RU2433378C1 - Fluid dispenser - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: fluid dispenser comprises a feeder tank, on the cover of which at the inner side there is a dose setter made in the form of a non-magnet pipe with working fluid and a magnetically controlled contact placed in it, rigidly connected with a float, an air check valve installed in the feeder tank cover, a mechanism of fluid supply connected to the feeder tank via a valve and directly to the intermediate reservoir, a mechanism of fluid supply connected to the feeder tank via a valve, an additional magnetically controlled contact arranged on the external surface of the feeder tank, a non-magnet partition, inside which there is float with a magnet as capable of displacement, and a scale on the outer surface of the feeder tank, at the same time the dose setter is arranged as tight, is partially filled with working fluid, and its cavity above the float is vacuumised, the non-magnet partition for direction of travel of the float with the magnet in the feeder tank is the side surface of the non-magnet pipe of the dose setter, an additional tube-plate radiator is tightly connected to a non-magnet pipe, which is arranged in the lower part of the feeder tank volume.

EFFECT: improved accuracy of fluid dispensing.

1 dwg

Description

The invention relates to instrumentation and can be used for dispensing liquids, such as petroleum products.

Known liquid dispenser containing a consumable tank, divided into two interconnected parts of the perforated partition, the cover of the consumable tank, in which a tube of non-magnetic material is mounted. Inside the tubes there are sealed magnetically controlled contacts, which are dose adjusters and are controlled by actuators using flexible connections. Inside the tank are a float with two permanent magnets and an emergency float with a permanent magnet. A fitting with a valve for air outlet, a flow pipe and a nozzle for supplying dose components are mounted in the lid (see the description of the invention of the USSR No. 851101, IPC G01F 13/00, publication 08/10/1981).

A disadvantage of the known liquid dispenser is the inertia in stabilizing the temperature of the liquid upon receipt of its next dose in the dispenser, which leads to an increase in the dosage error above the norm.

Known liquid dispenser containing a supply tank, a cover, an inlet pipe with a valve, a drain pipe with a valve, a pipeline with a counterweight connected by a flexible connection with a float equipped with a magnet. Magnetically controlled contacts located on the outer surface of the supply tank, and a constant pressure compressed gas source connected to the supply tank (see the description of the invention to the RF patent No. 2078312, IPC G01F 13/00, publication 04/27/1997).

A disadvantage of the known liquid dispenser is the lack of accuracy of liquid dispensing.

The task of the invention is to increase the accuracy of dispensing liquids.

The invention consists in the following.

The liquid dispenser contains a supply tank, on the cover of which a dose adjuster is mounted on the inside, made in the form of a non-magnetic pipe with a working fluid and a magnetically controlled contact rigidly connected to the float placed in it, a non-return air valve installed in the cover of the supply tank, a fluid supply mechanism, connected to the supply tank through the valve and directly to the intermediate tank, fluid flow mechanism connected to the supply tank through the valve, additional magnetically controlled contact, Assumption on the outer surface of the supply tank, a non-magnetic partition, within which is arranged to move the float with a magnet, and a scale on the outer surface of the supply tank, wherein the dose setting element is made airtight, partially filled with liquid, and its cavity above the float evacuate. The non-magnetic partition for the direction of travel of the float with a magnet in the supply tank is the side surface of the non-magnetic pipe dose adjuster. An additional tubular-plate radiator, which is located in the lower part of the volume of the consumable tank, is hermetically connected to the non-magnetic pipe.

This allows you to increase the accuracy of dispensing fluid.

The invention is illustrated in the drawing, which shows a liquid dispenser, a General view in section.

