SU1049644A1 - Arrangement for feeding fluid materials - Google Patents

Description

The invention relates to a device for pulsed delivery of liquids and other fluid materials. A device for supplying fluid mixtures, containing a container and a sectional discharge pipeline with successively built-in electric pulsers, is known. Such a 3HeproeNnco device and a trp is maintenance-friendly. Closest to the invention is a device for feeding current materials, comprising a jetting device, a hydraulic pulse pump with a nozzle and an exhaust pipe, a pump with a tank, and pipelines 2. A disadvantage of the known devices is its low reliability due to the impact of hydraulic shocks arising in the hydraulic pulse pulse the trunk of the jetting machine, as well as the increased flow rate of the flowable material emitted through the exhaust pipe of the hydraulic pulsator. The aim of the invention is to increase the reliability of the device and reduce the consumption of material. This goal is achieved by the fact that in a device for supplying flowable materials containing a jetting unit, a hydraulic pulse pump with a pulse nozzle and an exhaust pipe, a pump with a tank and pipelines, a hydraulic pulse pump head is connected to the input port of the jetting machine, and the exhaust pipe is communicated to the nocpe icTBOM pipeline with a tank capacity. FIG. 1 shows the flow of materials, the general view; in fig. 2 - the same plan view; in fig. 3 - joints of a pulse nozzle and an impulse pipe of a hydroimpulsator tube, respectively, with an inlet nozzle of a hydromonitor and a container pipe of a pump A device for feeding flowable materials contains a self-propelled plate form, for example, a truck 1, on which a pump 2 is installed, driven by gear 3 from the engine the car, and the capacity 4 for a fluid material-solution, connected by means of a suction pipe, water 5 to a pump, which is connected via a suction pipe b to a compensator rum 7. Through the impact pipe 8, the compensator is connected to the tail end of the hydraulic pulsator, 9, having a pulsed attachment 10 and an exhaust pipe 11. The exhaust pipe from the hydraulic pulsator is connected to the pipeline 12 of the tank, and an impulse nozzle is connected to the inlet pipe 13 m of the hydraulic pulser 14 equipped with a barrel 15 installed in its outlet bore. The hydraulic pulse pump and hydraulic monitor are mounted on the pump tank, the hydraulic monitor together with the barrel is installed with the possibility of rotation in the horizontal plane, and the trunk with the possibility of rotation through the predetermined angle in the vertical plane. On the impact pipe for adjusting the material supply (rig), valve 16 is inserted. The device for feeding the flowable material works as follows. From the tank 4, the solution is fed by the pump 2 through the pressure pipe b into the compensator 7, and then through the shock pipe 8 it enters the hydraulic impulse 9, drives it and through the exhaust pipe 11 and the pipe 12 flows back into the tank. When the solution flow is interrupted by a valve (not shown) of a 9% g hydraulic impulse, a hydraulic shock occurs at which the pressure is reached .; The flow rate in the impact pipe 8 and the hydraulic pulse 9 is increased several times in comparison with the applied pressure of the pump 2. The solution under the increased pressure of the hydraulic shock is ejected through the pulse nozzle 10 of the hydraulic pulse 9 into the jet monitor 14 and then through its barrel 15 to the object. Water hammer extends over. shock pipeline to the compensator 7, which with the help of an elastic air cushion, does not pass it to the pump 2. In the period of the reflected wave of hydraulic impact, when the pressure in the shock pipeline 8 drops, the valve of the hydraulic pulsator 9 opens, again the solution passes into the exhaust pipe 11 and the conduit 12, and the discharge of the solution through the pulse nozzle 10 is stopped, and the process is repeated. In this case, intermittent impulse jets of a solution with a frequency of shots of 5-15 seconds are ejected onto the object under the increased pressure of the hydraulic shocks from the barrel 15 of the jetting machine 14. . Intermittent pulsed prrtsii solution have increased kinetic energy, which provides; effective operation of the device when processing the surface of various objects. At the same time, the location of the hydraulic impulse in front of the inlet nozzle of the jet monitor increases the reliability of the device, since in this case the stem of the jet monitor does not perceive the full force of the hydraulic shocks that occur in the hydro pulse. This reduces material consumption, since the material discharged from the exhaust pipe of the impulse is returned back to the pump tank.

H

91

FIG. I

Claims (1)

A device for supplying fluid materials, comprising a hydraulic monitor, a hydraulic pulse generator with a pulse nozzle and an exhaust pipe, a pump with a container and pipelines, characterized in that, in order to increase the reliability of the device and reduce material consumption, the pulse hydraulic pulse generator nozzles are connected to the inlet pipe of the hydraulic monitor, and the exhaust pipe communicated via pipeline to the pump capacity. SU .... 1049644 20places25 topics