HU177147B - Floating supporting structure for the surface aeration advantageously of liquids,mainly of water - Google Patents

Abstract

A floating support structure, e.g. for surface aerators of water or for other floating structures, consists of a frame on which the aerator is mounted. This forms the narrow end of a truncated pyramid, formed by tubes along the side edges of the pyramid, and joined to nodal points of the base tubes. These nodal points are the attachments for the floats on which the whole unit is suspended. The floats are preferably hollow or opt. filled with a plastics foam. This is simple and lightweight construction. It is easy to mfr., to instal and to service and can be universally applied independent of the environmental conditions.

Description

FIELD OF THE INVENTION The present invention relates to a floating support structure, preferably for surface aeration of liquids, in particular water. The floating support structure is also suitable for supporting a float with any device symmetrical about its vertical axis.

Depending on the stresses involved, such structures can be placed on larger water surfaces, where they are also exposed to higher wave surges and wind pressure. Good floating stability, which requires a low structural center of gravity and a high metacentre, is therefore a requirement.

The structures developed and commonly used for the purpose of the present invention fall into three main groups:

1. Support ring on float ring body.

2. Horizontal support for cylindrical floats.

3. Supporting structures for three or more buoys,

Combination solutions have also been developed between the three groups, for example, supplemented with ring buoy stabilizing buoys. (TAUL-6 float aerators for Tatabánya Coal Mines.)

The supporting structures in each of the three groups rely on floating bodies and are derived from the weight of the machine equipment, the starting and operating torques and the various additional forces exerted, for example, by the movement and waving of the water surface.

It is known to use a floating support device of the present invention, in which the surface or deep aeration of the liquid is a group 3 design. Such is the case, for example, in Swiss Patent No. 529,697, in which the surface aerator is mounted on a support structure to which the support legs are connected by means of hinges. At the end of these are the floats. The position of the surface aeration relative to the liquid level can be controlled by a hydraulic or mechanical actuator.

The floating support structure is protected against unwanted lateral forces by the use of shock absorbing elements. It is also common to prevent the floating bodies from freezing during the cold period by means of electric heating.

There are also solutions (e.g., Swiss Patent Nos. 489,436 and 468,939) in which the floating support structure of the aeration device has the functional function of allowing the surface of the liquid to float and thereby follow the current level of the liquid. aeration, alternate aeration, activated sludge biological oxidation, purified water and sludge removal and recharging. These devices are usually used in smaller pools and, in any case, in indoor or sheltered pools.

Typical of conventional equipment is that it is complex and therefore expensive in structure, and its field of use is more or less limited technologically and in terms of location. In most cases, they cannot be used under more difficult environmental conditions (ripples on lakes, rivers, etc.), or they try to overcome this disadvantage with sophisticated and limited accessory equipment. The immersion of the aeration device in the liquid is either uncontrollable or the solution developed for this purpose is complicated. This also implies a higher need for operation and maintenance of conventional equipment.

Examining the mechanical conditions of conventional equipment as a general characteristic, it can be stated that the supporting structure of a pipe or other steel structure frame is also subject to bending, shear or torsional stress under dynamic and operational loads. In the case of a dynamic start-up load, the float structure begins to circulate until the port rigging is tensioned under the effect of the acceleration torque of the machinery. In this initial movement, the force resulting from the inertia and hydraulic resistance of the float bodies, and in the operating state, the torque generated by the machinery, loads the support structure by twisting and bending. The plane of this bend is perpendicular to the plane of the bend resulting from the static load. This composite load requires a relatively high inertia cross-section which results in a higher structural weight. At the same time, the heavy-weight support structure is located above the surface of the liquid, thereby moving the center of gravity further away from the liquid level. This in turn destroys the stability of the structure, especially the stability of the float.

SUMMARY OF THE INVENTION The object of the present invention is to provide a solution in which, with good float stability, a lightweight and simple structure can be used which is considerably simpler and less expensive to manufacture, assemble, operate and maintain. In addition, the floating support structure may be used more extensively and to a lesser or lesser extent under environmental conditions.

BACKGROUND OF THE INVENTION The present invention relates to a floating support structure, preferably to a surface aeration of liquids, in particular water, having a support frame, optionally designed for the aeration device, downward support and connection supports, and a float body, preferably a buoy. It is typical of the invention that the support brackets, which are arranged in the shape of the edges of a stubble, are attached to the support frame & nodes, and the connecting brackets are rigidly clamped at the ends of the supports. Otherwise, the nodes are at the intersection of the axes of the support brackets and the brackets. The support structure is also suspended from the floats at the junctions.

In a preferred embodiment, the support supports are attached to the support frame at an angle that depends on the exit angle of the liquid particle leaving the upper part of the aeration wheel. In another preferred embodiment, the rigid clamps are of a releasable design. In another preferred embodiment, the nodes are located below the float bodies. Preferably, the float bodies are hollow, optionally filled with foamed plastics, such as polyurethane foam, and can be adjusted in height relative to the nodes.

In one embodiment of the supporting structure, the supports are of tubular cross-section. In a further preferred embodiment, the support supports can be divided by a flanged joint. In further preferred cases, support legs may be attached to the support, or a flow deflector is connected to the connector supports.

The invention is exemplified by one example. 1 is a side view, Fig. 2 is a top view, and Fig. 3 is an example of the vertical adjustability of the float body. The design of the float is illustrated in detail in a semi-sectional view, enlarged in half.

1 and 2, a support frame 1 is provided for holding the aeration wheel 8 and the motor drive unit 9. Connected to the support frame 1 is one end of the support supports 2 with a rigid clamp, which in a preferred embodiment may also be a releasable connection.

