CS216656B2 - Swimming supporting structure particularly for the surface aerating of liquids particularly 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

The invention relates to a floating support structure, in particular for surface aeration of liquids, in particular water, which is provided with a support frame for accommodating in particular an aeration device towards the inclined support beams and connecting beams, wherein floats, in particular coatings, are fastened in joints of the connecting beams . The floating structure according to the invention is furthermore suitable for carrying any device whose mass is symmetrically broken about its vertical axis.

Floating structures of this kind are also required, depending on requirements, on larger water bodies, where they are exposed to stronger waves and higher wind pressure. Therefore, one of the basic requirements imposed on these structures is good navigational stability, for which the basic prerequisite is a low-lying center of gravity and a high-lying metacentre of the structure.

Known constructions of this kind, used in particular as carriers of aeration devices, can be divided into three basic groups. The first group includes supporting structures mounted on an annular float, the structures of the second group are mounted on horizontally mounted cylindrical floats, and finally, the third group includes structures supported on three or more floats.

These three principle design possibilities can be combined with one another by various solutions, for example, it is known to mount the structure on an annular float which is still stabilized by means of added floats, e.g. in the TAUL 6 float aerator.

The load-bearing structures of all three groups rely on floats whose load depends on the weight of the machinery, the moments occurring during the start-up and operation of the machinery, as well as the many additional stresses caused by external forces, for example caused by waves and the like.

For example, floating support structures carrying surface or depth aeration devices belonging to the third group are known. One of these known structures is described in the description of the invention to Swiss Patent No. 529,697, having a surface aerator mounted on the retaining structure, wherein the retaining structure is pivoted on support legs which are articulated; floats are located at the ends of the support legs. The position of the surface aeration device above the water surface can be adjusted by means of a hydraulic or mechanical adjuster.

The floating supporting structure is protected against undesirable forces from the lateral directions. damping elements for damping rocking. For this acquaintance. In addition, the load-bearing structure is characterized by the fact that in winter months, ice and icing are removed from the floats by electric heating elements.

Another supporting structure carrying aeration devices and floating on the surface is described in the inventions descriptions of Swiss patents Nos. 489,436 and 468,939. With its ability to float on the surface of the liquid, it should be able to constantly monitor fluctuating water level during intermittent operation and intermittently and intermittently aeration, wherein the device is to efficiently biologically oxidize the activated sludge and to provide the possibility of draining the purified water and sediment sludge and filling the tank. These known devices are usually small and can be. use only in closed tanks or tanks placed in a protected location.

A characteristic feature of the devices known and used hitherto is their complicated and expensive production and the fact that their fields of application are more or less limited in terms of technology and in terms of their mounting. These devices are generally not usable in unfavorable conditions. conditions, such as on lakes or rivers where there are larger waves, or are only applicable with the aid of complicated auxiliary measures to at least partially compensate for the basic deficiencies of equipment and structures. The immersion of the aeration device into the liquid cannot either be regulated at all or is a regulating device. too complicated to set the aerator immersion depth. Thus, it is quite clear that the operating and maintenance costs of the known devices and constructions are quite high.

When examining mechanical. the relationships between the known structures have been practically valid; All types of structures known hitherto and in that the carcass of the load-bearing structure formed of tubes or a similar steel bar material is subjected to bending, shear and, under dynamic operating conditions, loads on turkeys. The dynamic load occurring at the moment the aeration engine is started and also as the rotational movement of the rotating parts of the machinery accelerates, results in the floating structure entering. circular motion. During these initial movements the load-bearing structure is stressed. torque resulting from the inertia of floats and hydraulic resistors,. and during operation of the device, the supporting structure is loaded with a rotating load. to the torque of the engine that strains it to the turkey

a. bend. The bending forces under this stress lie in planes perpendicular to the planes in which the bending moments lie under static load. During operation, both types of stress are added together and the bearing cross section of the stressed parts must have a considerably higher moment of inertia, which is reflected in the. increase the net weight of the whole structure. Such a heavy supporting structure is located above the liquid level so that the center of gravity of the entire structure is too high above. levels. . These considerably impair the stability of the structure, in particular. stability . swimming.

The object of the invention is to solve the problem of increasing the stability of the floating supporting structure, which should be. plus simple and easy. production, assembly, operation. i. maintenance should be considerably simpler than the known designs of this. type. Floating bearing structure would be extra. should be versatile ’and applicable in any environment.

