RU64784U1 - INSTALLATION FOR MICROBIOLOGICAL MONITORING OF OBJECTS OF AQUATIC ENVIRONMENT - Google Patents

Abstract

The utility model relates to microbiology and can be used to conduct microbiological monitoring of water bodies. The technical result of the invention is to increase the efficiency of microbiological monitoring of open reservoirs, which is achieved by the fact that the installation selectively concentrates up to four types of microorganisms on the surface of the magnetic immunosorbents of four traps by washing them in a flow housing by supplying water from a reservoir through a pump for a predetermined time. The possibility of sampling at a distance from the coast is achieved by the fact that the installation is located on a floating platform, and the power is supplied by autonomous rechargeable batteries with LED charge indicators.

Description

The utility model relates to microbiology and can be used to conduct microbiological monitoring of water bodies.

Traditionally, epidemiological surveillance of environmental media involves taking a sample from certain places in a sterile container with waterproof plugs and sending it to the laboratory for analysis for a strictly limited time (Guidelines for the laboratory diagnosis of cholera, M., 1984).

However, these techniques do not provide a reliable system for monitoring and detecting sources of infection. In stagnant and flowing water bodies, a sample is taken in an amount of 1 liter (according to the instructions), and there will not always be a sufficient number of microorganisms in it for subsequent detection.

A known system of interconnected techniques and devices, including selective concentrated microorganisms on the surface of magnetic immunosorbents in a magnetic field by rinsing them in a flow housing (trap) when supplying liquid from a standing reservoir with a flow rate of 0.4-0.7 l / min, for a given time , transfer of a magnetic immunosorbent to a container for storage and transportation, and sending a sample to identify an infectious agent (RF Patent No. 2153173 dated 06/20/2000, Bulletin No. 20).

The disadvantage of this system is that water withdrawal for research is possible only in the coastal zone, and using one system it is possible to determine only one type of pathogen.

The purpose of the utility model is to increase the efficiency of microbiological monitoring of open water bodies due to the possibility of detecting several infections simultaneously.

This goal is achieved by the fact that several magnetic traps are used simultaneously, each of which selectively accumulates a certain type of pathogen of infectious diseases.

Distinctive features of the claimed installation is:

1. The use of three removable magnetic traps, with magneto-immunosorbents magnetized on their surfaces, allowing to simultaneously determine 3 types of pathogens of infectious diseases, depending on the type of magneto-immunosorbent.

2. The use of an additional magnetic trap, filled with magnetic immunosorbents, which is a glass tube rigidly fixed in a closed magnetic field, which increases the completeness of selection of microorganisms on them by increasing sorption ability.

3. The ability to separately adjust the speed of the water flow on a cassette with three traps and traps with a closed magnetic field due to the additional drainage from the tee to drain the water using a clamp.

4. The adjustment of the water flow through the traps is carried out directly on the installation itself, which significantly reduces the setup time and preparation of the installation for operation.

5. The floating platform on which the installation is located allows you to explore water both in coastal areas and in remote areas.

6. Autonomous rechargeable batteries, allowing to make the installation more mobile and independent of a stationary source of electricity.

7. LED indicators for discharging the battery, allowing you to control the operation of the installation at a distance, as well as in the dark.

Figure 1 (side view), figure 2 (top view) shows a diagram of the inventive installation: To place and fasten the functional units, a floating platform 1 with a size of 1000 mm × 500 mm × 80 mm with a displacement of 40 dm ^{3 is used} . Floating platform 1 is made of PSB foam. To protect the functional units from the effects of atmospheric phenomena, a protective cover 2 is used, made of organic glass with a thickness of 3 mm.

On top of the platform is attached: compartment 20 for installing two rechargeable batteries of the DT 1212 (12Ah) type with charge indicators 21, a flow-through case (cassette) 4 with three magnetically immunosorbent traps 10, a volume trap 13, a voltage regulator 6, an electric socket 5 for connecting a rechargeable battery batteries (or an external power source), anchor 3 with control device for anchor 19, centrifugal pump switch 22, electronic regulator 7 of centrifugal pump speed 18. An electronic control knob 7 is located Comrade 8.

At the ends of the flow-through housing 4 using a threaded connection and sealing with an FUM tape, fittings are fastened for fastening the silicone tube 9 between the flow-through housing 4 and the centrifugal pump 18. A copper tee 12 is connected to the outlet fitting of the flow-through housing 4 with a silicone tube 15 with a silicone tube 15 for supplying water flow to the trap 13 through the clamp 14, with a silicone tube 17 draining the water flow from the functional units of the device. To drain the water from the volumetric trap 13 is a silicone tube 16.

The method of application of the installation.

After checking the charge, the batteries are installed in the battery compartment 20. The installation is placed on the water surface of the investigated reservoir. The rotary adjustment knob 8 of the centrifugal pump sets the required water flow. The installation is turned off, magnetic traps are being charged. The installation is ready to go. The installation is towed to the required distance from the shore, where it is fixed with an anchor 3. The operation of the installation is controlled by visual observation of the charge indicators of battery 21. The installation with fully charged batteries can work for 24 hours without recharging. The total volume of water passed through the installation during this time is about 1000 liters. After the necessary operating time, magneto-immunosorbent traps are removed to transport samples for identification of pathogens.

Thus, the inventive installation is practicable, its use in microbiological practice will make it possible to conduct microbiological monitoring of open water bodies for the presence of a pathogen in both laboratory and field conditions.

Claims (1)

Installation for microbiological monitoring of open reservoirs, containing a device for the selective selection of microorganisms using magnetic immunosorbents, characterized in that three removable magnetic plugs are used, an additional magnetic trap is used, which is a glass tube fixed in a closed magnetic field, mounted on a floating platform, the possibility of separate adjust the water flow rate on the cassette with 3 traps and traps with a closed magnetic field due to supplement It is possible to drain water from the tee with a clamp, adjust the water flow through the traps directly on the device using the electronic pump speed stabilizer, the unit is powered by self-contained batteries with LED charge indicators located on the floating platform.