SU901635A1 - Fish pump - Google Patents

Description

(k) FISHING PANEL

The invention relates to a pump engineering industry, and more specifically to devices intended for pumping live fish, and can be used in fish farms for transporting young fish in pumping intake stations for diverting fish from fish protection devices as well as for loading live commercial fish into road transport. A fish pump is known, comprising a housing with a lateral annular chamber and a cylindrical shell enclosing the suction cavity, an injection pipe, an impeller mounted in the housing with blades and channels for supplying wash water, a perforated partition mounted at the impeller inlet and fixed at the end of the shell, a pipe for draining the water-based mixture, located in the discharge pipe and connected to both gulls, nozzles, fixed at the end of the pressure pipe and made in the form of a pipe would venturi t. However, the pump has a low efficiency, as it uses a vortex-type impeller that creates a large head, but has a low efficiency; there is no possibility under operating conditions to regulate the efficiency of the ejector unit formed by the nozzle and the pipeline for draining the water-fish mixture; The manufacture of an impeller with an internal cavity and a protrusion with openings is a rather complicated technological operation, which complicates the manufacture of the pump and increases its cost. The purpose of the invention is to increase the efficiency and simplify the design. The goal is achieved by the fact that the wheel is equipped with a flat ring fixed on its side surface facing the perforated partition, the channels for supplying wash water are made in the blades of the impeller and p are aligned along the curve of the Archimedes spiral, and the nozzles are connected to the end of the discharge nozzle by means of a bellows and provided with a device for adjusting the size of the gap between the nozzle and the end of the pipeline.

Figure 1 shows the fish pump, a longitudinal section; figure 2 - section aa in figure 1; on fig.Z - the working wheel, a section.

The fish pump includes a housing 1 with a side annular chamber 2 and a cylindrical shell 3 defining the suction cavity:, discharge pipe 5 installed in housing 1 impeller 6 with vanes 7 and channels 8 for supplying wash water, perforated partition 9 mounted on inlet 10 into the impeller 6 and a pipe 11 fixed at the end of the shell 3 for draining the water-feed mixture, located in the discharge pipe 5 and connected to the shell 3, of the nozzles 12 fixed at the end of the pressure pipe 5 and made in a venturi tube, the wheel (provided with a flat ring 13 fixed on its side surface facing the perforated partition 9, channels 8 for supplying wash water are made in impeller blades 7 and are arranged along an Archimedes spiral curve, and nozzles 12 are connected with the end face of the discharge nozzle 5 by means of the bellows 1A and provided with a device 15 for adjusting the size of the gap between the nozzle 12 and the end of the pipeline 11.

The fish pump works as follows.

From the water-fish mixture entering the suction cavity, part of the water is withdrawn, with which the kinematic energy communicates with the impeller 6 of the pump and which returns to the lead-in mixture, transferring to the latter a supply of energy sufficient to move the hatchery to the destination.

Under the action of the vacuum that exists in the suction cavity K of the fish pump, the water-fish mixture is suitable. to the perforated partition 9 and

divided into two streams. One stream containing the fish moves through the pipeline 11, and the second stream passes through the holes of the perforated partition 9 and enters the cavity of the impeller 6 rotating at high speed, which transfers considerable kinetic energy to it. The working water saturated with energy enters the cavity of the housing 1, passes through the annular channel between the discharge pipe 5 and the pipe 11, introduces the nozzle-12 into the confuser, where it mixes with the flow of water containing fish the movement of the water-fish mixture through the transport pipeline (not shown) to the place of destination and the lifting of the fish to the required height.

Washing the holes of the perforated septum 3 is made by the flow of water flowing out of the channels 8. Water is needed for flushing, is discharged from the cavity of the discharge nozzle 5 and is fed to the channels 8 through the Ring chamber 2. The flow rate of the septum 9 can be adjusted.

The mode of operation of the ejector formed by nozzle 12, bellow k and pipe 11 is adjusted by means of device 15. This bellows 1A contracts or expands and the gap between the confusor nozzle 12 and the end of pipe 11 changes accordingly. working water in the nozzles 12 and, therefore, changes the efficiency of the ejector.

The presence of a ring rigidly fixed on the side surface of the impeller contributes to more orderly movement of working water through the impeller cavity, in which the power of the vortices formed during the rotation of the impeller is much less than the power of the vortices in the well-known fish pump, resulting in the proposed fish pump consumes less energy and has a higher efficiency than the well-known fish pump.

Claims (1)

The location of the channels in the blades of the impeller and the implementation of their end-to-end greatly simplifies the design of the impeller and, therefore, reduces the cost of the fish pump. . The distribution of the channels along the spiral of Archimedes makes it possible to distribute them more evenly over the volume of the impeller and to improve its dynamic balancing. Qualitatively performed on dynamic balancing, as is known, reduces the dynamic effect on the shaft bearings and extends the service life of the fish pump. Claims of Invention A fish pump, comprising a housing with a side annular chamber and a cylindrical shell defining the suction cavity, a discharge nozzle, an impeller mounted in the housing with blades and channels for supplying wash water, a perforated partition mounted on the impeller inlet and fixed at the end shell, pipeline for drainage of the waterborne mixture, located in the discharge pipe and connected to the shell, fixed on the end of the discharge pipe and made in the shape of a T Venturi pipes, distinguished by the fact that, in order to improve the efficiency and simplify the design, the wheel is equipped with a flat ring fixed on its side surface facing the perforated partition, the channels for supplying wash water are made in the impeller blades and are located along Archimedes' spiral curve, and the nozzle is connected to the end of the discharge nozzle by means of a bellows and provided with a device for adjusting the gap between the nozzle and the end of the pipeline. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 732576, cl. F O O 7/0, .1978. v, phage, 1 .2. fig.Z