SU1052290A1 - Stand for washing pipelines - Google Patents

Abstract

WASHING PIPE WASHING STAND, containing a main line for cleaning liquid, a liquid to be cleaned pipeline, a pump and filters, a drain line containing a drain tank and a filter, a compressed gas supply line to the cleaning line connected to the main line for washing liquid, characterized by that, in order to improve the quality of the flushing, the max-pressure pump cleaning fluid additionally has a measuring instrument for the rate of pressure change, a vibration pump installed directly after the filters along the sweat It is a liquid source, and the compressed gas supply line is connected to the outlet of the vibrating pump and has a valve connected to the meter measuring the rate of change in fluid pressure.

Description

The invention relates to a machine structure / namely, devices for cleaning the internal surfaces of pipelines from contamination, and can be used for flushing hydro fuel systems.

The stand for flushing pipelines, consisting of the pipeline for pumping my liquid with a pump and filters, the pipeline for draining with the tank, the line for supplying gas, gas Sch ..

The disadvantage of the test bench is low washing performance due to low flow rates of the fluid in the pipeline being cleaned.

. Also known is a stand in which an additional pump is connected in parallel with the flush pipe, which allows you to create increased costs for my, liquid 2J,

However, an increase in the flow rate of the washing liquid in the pipeline being cleaned is limited by the allowable pressure of the fluid at the inlet to the pipeline and this determines the maximum cleaning ability of the flows of washing liquids created by such stands. . ,

The closest to the proposed technical essence and the achieved result is a stand consisting of a pumping fluid injection line, including a pump and filters, a drain line to the tank, a supply line of compressed gas which is connected to the pumping fluid supply line. The gas-liquid flow in the pipeline being cleaned, created by the benches // of this design, contributes to the separation and removal of C 3 contaminants.

. The disadvantages of the stand are low efficiency of flushing pipelines and large losses of compressed gas to create a gas-liquid flow.

The purpose of the invention is to improve the quality of washing.

This goal is achieved in that in the stand for flushing the pipe, the wires containing the washing fluid injection line to the pipeline being cleaned, including the pump and filters, the drain line including the drain tank and the filter, the compressed gas supply line to the pipeline being cleaned, connected by the washing pressure plug fluid, the washing fluid discharge line additionally has a measuring instrument for the rate of change of pressure, a vibration pump installed directly after the filters along the washing fluid flow compressed gas supply line connected to the output of the vibratory

pump and has a valve connected to the gauge of the rate of change in fluid pressure.

The formation of high-frequency oscillations in the washing liquid, achieved by the proposed design, leads to a sharp drop in the resistance of the fluid in the pipeline, which increases the velocity of the liquid at the same inlet pressure, and periodically stopping the effect of high-frequency pulsation by introducing portions of gas increase the maximum values of the tangential friction stresses achieved during washing, and, accordingly, the washing efficiency.

The drawing shows a schematic diagram of a stand for flushing pipelines.

The stand has a supply line 1 for the pumping fluid, including a pump 2, filter 3 and 4, a vibration pump 5 installed downstream of the filters, a safety valve b to limit the fluid pressure, a compressed gas supply line 7 connected to the injection line 1 the washing liquid at the outlet of the vibration pump 5 and including an electromagnet: a crane 8, a main line 9 draining the washing liquid, including a filter 10, a gas deflector 11 and a drain tank 12. To the main line 1 for forcing the washing liquid in front of the washing water 13 the pressure change rate meter is connected, comprising electrocontact differential pressure gauge 14, tank 15, and adjustable throttle 16 coupled to a tap 8 of the compressed gas supply line 7.

The stand works as follows.

The washing fluid from the drain tank 12 through the pumping fluid injection line 1 is pumped through pump 2 through filters 3 and 4 and the vibrating pump 5 into the flushing pipeline and enters the drain line 9, where it passes through filter 1 and the gas separator 11. The cleaned liquid returns to tank 12 . The regulation of the permissible fluid pressure at the inlet to the pipeline is carried out by means of a safety valve 6. At. operation of the vibration pump 5 at the same allowable pressure at the inlet to the pipeline, the flow rate and the average speed of the washing liquid increase due to a decrease in the friction of the liquid against the walls of the pipeline

high-frequency pulsation on the liquid friction increases sharply and the washing liquid moving with greater speed performs a cleansing action, while the liquid flow drops to a flow rate corresponding to the flow of the pump 2 without the high-frequency pulsation from the vibrating pump 5. Termination of the high-frequency pulsation is achieved by supplying gas through crane 8 through line 7 of compressed gas supply. Forming a gas-liquid mixture prevents the propagation of vibrations in the liquid.

The operation of the valve 8 is controlled by the pressure change rate meter 13, whose differential electrocontact manometer 14, when the pressure change in the injection line 1 stops, successively signals the opening and closing of the valve 8. The rate of pressure change is determined by comparing the pressure in the line 1 pump and tank 15 connected to the line through an adjustable throttle 16. The valve 8 opens upon completion of the transition process in the lines and reaching the maximum flow rate in the flushed pipe ode due to propagation of high frequency ripple from the vibrating pump 5, which corresponds to a decrease in pressure at the outlet of the pump to a value, soot-d

corresponding to this increased flow rate in accordance with the pump characteristic and the cessation of pressure change in the injection line 1 of the injection liquid {} and closes after a constant pressure is established at the inlet to the pipeline being cleaned while the gas-liquid mixture flows, i.e. the most advantageous flushing mode is automatically maintained.

0 The use of a stand for flushing pipelines provides, in comparison with the known, a higher flushing efficiency, since the use of a vibrating pump

5 allows, at the same pressure at the inlet to the pipeline, to increase the flow rate through the pipeline of the washing liquid and, accordingly, the velocity of the liquid on the particles of the contaminants at the time of the termination of the impact

0 High-frequency ripple by introducing gas, proportional to the square of the speed, 100 times. This significantly improves the efficiency and quality of flushing pipelines.

5 In addition, the compressed gas is saved, since if the gas-liquid cleaning requires a volume gas content of 70 - 80%, then when applying the proposed

In order to prevent the spread of oscillations, a sufficiently volumetric gas content of 5–10%, with the gas being introduced only periodically.

Claims (1)

STAND FOR RINSING PIPELINES, comprising a washing supply line, liquid in the pipe to be cleaned, containing a pump and filters, a drain pipe containing a drain tank and a filter, a compressed gas supply line to the cleaning pipe connected to the washing liquid discharge line, characterized in that, in order to improve the washing quality, the washing fluid injection line additionally has a pressure change rate meter, a vibration pump installed immediately after the filters along the flow a cleaning liquid and compressed gas supply line connected to the output of the pump and has a vibrating valve associated with the fluid pressure meter speed change.