SU679801A1 - Liquid flowmeter - Google Patents

Claims (2)

The invention relates to a measurement technique and can be used, in particular, to measure the flow rate of a fluid in the petrochemical industry. Liquid counters are known, comprising a housing with cylinders, pistons of which are located in a block, over which a distribution column is installed, a valve that informs alternately cylinders in which pistons move, with inlet and outlet of liquid 1. The disadvantages of this counter are low reliability from - due to the presence of a seal of the rotating shank of the crank shaft and the inability to output the output line upwards. The aim of the invention is to improve the reliability of operation of the counter. This is achieved by installing a pulse sensor in the housing of the proposed meter, on the inside of the end walls of the cylinder chambers, and removing the spigot pipe at the top. The figure shows the diagram of the described meter. The counter contains a housing with cylinders 1 in which pistons 2 are mounted, connected in pairs through a crank-and-crank mechanism 2 with a crankshaft shaft 4. On the crank shaft 4 a spool 5 is fixed, overlapping the windows of the housing with cylinders 1Mi 1. Inlet and outlet cavities of the disc spool 5 divided {1 seal 6 spool. At B1, the other ends of the housing with cylinders 1 are located adjusting screws 7, which serve as the body regulating the volume of the dosed fluid for one revolution of the crank shaft 4. On the inner side of the end walls of the housing with cylinders 1, pulse sensor 8 is installed. The meter operates as follows. The fuel is supplied to the input line of the counter through the cavity of the disk spool 5, the channels in the housing and reciprocates the pistons 2. The movement of the pistons 2 is converted by the crank-knuckle mechanism 3 into the rotary movement of the crank shaft 4. The disc valve 5 fixed on the crank shaft 4 switches the polo; -ti 11il} nlrov to the corresponding mg1G Straral meter (input-output). The fuel displaced by the corresponding pistons through the channels in the housing with the cylinders and the cavity of the spool 5 goes up. To isolate the inlet and outlet lines, seal 6 of the valve is installed between case 1 and disk gold NIC 5. To adjust the volume of the fluid to be drilled over one turn of the crib bearing shaft, an adjusting screw 7 mounted in the case with cylinders 1 limits the pore movement 2. The installed pulse sensor 8 can be made either as a strain sensor (magnetoelastic adjusting organ, tensometric sensor, vibration sensor, or piezo sensor). By the number of pulses, the amount of liquid passed through the meter is judged. The use of a pulse sensor with a magnetically controlled contact ensures that the magnetically controlled contact is activated when the magnet mounted on the piston 2 approaches. The number of operations is proportional to the amount of liquid passed through the counter. The use of the invention will reduce the metal structure by eliminating the shank of the crank shaft; increase the reliability of the design by eliminating the compaction of the rotating shank; improve metrological performance by eliminating the upper stagnant zone in which the released or accompanying gas can accumulate. Claims of Invention A fluid meter comprising a housing with cylinders and with a cross-shaped piston located in them, a crank-rocker-mechanism, a crank shaft, a spool, supply and discharge nozzles and an adjustment stop, which is more pronounced. and reliability of operation, in the housing, on the inner side of the end-BUX walls of the cylinder chambers, an impulse sensor is installed, and the discharge connection is marked upwards. . Sources of information pinned into account during the examination 1. Kremlevsky P.P. Flow meters and quantity counters. M; -L., 1975, p. 376-378. Lb