UA90393C2 - Aerator - Google Patents

Abstract

An aerator comprises at least two flowing chambers, each is equipped with pressure and outlet tubes for liquid and tube for gas absorption, besides outlet tubes through bushings are connected with perforated nozzles, having equally spaced from one another holes of equal diameter, making up 0.08-0.10 of pitch distance between neighboring holes. Bushings are made in a form of equal tee, the outlet of which is equipped with tube, oriented to the side of more pure current of ambient liquid. Besides the distance from tube axis to the first hole of nozzle is equal to the pitch between neighboring holes. Such aerator structure gives a possibility to absorb less polluted liquid, reduce to minimum the silting degree of aerator and maintain stationary flow along its length for long time.

Description

filling of the working bodies with particles of debris that is sucked into the environment, and the deeper it is located, during the operation of the aerator. This obsta- aerator, the faster the probability of its wine grows, creates the need for frequent cleaning of siltation. After passing a certain interval of the aerator, the intensity of its use imposes certain restrictions on the time sphere as the device silts up. turbulence of the gas-liquid flow in the cavity of the

The well-known aerator containing the expander unit is lowered, due to which the uniformity with the flow chamber, made with pressure, and the created curtain is disturbed. Therefore, in order to maintain the efficient operation of the aerator with the outlet nozzles and the gas distribution unit, it needs a periodic liquid mixture. The expansion unit is equipped to clean, which requires a lot of water pressure pipeline and is made in terms of appearance and time. in several flow chambers equipped with air- The basis of the invention is the task of a raised nozzle and placed on a water-pressurized pipeline. The gas-liquid distribution unit of the aerator by improving the structural mixture has the form of perforated nozzles on the bulging version of the unit, which performs the function of the small nozzle of the flow chambers (patent of the Russian Federation Mo of the additional suction chamber, in particular, on 2270174062, МПКУ:СО2Е7/00, ВО1Е13/ 02, published in giving the bushing the shape of an equal passage tee and

Bul. May 5, 2005|. equipping its outlet with a tube oriented in

The structural performance of this aerator is the side of a cleaner flow of the surrounding liquid, in a more perfect way compared to the above, as a result of which the possibility of drawing in is ensured. daily to the minimum degree of siltation of the drain aerator and protection of fish fry from getting into the water and, as a result, maintaining a stationary flow of intake, and also for obtaining gas-liquid mixtures along its entire length for a long time. in other areas of technology, for example, in the production of bitumen. But this aerator, like the previous one, has the same drawback in the aerator, which includes at least two - during operation, it sucks in the flow chambers, each of which is equipped with a pressure washer, a lot of debris, which negatively affects the and outlet nozzles for liquid and the nozzle of its work performance and leads to a lack of gas suction, and the outlet nozzles require periodic cleaning of the installation. connected to perforated nozzles through bushings,

The prototype of the invention is the Aerator, which has holes equidistant from each other and includes at least two flow chambers, each of the same diameter, which is (0.08-0.10) in size, of which it is equipped with pressure and discharge nozzles of a step between through adjacent holes, according to the liquid requirement and a pipe for suction of the reptile, the bushings are made in the form of an even-passing trivet, and the outlet pipes are through the bushings of the connector, the outlet of which is equipped with a tube, or with perforated nozzles that have oriented in the direction of a cleaner flow of the surrounding equidistant from each other holes of the same diameter, while the distance from the axis of the tube to the diameter, which is (0.08-0.10) of the size of the step between each hole of the nozzle is equal to the size of the step between adjacent holes (patent of Ukraine Me 83572, adjacent holes.

