RU2694849C1 - Device for production, storage and supply of distilled water - Google Patents

Abstract

FIELD: medicine; pharmaceuticals.

SUBSTANCE: invention relates to devices intended for production, storage and supply of distilled water used in medical, pharmaceutical, biotechnical and other industries. Device for production, storage and supply of distilled water represents a single structure and consists of electrically and hydraulically interconnected aqua distiller, cooler of distilled water, collector, pump, hydraulic accumulator, ultraviolet lamp, control unit, pipelines and electric valves.

EFFECT: technical result is improved technological capabilities of device for production, storage and supply of distilled water, reduced power consumption.

1 cl, 1 dwg

Description

The invention relates to devices intended for the production, storage and supply of distilled water used in medical, pharmaceutical, biotechnical and other industries.

Known apparatus for distillation and storage of water:

1. Patent RU No. 2125959 C1 "Capacity for storage and transportation of liquid."

2. Patent RU No. 2347135 C2 "Capacity for storing various liquid and gaseous substances."

3. SU patent No. 279482 "Collection for storing liquids used for medical purposes."

4. Patent for the useful model of the Russian Federation No. 46182 U1 “Electric water distiller”.

An analogue of this design is an akvadistillyator with a built-in collection, presented in the patent RU No. 2633587. In this apparatus, a distillation unit, a distillate collection and a control unit are housed in a common body. The disadvantage of this device is the lack of automatic supply of distillate to the consumer, the lack of control over the quality of the distilled water supplied, the lack of disinfection of distilled water during analysis.

The aim of the invention is to increase the technological capabilities of the device for receiving, storing and automatically supplying distilled water.

This goal is achieved by combining the aquadistillator, distilled water cooler, collector, pump, control unit, accumulator, UV lamp, pipelines and solenoid valves in a single design with a fully automatic control system, which includes disabling the supply of source water to the distiller when filling the collector with distilled water, exit to the operating mode of the akvadistillyator when selecting distilled water from the collector, cooling the distilled water entering into collection, quality control of distilled water stored in the collection, automatic supply of distilled water to the consumer using a pump and solenoid valves, maintaining a stable accumulator pressure of distilled water in a hydraulic system with a pressure accumulator, disinfection of distilled water with an ultraviolet lamp.

The invention consists in the execution of the device for receiving, storing and supplying distilled water, with placement, in a single common case on the common frame of an akvadistillyator, collection, pump, control unit, distilled water cooler, hydroaccumulator, ultraviolet lamp, pipelines and electromagnetic valves. the collector is hydraulically connected to the distillate cooler with a distilled water supply pipeline, while the distilled water supply pipeline is connected to the inlet nipple with the first end A container installed in the cylindrical housing of the collector, the second end to the outlet fitting of the distillate cooler, wherein the distillate cooler is connected to the condenser of the aquadistillator with the source water supply pipe installed through the source water supply pipe installed on the wall of the distillate through the distillate collection fitting, at the same time, the collection is hydraulically connected to the pump by the distillation water analysis pipeline, while the analysis pipeline distilled water is attached to the outlet fitting located at the bottom of the collector, while the collector is equipped with an upper level sensor installed in a cylindrical housing below the inlet nozzle, an intermediate level sensor installed in a cylindrical housing of the collector between the upper level sensor and a lower level sensor installed in a cylindrical housing of the collection at the output level the pump nozzle, while in the lower part of the water-indicating column of the collection a conductometric sensor is installed, while the pump is hydraulic The ski pipe is connected by a distilled water analysis pipeline with an outlet solenoid valve, while a return valve is installed in the distillation water analysis pipe after the pump outlet pipe, and the distillation water analysis pipe through the collector installed in it communicates with a pressure accumulator through a high-pressure distilled water supply channel. A pressure sensor is installed in the supply channel of distilled water under high pressure; in this case there is a distiller in the disassembly pipeline A UV lamp is installed in front of the outlet of the water inlet; the control unit is electrically connected to the water distiller, in turn, connected to the inlet solenoid valve, upper level sensor, intermediate level sensor, conductivity sensor, to the pump, in turn, connected to a low level sensor, an output solenoid valve, a pressure sensor and an ultraviolet lamp.

FIG. 1 shows a diagram of a device for receiving, storing and supplying distilled water.

The device for receiving, storing and supplying distilled water contains a common body 1 (Fig. 1) on a common frame 2 in which water distiller 3 is placed, distilled water cooler 4, collection 5, pump 6, control unit 7, accumulator 8, ultraviolet lamp 9, source water supply pipeline 10, distillate supply pipeline 11, distilled water analysis pipeline 12, waste water discharge pipeline 13, inlet solenoid valve 14, source water supply pipe 15, condensation chamber 16, equalizer 17, evaporation chamber 18, yes chick 19, electric heating element 20, distillate collection nipple 21, inlet 22, medium level sensor 23, output nipple 24, pressure sensor 25, upper level sensor 26, output solenoid valve 27, lower level sensor 28, water indicating column 29, conductometric sensor 30, the outlet of the pump 31, a check valve 32, a pressure gauge 33, an outlet fitting 34, a manifold 35, and a channel for supplying distilled water under pressure 36.

