RU2740022C2 - Self-testing device for automatic dosing of reagents - Google Patents

Abstract

FIELD: batchers.

SUBSTANCE: invention relates to a self-testing device for automatically dispensing liquid reagents into a fluid flow and can be used in various industries. Device comprises a dispensing container, a dispenser, in the capacity of which at least one measuring tank is installed with a high-pressure gas supply line, a line of periodic supply of liquid reagent from the supply container and a liquid reagent dispensing line, on which a metering nozzle is installed, a weight testing unit equipped with a test container with a strain gage, a high-pressure gas supply line and a liquid reagent feed line, connected by a liquid reagent supply line with a liquid reagent dispensing line, as well as a control system.

EFFECT: invention provides dosing of nonvolatile liquid reagents and self-testing of separate elements of the device.

1 cl, 1 dwg

Description

The invention relates to the design of devices for dosed introduction of liquid reagents into a fluid flow (gas, liquid or multiphase medium) and can be used in various industries.

Known gas odorizer [RU 2247332, publ. 02/27/2005, IPC G01F 13/00, G05D 11/02], containing the main and control containers with an odorant, dosing, flow measuring and calculating devices, while the dosing device is made in the form of an electromagnetic pulsator with a check valve and a siphon-type dosing device, located above the maximum level of odorant in the main and control containers.

The disadvantages of the known odorizer are the complexity and low dosing accuracy associated with volumetric dosing of the odorant without taking into account the change in its density with a change in temperature.

Closest to the claimed invention is a gas odorization method [RU 2561977, publ. 19.09.20015, IPC B01F 3/02], carried out using a device that includes an evaporating unit, consisting of a supply tank, an evaporation unit, a weighing device (strain gauge), and a control system, as well as dosing and measuring devices for the number of gas streams ...

The disadvantage of the known device is the presence of an evaporation unit, which does not allow metering of non-volatile liquid reagents, as well as the impossibility of self-testing of individual elements of the device.

The objective of the invention is to meter non-volatile liquid reagents and self-test individual elements of the device.

The technical result is the dosing of non-volatile liquid reagents by using a volumetric dosing unit as a dosing device and self-testing of its individual elements by equipping the device with a weight testing unit.

The specified technical result is achieved by the fact that in the known device, including a supply container, a strain gauge, a dosing device, as well as a control system, the peculiarity lies in the fact that at least one measuring container with high pressure gas supply lines, periodic supplying a liquid reagent from a supply tank, as well as dispensing a liquid reagent, on which a dosing nozzle is installed, in addition, the device is equipped with a weight testing unit equipped with a test container with a strain gauge and high-pressure gas supply lines and periodic supply of a liquid reagent connected by a liquid reagent supply line with a line for dispensing a liquid reagent.

All used components and assemblies are known from the prior art. For example, an electromagnetic pulse nozzle can be installed as the metering nozzle. The volatility of the liquid reagent does not significantly affect the dosing process.

Installation as a dosing device of a measuring container with high pressure gas supply lines, periodic supply of liquid reagent from a supply container, as well as dispensing a liquid reagent, on which a dosing nozzle is installed, allows dosing non-volatile liquid reagents. Equipment of the device with a weight testing unit equipped with a test container with a strain gauge connected by a liquid reagent supply line with a liquid reagent dispensing line allows you to periodically test the dosing nozzle by weighing the test vessel, calculating its weight derivative with respect to time and adjusting the number of pulses of the tested nozzle, which ensure dosing of the reagent in a given speed, which ensures the maintenance of high accuracy of dosing of the device as a whole.

The proposed device is shown in the attached figure and consists of a consumable 1 and 2 measuring containers (conventionally shown one measuring container), a dosing device 3 with a test container 4 and a strain gauge 5, a dosing nozzle 6 and a control unit 7.

When the device is operating, a liquid reagent from container 1, replenished as needed through line 8, is periodically fed through line 9 to test container 4 and measuring container 3, from which, along line 10, through a dosing nozzle 6, controlled by signal 11 from block 7, liquid the reagent is fed into the pipeline 12 with a fluid flow. Periodically, the dosing nozzle 6 is tested, for which a test container 4 is connected to line 10, through line 13, and the measuring container 2 is disconnected. The test container 4 is continuously weighed using a strain gauge 5, the signal 14 from which is sent to block 7, where it is processed together with signal 15 coming from the sensor of the volumetric flow rate of the fluid in the pipeline 12, and the generated signal 11 of discrete pulses controls the dosing nozzle 6, providing a given rate of reagent supply. At the same time, block 7 calculates the required rate of supply of discrete pulses to injector 6. At the end of testing, disconnect the test capacitance from line 10, connect a measuring capacitor to it, and until the next test reproduce the rate of discrete impulses to injector 6 calculated during testing. the fittings are not shown in the diagram.

Thus, the proposed device allows metering of a non-volatile liquid reagent into the fluid flow, self-testing of the device elements, and can be used in industry.

Claims (1)

Self-testing device for automatic dosing of reagents, including a supply container, a strain gauge, a dosing device, as well as a control system, characterized in that at least one measuring container with high-pressure gas supply lines, periodic supply of liquid reagent from the supply container is installed as a dosing device, as well as the dispensing of a liquid reagent, on which a dosing nozzle is installed, in addition, the device is equipped with a weight testing unit equipped with a test container with a strain gauge and high-pressure gas supply lines and a periodic supply of a liquid reagent connected by a liquid reagent supply line with a liquid reagent dispensing line.

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