SU5429A1 - Instrument for measuring fluid flowing through pipes - Google Patents

Description

The present invention relates to well-known liquid measuring instruments in terms of volume, consisting of two alternately emptied and filled reservoirs with floats for control.

The proposed device for measuring the fluid flowing through the pipes is shown in elevation in a schematic drawing and consists of two alternately filled and emptied tanks 33 and 34, each having an inlet pipe 19 and 22 and an exhaust pipe 11 and 21.

The excess fluid flowing through the inlet pipe is poured through the corresponding openings 24 and 28 into the tubes 5 and 7, forming a liquid column that produces a known pressure on the pistons 9 and 3. The pistons are interconnected by a stem 31, on which there are four closures 16, 12, 18 and 20, the purpose of which is to regulate the set and the descent of the liquid, due to the movement of the pistons, resulting from the pressure of the liquid column on the area of the piston.

When filling the tank (measuring unit) 34, its inlet valve 18 is open and the outlet 20 is closed. The valves of the second measuring device 33 at this time are located so that the exhaust 16 is open and the inlet 12 is closed. Filling the measuring device 34, the liquid reaches the required level, is poured through the opening 28 and fills the tube 7. The pressure of the resulting liquid column of the pistons is displaced in the direction, in this case, to the left, whereby all the shut-off elements move in such a way that will be closed and the final will open; in the second mernik 33, on the contrary, the outlet closes and the inlet opens. By moving the valves, the dipstick 34 is emptied, and the dipstick 33 is filled. For the same reasons, the fluid that filled the measuring tube 33 and tube 5, with the corresponding pressure, will move the pistons in the opposite direction, i.e. from left to right. Then, in the gauge 33, the inlet valve closes and the outlet valve opens; in the other meter, the inlet valve will open and the outlet valve will close, etc.

Overflow holes 24 and 28 are blocked by valves 23 and 27, which are controlled by floats 2 and 1 associated with them so that the latter open a hole in one of the gauges only when the second gauge is emptied, i.e. when the float sits on the bottom (depressions 30 and 29) of the mernik. In the event of a delay in the release of fluid in one of the measuring tanks, the overflow in the other nz will open until the first is empty. At that, the diameter of the exhaust pipe must be larger than the dial, so that the second mernik is emptied rather than filled with the first liquid. In order to release the fluid from the fluid after moving the pistons, in the cylinders in which the pistons move, there are outflow tubes 39 and 40.

Thus, it is possible to regulate the set and the descent of the liquid only when the devices that take the liquid from the measuring tanks work smoothly and regularly. In practice, there are cases when the devices of subsequent stations suspend fluid intake, then in the filling measuring device, if the valve of the fluid supply device is not blocked, the liquid will flow more than

required, and it will overflow to prevent the second piston system from being installed, shutting off only the inlet valves.

The pistons of the second system 6 and 4 with the rod 32 and nozzles (valves) -14 and 17 produce translational motion according to the same principles as the pistons of the first system, only connected separately by other overflow tubes 10 and 8. Holes 26 and 25 in the measuring tanks, through which the tubes are filled with liquid, are flush with the holes 27 and 28. The fluid from the tubes after moving the pistons, as in the first system, is poured out through special tubes 41 and 42. If the liquid of the measuring tube 33 is not will be picked up by the next station before being filled the measuring device 34, the liquid of the latter will fill the tube 8 through the opening 25 and, by moving the pistons, will close the valves of the second system so that the inlet valve 17 closes. The first valve system remains unchanged, since with the corresponding action of the float 2, the valve 27 will not open the openings 28 of the measuring device 34. Therefore, regardless of the valves shut off, at previous stations both inlet valves will be closed - 19. the first system and 22 second and one only the valve of the exhaust pipe 11 will be open. And until the next station empties the dipstick 33, all the valves will be at rest. Moreover, both piston systems move at the same time with uninterrupted operation.

The proposed apparatus is intended primarily for sugar production.

The subject of the patent.

A device for measuring the fluid flowing through the pipes, consisting of two alternately filled and emptied

tanks, each of which is equipped with a float controlling the inlet and outlet bodies, characterized by the use of two pairs of overflow pipes 7-5 and 8-10, the first of which are equipped with cylinders for pistons 3 and 9 connected by a common rod and used for shifting Intake 12 and 18 (and exhaust

16, 20) of the locking bodies, and the second have cylinders for pistons 4 and 6 connected by a common stem, controlling only the inlet locking bodies 14 and 17, and during the entire emptying of one tank, the other overflow holes 28 or 24 of the other are closed by valves 27 or 23 associated with floats 2 or 1.