SU971535A1 - Device for cleaning interior of pipelines from deposits - Google Patents

Description

(54) DEVICE FOR CLEANING THE CAVITY OF PIPELINES FROM NANOSES

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The invention relates to the field of mechanical irrigation and land reclamation and can be used to remove sediment from inside the pipelines.

A device for cleaning the drainage is known that forms a suction chamber, inside which a rotary pneumatic motor is fixed by means of disks with windows so that an annular gap is formed between the inner surface of the suction chamber and the outer surface of the engine. A rotor of an auger rotor type is installed on the motor shaft, the blades of which are terminated with elastic brushes, and the suction chamber is connected via a vacuum line to the vacuum unit for vacuuming. The pneumatic engine is connected by a hose placed inside the vacuum chfovod with a cokeshair installation 11.

The disadvantages of such a device are the high quality and efficiency of cleaning due to the impossibility of creating

homogeneous composition of the air-soil mass, which can be easily sucked off.

It is also known a device for cleaning the internal surface of pipelines, containing nozzles with nozzles for leaving the working medium, and with the aim of increasing the efficiency of cleaning nozzles with nozzles, it is additionally equipped with a nozzle whose diameter is smaller than the nozzle diameter and has one front and several side inclined nozzles C 2.

A disadvantage of this device is the poor quality of cleaning, due to the impossibility of suction of the pulp directly from the bottom and passing it by gravity through the cleaned section of the pipeline, which can lead to re-silting due to sedimentation of sediment during its transportation through the pipeline

The closest in technical essence and achievable positive effect to the proposed device is a device for cleaning the cavity tt: sediment removal, containing a housing with frontal nozzles installed on a movable frame and connected to a source of working medium, in order to intensify the process. on the movable frame, a perimeter sealing screen is rigidly fixed, separating the polluted part of the pipeline from the cleaned one, and a suction nozzle connected through the slurry pipe to the pump, while This housing with nozzles and suction nozzle are located in front of the screen With 3 J. The disadvantages of this device are the necessity of pre-visually pulling in the pipeline of the cable, in connection with which labor costs increase, as well as the impossibility of cleaning the cavity of pipelines with full silting. In addition, the dragging operation of the cable limits the length of the pipeline section to be cleaned from one position, since there are no reliable means to carry out this operation to date. The use of a vacuum slurry line and a pump for pumping slurry, which requires constant adjustment of the operating mode, reduces the reliability of the cleaning process and ease of operation. The use of a screen with a seal around the perimeter can lead to the device getting stuck in the pipeline when there is a misalignment or misalignment of the drainage pipes, as well as to the integrity of the self-shield, as it requires great efforts to move it. The aim of the invention is to expand the operational capabilities of the device, simplify the design, as well as increase reliability in the operation of the device. To achieve a goal in a device for cleaning the cavity of pipelines from pumps, comprising a housing connected to a source of a medium with frontal nozzles, a perimeter-sealed screen with a perimeter seal, a suction port connected to the suction unit and a pump according to the invention, the suction pump is made water-jet and is integrated into the housing, with the vacuum chamber of the pump in communication with the suction inlet, the pump nozzle with the front nozzles, and the diffuser with the discharge slurry pipe. The screen can be made elastic. The drawing shows a device for cleaning the cavity of pipelines from sediment. The device comprises a housing 1 with a screen 2 mounted perpendicular to the axis; a high pressure water supply sleeve 3 with a rigidly mounted nozzle 4 of a water jet pump, the vacuum chamber 5 of which is connected to the nozzle 6, and the diffuser 7 communicates with the vacuum chamber 5 through the mixing chamber 8 and is connected to the slurry pipeline 9; ring collector 10 with front nozzles 11, rigidly connected with sleeve 3 and communicating with it through channel 12, the device operates as follows. If it is necessary to clean the pipe from the nozzles, the device is inserted into it and sucked to an accessible length, after which the high-pressure water supply pump is turned on (not shown). The water from the pump under pressure enters through the sleeve 3 to the device, where the flow is divided into two (the direction of water movement is indicated in the figure by solid arrows). The flow is divided so that a large part of the water (approximately 2/3 of the total amount) is directed to the nozzle 4 of the water-jet pump, and smaller through the channel 12 to the collector 10, from which water flows through the nozzles 11 to the area in front of the device. High-pressure jets of water flowing out of these nozzles ensure that the sediment is softened. Most of the water supplied by the pump goes to the nozzle 4 of the water jet pump), through which it enters the water jet pump chamber 8 at high speed. Due to the high flow rate of the jet; From the nozzle 4, a vacuum is created in the vacuum chamber 5 of the water-jet pump, which ensures the pulp from the sediment zone through the pipe 6 and the vacuum chamber 5 into the chamber 8. Then the pulp through the diffuser 7 enters the pipeline 9, which is discharged to the ground. The movement of the pulp in the drawing is shown by interrupted arrows. An elastic screen 2 is installed perpendicular to the axis of the device to separate the cleaned section of the pipeline from the uncleaned one to the device axis. The device can be advanced in the pipeline by applying a pushing force to the water supply and pulping sleeves. In addition, the presence of a zone of reduced pressure in front of the device, due to constant

