CN112194237A - Automatic movable hypochlorous acid water generation bin and working method - Google Patents

Abstract

The invention discloses an automatic movable hypochlorous acid water generating bin and a working method, wherein a container body is used as a carrier, and the exterior of the container body comprises a door plate, power supply equipment, a pipeline connecting port and a ventilation opening; the box body comprises a water storage tank, a water purification system, a power system, a drainage/cleaning pipeline, a water quality monitoring system, a hypochlorous acid water generation system, a drinking water disinfection system, a control system, a ventilation device and an alarm device. The automatic movable hypochlorous acid water generating bin has high integration, complete functions, stable performance, compact structure, small occupied space, convenient movement, strong flexibility and strong adaptability to the environment; the transportation is convenient, the accidents in the transportation process are reduced, the installation, management and maintenance work is simplified, and the use cost is greatly reduced; the intelligent control system is arranged, so that the automation degree is high, the safety and the reliability are realized, and the operation cost is reduced; no pollution to environment and wide application field.

Description

Automatic movable hypochlorous acid water generation bin and working method

Technical Field

The invention relates to the technical field of water treatment equipment, in particular to an automatic movable hypochlorous acid water generation bin.

Background

Water is a source of life and an important substance essential for people to live in daily life. At the present stage, the global pollution is serious, the water quality is poor, and a large amount of bacteria or other pathogenic bacteria are contained. In order to improve the quality of water and maintain life safety, water treatment equipment is generally adopted to disinfect a water source, so that biological pollution is reduced. The large-scale water works have disinfecting equipment, can satisfy life drinking water index, but in the transportation, the pipeline pollutes seriously, or natural disasters, epidemic situation and other pollution incidents happen, and the quality index that reaches the user becomes worse, and the quality is difficult to handle and control, can not supply clean water source in time. Further, industrial and mining enterprises and agriculture (such as farms) in relatively remote areas cannot rely on the supply of municipal water supply companies, and require nearby river water or well water as raw water, which makes it difficult to control the water quality.

In order to ensure the quality of water quality at an output end (water supply end), raw water is treated by adopting equipment such as pre-filtration, disinfection, water supply and the like, the equipment consists of a plurality of parts and needs to be assembled after being transported to a site, and the parts can be lost or damaged in the transportation process; the field equipment is complex in installation work, all parts are randomly placed, the number of pipelines is large, the layout is complex, the appearance is not attractive, the structure is loose, the system integration level is low, and the requirement on the specialty is high; because above-mentioned a plurality of equipment need operating space, should dispose the equipment room (carry out civil engineering promptly), area is big, the construction cycle is long, mobility and operability are poor to need the professional to debug after the installation is accomplished, transportation and maintenance cost are higher relatively, and investment cost is big, and equipment in service, and degree of automation is low, needs to have strict management standard, otherwise has the potential safety hazard.

Disclosure of Invention

In order to solve the problems, the technical scheme of the invention provides an automatic movable hypochlorous acid water generating bin, which takes a container body as a carrier and is characterized in that: the container body is externally provided with a door plate, power supply equipment, a pipeline connecting port and a ventilation opening, wherein the pipeline connecting port comprises a raw water inlet, a hypochlorous water outlet, a drinking water outlet and a water outlet; the container body internally comprises a water storage tank, a water purification system, a power system, a drainage/cleaning pipeline, a water quality monitoring system, a hypochlorous acid water generation system, a drinking water disinfection system, a control system, a ventilation device and an alarm device; the water storage tanks comprise a purified water storage tank, a hypochlorous acid water storage tank and a drinking water storage tank, each water storage tank is provided with a water inlet, a water outlet, a vent hole and an overflow port, and is provided with a liquid level sensor, wherein the overflow port is connected with a drainage/cleaning pipeline; the water purification system comprises a primary water purification system and a secondary water purification system, and the water purification system mainly comprises a filtering device, an ultraviolet sterilization device and a heat exchanger; the power system comprises a water pump, a pressure sensor, a check valve, a flow regulating valve, a flowmeter, a pressure tank and an electromagnetic valve; the drainage/cleaning pipeline is connected with the water outlets of the purified water storage tank, the hypochlorous acid water storage tank and the drinking water storage tank; the water quality monitoring system mainly comprises a sensor; the drinking water disinfection system comprises a raw water inlet, a hypochlorous water inlet, a drinking water outlet pipeline and a pipeline mixer.