This object is achieved by the floating support structure according to the invention, in particular intended to support an aeration surface device for the aeration of liquid, in particular. water, which consists of a carrier. frame. . to accommodate the aeration device, from inclined support beams facing the water surface, and from connecting beams,. with which the supporting elements are connected. . beams and to whose joints floats are attached, in particular floats. The essence. . The supporting structure according to the invention consists. . in that the support beams arranged on the. . the edges of the truncated pyramid are their ends. They are connected on the one hand to the support frame and on the other. with joints at the ends. connecting beams. the joints are formed. joint bodies placed. at intersections. longitudinal axes of connecting beams. and the floating supporting structure is hinged to the floats by its joint bodies. According to a preferred embodiment of the invention, the support beams form an angle with the support frame corresponding to the angle of liquid exit from the top of the aeration race. wheels. According to another. In a preferred embodiment of the invention, the rigid joints between the abutments. Beams and joints with detachable joints. and the floats are located above the joint bodies.

Floats can be formed. hollow bodies filled with foamed plastic and their. height position above the joints. is particularly adjustable. The supporting structure is formed according to another. feature of the invention from beams. a circular cross-section, wherein. the supporting beams are. formed from two parts, each other. connected by movable sleeves. To the joint. Supporting elements can be connected from below to the bodies. the shoe and according to the last aspect of the invention there is a connection to the joining beams 216656

S on the baffle tube to direct the flow of liquid.

The support structure according to the invention is 30 to 40% lighter than other previously known support structures for carrying aerators and other water aeration devices. Roughly two thirds of the entire supporting structure is submerged, so that the floats have to carry a load that is reduced by the weight of the displaced liquid volume, and therefore the dimensions and the weight of the floats can be reduced.

Another advantage of the support structure according to the invention is the adjustability of the floats, which at the same time means that the depth of immersion of the aeration wheel can be adjusted.

The floats of the support structure according to the invention are designed in such a way that they do not limit the area reserved for the impeller of the aeration device, and therefore any type and size of impeller can be easily used. The construction according to the invention furthermore permits a flow of liquid which is favorable in terms of efficient aeration of the liquid.

The floating load-bearing structure can also be used on larger water bodies and can carry, inter alia, an aeration device for the enrichment of water in reservoirs and watercourses with oxygen, and is also suitable for water surfaces with varying water levels. The load-bearing structure according to the invention performs reliably even in adverse weather conditions, in winter and in strong waves.

1 shows a side view of the support structure, FIG. 2 shows a top view of the same exemplary embodiment of the support structure, and FIG. 3 shows an embodiment of the device for vertically adjusting the floats on an enlarged scale, with half of this detail is in longitudinal section and the other half in side view.

The support structure according to the invention carries, in the exemplary embodiments, an aeration impeller 8 connected to a motor drive unit 9, which is fixed to the support frame 1 of the support structure. The inclined support beams 2 are attached to the support frame 1 by rigid joints, whereby the rigid joints connecting the ends of the inclined support beams 2 to the support frame 1 can be detachable joints.

The angle of inclination of the inclined support beams 2 to the plane of the support frame 1 is chosen in the illustrated embodiment such that the water jets emerging from the aeration impeller 8 impinge on the support beams 2 at an angle such that water droplets are not sprayed upwards. Spraying water particles and water spray are harmful to machinery and unpleasant to the environment when aerating waste water. In cold weather, the operating nebula and the technological parameters of aeration are adversely affected by the water nebula.

The inclined support beams 2 are located at the edges of the intended truncated pyramid and are connected at their opposite ends by means of rigid joints, in particular dismountable joints, to the joint bodies 4, to which two ends of the joint beams 3 are also connected. The entire supporting structure is hinged on the floats 5, which are formed in particular by piovatkaml, by its gussets 4. Support shoes 6 extending below the lower level of the support structure are attached to the lower part of the link bodies 4. Underneath the aeration impeller 8 is located a deflection tube 7 for channeling the flow of liquid to the impeller 8, which is preferably attached to the connecting beams 3. In the exemplary embodiment of the supporting structure, the inclined supporting beams 2 are split and may be dismountable.

