SU658311A2 - Piston feeding pump for hydraulic transportation of solid materials - Google Patents

Description

one

The invention relates to the field of hydro engineering and can be used in porin pump. H - feeders.

According to the main author. St. 488770 A piston pasos - feeder for hydrotransport of solid materials is known, containing four cylinders combined in pairs in two blocks, each of which is equipped with a floating nopnjne.vi separating the cylinder cavity into the working cavity connected via valves to the suction and discharge pipes, and the drive cavity connected with a source of driven fluid through a gold-peak distributor, serving two 1-cylinder in one unit and controlled by Iexa low switching. The piston rods in each cylinder block are arranged in parallel and pivotally connected to the two arms of the three-arm swivel arm, the third arm of which is connected by a lever and a lever with a spool valve of the other cylinder block. The spool distributors are two-way. The length of the spool valve windows is equal to the length of the spools. The pump - feeder has a uniform flow, and the change of the suction process

The process of pumping and stopping in each case of its cy.chindre occurs continuously, the latter is due to the paBMbiNin d.ch.pami of the slide valve and the windows Z (to1 paciific separators.

The disadvantage of such a pump feeder is a continuous change in the suction and discharge processes in each α-cylinder, which causes a delay in opening and closing the valves, due to the displacement of the volume of the pumped medium enclosed between the pas clan plate and its saddle. Therefore, the valve closes after the piston changes its movement to the opposite.

Consequently, the suction valve at the beginning of the injection is slightly opened, and part of the pumped medium returns from the cylinder to the suction pipe, and the discharge valve at the beginning of suction is not completely closed, and part of the pumped medium from the discharge pipe returns to the cylinder.

Claims (1)

Thus, with a continuous change in the processes of suction and injection P (there is a delay in opening and closing the valves, which leads to a decrease in the volumetric flow of the pump-feeder and, consequently, to a decrease in its volumetric efficiency. The aim of the invention is to increase the volumetric efficiency of the pump-feeder by stopping its pistons in the extreme positions with a pause. This is achieved by the fact that in the proposed pump-feeder the width of each distributor is equal to two lengths of its window, and the stroke of the spool distributor Avenue to three lengths of its window. The figure shows the proposed piston pump-feeder. The piston pump-feeder contains cylinders 1-4, combined in pairs in two blocks. Each cylinder is equipped with a floating IM and piston 5, which separates it into the working (lower) cavity connected through valves 6 and 7 to the suction and discharge piping 8 and 9, and the drive (upper) cavity connected to the source of driving fluid, for example pump 10, through two-way spool valves 11 and 12, the spool valve 11 serves the cylinders I and 2 in one block, and the spool valve 12 - cylinders 3 and 4 in the other block. The piston rods 13 in each cylinder block are arranged parallel to the hinged link with the two arms of the three-arm rotary arm 14, the third arm 15 of which is connected to the thrust 16 and the lever 17 to the HJTOKOM spool valve 11 or 2 other cylinder blocks. The three-arm rotary arm 14 with the tension 16 and the lever 17 constitute the switching mechanism. The pump 10 feeds the drive liquid from reservoir 18 to the pump - feeder. The pump - feeder sucks the slurry from reservoir 19. The spool valve 11 has another 20 that overlaps the windows 21, and the spool 12 through another 22 that overlaps the windows 23. Width "a each ska is equal to two window lengths, and the spool valve travel is equal to three window lengths. Piston pump - feeder works as follows. In the position shown in the drawing, the pistons 5 of the cylinders 3 and 4 complete the slow motion, come to the extreme positions and stop, opening by means of the switching mechanism of the window 21 of the spool valve 11. The pistons 5 of the cylinders 1 and 2 under the action of the drive fluid pumped by the pump 10 through the spool valve 11 into the driving cavity of the cylinder 2, end the accelerated motion, closing over the bridges 22 by means of the switching mechanism of the window 23 of the spool valve 12, and begin a uniform motion. In this case, the piston 5 of the cylinder 2 moves downwards and, through the valve 7, displaces the pumped fluid into the pipeline 9. Simultaneously, the piston 5 of cylinder 1 due to the connection of the rods 13 with the rocker arm 14 moves upwards, displacing the waste drive fluid from the cylinder driving cavity into the tank 18, and through the valve 6 and the suction pipe 8 sucks the slurry from tank 19. Repere, pistons 5 of cylinders 1 and 2 rotates the beam 14, which is over the shoulder 15, t gu 16 and the lever 17 moves the spool valve 12 to the left. Since the width of each spool 20, 22 spool valve is equal to two window lengths (21, 23), and the spool valve stroke is equal to three lengths of its window (21, 23), the pistons 5 of cylinders 1 and 2 pass through the path of uniform motion, by means of a switching mechanism, the windows 23 of the spool valve 12 are opened, and the pistons 5 of the cylinders 3 and 4 begin to move. From this point on, the switching mechanism of the spool valve 11 starts to work, which begins to close the windows 21. As the pistons 5 continue to move 5 cylinders 1, 2 and 3, 4 the windows 21 of the spool valve 11 are closed by jamb 20, and the windows 23 of the spool valve 12 open. Pistons 5 of cylinders 1 and 2 slow down, and pistons 5 of cylinders 3 and 4 accelerate their movement. During slow motion of the pistons 5 of the cylinders 1 and 2, the pistons 5 of the cylinders 3 and 4 pass the path of accelerated motion. The windows 21 of the spool valve 11 are completely closed by the tracks 20, and the pistons 5 of the cylinders 1 and 2 are stopped in extreme positions, and the windows 23 of the spool valve 12 are fully opened, and the pistons 5 of the cylinders 3 and 4 begin a uniform movement. The cylinder moves in the opposite direction of the pistons after a pause, the value of which is equal to the time of uniform motion of the pistons 5 of cylinders 3 and 4. The stopping of the pistons in the extreme positions with a pause eliminates delayed opening and closing of the valves, which increases the volumetric efficiency of the feed pump. During periods of opening and closing of the spool valve windows, the drive fluid simultaneously moves the pistons in the two cylinder blocks, which provides an overlap in the strokes of the pistons and allows for a continuous and uniform flow. The invention Porz 1nevy pump - feeder for hydrotransport of solid materials according to ed. St. No. 488770, characterized in that, in order to increase the volumetric efficiency of the feed pump by stopping its pistons in extreme positions with a pause, the width of each over the spool valve is equal to two lengths of its window, and the stroke of the spool valve is three times the length of its window.