RU107148U1 - AERATOR - Google Patents

Abstract

 1. An aerator comprising a tubular body with an aeration membrane sleeve located on its outer surface, an installation frame and an L-shaped structure, characterized in that a plug is installed at one end of the tubular body, which is connected to the installation frame on the other side, inside plugs are made holes for directing the air flow from the pipe connected to it for supplying air to the surface of the tubular body under the aeration membrane sleeve. ! 2. The aerator according to claim 1, characterized in that the aeration membrane sleeve is rigidly pressed by the rings to the plug on one side and to the tubular body on the other hand. ! 3. The aerator according to claim 1, characterized in that the frame for installation is made in the form of a pipe. ! 4. The aerator according to claim 1, characterized in that the pipe for supplying air is attached to the frame for installation. ! 5. The aerator according to claim 1, characterized in that the pipe for supplying air is connected by means of a coupling to the air distributor. ! 6. The aerator according to claims 1 and 2, characterized in that it further comprises a bracket for fixing the aerator in a certain position, attached to a ring that presses the aeration membrane sleeve to the tubular body. ! 7. The aerator according to claims 1-6, characterized in that all its structural elements: a tubular body, a frame for mounting, a plug, a pipe for supplying air, two rings, an arm for fixing, a coupling made of polypropylene. ! 8. The aerator according to claim 1, characterized in that the connection plugs with a tubular body, a frame for mounting, a pipe for supplying air, pipes for supplying air with a frame for mounting are made by welding.

Description

The inventive utility model relates to structural elements of compact installations for biological wastewater treatment of separate industrial and civil buildings, namely, devices for aeration of wastewater.

The aerator is designed to enrich wastewater with atmospheric oxygen, which is necessary to maintain the vital functions of microorganisms involved in the biological treatment process.

The prior art aerator for compact biological wastewater treatment plants, comprising a perforated tubular frame with an external dispersing coating and a bend-shaped nozzle for supplying compressed air made of a polymer material (patent RU No. 47879, C02F 3/06, published on 09/10/2005, .)

The disadvantages of this aerator include inconvenience during installation, a possible change in its position during installation, the use of stainless steel fasteners, which are characterized by low corrosion resistance in aggressive wastewater and fragility, loss of air pressure during installation operation.

Also known is an aerator for compact biological wastewater treatment plants, comprising a perforated tubular frame with an aeration sleeve, a connected pipe for supplying compressed air, and plugs installed at both ends of the frame on which the ends of the aeration sleeve are fixed using polypropylene rings. Moreover, the tubular frame and pipe are also made of polypropylene. (patent RU No. 79552, C02F 3/00, publ. 10.01.2009)

The disadvantages of this aerator include inconvenience during installation, a possible change in its position during installation, loss of air pressure during installation.

The closest analogue adopted for the prototype is an aerator containing a perforated tubular body with a dispersion coating, a knee-shaped pipe, an L-shaped frame made of sheet polymer material. At the same time, a perforated tubular body with a dispersant coating and an elbow pipe is fixed to the small shoulder of the L-shaped frame, and a flexible pipe is fixed to the long shoulder of the frame with a connecting device for connecting to the pressure line for supplying compressed air connected to the knee-shaped pipe. (patent RU No. 54585, C02F 3/06, publ. 07/10/2006)

The disadvantage of this aerator is the lack of rigidity, reliability and tightness of the structure, as well as the loss of air pressure during installation.

As practice shows, the aeration sleeve or dispersion coating has the ability to pass water through micro-holes, which leads to filling the inner cavity of the perforated tubular body of the aerator with water. This fact leads to the fact that there are undesirable costs of air pressure and compressor power to purge the aerator, and this reduces the total power of the entire air system of the biological wastewater treatment plant.

The inventive utility model solves the problem of creating an aerator for a compact installation of biological wastewater treatment, which has increased reliability, efficiency, ease of installation.

The technical result, manifested when using the proposed aerator, is to reduce the loss of air pressure, increase the stiffness, durability of its design, increase the ease of installation, improve the quality of wastewater treatment.

This object is achieved in that the proposed aerator comprises a tubular body with an aeration membrane sleeve located on its outer surface, a frame for mounting and has an L-shaped design. A plug is installed at one end of the tubular body, which is connected to the frame for mounting by the other side. Moreover, inside the plug holes are made for directing the air flow from the pipe connected to it for supplying air to the surface of the tubular body under the aeration membrane sleeve.

Also, a distinctive feature of the aerator is that the aeration membrane sleeve is rigidly pressed by the rings to the plug on one side and to the tubular body on the other side.

The pipe for supplying air by means of a coupling is connected to the air distributor and, to enhance the rigidity of the structure, is attached to the frame for mounting made of a polypropylene pipe. The aerator further comprises a bracket for fixing the aerator in a specific position, attached to a ring pressing the aeration membrane sleeve to the tubular body.