FIG. 3 shows an exemplary embodiment of an adjusting device for vertically adjusting the floats 5. A spindle 10 is guided in the float body 5, the lower end of which is connected to the joint body

4. The height of the float 5 and thus the height of the entire supporting structure above the surface is adjusted by turning the adjusting nut 11 screwed onto the external thread of the spindle 10. Above the adjusting nut 11 is a rubber cap 12 which protects the screw connection from adverse environmental influences. FIG. 3 also shows a preferred embodiment of the float 5, the shell of which is filled with foamed plastic 13.

The support structure according to the invention is conveyed and lowered to the surface of a tank or other water surface as a completely assembled unit. Since the support structure is in fact suspended from the floats by means of nail bodies 4, which are located underneath the floats 5, approximately two thirds of the entire support structure is located below the water level. The corresponding height of the aeration impeller 8 above the liquid level is adjusted by means of the adjusting nuts 11 of the floats 5. The support shoes 6, located below the nipples 4, serve to secure the structure and only apply when the structure abuts on a rigid support for any reason. to the bottom of the liquid reservoir, ie tank, pond, river, etc., when the water level drops.

As can be seen from the exemplary embodiment, the support structure according to the invention is indeed simple, simple to manufacture and universally applicable. They do not need to have special operating conditions, and maintenance and repair are very easy by replacing replaceable and releasable parts. 'Two thirds of the structure' are 'below the surface, which increases the stability of the structure' s swimming because its center of gravity is substantially closer to the surface. The stability of the structure's swimming is further enhanced by the fact that the metacentre of the load-bearing structure with the associated equipment is far from its center of gravity.

The supporting structure according to the invention, consisting of vertical joint bodies 4, inclined support beams 2 and horizontal connecting beams 3, assumes the static load from the machine in the form of tensile and shear acting on the bar beams, whereas in previously known structures the beams of the supporting structure having large spans loaded by bending moments. The dynamic load from the forces occurring during the engine start-up and the waves is transmitted to the support beams 2, which are subjected to eccentric pressure. Because they are

Claims (9)

SUBJECT Floating support structure, in particular surface aeration of liquids, in particular water, comprising a support frame for fastening the aeration device, inclined support beams and connecting beams in whose joints floats, in particular floats, are attached, characterized by that the inclined support beams (2), located at the edges of the intended truncated pyramid, are connected at their ends to the support frame (1) and to the joint bodies (4) and the joint beams (3) are connected to the joint bodies at their ends [ 4], wherein all joints are rigid joints and the joint bodies (4) are located at the intersections of the longitudinal connecting beams (3) and the floating supporting structure is suspended by its joint bodies (4) on the floats (5). Floating support structure according to claim 1, characterized in that the inclined support beams (2) form an angle with the support frame [1] corresponding to the liquid outlet angle emerging from the top of the aeration impeller. Floating support structure according to claim 1, characterized in that the rigid joints of the supporting beams (2) and the connecting beams (3) are connected at their ends by rigid joints to the joints 4 in the planes of external forces, no angular rotation occurs. - fixed - fixed cross-sections of supporting beams -2. Therefore, it is possible to make a mutual connection of the two parts of the split support beams 2 very simply, the two split parts can - for example be connected to each other - by means of sliding sleeves. It can be seen from the exemplary embodiment of the support structure according to the invention that - the total weight of the structure can be reduced by 30 to 40% and also - the dimensions of the floats 5 can be reduced, contributing to the fact that a substantial part - water. The support structure of the invention may be embodied in other alternative - exemplary - embodiments that fall within the scope of the invention. OF THE INVENTION are detachable joints. , 4. - Floating structure according to point 1, characterized in that the joint bodies. (4) are located under the floats (5). 5. Floating structure - according to point 1, characterized in that - the floats (5) consist of hollow bodies filled with optionally foamed plastic and their height above the joint bodies (4) is adjustable. 6. Floating structure according to point 1, characterized in that its supports (2, 3) are formed of rods of circular cross-section. 7. Floating structure according to point 6, characterized in that the inclined support beams (2) are divided and the two parts are connected to each other by sliding sleeves. Floating support structure according to claim 1, characterized in that support shoes (6) are connected to the joint bodies (4). 9. Floating structure according to point 1 or 2, characterized in that a baffle tube (7) is connected to the connecting beams (3) to direct the liquid flow to the aeration device.