SE447065B - DEVICE FOR MIXING A LIQUID IN A RESERVE - Google Patents

Description

15 20 25 30 35 40 447 065 2 submersible motor 2 of a completely waterproof type is provided with an output shaft 3 on which a paddle wheel 1 is fixedly mounted, and placed in the water with the output shaft 3 directed downwards. A pump housing 6 is attached to the underside of the motor 2 in such a way that it concentrically surrounds the output shaft 3 and the impeller 1. The pump housing 6 is provided at its underside with a centrally located inlet opening 4 and at its peripheral wall with one or more outlet openings 5. , as best seen in Figures 4-7. At the underside of the housing 6 a perforated suction screen 7 is arranged which has a plurality of openings of suitable diameter and which is attached to the lower end of the pump housing.

The suction screen 7 bears against the bottom wall 11 of the water reservoir by a frame 10.

In the second embodiment of the invention shown in Figs. 2 and 3, the lower end portion of the output shaft 3 of the submersible motor 2 extends downwards through the pump housing 6 inlet opening 4 and through a central through-hole 8 formed in the suction screen 7, and a stirring vane 9 is fixedly mounted on the end portion of the output shaft 3.

An injection nozzle 12 indicated by dash-dotted lines is connected to each of the outlet openings 5 in the pump housing 6 by means of a flange coupling as shown in Figs. 1 and 2. The injection nozzle 12 is arranged to freely change the injection direction by changing its angular position relative to the flange surface. periphery of the outlet opening S. A flexible hose 13 of suitable length can be mounted at the extended end of the nozzle 12. Alternatively, the nozzle 12 can be replaced by the hose 13.

Since in either case the flexible hose 13 is assigned a meandering movement when absorbing the force from the water, the random movement of the injection direction of the nozzle 12 is further increased.

The operation of the fluid mixer according to the invention is explained below. In the first embodiment of the invention where no agitator was used, the fluid mixer is immersed in a reservoir of water containing large amounts of deposits, and is placed in position on the bottom wall of the reservoir. Then the underwater motor 2 is started up. The impeller 1 begins to rotate, see that the water around the perforated suction strainer 7 together with the underlying deposited deposits with Pool: oqapxfrï f '10 15 20 25 30 35 40 447 065 3 force is sucked into the pump housing 6 through the openings of the eugeil 7 and the inlet opening of the housing 6. The water and the deposits sucked into the housing 6 then flow out through the outlet opening 5 and the injection nozzle 12 and / or the flexible hose 13 as a liquid jet into the reservoir in a predetermined direction ( for example, perpendicular to or parallel to the bottom surface of the reservoir, or in an upward direction), whereby the water and the deposits in the reservoir are exposed to a strongly mixing effect from the hydrogen tank.

According to the second embodiment, in which the stirring vane 9 is used, the fluid mixer operates in substantially the same manner as stated above. In contrast to the present embodiment, however, the output shaft of the motor 2 is also provided with the agitator vane 9 at the end portion of the shaft in such a way that the vane 9 rotates together with the impeller wheel 1.

Thanks to this construction, the output shaft 3 obtains a considerably greater mixing force compared with the output shaft of the first embodiment. Namely, when the agitator paddle 9 is rotated simultaneously with the paddle wheel 1, the water below the perforated suction strainer 7 will be brought upwards towards the paddle 9, and by this to be forcefully fed in a direction parallel to the bottom surface of the reservoir. The energy of this flowing water effectively mixes the deposits accumulated on the bottom of the reservoirs, thereby creating a turbulent current so that the deposits suspend in the water. This turbulent flow is controlled upwards and radially by the counter-forces from the bottom wall, and is moved towards the perforated suction strainer 7. The turbulent flow is then sucked forcibly into the pump housing G through the openings of the parforated suction strainer 7 and through the inlet port B to as a result of the rotation of the impeller wheel 1, and then flows out as a water jet into the reservoir through the outlet opening 5 and the injection nozzle 12 and / or the flexible hose 13, whereby the water in the reservoir mixes strongly.

In the above-mentioned first and second embodiments, the direction and number of the injection nozzles 12 can be changed as desired by changing their angular angle relative to the lens periphery of the outlet opening 5. This allows either a uniform mixing over the entire bottom of the reservoir, or only local mixing at an arrangement on the bottom of the reservoirs PQQR 447 065 4 on which enormous amounts of deposits are accumulated.In addition, the arrangement with the flexible element 13 enables partial alteration of the direction she water aprutaa into the reservoirs.This ensures rapid, vigorous and uniform flotation of deposits which not only during an operation under the fluid mixer on the bottom of the reservoirs, but also over the entire bottom, which prevents re-accumulation of substances suspended in the water.

Claims (1)

A device for mixing a liquid in a reservoir, comprising a submersible motor (2) with a downwardly extending output shaft (3), a pump cap (6) connected to the lower end of the motor (2) with an output shaft shaft faet arranged impeller (1). an inlet opening (4) at the lower end of the pump head (6) and the atminatoon an outlet opening (5) at the periphery of the pump head (6), characterized by an open frame (10) arranged at the lower end of the pump head (6) for a lower support device. on the bottom of the reeervoirs with the lower end of the pump head (6) on the tooth from the bottom, a stirring roller (Q) arranged on a lower extension of the output shaft (3) in the area of the open frame (10) between the lower end of the head (6) and at least one eprut nozzle (12) loosely connected to an associated outlet opening (5) for generating a hydrogen etral in the reevoro, the eprut direction hoe the aprut nozzle (12) being variable by changing this angular position relative to the outlet opening. ).