Preferably, the bottom of the container body is provided with a pulley and a horizontal adjusting device, and the container body is internally provided with a positioning device and a power supply device.

Preferably, a liquid level meter is arranged outside the water storage tank.

Preferably, the water quality monitoring system is provided with a manual sampling valve.

Preferably, the hypochlorous acid water generating system adopts an electroless hypochlorous acid water generating device.

Preferably, the control system is provided with a human-computer interaction interface.

Preferably, the control system is provided with an internet of things communication module.

Preferably, the automatic movable hypochlorous acid water generation bin further comprises a video monitoring system.

The invention also provides a working method of the automatic movable hypochlorous acid water generating bin, which is used for the automatic movable hypochlorous acid water generating bin and comprises the following steps:

step 1: the generation bin is electrified, and all components are started to work;

step 2: raw water enters the generation bin and the water purification system from the power system to prepare purified water;

and step 3: the water quality monitoring system detects the water quality index of the purified water and transmits the data to the control system, the control system receives the data and analyzes whether the data meet the set water quality index requirement, if the data do not meet the requirement, the electromagnetic valve is regulated and controlled, and the water source is discharged from the drainage/cleaning pipeline or pumped back to the water purification system for secondary purification; if the water meets the requirements, the water enters a purified water storage tank to be stored for standby;

and 4, step 4: purified water enters a hypochlorous acid water generating system from a power system to generate hypochlorous acid water with stable quality, and the hypochlorous acid water is stored in a hypochlorous acid water storage tank and can be provided for the outside for disinfection;

and 5: according to the physicochemical indexes of the raw water and the hypochlorous acid water, a flow regulating valve of a power system is controlled by a control system, the optimal flow ratio and flow rate of the raw water and the hypochlorous acid water in the drinking water disinfection system are adjusted, and drinking water is prepared in the drinking water disinfection system;

step 6: the water quality monitoring system detects the water quality index of the drinking water and transmits the data to the control system, the control system receives the data and analyzes whether the set water quality index requirement is met, if the set water quality index requirement is not met, the electromagnetic valve is regulated and controlled, a water source is discharged from the drainage/cleaning pipeline, the flow rate and the flow rate of raw water and hypochlorous acid water are finely adjusted, and the quality stability of the drinking water is ensured while the hypochlorous acid water is prevented from being fed too much or too little; if the water meets the requirement, the water enters a drinking water storage tank for storage and standby.

Preferably, in step 6, the unsatisfactory drinking water is pumped back into the drinking water disinfection system.

Compared with the prior art, the invention has the following beneficial technical effects:

(1) the system has the advantages of high integration, complete functions, stable performance, beautiful and neat integral layout of equipment and pipelines, compact structure, small occupied space (no need of additional civil engineering), convenient movement, strong flexibility and strong adaptability to the environment;

(2) the transportation is convenient, the raw material leakage and accidents in the transportation process are reduced, the operation is convenient, the installation, management and maintenance work is simplified, the installation efficiency is improved, namely the plug-and-play is realized, the installation quality is ensured, and the use cost is greatly reduced;

(3) the intelligent control system is arranged, so that the degree of automation is high, the safety function is realized, the safety and the reliability are realized, the water quality index of the water supply is ensured to reach the standard, the personnel management is not needed, and the operation cost is reduced;

(4) no pollution to the environment, diversified application scenes: large-scale domestic drinking water treatment plants, hospitals, large-scale livestock and poultry farms, slaughterhouses, food processing plants, farm trade markets, central kitchens, areas with sudden water source pollution or epidemic situations and the like.

Drawings

Fig. 1 is an internal structural view of an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an embodiment of the present invention.

Fig. 3 is a flowchart of a working method according to an embodiment of the present invention.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. Therefore, the scope of the invention is not limited by the specific embodiments disclosed below.

In the description of the present invention, it is to be understood that the terms "inside", "outside", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "primary," "secondary," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "primary," "secondary," etc. may explicitly or implicitly include one or more of that feature.

As shown in fig. 1 and 2, an automatic movable hypochlorous acid water generating bin uses a container body as a carrier, a door plate, a power supply device, a pipeline connecting port 1 and a vent are arranged outside the container body, wherein the pipeline connecting port comprises a raw water inlet 11, a hypochlorous acid water outlet 12, a drinking water outlet 13 and a water outlet 14. Raw water refers to water that has not been treated by an automated mobile hypochlorous acid water generating tank, such as tap water from a municipal water supply.

