RU31342U1 - Device for cleaning the inner surface of the drainage pipes - Google Patents

Description

DEVICE FOR CLEANING VITA SURFACE

DRAINAGE PIPES

The invention relates to agriculture and can be used to increase the efficiency of cleaning drainage pipes.

Known hydraulic nozzles for cleaning the inner surface of the pipeline (as.with. 1729623, B08 B 9 / 04.1992).

A disadvantage of the known device is that the existing one row of holes does not provide destruction of the filler over the entire inner surface of the drainage pipe, and the same angle of inclination of the jets reduces the efficiency of cleaning perforation and corrugation of the drain. Therefore, for complete cleaning from the filler, several passes are made along the same drainage section, which increases the cost of cleaning the inner surface of the drainage pipe and reduces labor productivity.

The closest technical solution (analog) is a device for cleaning drainage pipes, containing several rows of holes that provide rotation of the nozzle and pulse cleaning of the inner surface of the drainage pipe (A.S. 1039593, 08 V 9/04).

A disadvantage of the analogue is that, as the length of the flushed pipe increases, there is an increase in the pressure loss along the dspin of the water supply hose, while the force of the jets flowing out of the nozzle decreases and becomes unable to destroy the filler.

The aim of the invention is to increase the erosion of water jets emerging from the holes of the hydraulic nozzle.

This goal is achieved by the fact that in the device containing the rotating, the head has two rows inclined at different angles and evenly distributed along the circumference of the holes. As well as a spring-loaded piston, which provides an increase in speed and pulsating outflow of water jets, due to the use of the effect of water hammer, which leads to a significant increase in the erosion and impact of water jets on the walls of the washed drain.

In FIG. 1 shows a device for cleaning the inner surface of drainage pipes; in FIG. 2 - hydraulic nozzles.

A device for cleaning the inner surface of the drainage pipes is a water supply hose 1, at the end of which a hydraulic nozzle 2 is attached. This nozzle consists of a housing 3, guiding skis 4, a rotating head 5, a piston 6, a spring 7, a sliding sub-spindle 8. Outlets 9, 10 are constantly connected with the annular groove 11 of the chamber 12. Water to the frontal opening 13 comes from the longitudinal channels 14 and the chamber 15.

The hydraulic nozzle works as follows. A water supply hose 1 with a hydraulic nozzle 2 is introduced into the flushed pipe, while the annular groove 11 is blocked by the piston 6 due to the force of the spring 7. Water through the water supply hose 1 enters the chamber 12 of the rotating head 5. A pressure is created in the chamber 12, which acts like a wall chamber, and on the piston bottom. When the force created by the water pressure is greater than the force of the spring 7, the piston 6 will move to its extreme right position. In this position of the piston 6, the annular groove 11 communicates with the chamber 12, and water enters the openings 9, 10, as well as into the longitudinal channels 14, the chamber 15, and the frontal opening 13. The total cross-sectional area of the longitudinal channels 14 significantly exceeds the cross-sectional area the frontal opening 13, as a result of which the pressure in the chambers 12 and 15 begins to equalize. Then the piston 6 under the action of the spring 7 will move to the extreme left position, breaking the annular groove 11. At the same time, the outflow of water jets from the openings 9,10 and 13 stops. A sharp overlap of the water entails the occurrence of a water hammer, which significantly increases the water pressure in the chamber 12 , and in the chamber 15 the pressure, at this moment, will be already reduced due to the outflow of water from the frontal opening 13. As a result, the piston 6 will move to the extreme right position, and water will again begin to flow out of the openings 9,10, 13, but with a higher speed . Further, the cycle repeats, which provides pulsating outflow of water jets and contributes to a significant increase in spreading ability and their impact on the walls of the drain.

Water, leaving the tangential holes 10, creates a reactive force, which provides rotation of the head 5 and erosion of the bulk in the corrugation and perforation. A series of holes 9 made radially and inclined at an angle a blurs the core inside the drain and pushes the resulting pulp along the length of the drainage pipe. The rotation of the head 5 with two rows of holes 9, 10, provides uniform erosion of the filler over the entire inner surface of the drain. The frontal hole 13 serves to wash out various kinds of plugs that form inside the drain, as well as to reduce the water pressure in the chamber 15 when the annular groove 11 is closed by the piston 6, under the action of the spring 7. The required amount of force created by the spring 7 is determined by calculation. To prevent jamming inside the drain of the rotating head 5, a guide ski 4 is provided in the design of the hydraulic nozzle.

The technical and economic efficiency of the hydraulic nozzle in comparison with the prototype is that the presence of a spring-loaded piston provides an increase in the water pressure in the nozzle chamber, an increase in speed and pulsating outflow of the jets, which leads to a significant increase in the erosion ability of the water jets leaving the nozzle. At the same time, quality is increased, time and labor costs for flushing the drain are reduced. Thus, the creation of a sub-baked piston is significantly different from the prototype and meets the criterion of novelty.

Claims (1)

A device for cleaning the inner surface of drainage pipes containing a hydraulic nozzle connected to a water supply hose, characterized in that, in order to increase the erosion capacity of the water jets, a spring-loaded piston is provided in the hydraulic nozzle design to increase the water pressure in the hydraulic nozzle chamber, increase the speed and pulsating outflow of water jets due to the use of the effect of water hammer.