RU2290473C1 - Water cleaning device - Google Patents

Abstract

FIELD: hydraulic structures, particularly for automatic cleaning of water exploited from opened water pools of rubbish and filamentous alga.

SUBSTANCE: device comprises cylindrical drum with perforated shell. The cylindrical drum is linked to inlet pipe of pump and is arranged in water intake chamber so that the drum may be rotated by drive. The device also has rubbish removal means made as spring-loaded cutter. The cutter has blade cooperating with the shell. The device also has rubbish removal means and perforated flushing pipeline. The cylindrical drum with perforated shell is partly submersed in water intake chamber and arranged on inlet pipe across water flow so that the drum may rotate around the inlet pipe by means of drive operated by control unit of the device. Perforated drum shell is provided with concave non-perforated surface, which defines rubbish removal tray installed along longitudinal axis of filter. Perforated flushing pipeline arranged in the drum has jet-forming flutes, which create flushing water cone from inner side of perforated shell in front of cutter, which is located on perforated shell part not submersed in water intake chamber. Perforated flushing pipeline is hydraulically communicated with pressure pipeline by means of hydraulic line arranged in inlet pipe. The hydraulic line passes into the inlet pipe on ground surface and projects from the inlet pipeline inside cylindrical drum chamber. Washing-out perforated pipeline with jet-forming flutes is arranged on outer side of cylindrical drum. The jet-forming flutes of the washing-out pipeline create flushing stream to wash away rubbish from rubbish removal tray. Flushing and washing-out pipelines are provided with pipeline operation control sensors. Flushing pipeline sensor is linked to water level sensor, which determines water level in water intake chamber and in cylindrical drum and operates cylindrical drum drive through control unit. Washing-out pipeline sensor is connected to position sensor of cylindrical drum through the control unit. The position sensor is made as magnetically operated sealed switch installed in inlet pipe and cooperating with magnet secured to rubbish removal tray end facing inlet pipe. The inlet pipe is provided with water intake bell. Time relay is included in magnetically operated sealed switch and control unit circuit.

EFFECT: increased efficiency and reduced costs of water cleaning.

2 dwg

Description

The invention relates to hydraulic structures and can be used for automatic purification of water taken from open water from debris and filamentous algae.

A device for water purification, including a mesh drum mounted on a horizontal axis with the possibility of rotation and lowered by the lower part into the well, to which the outlet conduit is connected, radial partitions attached to the inner side surface of the drum uniformly around its perimeter, the inlet conduit and the nano-outlet device, connected to the drum from its end, a perforated pipe for cleaning the mesh of the drum, located on its outer side, the inlet conduit is made in the form of waterproof tsitsykh plates, moreover, the nano-diverting device is made in the form of a nano-diverting tray, the end of which is located inside the drum under the inlet tray, and the drum pipe is located above its upper part (A.S. 1416599, class E 02 B 5/08, A.S. 1392191 , CL E 02 B 9/04, analogues).

The disadvantage of these devices is the low efficiency due to the cleaning of the drum net when it is clogged with filamentous algae and garbage only by the washing flow rate, the complexity of the design and high energy costs during operation associated with the uneconomical operation mode due to the constant flow rate of the water required for washing, regardless the concentration of water clogging and the degree of clogging of the mesh of the drum with weeds and sediment containing. In addition, the constant rotation of the drum, regardless of the degree of contamination of the water, is also not economically feasible.

Another device for water purification is known, including a cylindrical drum with a perforated thin-sheet side sheathing mounted rotatably on the intake head, a waste cleaning device made in the form of spring-loaded cutters interacting with the sharp edge sheathing, while the cutters have channels with nozzles connected with a source of water pressure, and the nozzles of the channels are directed into the water of interaction of the sharp edges of the cutters with the casing of the drum (a.s. 990949, class E 02 B 8/08, analogue).

The disadvantage of this device is the low efficiency in operation, due to the uneconomical mode of operation, which does not take into account the degree of contamination of the water taken during the operation of the pump-power unit.

The technical task of the invention is to increase work efficiency and reduce energy consumption during water treatment.

The task is achieved in that in order to increase work efficiency and reduce energy consumption during water treatment, a cylindrical drum with perforated sheathing is located with incomplete immersion in the intake chamber and is placed across the water flow on the suction pipe, which is its axis of rotation by means of a drive controlled by the device control unit and the perforated sheathing of the cylindrical drum is provided with a concave non-perforated surface forming a debris tray located along the longitudinal axis of the filter, while the perforated wash pipe located inside the cylindrical drum is equipped with jet-forming flutes creating a wash torch from the inside of the perforated casing in front of the cutter located on the non-immersed part of the perforated casing, and the perforated washing pipe is hydraulically connected to the pressure pipe using a hydraulic line placed inside the suction pipe with its inward approach on the earth's surface and the exit in the chamber Drum drum, in addition, on the outer side of the cylindrical drum there is a perforated flush pipe with jet-forming flutes providing a flush flow from the discharge tray, and the flush and wash lines are equipped with sensors for controlling their operation, and the flush pipe sensor is connected to the water level sensor in the intake chamber and the water level in the cylindrical drum, controlling the drive of the cylindrical drum, through the control unit, and the sensor of the flush pipe is connected with yes the position of the cylindrical drum also through the control unit of the device, while the position sensor of the cylindrical drum is made in the form of a reed switch mounted on the suction pipe, interacting with a magnet fixed to the end of the discharge tray facing the suction pipe equipped with a water intake skirt, and in the line of the reed switch switch and control unit installed time relay.