The angle of the support brackets 2 relative to the support frame 1 is selected in the exemplary surface aeration so as not to cause a water spray, a liquid particle, sprayed upwards by the jet of water ejected from the auxiliary support 8. This water spray is harmful to the environment and to the machinery in the case of sewage. In cold weather, it can also adversely affect the operational safety and technological parameters of aeration.

The support supports 2 are arranged in accordance with the edges of a stubble. At their other ends, the support supports 2 are also connected to the nodes 4 by means of a rigid, preferably removable clamp. One end of each of the two brackets 3 is also fixed here. * The nodes 4 are formed at the intersection of the axes of the support brackets 2 and the brackets 3. The entire support structure is suspended at the nodes 4 on a float body 5, preferably a buoy, by means of a node 4 below the float bodies 5. The support legs 6 extending below the support structure are fixed to the nodes 4. The flow deflector block 7, which is located beneath the aeration wheel 8, is preferably mounted on the connection brackets 3. An advantageous embodiment is illustrated by the loose flange connection of the split design support brackets 2.

Figure 3 illustrates an exemplary embodiment of an arrangement for vertically adjusting the float body. Accordingly, the float body 5 has a threaded spindle which is connected at its lower end to the node 4. The level and height of the float body 5 and thus of the entire support structure can be adjusted vertically by means of a driving nut 11 on the threaded spindle 10. The rubber cap 12 is connected to the actuator nut 11 to protect the threaded connection. In the same figure, it is shown, in a preferred embodiment, that the hollow float body 5 is also filled with plastic foam 13.

The supporting structure according to the invention is operated as follows:

The support structure according to the invention is assembled as a complete unit on water. Since, in the embodiment according to the invention, the support structure is suspended on the floating bodies 5, preferably at the nodes 4 formed below them, the support structure is up to about 2/3 below the water level. The appropriate height of the aeration wheel 8 is adjusted by means of the actuating nuts 11 of the floating bodies 5. The support legs 6 formed below the nodes 4 are in fact secure; They serve their purpose only if, for any reason, for example, because of the level of the liquid, the structure would sink to the bottom of the water reservoir (pool, lake, river, etc.).

As you can see, the bracket is really simple: it is designed and widely used. : It does not require any special operating conditions, its maintenance and possible repair can be solved interchangeably and in a simple way.

2/3 of the total support is submerged in the liquid, which increases the float stability as the center of gravity of the entire device is closer to the water level. Also, the floating stability is increased by the fact that the metacentre is far away from the center of gravity in the structure according to the invention.

The structure of the nodes 4, the support brackets 2 and the connection brackets 3 takes the static load of the machine equipment in the form of pulled-pressed rods, in contrast to the long-span bent brackets of conventional solutions. Due to the dynamic start and water wave load, the support supports 8 are subjected to an offset pressure, partly due to the static load and partly to the offset torque caused by the dynamic force. However, as a result of rigid clamping, the clamping points move in the plane of the forces without angling or twisting the clamped sections. As a result, a loose flange pitch can be used on the low-torque middle section of the support brackets 2, which eliminates the need to orient the screw connection of the clamping points.

It follows from the above that a weight saving of 30-40% compared to conventional supports can be achieved, which is further increased by the fact that the water displaced by the displacement of 2/3 of the structure into the liquid results in a lower load on the floats and thus their size and weight. also decreases.

A further advantage is that the adjustability of the floating bodies 5 relative to the structure optionally provides the desired adjustment of the aeration wheel immersion.

The positioning of the floating bodies 5 is such that it does not limit the power of the aeration, so that the oxygen supply capacity of the various aeration wheels can be utilized well. In addition, the design of the structure ensures a fluid flow that is favorable for aeration.

The floating support structure is advantageous, inter alia, for aeration, oxygenation of even or variable water levels, lakes, reservoirs, streams and long-lived lakes and pools. It can withstand harsh conditions (cold weather) and major surges.

It is, of course, conceivable, within the scope of the invention, of many exemplary embodiments, which may consist of advantageous combinations of features of the invention.

Patent claims:

Claims (9)

Patent claims: A floating support structure, preferably for superficial aeration of liquids, in particular of water, which optionally has a support frame, downward support and connection supports for the aeration device, and a float body, preferably a buoy, is attached to the node arranged support brackets (2) for the support frame (1) and the nodes (4), and the connecting brackets (3) for the nodes (4) are rigidly clamped at the ends of the brackets, the nodes (4) for the support brackets (2) and the connecting brackets (2). 3) they are formed at the intersection of their axes, the support structure being suspended from the floating bodies (5) at the junctions (4). An embodiment of a support structure as defined in claim 1, characterized in that the support supports (2) are connected to the support frame (1) at an angle corresponding to the outlet angle of the liquid particle leaving the upper part of the aeration wheel. An embodiment of the support structure as defined in claim 1, characterized in that the rigid clamps are releasably formed. An embodiment of the support structure as defined in claim 1, characterized in that the nodes (4) are arranged below the floating bodies (5). An embodiment of the support structure as defined in claim 1, characterized in that the floating bodies (5) are hollow, optionally filled with foamed plastic and are adjustable in height relative to the nodes (4). 6. An embodiment of a support structure as defined in claim 1, characterized in that it is made of tubular cross-sectional supports. 7. An embodiment of a support structure as defined in claim 6, characterized in that the support supports (2) are divided by a loose flange connection. An embodiment of a bracket as defined in claim 1, characterized in that support legs (6) are connected to the hub points (4). An embodiment of a support structure as defined in claims 1 and 2, characterized in that a flow diverting tube (7) is connected to the connecting supports (3). 2 drawings Responsible for publishing: Director of Economic and Legal Publishing 824397 - Zrínyi Printing House, Budapest