NL8100598A - DEVICE FOR INFLUENCING A FLUIDUM. - Google Patents

Description

* I

-1- 21750 / CV / tl

Applicant: Toyo Denki Kogyosho Co. Ltd. of Fukuoka, Japan.

Brief Designation: Device for stirring a fluid.

The invention relates to a device for stirring fluid in order to deposit precipitates in the liquid in a reservoir in which water is stored, which contains uncured concrete slurry, lime or the like or water, such as dirty water, which contains many polluting components. float or float.

A conventional fluid stirring device has the disadvantage that it is difficult to achieve sufficient uplift of precipitates because a stirring force generated does not penetrate sufficiently and evenly from the periphery of a stirring body 15 along the total bottom surface of a fluid reservoir with the result that the force is converted into an upward flow.

The present invention has been perfected from a viewpoint of obtaining a solution to the above problem and of aiming to obtain an improved fluidic stirring assembly having a stirring effect sufficient to obtain a rapid and thorough flotation of deposits.

In accordance with an aspect of the invention, there is provided a fluid agitation device having an underpowered motor with an output shaft extending downward and on which a impeller is fixedly mounted, while a pump jacket mounted on the lower end portion of the motor surrounds the impeller and includes an inlet port in its lower end and one or more discharge ports in its peripheral wall, while the position and number of the discharge ports are made variable.

According to a further aspect of the invention, there is provided a device for stirring fluid comprising an underwater motor with an output shaft on which a impeller is fixed, while on the lower end portion of the motor there is a pump jacket which jacket is provided with an inlet port 35 in the bottom end and one or more discharge ports in the circumferential wall thereof and wherein the position and number of the discharge ports is variable 81 00 59 8 -2-2750 / CV / tl and the end portion of the output shaft extends through the inlet port and a stirring blade is fixedly mounted on the extension of the shaft thus obtained.

The invention will be explained in more detail below with reference to some exemplary embodiments of the construction according to the invention shown in the accompanying figures.

Fig. 1 shows a front view of an exemplary embodiment of the construction according to the invention.

Fig. 2 shows a front view of a second exemplary embodiment 10 of the invention.

Fig. 3 shows a longitudinal section in which important parts of the exemplary embodiment shown in FIG. 2 are shown.

Fig. 4, 5, 6 and 7 show bottom views of embodiments of the present invention, each of which is provided with a different pump-jacket.

Fig. 8 shows a front view of an exemplary embodiment of the invention in which no perforated screen is used.

Fig. 1 shows a first exemplary embodiment of a device according to the invention provided with a motor 2, which can be used under water, of a completely waterproof type and provided with an output shaft 3 on which a impeller 1 is fixed. The impeller 2 is placed in the water during use with the output shaft 3 extending downwards. A pump casing 6 is arranged on the underside of the motor 2, such that this casing now surrounds the output shaft 3 and the impeller 1 substantially concentrically. The pump casing 6 is provided with an inlet port 4 in the middle of its bottom side and one or more discharge ports 5 are arranged on the circumferential wall of the casing, as best shown in fig. 4-7. On the underside of the casing 6 there is a perforated screen, which is provided with a number of openings of a desired diameter and which is attached to the lower end of the pump casing. The sieve 7 is then supported on the bottom wall of a water reservoir with the aid of a frame 10.

In the second exemplary embodiment of the construction according to the invention as shown in Figs. 2 and 3, the lower end portion 35 of the output shaft 3 of the motor 2 to be used underwater is extended downwards and thereby extends through the inlet port 4 of the 81 0 0 59 8 -3- 21750 / CV / tl pump casing 6 and a central through hole 8, which is arranged in the screen 7, while a stirring blade 9 is fixedly attached to the end portion of the output shaft 3.

An injection nozzle 12}, indicated by dotted lines, 5 is coupled to each of the discharge ports 5 in the pump casing 6 by means of a flange coupling, as indicated in fig. 1 and 2. The injection nozzle 12 is designed to freely shift its direction of injection by changing its angular position relative to the circumference of the flange surface of the discharge port 5.

A flexible hose 13 of a desired length may be provided on the protruding end of the nozzle 12. Alternatively, the flexible hose 13 can be fitted in place of the nozzle 12. Since in both cases the flexible hose 13 twists and turns under the influence of the counterforce of the water, the random movement of the injection direction of the nozzle 12 will be further promoted.

