CN211051270U - Automatic salt water diluting system based on water ejector - Google Patents

Abstract

The utility model discloses an automatic salt solution dilution system based on water dart mainly relates to salt solution dilution system technical field, including basic constitution, regulating unit, power pack and the control unit, basic constitution includes pressure water pipe, strong salt water pipe, pipeline mixer, main pipeline and strong brine jar, and the regulating unit includes valve member, electromagnetic flow meter and conductivity meter, and power pack is the water dart, and the control unit is the switch board. The utility model discloses overall structure passes through the pressurized water as power, and the water dart is as the source that saturated strong brine inhales power, shows the dilute brine concentration through the switch board real-time measurement, calculates required saturated brine flow size according to the dilute brine concentration, realizes supplying saturated brine as required, greatly improves the utilization ratio of saturated brine, has solved the energy consumption height that prior art exists, problem that the fault rate is high; the water ejector is used as a power source, and brine with stable proportioning flow and concentration is diluted on line, so that the conveying of a metering pump is omitted, and energy is saved.

Description

Automatic salt water diluting system based on water ejector

Technical Field

The utility model relates to a salt solution diluting system, especially an automatic salt solution diluting system based on water dart.

Background

In the production process of the electrolytic sodium hypochlorite equipment, saline water with certain concentration and flow is needed as a raw material, a sodium hypochlorite solution with certain concentration is generated after electrolysis by an electrode, and the stability of the concentration of the saline water and the stability of the flow determine the electrolysis efficiency of the electrode and the stability of the concentration of the generated sodium hypochlorite. In the prior art, a metering pump is generally adopted to convey saturated saline water, and a metering pump conveys dilution water, on one hand, the flow and the saline water concentration are easily interfered by the factors of the pump, so that the salt preparation effect is difficult to stabilize, the electrolysis efficiency is high and low, the concentration of the generated sodium hypochlorite solution is also high and low, the working efficiency of equipment is low, and the disinfection effect on a water body after the addition is unstable; on the other hand, the water for supplying the sodium hypochlorite generator has pressure, and is conveyed by a metering pump after pressure relief is needed, so that energy waste is caused, and energy consumption and failure rate are increased by adopting power equipment.

SUMMERY OF THE UTILITY MODEL

The utility model provides a simple structure's automatic salt solution dilution system based on water dart has solved the problem with high costs and the energy consumption height that exists among the prior art.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be: including basic composition, the regulating unit, power pack and the control unit, basic composition includes the pressure water pipe, concentrated brine pipe, the pipeline mixer, main pipeline and concentrated brine tank, pressure water pipe and the parallelly connected setting of concentrated brine pipe, the regulating unit includes the valve component, electromagnetic flow meter and conductivity meter, the valve component includes the check valve, electronic ball valve one and electronic ball valve two, power pack is the water dart, the control unit is the switch board, switch board circuit connection electromagnetic flow meter, the conductivity meter, electronic ball valve one and electronic ball valve two, electromagnetic flow meter, check valve and electronic ball valve one establish ties in proper order and sets up on pressure water pipe, electronic ball valve two sets up on concentrated brine pipe, the water dart sets up in pressure water pipe and concentrated brine pipe junction, pipeline mixer and conductivity meter set up on main pipeline, concentrated brine tank is connected to concentrated brine pipe one end.

Preferably, the valve assembly further comprises a manual ball valve, and the manual ball valve is arranged on the pressure water pipe and is positioned in front of the electromagnetic flowmeter.

Preferably, the control cabinet is controlled through P L C, and the flow in the pressure water pipe can be adjusted by controlling the electric ball valve I according to the flow feedback information of the electromagnetic flowmeter and the flow in the concentrated brine pipe can be adjusted by controlling the electric ball valve II according to the concentration of the brine measured by the conductivity meter.

The utility model adopts the above structure, following advantage has: the whole structure takes pressure water as power, the water ejector is taken as a source of saturated strong brine suction power, the concentration of dilute brine is measured and displayed in real time through the control cabinet, the required flow of saturated brine is calculated according to the concentration of dilute brine, saturated brine is supplied according to needs, the utilization rate of the saturated brine is greatly improved, and the problems of high energy consumption and high failure rate in the prior art are solved; the water ejector is used as a power source, the saline water with stable proportioning flow and concentration is diluted on line and is used for the electrolysis of the sodium hypochlorite generator, the cost is low, the conveying of a metering pump is omitted, and the energy is saved.

Drawings

Fig. 1 is a schematic view of the vertical structure of the present invention.

In the figure, 1, a manual ball valve; 2. an electromagnetic flow meter; 3. a first electric ball valve; 4. a check valve; 5. a water ejector; 6. a second electric ball valve; 7. a pipeline mixer; 8. a conductivity meter; 9. a concentrated brine tank; 10. a control cabinet; 11. a pressure water pipe; 12. a concentrated brine pipe; 13. a main pipeline.

Detailed Description

In order to clearly illustrate the technical features of the present invention, the present invention is explained in detail by the following embodiments in combination with the accompanying drawings.