Placing a cylindrical drum with perforated sheathing with incomplete immersion in the intake chamber and positioning it across the water flow on the suction pipe, which is its axis of rotation by means of a drive controlled by the device control unit, allows achieving a new, neither previously known in the prototype, analogue positive effect - the mode of operation of the device depending on the concentration of weed inclusions in water, i.e. in energy saving mode.

Thanks to the supply of the perforated sheathing of the cylindrical drum with a concave non-perforated surface that forms a waste tray located along the longitudinal axis of the filter, it is possible to significantly simplify the design of the device in comparison with the analogue and prototype and thereby increase the reliability and efficiency of the device during water treatment.

Placing the perforated wash pipe inside the cylindrical drum and supplying jet-forming flutes creating a wash water torch from the inside of the mesh in front of the cutter located on the unloaded part of the perforated casing will significantly improve the degree of cleaning of perforated casing from debris and filaments algae stuck in the perforations of the casing of the cylindrical drum, since the impact of the flush of washing water emerging from the jet forming leit in the non-immersed part of the perforated casing (i.e. into the atmosphere, and not into the water, as in the prototype and analogues) reinforce the effect of the water jet on stuck weed inclusions, thereby increasing the efficiency and reliability in operation.

The hydraulic connection of the perforated washing pipe, which is carried out with the pressure pipe using a hydraulic line located inside the suction pipe with its entry into the interior of the earth and the cylinder drum in the chamber, ensures the ideological concept works in creating an energy-saving device operation mode.

Placement on the outer side of the cylindrical drum of a flush perforated pipe with jet-forming flutes providing a flush flow from the discharge tray and supplying the line of the flush and flush pipelines with sensors for controlling their operation, while the flush pipe sensor is connected to a sensor for the water level in the intake chamber and the water level in the cylindrical drum controlling the drive of the cylindrical drum through the control unit, and the flush pipe sensor is connected to the cylinder position sensor drum, also through the control unit of the device, in addition, the implementation of the position sensor of the cylindrical drum in the form of a reed switch mounted on the suction pipe, interacting with a magnet fixed in the end of the discharge tray facing the suction pipe, equipped with a water intake skirt, and in the line of the reed switch and of the control unit, the installation of a time relay provides a “stop” “start” mode of operation of the device depending on the clogging of the water drawn by the pump, which allows access one whose positive effect of energy saving and efficiency and the reliability of the device.

The invention is illustrated by the following drawings:

- Figure 1 is a schematic diagram of a water intake device;

- Figure 2 is a side view of the water intake device (the moment of flushing of weed inclusions).

The water treatment device includes a cylindrical drum 1 with perforated casing 2, connected to the suction pipe 3 of the pump, located in the intake chamber 4 with the possibility of rotation by means of a drive, a waste cleaning device in the form of a spring-loaded cutter 5, interacting with the casing 2 with a sharp edge, a discharge device 6 , perforated flushing pipe 7, cylindrical drum 1 with perforated casing 2 is located with incomplete immersion in the intake chamber 4 and is placed across the water flow at the suction the pipe 3, which is its axis of rotation with the help of a drive controlled by the control unit 8 of the device, and the perforated sheathing 2 of the cylindrical drum 1 is provided with a concave non-perforated surface forming a debris tray 6 located along the longitudinal axis of the filter, while the perforated washing 7 pipe located inside the cylindrical the drum 1, is equipped with jet-forming flutes 9, creating a torch of washing water from the inside of the perforated sheath 2 in front of the cutter 5, located on the submerged part of the perforated casing 2, and the hydraulic connection of the perforated flushing pipe 7 is carried out with the pressure pipe using a hydraulic line located inside the suction pipe 3 with its inlet on the surface of the earth and the outlet in the chamber of the cylindrical drum 1, in addition, on the outside of the cylindrical drum 1 there is a perforated flushing pipe 10 with jet-forming flutes 11, which provide a flushing flow from the discharge tray 6, and the flushing pipe 10 and the flushing pipe 7 are provided with They are connected by sensors 12, 13 to control their operation, and the sensor 13 of the flushing pipe 7 is connected to the sensor 14 of the water level in the intake chamber 4 and the water level in the cylindrical drum, which controls the cylindrical drum 1, through the control unit 8, and the sensor 12 of the flushing pipe 10 is connected with the sensor 15 for the position of the cylindrical drum 1 also through the control unit 8 of the device, while the sensor 15 for the position of the cylindrical drum 1 is made in the form of a reed switch 16 mounted on the suction pipe 3, interacting with a magnet 17, mounted at the end of the discharge tray 6, facing the suction pipe 3, equipped with a water intake skirt 18, and in the line of the reed switch 16 and the control unit 8 of the installed time relay 19.