In this case, all the structural elements of the aerator: a tubular body, a frame for mounting, a plug, a pipe for supplying air, two rings, brackets for fixing, a coupling is advisable to increase stiffness, tightness, reliability of the structure from polypropylene, and the connection of the plug with a tubular body, frame for installation, an air supply pipe, an air supply pipe with a frame for fastening to be performed by welding.

The essence of the claimed utility model is illustrated by a graphic image of the aerator.

The aerator comprises a tubular body 1, not perforated, made of a polypropylene pipe in a specific example, with an aeration membrane sleeve 2 located on its outer surface. The pipe of the body 1 is welded to the plug 5 at one end and in the free state from the other, which reduces weight of the aerator itself. When placing the aerator in the installation, the hollow pipe of the housing 1 is filled with water, thereby eliminating the possibility of the aerator floating. The plug 5 has the form of a cylindrical boss. Rings 8 and 9 firmly press the aeration membrane sleeve 2 on one side to the plug 5, on the other hand to the pipe of the housing 1. An air supply pipe 6 is welded into the plug 5, which is connected to the air distributor by means of a sleeve 7 (not shown in the drawing). Holes 5 were drilled in the plug 5 (indicated by thin lines in the drawing) to direct the air flow from the pipe 6 connected to it to supply air to the surface of the tubular body 1 under the aeration membrane sleeve 2. In a specific embodiment, a plug was drilled in the plug 5, perpendicular to the axis of which drilled another communicating hole to which the pipe 6 for supplying air. Also, four holes communicating with it are drilled perpendicularly to the inner hole, which serve to draw air to the surface of the pipe of the housing 1.

The aerator contains a frame for mounting 3, which is used as a polypropylene pipe. Two frames welded to the pipe for mounting 3 brackets 4 provide for fastening the aerator to the body of the biological wastewater treatment plant. A plug 5 is welded to the bottom of the tube of the frame for mounting 3, the opposite end of which is rigidly connected to the tubular body 1. As a result, a rigid L-shaped structure for the aerator is formed, which allows the aerator to be securely fixed in a certain place, preventing its position from changing during operation . A pipe 6 for supplying air is attached to the mounting frame 3. An arm 10 is welded to the ring 9, which is designed to fix the aerator in a certain position.

All structural elements of the aerator are the pipe of the housing 1, the pipe from which the frame for mounting 3 is made, the plug 5, rings 8, 9, brackets 4, 10, the coupling 7 are made of polypropylene, because it is a material that has high corrosion resistance, durability, lightness, is well processed, that is, it is the most suitable material for use in an aggressive wastewater environment.

The principle of operation of the aerator is as follows. The air supplied by the compressor (not shown) through the distributor (not shown) enters the pipe 6, then through the holes in the plug 5 it enters the surface of the pipe of the housing 1 located inside the aeration membrane sleeve 2. As it accumulates under pressure, air passes through the holes aeration membrane sleeve 2 and enters the water, resulting in aeration.

The use of the proposed utility model eliminates the loss of air pressure and ensures its correct distribution, ensures reliable fastening of the aerator in a certain place of the biological wastewater treatment plant, which does not allow changes in its position during operation, guarantees a high service life of the installation.

Claims (8)

1. An aerator comprising a tubular body with an aeration membrane sleeve located on its outer surface, a mounting frame and an L-shaped structure, characterized in that a plug is installed at one end of the tubular body, which is connected to the mounting frame on the other side, inside plugs are made holes for directing the air flow from the pipe connected to it for supplying air to the surface of the tubular body under the aeration membrane sleeve. 2. The aerator according to claim 1, characterized in that the aeration membrane sleeve is rigidly pressed by the rings to the plug on one side and to the tubular body on the other hand. 3. The aerator according to claim 1, characterized in that the frame for installation is made in the form of a pipe. 4. The aerator according to claim 1, characterized in that the pipe for supplying air is attached to the frame for installation. 5. The aerator according to claim 1, characterized in that the pipe for supplying air is connected by means of a sleeve to the air distributor. 6. The aerator according to claims 1 and 2, characterized in that it further comprises a bracket for fixing the aerator in a certain position, attached to a ring that presses the aeration membrane sleeve to the tubular body. 7. The aerator according to claims 1-6, characterized in that all its structural elements: a tubular body, a frame for mounting, a plug, a pipe for supplying air, two rings, an arm for fixing, a coupling made of polypropylene. 8. The aerator according to claim 1, characterized in that the connection plugs with a tubular body, a frame for mounting, a pipe for supplying air, pipes for supplying air with a frame for mounting are made by welding.