The liquid dispenser contains a supply tank 1, on the cover 2 of which a dose adjuster 3 is mounted on the inside, made in the form of a non-magnetic pipe 4 with a magnetically controlled contact 5 placed in it, rigidly connected to the float 6, an air check valve 7 installed in the cover 2 of the supply tank 1, a fluid supply mechanism 8 connected to the supply tank through the valve 9, an additional magnetically controlled contact 10 located on the outer surface of the supply tank 1 and opposite the lower part of the non-magnetic pipe 4, non-magnetic partition 11 , inside of which a float 12 with a magnet 13 is installed with the ability to move, and a scale 14. In this case, the dose adjuster 3 is sealed, partially filled with a working fluid, and its cavity above the float 6 is evacuated. The non-magnetic partition 11 for the direction of travel of the float with a magnet in the supply tank 1 is the side surface of the non-magnetic pipe 4 of the dose setting unit 3. An additional tubular-plate radiator 15, which is located in the lower part of the volume of the supply tank 1, is hermetically connected to the non-magnetic pipe 4. A pulse total counter 16 and level 17 are installed on the cover 2 of the supply tank 1. A mechanism 18 for flowing liquid through the valve 19 is connected to the bottom of the supply tank and an intermediate tank 20 through the fluid supply mechanism 8 and the valve 9. At the bottom of the non-magnetic pipe 4 there is a limiter 21 of the stroke of the float 12 with a magnet 13.

The liquid dispenser operates as follows.

The supply tank 1 is set at level 17. The nominal volume of the working fluid in the dose setter 3 and the volume of fluid in the supply tank 1 are preliminarily brought to a normalized temperature of 20 ° C and average density at this temperature. When you turn on the mechanism 8 for supplying fluid, the valve 9 opens and the filling tank 1 is filled with liquid. In this case, the float 12 with the magnet 13 rises up along the lateral surface of the non-magnetic pipe 4 of the dose setter 3. Upon reaching the liquid level of the working fluid in the dose adjuster 3, the magnet 13 acts on the magnetically controlled contact 5, which is triggered, giving signals to turn off the fluid supply mechanism 8 and close the valve 9. Then, the temperature of the fluid stabilizes between the dose adjuster 3 and the supply tank 1. When applying liquid to the consumer, the fluid flow mechanism 18 is turned on and the valve 19 opens, while the float 12 with the magnet 13 is lowered down. Upon reaching the liquid level of the location of the magnetically controlled contact 10, the magnet 13 acts on the magnetically controlled contact 10, which is triggered, giving a signal to turn off the mechanism 18 of the fluid flow and closing the valve 19, the fluid supply to the consumer is completed. After that, the automatic dispenser operation cycle is repeated and a new dose of liquid with a different temperature than in the dispenser enters the dispenser. Then, the temperature of the liquid is stabilized using a tubular-cylindrical radiator 15. In this case, a new portion of the liquid is mixed with the remaining liquid. Miscible liquids have different temperatures. The stabilization or equalization of temperature occurs through the radiator 15. The temperature of the liquid mixture through the radiator 15 is transferred to the working fluid of the dose setting unit 3. The working fluid changes its volume depending on the temperature difference. With a positive difference, it heats up, increasing its volume. At the same time, its level rises by raising the float 6 with magnetically controlled contact 5. If the difference is negative, its volume decreases, while its level drops, lowering the float 6 with magnetically controlled contact 5. Thus, the amount of liquid dispensed to the consumer is automatically corrected.

The claimed invention improves the accuracy of dispensing liquids.

Claims (1)

A liquid dispenser containing a supply tank, on the cover of which a dose adjuster is mounted on the inside, made in the form of a non-magnetic pipe with a working fluid and a magnetically controlled contact rigidly connected to the float placed in it, a non-return air valve installed in the cover of the supply tank, fluid supply mechanism connected to the supply tank through the valve and directly to the intermediate tank, fluid flow mechanism connected to the supply tank through the valve, additional magnetically controlled contact, ra located on the outer surface of the consumable tank, a non-magnetic partition, inside which a float with a magnet is installed with the ability to move, and a scale on the outer surface of the consumable tank, while the dose dial is sealed, partially filled with working fluid, and its cavity above the float is evacuated, a non-magnetic partition for the direction of travel of the float with a magnet in the supply tank is the side surface of the non-magnetic pipe of the dose adjuster, an additional tubular is sealed to the non-magnetic pipe o-plate radiator, which is located in the lower part of the volume of the supply tank.