CS243189B1 - Elastic membranes clamping device - Google Patents

Abstract

The essence of the device according to the invention resides in that the support plate has a top and bottom circumference sides chamfered and flexible membrane, mounted on the carrier plate from above, it is clamped ring. The flexible membrane is folded, reinforced and shaped edge so that the top the surface of the diaphragm passes through the radius in the circumferential the edge from which the bevel is created the bottom of the thickened folded edge.

Description

The invention relates to a device for clamping flexible membranes, in particular dispersing or aerating elements.

As industry develops and the standard of living of the population increases, so does wastewater production and pollution. In order to preserve the environment, the increase in wastewater is being forced to be treated, even for small pollution sources. Therefore, various industrial or municipal wastewater treatment plants are currently being developed.

One important part of a wastewater treatment plant, whether industrial or municipal, is dispersing or aerating elements for dispersing gas in a liquid, where it is used for chemical or biological processes of dispersed gas, or gas is used to mix reactor contents or process tanks . For example, mechanical stirrers, perforated tubes, various porous ceramic materials or rubber membranes with different perforations are used for this purpose. The disadvantages of the aeration or dispersing elements used are, in most cases, considerable energy requirements, difficult maintenance of the equipment after prolonged operation or difficult assembly or disassembly in the event of equipment failure.

Particularly suitable for small cleaning devices are rubber aeration or dispersing membranes of different perforations, which, as separate parts of the device, are light, mobile and least energy consuming. Their main disadvantage is clamping, for example, between two flanges connected by several screws, or clamping by means of a flange to the reactor jacket or mixing tank. After several weeks of operation, the surface of the bolts and nuts is contaminated by the liquid in the tank, making assembly and disassembly of the membranes difficult and annoying. The assembly of shaped membranes which are attached, for example, to their shaped edges, is suitable only as long as they are not elements to greater depths in the liquid, where greater gas pressure must be used for aeration or dispersion. When used to a greater depth and thus need higher gas pressure, the membrane slips off.

Disadvantages of the current clamping system of rubber, nylon or other resilient membranes are eliminated by the device according to the invention, characterized in that the support plate has a chamfered periphery of the upper and lower sides, while a clamping ring bears against the resilient membrane mounted on the support plate. The resilient diaphragm has a folded, thickened and shaped edge so that the upper surface of the diaphragm passes through the radius to the peripheral edge.

An advantage of the device according to the invention is that no flanges and screws are required, as is the case with existing devices. By clamping the diaphragm by inserting the clamping ring, the replacement of the elastic diaphragm is considerably accelerated and simplified.

An exemplary embodiment of the device according to the invention is shown in the accompanying drawings, in which Fig. 1 shows an exemplary assembly of an aeration element with a flexible membrane clamping device according to the invention; Fig. 2 shows an embodiment of an aeration element plate; ring.

The carrier plate 2 has chamfered edges from above and below, whereby an edge forming its largest diameter is formed at the periphery of the plate. A flexible diaphragm 2 ^{with a} thickened and shaped edge is mounted on the support plate 2. A clamping ring 2 is mounted on the flexible diaphragm 2. A pressure gas is supplied via the support plate 2 under the diaphragm 2, which tensiones the perforated diaphragm 2, through whose holes gas passes into the liquid. The edge of the diaphragm 2 is also tensioned by pressure, which is pulled between the support plate 2 ^{and the} clamping ring 2 by pulling in the thickened portion of the diaphragm due to the edge shape and the bevel of the support plate 2.

The distribution of forces due to the shape of the membrane 2 and the bevelled supporting plate 2 directs the direction of the forces prevailing in the membrane in the direction perpendicular to the rotational axis of the supporting plate 2 · This force intercepted upí3 NaCl ring 2 ^and allow pulling out of the membrane 2. Once the gas pressure drops below the membrane reduces power 2_ In the edge of the diaphragm 2 and the clamping ring 3, the diaphragm 2 can be removed by hand, or the diaphragm 2 can be replaced and replaced by the ring 3. ,

Claims (2)

SUBJECT OF THE INVENTION An apparatus for clamping flexible membranes, in particular dispersing or aerating elements, comprising a support plate, a flexible membrane and an inlet throat, characterized in that the support plate (1) has a chamfer perimeter on both the upper and lower sides, on the support plate (1), the clamping ring (3) engages. Device according to claim 1, characterized in that the elastic diaphragm (2) has a folded, thickened and shaped edge such that the upper surface of the diaphragm (2) passes through a radius into a circumferential edge from which a bevel is formed to the bottom of the thickened folded edge.