SU711228A1 - Water intake unit - Google Patents

Description

The invention relates to hydraulic structures and can be used in intake devices installed on rivers and reservoirs. A known water intake installation, including a pump, a suction pipe with a mesh web and a cleaning device 1. However, due to the absence of a device for fish and litter drainage, a large amount of sediment accumulates near the mesh fabric, which increases the resistance to water flow. Another water intake installation is known, which includes a pump, a suction pipe with a net canvas, a cleaning device and a device for removing litter and fish 2. The cleaning device in this installation is made in the form of a perforated pipeline connected to the pressure line of the pump, therefore the effectiveness of cleaning the mesh fabric is limited by the pressure the pump. If E is present, there is a significant amount of sediment and young fish in the fish net, the mesh clogs, the cleaning device does not cope with the cleaning of the web, as a result of which the productivity of the water intake unit is reduced. The purpose of the invention is to increase the capacity of the water intake unit by increasing the efficiency of washing the mesh sheet. This is achieved by the fact that in the proposed installation the cleaning device is made in the form of screw blades placed on a shaft mounted in bearings and kinematically connected to the pump shaft. The shaft of the cleaning device has an axial movement mechanism and is connected to the pump shaft by means of a screw connection. At the free end of the shaft of the cleaning device, a groove is made, and the movement mechanism includes a screw and a coupling element cooperating with the groove. FIG. 1 shows a water intake installation, a longitudinal section; in fig. 2 — node I in FIG. I; in fig. 3 is a section A-A in FIG. 1. The water intake installation contains an axial pump 1 installed in the housing 2. At 2, the suction pipe is fixed, represented 3

A casing 3 with a mesh cloth 4, at the end of the casing 3 is mounted a cochlear channel 5 with a tangenilal pipe 6 on which an ejector 7 is installed, an ejector

7 is connected to the pressure conduit 8 of the pump 1 by means of a pipe 9 having a cage 10. In the annular space between the mesh screen 4 and the casing 3, radial partitions 11 are rigidly fixed.

The 8 mesh sheet 4 contains a cleaning device, made in the form of helical blades 12 fixed to the shaft 13 by means of Kronigtes 14. The shaft 13 is mounted in the face

and the inner bearing assemblies 15 and 16. The face bearing assembly 15 includes a guide sleeve 17 and an axially movable housing 18 in which an end of an adjusting screw 19 installed in the guide bracket 20 is embedded. At the end of the shaft 13 there is an annular groove 21 in which the ring protrusion 22 is buried at the end of the housing 18. The housing 18 is a connecting element between the adjusting screw 19 and the shaft 13. The other end of the shaft 13 is connected to the shaft 23 of the pump 1 by means of a splined joint.

Water intake works as follows.

The water intake unit is immersed in a reservoir at a certain depth and rigidly fixed on the foundation. Then the pump 1 is turned on, which rotates the shaft 13 connected to it with the blades 12. The water drawn by the pump 1 passes through the holes in the mesh sheet 4 and flows under pressure into the conduit 8. A part of the water from the conduit 8 goes through the pipeline 9 to the ejector 7 creating a vacuum in the cavity of the nozzle 6. When the shaft 13 rotates, before the blades 12, there are zones of higher pressure, under the action of which part of the water is thrown out over the mesh 4 into the annular space between the mesh 4 and the casing 3, creating a so-called hydraulic weight. The latter interferes with the approach and pressing of young fish and litter to the outer surface of the blade 4. The blades 12 not only wash the holes in the blade 4, preventing their blockage, but also provide an additional pumping effect by increasing the total head developed by the installation.

Fish and garbage trapped in the annular space between the mesh screen 4 and the casing 3 due to the dilution created by

The botnet of the echkector 7 is drawn into the canal 5 and, after passing through the nozzle 6, are sent to the reservoir - to a place quite remote from the water intake zone.

The cleaning efficiency of the mesh web 4 depends on the size of the gap between the screw blades 12 and the inner surface of the web 4. The smaller the gap, the higher the cleaning efficiency.

The size of the gap can be varied and, consequently, the cleaning efficiency of the blade 4 can be adjusted by moving the housing 18 of the bearing assembly 15 and the shaft 13 associated with it with the blades 12 in the axial direction due to the rotation of the adjusting screw 19.

The proposed installation provides high efficiency of fish protection, has high performance and high reliability eliminates the need to drain water from the conduit to flush the mesh perforation. The flushing attachment of the installation provides high quality flushing of the mesh fabric and, at the same time, consumes a negligible amount of energy.

Claims (3)

1.Waterproof installation; including a shaft pump, a suction pipe with a mesh cloth, a cleaning device and a device for removing litter and fish, characterized in that, in order to increase productivity by increasing the efficiency of washing the mesh sheet, the cleaning device is made in the form of helical blades placed on the shaft mounted in bearings and kinematically connected to the pump shaft. 2. Installation according to claim 1, characterized in that the shaft of the cleaning device has an axial movement mechanism and is connected to the pump vap by means of a splined connection. 3. Installation according to claim 2, characterized in that a groove is made at the free end of the shaft of the cleaning device, and the axial movement mechanism includes a screw and a connecting element cooperating with the groove. Sources of information taken into account in the examination 1. USSR author's certificate number 544402, cl. A 01 K 61/00, 1975. 2. USSR author's certificate number 264231, cl. Е 02 В 8/08, 1967. п т. / 1b FIG. 2 1 TO // Fig.Z