A device for water purification works as follows:

When the degree of contamination of the water taken, within the permissible value, the device operates in a "passive" mode of operation, i.e. the cylindrical drum 1 with perforated sheathing 2 does not rotate. The water supply to the flushing 7 and flushing 10 pipelines is not carried out.

An increase in weeds in the intake water leads to clogging with perforation of the perforated casing 2, causing a decrease in the water level in the drum 1 and the transition to the "active" mode of operation.

As a result of the created level difference in the intake chamber 4 and the drum 1, the sensor 14 is activated and a signal is sent to the control unit of the device 8, which simultaneously turns on the drive, which rotates the drum 1 and the sensor 13 of the wash pipe 7. This leads to the rotation of the drum 1 and the water supply from the pump through the sensor 13 to the flushing pipe 7 and the jet-forming flutes 9. The interaction of the spring-loaded cutter 5 with a sharp edge and perforated casing 2 from the outside when the drum 1 is rotated and the powerful water flow created by the jet-forming flutes 7, from the inside of the perforated casing 2 provide intensive cleaning by perforation of the drum 1. The rotation of the drum is carried out until the debris tray 6 of the drum 1 approaches the reed switch 16, sensor 15 of the position of the drum 1 mounted on the suction pipe 3, which leads to its interaction with the magnet 17 fixed in the end of the waste tray 6. This provides a signal to the control unit 8, which stops the rotation drive of the drum 1 by switching the sensor 13, which stops feeding water into the wash pipe 7. At the same time, the control unit 8 gives a signal to turn on the sensor 12 in operation. The drum 1 stops when the cutter 5 approaches the beginning of the concave surface of the discharge tray 6 and the flush pipe 10 with jet-forming flutes 11. As a result, water from the pump through the sensor 12 enters the flush pipe 10 and to the jet-forming flutes 11. A powerful torch of water from the jet-forming flutes 11 provide a washout of weed inclusions from the cutter 5 and the tray 6 along its concave surface outside the intake chamber 4.

Flushing of weed on is carried out during a certain relay 19. After that, the sensor 12 is turned off and the water supply to the pipe 11 is stopped.

If the perforations of the perforated casing 2 have been completely cleaned, the water level in the cylindrical drum 1 rises, which leads to a shutdown of the sensor 14. The device returns to “passive” mode of operation.

In case of insufficient cleaning of the perforations of the perforated casing 2, the device is again turned on with the device 14 in the "active" mode.

The cycle repeats.

The proposed device reduces energy consumption by 20-30% when carrying out water treatment, 20-25% increases the efficiency and reliability in work, and 10-12% due to automation reduces labor costs in operation.

Claims (1)

A device for water purification, including a cylindrical drum with perforated sheathing, connected to the suction pipe of the pump and placed in the intake chamber with the possibility of rotation by means of a drive, a waste cleaning device in the form of a spring-loaded cutter interacting with the sheathing with a sharp edge, a waste discharge device, a perforated washing pipe, characterized in order to increase work efficiency and reduce energy consumption during water treatment, a cylindrical drum with perforated sheathing it is positioned incompletely immersed in the intake chamber and placed across the water flow on the suction pipe, which is the axis of its rotation with the help of a drive controlled by the device control unit, and the perforated sheathing of the cylindrical drum is provided with a concave non-perforated surface forming a discharge tray located along the longitudinal axis of the filter, this perforated flushing pipe, located inside the cylindrical drum, is equipped with jet-forming flutes, creating a flushing flush water from the inside of the perforated sheathing in front of the cutter located on the unloaded part of the perforated sheathing, and the hydraulic connection of the perforated flushing pipe with the pressure pipe is carried out using a hydraulic line located inside the suction pipe with the probe entering inside it on the ground and exiting in the chamber of the cylindrical drum, , on the outer side of the cylindrical drum there is a flush perforated pipe with jet-forming flutes providing flush flow to the sump tray, and the lines of the flush and flush pipelines are equipped with sensors for controlling their operation, and the flush pipe sensor is connected to the water level sensor in the intake chamber and the water level in the cylindrical drum, controlling the cylindrical drum drive, through the control unit, and the flush pipe sensor is connected with the position sensor of the cylindrical drum also through the control unit of the device, while the position sensor of the cylindrical drum is made in the form of a reed switch ennogo on the suction tube and cooperating with a magnet fastened in the end sorootvodyaschego tray facing to the suction pipe, water intake provided with a skirt, and in line reed switch and the control unit is set timer.

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