The operation of the fluid agitation device is as follows. In the first exemplary embodiment of the present invention, which does not use a stirring blade, the device is immersed in the water, which is stored, for example, in a water reservoir and contains many precipitates, the device being in a suitable position on the bottom of the reservoir. Then the motor 2 is started. The activation of the motor 2 causes a rotation of the impeller 1 fixed to the output shaft 3 of the motor 25 so that the water around the perforated screen 7 together with precipitates accumulated underneath is forcibly drawn into the pump casing 6 through the openings of the sieve 7 and the inlet port 4 of the jacket 6. The water and precipitates sucked into the jacket 6 are then discharged through the discharge port 5 and the injection nozzle 12 and / or the flexible hose 13 in the form of a jet stream in the reservoir in a predetermined ridting, for example, a direction perpendicular or parallel to the bottom surface of the reservoir or in an upward direction, whereby the water and the precipitates within the reservoir are subjected to a violent agitation of the water jet.

In the case of the second exemplary embodiment of the invention, in which use is also made of the stirring blade 9, the stirring assembly is actuated at least in substantially the same manner as in the case of the first embodiment. In deviation from the first exemplary embodiment, however, here the output shaft 3 of the motor 2 is also provided with a stirring blade 9 on the end portion thereof, such that this stirring blade 9 is rotated together with the impeller 1. By using such a construction, the rotation of the output shaft 3 can provide a considerably greater stirring force than the output shaft of the first exemplary embodiment. Namely, if the rudder blade 9 is rotated simultaneously with the impeller 1, the water under the perforated sieve 7 is forced to move οφ to the blade 9, thereby being fed forcefully in the direction parallel to the bottom surface of the reservoir through the blade 9. The energy present in this moving water gives a sufficient stir of precipitates built up on the bottom of the reservoir to produce a turbulent flow causing the precipitates to be suspended in the water. Such a tubulent flow is conducted in the upward and radial direction by the counterforce of the bottom and moves to the perforated screen 7. The turbulent flow is then forcibly drawn into the pump casing 6 through the openings of the perforated screen · 7 and the inlet port 8 by the rotation of the rotating impeller 1 and is then discharged as a jet stream into the reservoir through the discharge port 5 and the injection nozzle 12 and / or the flexible hose 13, whereby the water in the reservoir will be agitated.

In the two exemplary embodiments described above, the direction and number of the injection nozzles 12 can be optionally adjusted by changing their angular position relative to the circumference of the flange of the discharge port 5. This makes it possible to either distribute evenly effect the entire bottom of the reservoir or cause only a local disturbance with respect to the surface of the bottom of the reservoir on which significant amounts of deposits have accumulated. In addition, the provision of the flexible hose 13 allows any variation of the injection direction of the drained water into the reservoir. This ensures rapid violent and even driving of precipitates, which have accumulated not only on the surface of the bottom of the reservoir under the stirring assembly, but also on other 81 00 59 8 -5- 21750 / CV / tl parts of the bottom while also preventing a redeposition of material suspended in the water.

Although the invention has been described with reference to certain embodiments, the invention is not limited thereto, but modifications and / or additions may be made to it within the spirit and scope of the invention.

10 81 00 59 8

Claims (4)

1. Fluid stirring device comprising an underwater motor with a downwardly extending output shaft on which a impeller is fixed and a pump jacket mounted on the lower end portion of the motor and fitted with a inlet port. the bottom end and at least a discharge port in the circumferential wall thereof, characterized in that the position and number of the discharge ports is made variable. Device according to claim 1, characterized in that a perforated screen is arranged on the bottom end of the pump casing. 3. Fluid stirring device comprising an underwater motor with an output shaft on which a impeller is fixed and a pump jacket mounted on the lower end of the motor, comprising an inlet port in the lower end and a or more discharge ports in the circumferential wall, characterized in that the position and number of the discharge ports is made variable, while the lower end portion of the output shaft is extended below the inlet port of the pump casing and a rudder blade is fixed at this projecting end is attached. Device according to claim 3, characterized in that a perforated screen is arranged on the bottom end of the pump casing and the lower end portion of the output shaft is extended through the inlet port of the pump casing and through a through bore, which is provided in the sieve. 81 00 59 8