relates to veterinary microbiology, and in particular to laboratory equipment for the cultivation of microorganisms. The most effective is the use of a Petri dish with a lock for the cultivation and identification of microorganisms, determining their sensitivity to antibiotics.

Known Petri dish in standard sizes, consisting of two identical in shape, but different in size parts - halves (a smaller container with a bottom for nutrient media and a larger size - the lid) made of glass [Workshop on Veterinary Microbiology and Immunology. / T.S. Kostenko, E.I. Skarshevskaya, S.S. Gitelson. - M .: Agroiromizdat, 1989. - S. 88].

Also known are Petri dishes of a typical shape made of glass, but of different sizes [Microbiological control of animal meat, poultry, eggs and their processed products: Reference. / S.A. Artemyeva, T.N. Artemyev, A.I. Dmitriev et al. - M .: Kolos, 2002. - S. 42].

-образных пазов, выполненных напротив друг друга на наружной стороне боковой поверхности емкости.Known Petri dish (PM 69066, IPC S12M 1/00), consisting of two identical in shape, but different in size containers and lids made of transparent plastic. The Petri dish is equipped with a lock in the form of two protrusions made opposite to each other on the lid on the inside of its lateral part and two

-shaped grooves made opposite each other on the outside of the side surface of the tank.

A disadvantage of the known cup is the need for the laboratory assistant to work with two hands: with one hand hold the lid, and the other with a container for their subsequent connection, which leads to the time spent on conventional manipulations.

Known Petri dish (PM 173791, IPC С12М 1/00), consisting of two identical in shape, but different in size containers and lids where two protrusions are located opposite each other on the inner side surface of the lid, and opposite each other on the outer side surface of the container - two grooves, and the protrusions are located equidistant relative to the grooves, and on the outer side surface of the tank, the grooves are made at an angle towards its base, the protrusions on the inner side surface are cylindrical in shape with a diameter equal to the width of the grooves. This Petri dish is selected as a prototype.

When working with Petri dishes of such a model, their unintentional opening with subsequent additional seeding by microflora of nutrient media is not ruled out, which may distort the research results. As a rule, such results are not taken into account and the work is performed repeatedly. The latter is often impossible to duplicate under experimental conditions, for example, when analyzing the microbial contamination of a wound discharge at certain times after surgery, for timely and justified postoperative antibiotic therapy.

The technical result of the utility model is the elimination of this drawback, reducing the time for conventional manipulation.

The technical result is achieved due to the fact that on the inner side surface of the lid there are two protrusions opposite each other, and on the outer side surface of the container opposite to each other - two grooves, and the protrusions are equidistant relative to the grooves, on the outer side surface of the container the grooves are made at an angle of 45 ° in the form of a L-shaped shape towards its base, the protrusions on the inner side surface have a cylindrical shape with a diameter equal to the width of the grooves, and the grooves are made with the possibility of pressure when these projections to ensure a snug fit the lid to the container.

The essence of the proposed Petri dish is shown in the drawing, where in FIG. 1. presents its general view.

The Petri dish contains a container 1, a cover 2, the grooves 3 on the outer side surface of the container 1 are made at an angle of 45 ° in the form of a L-shaped towards its base and are located opposite each other. The protrusions 4 on the inner side surface of the lid 2 are equidistantly located relative to the grooves and are made of cylindrical shape, the diameter of which is equivalent to the width of the grooves 3 on the outer side surface of the tank 1.

The use of a Petri dish is described by the example of studies of the dissemination of microflora of wound discharge after osteosynthesis in dogs and cats and is carried out as follows. The capacity of 1 sterile disposable transparent plastic dish is filled with meat peptone agar (not shown). Sowing is carried out with a bacterial loop (not shown) of the material obtained from the separated surgical wounds, for example, on the 3rd day, after osteosynthesis of the tibia in a dog. After that, the capacity 1 of the Petri dish is covered with a lid 2, after sending its protrusions 3 into the grooves 4. Thanks to the grooves 3, made at an angle of 45 ° in the form of a L-shaped form, into which the protrusions 4 are inserted, a tight fit of the lid 2 to the tank 1 is observed. that is, the usual position of the components of the known Petri dish assembly is respected. The lid 2 is securely closed due to the location of the protrusions 3 in the upper position, L-shaped grooves 4, which prevents the inadvertent opening of the Petri dish when it is moved to the thermostat. The displacement of the lid relative to the container for any reason excluded the Petri dish before taking into account the results when working with it. This mobilizes the researcher to prevent undesirable consequences, for which the operating mode changes (pace and technique of habitually repeated manipulations), and after closing the lid, work continues in the preset lock mode on the cup. As a result of the application of the proposed Petri dish, it was established: the exclusion of unintentional opening of the Petri dish and the reduction of time for conventional manipulations.

The proposed Petri dish can be successfully applied during microbiological studies in veterinary laboratories, laboratory and practical studies and research in the departments of epizootology, parasitology and veterinary and sanitary examination, microbiology.

Claims (1)

Petri dish for the cultivation of microorganisms, consisting of two cylindrical containers made of transparent plastic of different sizes and a lid, where two protrusions are located on the inner side surface of the lid and two grooves on the outer side surface of the container opposite each other, the protrusions are located equidistantly relative to the grooves and have a cylindrical shape with a diameter equal to the width of the grooves, and the grooves are configured to insert protrusions into them to ensure a tight fit of the cover to the tank, characterized in that on the outer side surface of the tank, the grooves are made at an angle of 45 ° in the form of a L-shaped in the direction of its base.

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