SU1472767A1 - Fluid metering device - Google Patents

Abstract

The invention relates to liquid dispensers and allows for improved dosing accuracy. The dosing fluid passes into the gap between the inlet end 2 and the nozzle 7 installed in it coaxially with the gap, filling the internal cavity of the dosing and delivery 5 tubes to the depth of their immersion. Under the action of the control pneumatic impulse, the dose is displaced into the liquid collector 4, from where it is discharged through the flexible pipe 11 passed to the outside of the supply tank 1. When the density of the liquid changes, the float 8 together with the metering and supply 5 pipes installed on it floats (sinks), which leads to automatic correction of the volume of a single dose so that the mass of the dose is constant. The absence of a rigid connection between the collector 4 mounted on the float 9 and the float 8 by fastening the floats to each other by means of the horizontal movement limiter 10 eliminates the influence of the rigidity of the discharge pipe 11 and the liquid pouring through it to the dispenser. Missed out the flexible input end 6 of the feed tube 5 provides the buoyancy of the float. 1 il.

Description

The invention relates to valveless fluid dispensers and can be "used for dosing aggressive media. 5 ’The aim of the invention is to improve the accuracy of dosing.

The drawing shows a dispenser <fluid.

The liquid dispenser contains a consumable container 1 with a dispensing tube, the inlet end 2 of which is lowered with the liquid, and the curved outlet 3 is located above the liquid collector 4, and the supply pipe 5 with the inlet end 6 located 15 above the liquid level for connection to the source air pulses and a nozzle turned upward, 7 mounted coaxially with a gap in the inlet end 2 of the metering tube. 20 The metering feed tube is mounted on the float 8, and the fluid collector is mounted on the float 9, and the floats 8 and 9 are fastened to each other by means of a horizontal stop 10. The outlet pipe 11 and the inlet end 6 of the supply tube are flexible and passed out of the supply tank 1. • To stabilize the float 8 30. a load is placed in its cavity 12. The drain pipe 11 through the nipple 13 goes out of the supply tank 1, and is connected through the nipple 14 from collectors 4 liquids. The flexible pipe 35 6 is connected to the supply pipe 5 through the nipple 15. ·

For dispensing aggressive media, all elements of the dispenser are made of corrosion-resistant materials. 40

The liquid dispenser operates as follows.

Before work, the dispenser is calibrated according to the measured liquid with a given density, while the mass of a single dose is determined.

During operation, the dosed liquid passes into the gap between the inlet end 2 and the nozzle 7, filling the internal jq cavity of the dosing and supply tubes to the depth of their immersion. Under the influence of the control pulse of the neurator pneumoge (not shown), the measured dose: is displaced into the liquid collector 4, from where it is discharged through the pipe 11. In the intervals between pulses, the tubes are filled again.

When changing the density of the liquid, the float 8 together with the float tubes em (immersed), which leads to a decrease (increase) in the volume of a single dose so that the mass of the dose is constant, i.e. automatic correction of the measured liquid density is provided.

The lack of a rigid connection between the fluid collector 4 and the float -8 eliminates the influence of the rigidity of the branch pipe 11 and the liquid pouring out on it on the further operation of the device, which also increases the metering accuracy.

The fluid collection 4 due to the hydraulic resistance of the discharge pipe 11 allows you to convert discrete fluid supply to continuous through the pipe 11 ·

Claims (1)

Claim: A liquid dispenser containing a supply container with a metering tube, the inlet end of which is lowered into the liquid, and a curved outlet is located above the liquid collector, and a supply tube with an inlet end located above the liquid level to connect to the source of pneumatic pulses and turned upward by a nozzle mounted coaxially with a gap in the inlet end of the dosing tube, about τ'l, which, in order to increase the accuracy of dosing, the supply tank is equipped with two floats, fastened together by means of a horizontal limiter On the other hand, the metering and feeding tubes are mounted on one float, and the fluid collector is installed on the other, and the drain pipe of the fluid collector and the inlet end of the feeding tube are flexible and are passed to the outside of the supply tank. I