SU1084611A1 - Piston-type liquid meter - Google Patents

Abstract

PISTON FLUID COUNTER, containing a cylindrical body with a valve coaxially placed in it, made in the form of a movable / fZ 2 7 1 a disk, sealed along a cylindrical body and dividing the cylinder into two extreme middle cavities, supply and discharge nozzles, the first of which is in communication with the middle cavity, characterized in that, in order to increase reliability, each formed drive the piston orifice.

Description

The invention relates to liquid meters with a reciprocating piston and can be used in food, chemical and other industries, as well as in fueling columns for measuring the quantity and dosage of water, oil products, liquid food and chemicals.

Known piston fluid meter containing a cylinder, a piston placed in it, formed by two rigidly connected disks, inlet and outlet pipes, a valve alternately communicating the opposite cavity of the cylinder with the outlet pipe, and a device for switching the valve. The inlet pipe is in communication with the middle cavity of the cylinder [1].

The disadvantage of this design is the presence of contact disk seals, the wear of which limits the life of the counter.

The closest in technical essence to the proposed one is a 25-piston fluid meter containing a cylinder, a piston consisting of two rigidly connected sealed disks separating the cylinder into two extreme and middle cavities, inlet and outlet pipes, the first of which is in communication with the middle cavity, a valve, alternately communicating the extreme cavities of the cylinder with the outlet pipe, a mechanism for switching the valve [2_].

Due to the inadmissibility of leaks, the most critical elements of a piston fluid meter are disk seals in the cylinder. Contact seals with elastic sealing elements quickly wear out, are very sensitive to the presence of particles of contaminants in the liquid,

The disadvantage of this device is also the presence of a mechanism for switching the valve.

The purpose of the invention is improving the reliability of the counter.

This goal is achieved by the fact that in a piston liquid meter containing a cylindrical housing with a valve coaxially placed in it, made in the form of a movable hollow rod located coaxially with the outlet, and a piston freely placed on it, which is two disks rigidly connected to each other, sealed in a cylindrical body and dividing the cylinder into two extreme and one middle cavity, inlet and outlet pipes, the first of which communicates with the middle cavity, in each and Throttle openings are made of piston disks.

The drawing shows the proposed $ piston fluid meter, General view.

The piston fluid meter comprises a cylindrical housing 1, a piston 2 located therein, formed by rigidly connected disks 3 and. 4, dividing the cylindrical body 1 into the extreme 5 and 6 and the middle 7 cavity, supplying 8 and leading 9 nozzles and valve 10. On the outer side of the cylindrical body 1 is installed a magneto-inverter 11. In disks 3 and 4 are made throttle openings: 12 and 13 the same diameter. The peripheral surfaces of the disks 3 and 4 in combination with the inner surface of the cylinder 1 form gap-free contactless seals.

A piston fluid meter operates as follows.

The working fluid through the inlet pipe 8 passes into the middle cavity 7 and then through the holes 12 and 13 in the disks 3 and 4 enters the cavity 5 and 6. The valve 10 can stably be in one of two extreme positions - right or left. With the right position of the valve 10 under the action of the fluid pressure entering the cavity 6, the piston 2 moves to the left, rests against the shoulder of the valve 10 by the disk 3 and throws it to the left position. After that, the piston under the action of fluid pressure entering the cavity 5 moves to the right, 40 until the disk 4 rests against the corresponding shoulder of the valve 10 and throws it to the right position; then the process is repeated.

Since the openings 12 and 13 have 45 the same diameter, the total liquid flow rate is divided in half, so that the piston 2 moves in each direction by half the flow rate. At each stroke of the piston 2, due to a change in the gap between the disk 3 made of a magnetically conductive material and the magneto-inductive transducer 11, an electric pulse is generated in it. The repetition rate of these pulses is proportional to the measured flow rate.

Thus, due to the lack of a mechanism for switching the valve and sealing elastic seals, the reliability of the proposed counter increases.

Circulation 610 Subscription

Branch of the PPP Patent, Uzhgorod, Project 4,

Claims (1)

A PISTON LIQUID METER containing a cylindrical body with a valve coaxially placed in it, made in the form of a movable hollow rod, located coaxially with the outlet, and a piston freely placed on it, which is two disks rigidly interconnected, sealed on a cylindrical body and separating the cylinder into two extreme and one middle cavities, inlet and outlet pipes, the first of which is connected to the middle cavity, characterized in that, in order to increase reliability, in each of The throttle bores are made of the piston casing.