MIKU: СО2Е7/00, VO1Е13/00, VO1Е3/04, publ. The technical result mentioned above, which has been published on July 25, 2008 in Bull. Мо 141. is carried out in the process of operation of the proposed

The form of fastening provided for in this design is determined by the features that distinguish the perforated nozzle (through the sleeve, which describes perforation from the features of similar aeration devices) ensures the formation of additional according to the known state of the art, in particular, in the suction chamber on the distribution node of the invention, taken as a prototype. aerator, where the function of the latter is performed by nasa- In the proposed construction of the aerator, the sleeve, dky. In addition, the presence of such an additional suction, which, in fact, is an additional suction of the cam chamber, allows you to compensate for the reduced flow, devoid of perforated holes that distort the pressure, which in the absence of a sleeve according to the laws of the sleeve of a known design. It is made in hydrodynamics, it would always take place in the transition zone in the form of an equal passage tee, and the water of the suction-flow chamber into the distribution node (it is perforated to its cavity through an elongated nozzle). In the end, due to such nocks of the tube, the outlet of the bushing, and the free end of the design features of the aerator construction, the tube is positioned so as to bypass the pressure, pre-contaminated layer of the surrounding liquid. That is, the tube capable of flowing out through nearby openings is oriented over the most silted and gas-liquid emulsion mass, as at its end. Re-contaminated substance. Under these conditions, the result of this is the creation of a uniform fine- relatively clean water that does not cause a dispersion curtain along the entire length of the aerator. damage to the device, and all the dirt remains at the bottom

But at the same time it should be noted that such a re- unmoved. This allows you to place the aerator on the result can be only in the case when the aerator works at significant depths and even in very clogged areas for a relatively short time and in a clean liquid environment without the risk of contaminating the device. In the environment. And in practice, there is a situation where all the conditions for creating a groove through the holes of the perforated sleeve to a uniform curtain along the entire length of the aerator are preserved. In this way, the aerator (or more precisely, for additional suction, the improved shape of the bushing and the presence of the shaft chamber) actively tightens the silt and the entire extension tube ensures long-term clean debris, which is always in the water life of the device and evenly, with The aerator works as follows: step by step, outflow of gas-liquid jets. When supplying liquid to the pressure pipeline

The proposed invention explains schematically the latter through the pressure nozzle 2 enters the image of the aerator. flow chamber 71, at the entrance of which is located

The aerator contains flow chambers 1, each of which has a section of smaller diameter 5, which provides a flow of liquid. Due to the expansion of the holes with 4 nozzles. At the entrance of the flow chamber 1 of the flow chamber 1, the pressure in it drops sharply and forms a section with a smaller diameter 5. A cavern is pressurized, where the sub-pipes 2 are connected to the pressure pipeline through the air chamber 4 (atmospheric air is not sucked in and dispersed. shown ). Perforated nozzles 6 are placed on the outlet nozzles C. The obtained gas-liquid emulsion through the sleeve 7 is perforated nozzles 6. The inlet ends of the perforated nozzles go to the perforated nozzle 6. In the sleeve 7 nozzles 6 are connected to the outlet nozzles Z for the emulsion is supplemented by suction through the sleeve 7, which are made in in the form of a water stream that evenly chews the tube 8 and undergoes a turbo-flowing tee, the outlet of which is equipped with a valve. This leads to the creation of a stationary chewing tube 8. Perforated nozzles have a flow of gas-liquid emulsion already at the initial opening 9 of the same diameter, which is (0.08 - the area of the perforated nozzles 6. Thus, 0.10), where H. is the distance from the axis from tube 8 to the first one, there is a uniform outflow of gas jets from the nozzle nozzle, as well as a step between adjacent holes - a liquid emulsion with a constant step Г and the formation of mi. uniform curtain. xx with ! xx "7

E Z he s I N i xx g; 3 H! I o E sei U OO sk Sho xx I o UMO ov o what I u o o ek i i N KO som vnym vmzhi 7 y E Ty iz iy x U - -

Computer layout A. Kryzhanivskyi Signature Circulation 26 approx.

Ministry of Education and Science of Ukraine

State Department of Intellectual Property, str. Urytskogo, 45, Kyiv, MSP, 03680, Ukraine

SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, Kyiv - 42, 01601