The proposed device for storing water for injection works as follows. The source water when opening the electromagnetic valve 14 through the source water supply pipe 10 enters the distilled water cooler 4, then through the source water supply pipe 15 installed on the wall of the distiller 3, is fed into the condensation chamber 16, from the outlet of which is fed into equalizer 17 and then into the evaporation chamber 18 with the electric heating element 20 installed therein. When water reaches the working level in the evaporation chamber 18, the sensor 19 installed in the equalizer 17 sends a signal to the control unit 7, as a result it is turned on by the electric heating element 20, the hot distillate obtained in the water distiller, leaves through the distillate collection nozzle 21 and enters the distilled water cooler 4, where it is cooled to the required temperature and flows through the inlet pipe 22 into the collection 5. As it is filled collection 5 with water triggers the middle level sensor 23, which sends a signal to the control unit 7 and supplies power to the pump 6. Pump 6 pumps distilled water from the collection and through the pipe When the distilled water is parsed through the collector 35 through the supply channel, distilled water 36 is pumped into the accumulator 8, when the required pressure is reached in the accumulator 25, the pressure sensor 25 sends a signal to the control unit 7 and the power supply to the pump 6 is terminated. When water reaches the maximum level in the collector 5, the upper level sensor 26 sends a signal to the control unit 7, the electric heating element 20 is turned off, the input solenoid valve 14 is closed, the feed water supply is stopped, the distillation process is stopped.

For supplying distilled water, a signal is sent to the control unit 7, the UV lamp 9 is turned on, installed in front of the outlet fitting 34, the output solenoid valve 27 is opened, and the distilled water is disassembled with the required pressure and flow.

To stop the supply of distilled water, a signal is sent to the control unit 7, the output solenoid valve 27 is closed, the UV lamp 9 is turned off.

When the water level decreases in the process of disassembling from the collector, the middle level sensor 23 sends a signal to the control unit 7, the input solenoid valve 14 opens and the water distiller 3 resumes operation. The top level sensor 26 is installed in the collector's cylindrical housing below the inlet nozzle 22.

The sensor of the average level 23 is installed in the cylindrical housing of the collection between the sensor of the upper level and the sensor of the lower level.

The sensor of the lower level 28 is installed in the cylindrical housing of the collector at the level of the outlet pipe 31 of the pump 6.

When distilled water falls below the level of the lower level sensor 28 during the disassembly process, the sensor sends a signal to the control unit 7 and the power supply to the pump 6 stops.

A conductometric sensor 30 is installed at the bottom of the water-indicating column 29 of the collector, which automatically checks the quality of distilled water for specific electrical conductivity and if data are not satisfactory, the electric heating element 20, the pump 6 are turned off and the input solenoid valve 14 is closed.

In the pipeline analysis of distilled water 12 after the outlet pipe 31 has a check valve 32 and a pressure gauge 33.

The claimed invention can be used in various industries.

The use of the proposed device for the production, storage and supply of distilled water allows for the following technical and economic advantages to be obtained in comparison with the prototype:

- to obtain a single structure consisting of a water distiller, distilled water cooler, a collector, a pump, a control unit, a hydroaccumulator, an ultraviolet lamp, pipelines and electromagnetic valves;

- significantly reduce energy costs due to the automatic control system - shutting off the water supply and electricity supplied to the water distiller when the collector is filled with distilled water and, accordingly, automatically entering the operating mode when water is taken from the collector;

- to supply distilled water with stable pressure;

- disinfect the distilled water supplied by the ultraviolet lamp;

- to check the distilled water for specific electrical conductivity in the automatic mode and in case of unsatisfactory data, turn off the water distiller and the pump.

Claims (1)

Distilled water supply device containing a water distiller, collector, pump, control unit, distilled water cooler, accumulator and ultraviolet lamp, characterized in that the distiller, collector, pump, control unit, distilled water cooler, accumulator, ultraviolet lamp, piping and electro-valves are located in the general case, at the same time the collection is hydraulically connected to the distillate cooler with a distilled water supply pipeline, while the supply pipeline is distilled The first end of the water is connected to the inlet fitting installed in the cylindrical body of the collector, the second end to the outlet fitting of the distillate cooler, while the distillate cooler is connected to the condensation chamber of the distiller through the source water supply pipe installed on the wall of the distiller condensation chamber, and the distillate collection tray with the distillate supply pipeline through the distillate collection nozzle, while the collection is hydraulically connected to the pump with the distillation analysis pipeline This water is connected to the outlet fitting located at the bottom of the collector, and the collector is equipped with an upper level sensor installed in the cylindrical case below the inlet nozzle, an average level sensor installed in the cylindrical case of the collector between the upper level sensor and lower sensor level installed in the cylindrical body of the collector at the level of the pump outlet, while in the lower part of the water-indicating column of the collector there is a conductivity meter A conventional sensor, the pump is hydraulically connected by a distillation water dispensing pipe to an outlet solenoid valve, while a non-return valve is installed in the distilling water dispensing pipe after the pump outlet, and the dispensed water disassembly pipe is connected to the accumulator through the collector channel , while in the supply channel of distilled water under pressure, a pressure sensor is installed, while in the disassembly pipeline distilled water in front of the outlet fitting UV lamp is installed, while the control unit is electrically connected to the water distiller, in turn connected to the input solenoid valve, upper level sensor, intermediate level sensor, conductivity sensor, pump, in turn connected to the lower level sensor, output solenoid valve, pressure sensor and UV lamp.

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