CZ946U1 - Liquid aeration apparatus - Google Patents

Description

Description of the technical solution.

Name of the technical solution:

Apparatus for aerating liquids

Booze techniques.

The technical solution relates to a device for aeration - fine-bubble aeration of liquids, which consists of a rubber membrane of rectangular shape provided with a number of holes of small rosmeras (perforation; fixed to the top of the compressed air distribution pipe).

BACKGROUND OF THE INVENTION.

Said device is used as an aeration element in wastewater treatment plants (WWTP) based on aeration principle. It serves to supply air in the form of fine bubbles to the contents of the waste water tank. So far, aeration elements in the form of perforated plates, porous ceramic plates, perforated tubes and hoses, disk membrane elements and the like have been used. In case of damage to these elements or their ingrowth with products from waste water, it is usually necessary to drain almost all waste water content from the waste water treatment plant. The disadvantages of some aeration elements include unfavorable pressure drop, omygenisation capacity due to their area, more difficult assembly - dismantling of the whole system and higher investment costs.

The essence of the technical solution.

These drawbacks largely to fine-bubble aeration through the rectangular rye membrane of the rectangular ry are eliminated by a fluid device consisting of a rubber cap attached to the outer surface of the compressed air distribution pipe.

The device according to this technical solution allows the air from the air distribution pipes to enter the volume of the waste water tank in the form of very fine bubbles. This achieves a high percentage of oxygen utilization from the air. The perforated rubber membranes are fixed to the surface of the compressed air distribution pipes in a number determined by the particular conditions. Compressed air is blown into one end of the pipe, while the other end of the pipe is blinded. The pipe under the rubber membrane is provided with openings for air supply and its subsequent penetration through the perforation of the membrane into the aerated tank WWTP. If the supply air pressure drops below a certain minimum value, the rubber membrane adheres to the pipe surface and closes the supply openings of the compressed air. The pipe with the rubber membranes attached is permanently provided at both ends with ropes to remove the pipe from the aerated tank when the rubber membranes need to be replaced. Cb3ah of the tank does not need to be drained and it can be replaced in full operation of the WWTP as each branch of the pressure system (pipe) is equipped with a shut-off valve.

The size and shape of the rubber rectangular membrane are determined by the suitability of use in combination with a circular tube of a certain diameter. The membrane body is reinforced at the edges by a closed rectangular frame reinforcement. The diaphragm is fixed in the direction of the axis of the air distribution pipe by two longitudinal strips abutting on two closed rectangular frames formed by the outlet of the semicircular profile. The strips are fastened to the tube body by self-tapping screws passing through the strips and the membrane through holes evenly spaced between the raised rectangular frames formed on the membrane body. The ends of the rubber diaphragm are fixed in a direction perpendicular to the axis of the pipe by means of clamping sleeves. The rubber diaphragm body is provided with a plurality of small holes (perforations) forming a rectangular array that serves to pass air from the air distribution system to the contents of the aerated tank.

Drawing overview *

The technical solution is illustrated by the drawings, in which Figs. 1 and 2 show a rubber diaphragm showing the projections and perforations, Fig. 3 the attachment of the rubber diaphragm to the outer surface of the compressed air distribution pipe, and Figs. when passing compressed air.

Examples of technical solution.

The rubber perforated membrane according to FIGS. 1 and 2 is formed by a thin rectangular rubber membrane over the circumference of the reinforced protrusions in the frame 2, at a certain degree and in the direction of the circular protrusions 3 forming on the body. two parallel closed rectangular profiles. Between these projections are provided holes 4 for sealing the membrane by means of longitudinal strips. A perforation 5 is formed on the indicated area to form fine bubbles through the air.

The rubber diaphragm < ' > according to FIG. 3 is fastened to the compressed air distribution pipe body 7 by means of bars 8 by means of self-tapping screws 9 screwed into the pipe body.

In the direction perpendicular to the axis of the tube, the rubber diaphragm is fixed by means of tightening sleeves located at both ends of the rubber diaphragm.

Figures 4 and 5 explain the principle of operation of the rubber membrane. Compressed air is supplied through openings 10 located outside the perforated portion of the membrane in the body of the tube 7 below the rubber membrane 6, penetrating through its openings (perforations) 110 of the aerated tank where it produces intense fine-bubble aeration. Due to the supply of compressed air, the diaphragm is removed from the pipe surface and the inlet openings 10 are opened. If the compressed air supply is interrupted, the rubber membrane adheres to the pipe surface and closes the inlet openings. In this way, the possible entry of waste water into the compressed air distribution is prevented,

Claims (5)

PROTECTION REQUIREMENTS Apparatus for aerating liquids, characterized in that it comprises a tube of circular (or other) cross-section (7) on the surface of which a rubber membrane (6) is fastened by longitudinally shaped strips (8) by means of self-tapping screws (9). Device according to claim 1, characterized in that the rubber membrane (6) is formed by a rectangular rubber membrane (1) having a reinforced closed rectangular frame (2) circumferentially. Device according to claim 1, characterized in that protrusions of a semicircular profile (3) forming two parallel closed rectangular profiles are formed at a certain distance from the edge of the rubber membrane (1). Apparatus according to claims 1, 2 and 3, characterized in that openings (4) are provided between the projections of the semicircular profile (3) on opposite longitudinal sides for attaching the rubber membrane (6) to the compressed air supply pipe (7). Device according to one of Claims 1 to 4, characterized in that a rectangular-shaped perforation (5) is formed on the surface of the rubber membrane (1), consisting of small holes of the same size spaced at a constant distance from each other. pW ς A