SU977562A1 - Water intake structure - Google Patents

Description

The invention relates to hydraulic structures, and more specifically to water intake devices, applied in a dehumidifier; humidification systems for supplying water to reservoirs, irrigation canals, ponds, etc., and can also be used to supply water to Frigate type sprinklers, farms, feeding complexes, etc.

A known water intake installation includes a pump, a suction pipe with a mesh web and a cleaning device 1.

 During the operation of this device, due to the absence of a device for the removal of litter near the screen, a large amount of sediment accumulates (which increases the resistance to water flow and reduces the throughput of the sheet.

The closest to the present invention is a water intake device containing a main pump, a housing with suction and nipple nozzles, and an impeller located in the suction pipe, a conical mesh, a channel for removing litter, connected to

Udssheni litter, a device for cleaning the mesh G23.

The disadvantage of this device lies in the significant energy costs for driving the main pump and the pump for removing waste, which is made in the form of an ejector.

The purpose of the invention is to reduce energy consumption.

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The goal is achieved by the fact that the pump for removing debris is made in the form of a rotor with a screw channel, fixed on the shaft of the main pump, and the channel for

The removal of the trash is made in the shaft of the main pump.

FIG. 1 shows a water intake device, a longitudinal section; on / fig. 2 — node I in FIG. one; on fig.Z

20 is a cross-section A-L in FIG. one; in fig. 4 layout of the intake device.

The intake device contains a main pump having a housing 1 with Bcac (jffiaiatqHM 2 and pressure 3

25 nozzles impeller 4, a suction pipe 5, rigidly connected with the suction nozzle 2, a conical mesh b, ending with a channel 7, the cavity of which communicates with

30 / cavity pump for disposal of litter.

made in the form of a housing 8 with a nozzle 9 and a rotor 10 with an internal channel 11, a part of which smoothly bends, for example, along a logarithmic spiral. The rotor 10 is driven by the engine 12. The impeller 4 of the pump is rigidly fixed to the rotor 10, which is kinematically connected to the grid b by hydraulic coupling 13. Hydraulic coupling. Includes pumping 14 and turbine 15 wheels. The pumping wheel 14 is rigidly fixed on the rotor 10, and the turbine 15 on channel 7 with the possibility of moving along it. An annular slot 16 is formed in the pumping wheel 14, through which water is constantly sucked into the inside of the pumping wheel 14 as it rotates. Inside the suction pipe 5, in the immediate vicinity of the grid 6, there is a device for cleaning it, made in the form of a perforated pipe 17, which through pipe 18 to valve 19 communicates with pressure conduit 20 connected to the discharge pipe 3. To fix the turbine wheel 15 on the canape 7, a locking screw 21 is provided. Inside the channel 11 of the rotor 10, bearings 22 are placed, centering the channel 7 relative to the axis of the rotor 10.

Prior to operation, the water intake device is mounted on the foundation 23 in the receiving chamber 24 of the water intake structure under the water level and connected by means of pipelines 25 and 26 to the reservoir 27 from which water is taken.

The intake device operates as follows.

When the engine 12 is turned on, so the rotor 10 rotates and the impeller 4 associated with the latter comes, as well as the pump wheel 14 of the hydraulic clutch 13 which, in turn, causes the turbine wheel 15 and the grid b to rotate. The water passes through the holes 6 and flows under pressure to conduit 20. Part of the water from the conduit through conduit 1B is supplied to a perforated pipe 17 for washing the screen b. The flow of flushing water is controlled by a valve 19. The litter, washed out from the screen 5, is sucked in with the water through the channel 7 by the rotor 10 and the return pipe 26 returns to.

reservoir 27 to a place quite remote from the water intake zone.

The efficiency of cleaning the grid of b litter is determined, in particular, by the speed of its rotation relative to the suction pipe 5. The speed of rotation of the grid 6 depends on the size of the gap between the pump 14 and the turbine 15 wheels of the hydraulic clutch. As the gap decreases, the speed of rotation of the grid increases and vice versa. The gap is set by moving the turbine wheel 15 along the channel 7. The fixing of the position of the wheel 15 is made by screw 21.

5 Hard impeller connection 4. a pump with a rotor 10 makes it possible to create more favorable conditions for from. water litter and reduce power consumption of the device. In addition, the proposed

0 the device is more compact and reliable than the known one, since the grid rotates with the hydraulic clutch at any optimum speed. Instead of fluid coupling, you can use the wave

five . gearbox with hollow shafts, having a fairly high gear ratio (100 and above). The gearbox has small dimensions and high efficiency and reliability in operation.

Claims (2)

1. USSR author's certificate number 544402, cl. A.01 K 61/00, 1975. 2. USSR author's certificate No. 264231, cl. E 02 8/08, 1967 (prototype). Y Ch. - ifrr КЧx, -II ITT-xj  g MI abxr 1 mfp. 25 % g.