RU2200308C2 - Facility for preparation of water samples - Google Patents

Abstract

FIELD: equipment for bacteriological and helmithologic investigations. SUBSTANCE: facility for preparation of water samples has cylindrical body, lid, rubber spacer, filter. Lid is fitted with additional antimicrobic filter and pipe union to supply compressed air. Lid is attached to cylindrical body by means of bayonet joint formed by fixing arms of lid equidistant one from another along circumference of centers and by radially positioned through and equidimensional rectangular grooves located on periphery of flange of cylindrical body. Rubber spacer is put on upper collar of body. This facility prevents penetration of any microorganisms into cylindrical body together with compressed air fed into it. EFFECT: simplified and convenient handling. 2 dwg

Description

 The invention relates to equipment for bacteriological and helminthological studies.

 A device for the preparation of water samples / see A.S. USSR 1370493, M. Cl. 4 G 01 N 1/10, decl. 08/05/82, publ. 01/30/88, "Device for the preparation of a water sample".

 The known device comprises a housing with a threaded pipe and a removable plug, a cover with an additional threaded pipe, a removable plug and a sealing washer. A porous gasket with a membrane filter is installed in the housing socket. The housing and the cover are connected by a thread. To take a water sample from the cap nozzle, a cap is screwed and the device is connected to the threaded nozzle of the water supply network by means of an additional nozzle. Then, the second plug is unscrewed from the threaded pipe of the housing and the pipe is connected to the measuring vessel. Next, the test water is passed through the device.

 A disadvantage of the known device for preparing a water sample is the inability to use it for taking water samples from open reservoirs and wells. The known device provides the sampling of water and its filtering only under pressure from the water supply network.

 A known device brand PVF-35, designed for vacuum filtration, manufactured by the company "Vladipor". The known device contains a vacuum pump, open funnels into which the test liquids are poured. A filter membrane is installed in the lower detachable part of each funnel. The funnel is connected to a vacuum pump through a pipe located below the filter membrane and a flexible hose. Under the influence of the vacuum created by the pump, the test liquid, in particular water, is filtered through a membrane.

The disadvantages of the known device are:
- the possibility of microorganisms entering the test fluid from the external environment;
- low filtration performance due to low pressure dilution / 0.6 bar /;
- the dependence of sampling on the availability of a source of electricity;
- significant weight and cost of the device.

 The closest in technical essence and the achieved positive effect to the claimed technical solution is a filter press, designed to filter highly viscous liquids / cm. P.I. Resurrection. Laboratory engineering, 9th edition, Chemistry Publishing House, Leningrad Branch, 1970, p. 544-457 /.

 The filter press contains a cylindrical body equipped with a hinged lid, which, when opened, rotates on free hinges. A rubber gasket is placed between the cover and the body.

 The cover is pressed against the housing with a screw screwed into a hinged bracket that rotates around the trunnions welded to the filter housing.

 A conical bottom is welded to the bottom of the casing, equipped with a pipe to drain the filtrate. A filter cup is installed inside the housing, the bottom of which is perforated with holes of small diameter. The cup with the edge of its bottom rests on a rubber ring that creates a seal between the cup and the filter housing.

 A filter cloth or paper is placed in a glass. A tube was introduced into the hole of one of the pins for supplying compressed gas into the cylindrical body. The filtering process is carried out in the following sequence. A filter cup with a filter is installed in a cylindrical housing. The beaker is filled with filtered liquid. Close the lid of the filter press and press it to the housing with a screw. Then, by means of a compressor or from compressed gas cylinders, an excess of atmospheric pressure is created inside the cylindrical body. The filtered fluid passes through the filter and the holes in the filter bowl. The filtrate flows through a drain pipe into a measuring tank.

The disadvantages of the known press regarding the inventive device for the preparation of water samples are:
- the possibility of penetration with compressed gas entering the cylindrical body, any microorganisms that distort the result of the study of the liquid;
- the complexity of the design of the node clamp the cover to the cylindrical body;
- significant metal consumption of the clamp unit of the cover and the complexity of the technological cycle.

 The technical result of the invention consists in eliminating these drawbacks, namely, in eliminating the possibility of any microorganisms getting into the cylindrical body with compressed gas entering the cylindrical body, simplifying the design of the cover clamp assembly to the cylindrical housing, reducing the metal consumption of the cover clamp assembly, and reducing the laboriousness of the technological cycle.

 The technical result is achieved in that in a device for preparing a water sample containing a cylindrical body, a cover, a rubber gasket, a filter, according to the invention, the cover is equipped with an additional antimicrobial filter and a fitting for supplying compressed gas, and the cover is secured to the cylindrical body by means of a bayonet connection.

 Providing the device cover with an additional antimicrobial filter allows you to protect the test fluid, which is poured into the cylindrical body, from any organisms from the external environment, in particular, being in compressed gas used to force the fluid through the device.

 The supply of the cover with a fitting for supplying compressed gas allows you to feed the latter into the volume in the gas stream to the antimicrobial filter.

 Fastening the cover to the cylindrical body by means of a bayonet connection allows to simplify the design of the device, reduce its metal consumption by reducing the number of parts of the cover clamp assembly, and reduce the complexity of the technological cycle by reducing the time it takes to clamp the cover to the cylindrical body.

 The device is easy to manufacture, does not require special equipment. The proposed device allows to ensure the reliability of the studied water samples by eliminating the ingress of microorganisms from the external environment and to increase the productivity of laboratory tests.