the suction of the pulp and the reaction force of the jet of water flowing from the nozzle 4 of the water-jet pump and directed backward is a factor creating favorable conditions for advancing the device in the pipeline. When finished, clean the device removed from the pipeline

The device provides cleaning from sediments of pipelines of various diameters silted up to 100%, since the necessity of preliminary is eliminated. dragging through the pipeline of a brass cable, the length of the pipeline section to be cleaned is increased from one position, which will depend only on the length of the hose used. The use of a water-jet pump in the device simplifies its design, reduces capital and operating costs, since the installation of a suction pump is not required, and the vacuum lines are replaced with cheaper pressure hoses. The reliability of the cleaning process and ease of operation are improved by eliminating the vacuum pump and vacuum pipelines and the continuous adjustment of the operating mode of the suction pump.

Improving efficiency, improving the working conditions of the device can be achieved by supplying pressurized water to the cleaned section of the pipeline, for example, filling a manhole, while maintaining the water level in the well constant. This achieves an increase in the pressure difference in front of the screen and behind it, since in the uncleaned J section of the pipeline, a zone of reduced pressure is created due to the removal of water-jet sediment from the pulp and behind the screen in the cleared area the water pressure is generated. An increase in the pressure difference contributes to the advancement of the device by

the pipeline. In addition, with a sharp increase in the pressure difference, water from the cleaned area due to the elasticity of the screen} 1a can flow into the untreated, stabilizing operation of the water jet pump. The presence of water in the duct section of the pipeline also makes it possible to completely exclude the possibility of pulp getting into it, and therefore, repeated silting.

Formula purchasing

Claims (3)

1. Device for cleaning strips from pipelines from sediments, containing a housing with front nozzles connected to a source of working medium, a screen fixed on it with a seal around the perimeter, suction of the fluid connecting pipe with suction slurry pipe and with a pump, characterized in that, in order to expand the operational capabilities of the device, simplify the design and increase the reliability of its operation, the suction pump is water-jet and built into the housing, the vacuum chamber of the pump communicating with the suction nozzle, the pump nozzle; and with frontal nozzles, and diffuse - with. discharging slurry pipe 2. The device according to claim 1, is distinguished by the fact that the screen is made elastic. Sources of information, taken into account prn examination 1.Avtsfskoe certificate of the USSR No. 293О93, cl. Е О2 В 11 / ОО, 1968, 2. USSR author's certificate number 440166, cl. B O8 B 9 / O4, 1974. 3. USSR author's certificate hfc 458275, cl. R OS 9 / O2 ,. 1973 (prototype).