As shown in fig. 1, the device comprises a basic component, an adjusting unit, a power unit and a control unit, wherein the basic component comprises a pressure water pipe 11, a strong brine pipe 12, a pipeline mixer 7, a main pipeline 13 and a strong brine tank 9, the pressure water pipe 11 and the strong brine pipe 12 are arranged in parallel, the adjusting unit comprises a valve assembly, an electromagnetic flowmeter 2 and a conductivity meter 8, the valve assembly comprises a check valve 4, a first electric ball valve 3 and a second electric ball valve 6, the power unit is a water ejector 5, the control unit is a control cabinet 10, the control cabinet 10 is connected with the electromagnetic flowmeter 2, the conductivity meter 8, the first electric ball valve 3 and the second electric ball valve 6, the electromagnetic flowmeter 2, the check valve 4 and the first electric ball valve 3 are sequentially arranged on the pressure water pipe 11 in series, the second electric ball valve 6 is arranged on the strong brine pipe 12, the valve assembly further comprises a manual ball valve 1, the manual ball valve 1 is arranged on the pressure water pipe 11 and is positioned in front of the electromagnetic flowmeter 2, the water ejector 5 is arranged at the position where the pressure water pipe 11 and the strong brine pipe 12 are merged, the pipeline mixer 7 and the conductivity meter 13, one end of the strong brine pipe 12 is connected with the strong brine tank 12, one end of the electric ball valve 12, the electric ball valve 10 is connected with the electric ball valve 10, the electric ball valve can control the flow meter and control the.

When the system is in a working state, softened water with certain pressure enters the system through a pressure water pipe 11, 26.5 percent of saturated strong brine enters the system from a strong brine tank 9 through a strong brine pipe 12, the softened water enters an electromagnetic flowmeter 2 for metering, a control cabinet 10 regulates the pressure water flow in the pressure water pipe 11 by controlling an electric ball valve I3 according to flow feedback information of the electromagnetic flowmeter 2, a manual ball valve 1 is in a normally open state and is a standby valve of the electric ball valve I3, when the electric ball valve I3 is damaged, the pressure water pipe 11 is controlled to be closed through the manual ball valve 1, a check valve 4 is arranged in front of a water ejector 5 and is used for preventing water or solution from returning into a vacuum pipeline at the water ejector 5 after the water ejector 5 stops working, when the pressure water enters the water ejector 5, the pressure water is used as power, the injection effect of the water ejector 5 is used, and the vacuum suction effect of the pressure water through the water ejector 5 is used, the saturated strong brine is sucked into the water injector 5, the saturated strong brine is injected into the main pipeline 13 by means of the residual pressure of the pressure water, the saturated strong brine and the pressure water are mixed by the pipeline mixer 7 to achieve the dilution effect, the conductivity meter 8 measures the concentration of the diluted brine, and the flow of the saturated strong brine in the strong brine pipe 12 is adjusted by controlling the electric ball valve II 6 through the control cabinet 10, so that the saturated strong brine can be diluted into 3% brine and discharged from the main pipeline 13.

All the components are in the prior art.

The above-mentioned specific embodiments can not be regarded as the restriction to the scope of protection of the utility model, to technical personnel in this technical field, it is right the utility model discloses any replacement improvement or transform that embodiment made all fall within the scope of protection of the utility model.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims (3)

1. The utility model provides an automatic salt solution system that dilutes based on water dart which characterized in that: the device comprises a basic component, an adjusting unit, a power unit and a control unit, wherein the basic component comprises a pressure water pipe, a concentrated brine pipe, a pipeline mixer, a main pipeline and a concentrated brine tank, the pressure water pipe and the concentrated brine pipe are arranged in parallel, the adjusting unit comprises a valve assembly, an electromagnetic flow meter and a conductivity meter, the valve assembly comprises a check valve, an electric ball valve I and an electric ball valve II, the power unit is a water ejector, the control unit is a control cabinet, the control cabinet is connected with the electromagnetic flow meter, the conductivity meter, the electric ball valve I and the electric ball valve II through a line, the electromagnetic flow meter, the check valve and the electric ball valve I are sequentially arranged on the pressure water pipe in series, the electric ball valve II is arranged on the concentrated brine pipe, and the water ejector is arranged at the junction of the pressure water pipe and the concentrated brine pipe, the pipeline mixer and the conductivity meter are arranged on the main pipeline, and one end of the strong brine pipe is connected with the strong brine tank.

2. The water jet based automatic saline dilution system of claim 1, wherein: the valve assembly further comprises a manual ball valve, and the manual ball valve is arranged on the pressure water pipe and is positioned in front of the electromagnetic flowmeter.

3. The automatic brine dilution system based on the water ejector as claimed in claim 1, wherein the control cabinet is controlled by P L C, and the flow rate of the pressure water pipe can be adjusted by controlling the electric ball valve I according to the flow rate feedback information of the electromagnetic flow meter and the flow rate of the concentrated brine pipe can be adjusted by controlling the electric ball valve II according to the concentration of the brine measured by the conductivity meter.

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