 The inventive device for the preparation of water samples has a novelty and inventive step, since when searching the sources of patent and scientific and technical documentation, the applicant did not identify technical solutions in which the device cover would be equipped with an antimicrobial filter and a fitting for supplying compressed gas, and fixing lids on the cylindrical body would be carried out using a bayonet connection.

 The inventive device for the preparation of water samples is widely applicable in laboratories of sanitary and epidemiological stations and water treatment plants.

 The design of the device allows you to organize its mass production. Therefore, the proposed technical solution meets the criterion of "industrial applicability".

 The essence of the claimed device is illustrated by drawings.

 Figure 1 shows the main view of the device, in the context of the frontal plane; figure 2 is a top view of the device / in plan /.

 A device for preparing water samples comprises a cylindrical body 1 having an external threaded thread in the lower part. A lower cover 2 is screwed onto the lower part of the casing, on the inner collar of which is a porous gasket 3. A membrane filter 4 is placed on top of the porous gasket 3. A device cover 5 is applied to the upper part of the cylindrical casing 1. Between the cover 5 and the housing 6 of the cover is a sealing gasket 7 made of easily deformable porous rubber. At the same time, the height of the sealing gasket 7 in the free state should exceed the size A between the flange of the cylindrical body 1 and the cover 5 by a certain amount, depending on the elasticity of the gasket 7 and providing the necessary seal.

 An antimicrobial filter slot 8 is welded into the lid housing 6, consisting of a porous pad 9 and a membrane filter 10.

 The antimicrobial filter is sealed with a rubber gasket 11. The gasket 11 is pressed by the fitting 12 due to the threaded connection between the filter socket 8 and the fitting. The flange 13 is made flats 13 for the open end wrench. At the periphery of the flange of the housing 6 of the cover 5, at least three fasteners 14 are soldered or welded, equally spaced from each other along the circumferences of the centers of the latches and radially arranged. At the periphery of the flange of the cylindrical body 1, at least three through and equal-sized rectangular grooves 15 are made radially spaced and equidistant from each other in accordance with the distance from each other of the latches 14.

 The scheme for preparing water samples is as follows.

 A porous gasket 3 is placed on the flange of the lower cover 2. A membrane filter 4 is placed on it. Then, the cover 2 is screwed onto the lower part of the cylindrical housing 1 until the end of the housing stops against the filter 4. The test liquid is poured inside the cylindrical housing 1. Further, the cylindrical body 1 is mounted on a special stand / not shown in the drawings /. On the flange of the socket 8 of the housing 6 of the cover 5, a porous gasket 9 and a membrane filter 10 are laid. The rubber gasket 11 is placed on the latter. Next, the fitting 12 is held by an open-end wrench for the flats 13 and the housing 6 of the cover 5 is screwed onto it. In this case, the screwing force should be sufficient to creating a reliable seal between the fitting 12 and the filter socket 8. A gasket is laid on the upper shoulder of the cylindrical body 1. 7. Next, the assembled cover 5 is inserted by the guide collar 16 inside the cylindrical body 1. In this case, the latches 14 should be located on top of the grooves 15 made on the flange of the cylindrical body 1.

 By pressing a hand, the gasket 7 is deformed until the latches 14 exit beyond the lower plane of the housing flange 1.

 Then, the cover 5 is rotated relative to the housing 1 by an angle, which secures the latches 14 to the lower plane of the flange of the housing 1. In this case, the compression of the elastic gasket 7 seals the inner space of the cylindrical housing 1 and, due to the reactive force of the compressed gasket, holds the cover 5 on the housing 1 Next, the device for the preparation of water samples is connected via a nozzle 12 and a flexible hose to a source of compressed gas, which can be used as a compressor, a manual pump, a compressed cylinder boiled gas. In this case, the following gases can be used as a working fluid: air, argon, nitrogen.

 When compressed gas is fed into the cylindrical body, it is cleaned with an antimicrobial filter consisting of a membrane filter 10 and a porous gasket 9. The purified compressed gas, exerting pressure on the test liquid, presses it through the membrane filter 4 and the porous gasket 3. In this case, the filtered liquid expires through a through hole in the bottom cover 2. After filtering the test fluid, the device is disconnected from the pneumatic actuator. The bottom cover 2 is unscrewed, a water sample is removed with sterile tweezers and sent for examination.

The advantages of the proposed device for the taken water samples are:
- the exclusion of microorganisms in the environment from being tested in the environment, including the compressed gas used in the process of filtering the liquid, which increases the reliability of the studies;
- an increase of 2–3 times in comparison with the PVF-35 device, the rate of liquid filtration due to the use of compressed gas for this process;
- simplification of the design of the clamp unit of the cover to the cylindrical body;
- reducing the metal node clamp cover to the housing;
- reducing the complexity of the technological cycle;
- improving the working conditions of laboratory assistants when using cylinders as a source of compressed gas;
- portability and portability;
- the ability to use the device in the field and in emergency situations.

Claims (1)

 A device for preparing water samples, comprising a cylindrical body, a cover, a rubber gasket, a filter, characterized in that the cover is equipped with an additional antimicrobial filter and a fitting for supplying compressed gas, and the cover is secured to the cylindrical body by means of a bayonet connection formed by cover latches equally spaced from each other around the circumference of the centers, and radially arranged through and equal rectangular grooves located on the periphery of the cylindrical flange housing, the rubber gasket is located on the upper housing turners.

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