The container body comprises a water storage tank 2, a water purification system 3, a power system 4, a drainage/cleaning pipeline 5, a water quality monitoring system 6, a hypochlorous acid water generating system 7, a drinking water disinfection system 8, a control system 9, a ventilation device and an alarm device.

The water storage tank 2 comprises a purified water storage tank 21, a hypochlorous acid water storage tank 22 and a drinking water storage tank 23, wherein each water storage tank is provided with a water inlet, a water outlet, an air vent and an overflow port, a pressure type liquid level sensor is installed, the overflow port is connected with a drainage/cleaning pipeline, the liquid level sensor of the water storage tank breaks down, water is always fed into the water storage tank, the overflow port guides overflowing water to be discharged, and the water in the water storage tank can be prevented from overflowing and the electric equipment caused by damage. The water storage tank is used for buffering, and the automatic movable hypochlorous acid water generation bin is prevented from being operated abnormally due to untimely water supply.

The water purification system 3 comprises a primary water purification system 31 and a secondary water purification system 32, and the water purification system mainly comprises a filtering device, an ultraviolet sterilization device and a heat exchanger. The heat exchanger can heat or cool water quality, and the water flow temperature of inlet water or outlet water is adjusted according to site requirements.

The power system 4 comprises a variable frequency water pump, a pressure sensor, a check valve, a flow regulating valve, a flowmeter, a pressure tank, an electromagnetic valve, a three-way ball valve, a hand valve and the like, can control a water flow switch, provides power for water flow, regulates, controls and monitors water flow and flow rate, and stabilizes water supply pressure.

The drainage/cleaning pipeline 5 is matched with a three-way ball valve of the power system 4 and is connected with water outlets of the purified water storage tank 21, the hypochlorous acid water storage tank 22 and the drinking water storage tank 23, so that drainage of each water storage tank can be centralized in one drainage pipeline, the complexity of pipeline arrangement is reduced, and in addition, water sources after cleaning of each water storage tank are also discharged from the drainage/cleaning pipeline.

The water quality monitoring system 6 mainly comprises a plurality of sensors, and can monitor indexes such as turbidity, Total Dissolved Solids (TDS), available chlorine, conductivity, oxidation-reduction potential (ORP), pH value, total bacterial colony number (microorganism concentration) and the like of raw water, purified water and drinking water. The water quality monitoring system 6 transmits the water quality data to the control system 9, so as to realize the control of the water quality of the purified water and the drinking water.

The hypochlorous acid water generating system 7 employs an apparatus for generating hypochlorous acid water by an electroless method, which is a chemical reaction between an alkaline compound containing hypochlorite (e.g., sodium hypochlorite) and an acid (e.g., hydrochloric acid, carbonic acid, citric acid).

The drinking water disinfection system 8 comprises a raw water inlet, a hypochlorous water inlet, a drinking water outlet pipeline and a pipeline mixer, realizes the disinfection of raw water, and supplies a healthy drinking water source with stable quality to the outside.

Control system 9 connects power supply unit, is connected with other components in automatic movable hypochlorous acid water generation storehouse, is responsible for the coordinated operation of each component in generation storehouse, can receive, handle and save data such as sensor, water quality monitoring system water quality index, issues the order after the analysis, and work such as control water purification system 3, driving system 4, hypochlorous acid water generation system 7, alarm device guarantees that automatic movable hypochlorous acid water generates storehouse safety, stable operation.

The ventilation device is connected with the ventilation opening, can remove heat generated in the automatic movable hypochlorous acid water generation bin, is used for ventilation and heat dissipation, keeps the circulation of air, and ensures that the generation bin works at normal temperature.

The alarm device executes the command of the control system 9, sends out different alarm signals according to the abnormal operation state of the automatic movable hypochlorous acid water generation bin, reminds an operator to timely process the fault, and provides guidance and help for solving the abnormal operation problem of the generation bin.

Furthermore, the bottom of the container body is provided with a pulley and a horizontal adjusting device. The pulley is used for automatically and finely adjusting the position of the movable hypochlorous acid water generating bin, so that the position of the generating bin can be conveniently adjusted after transportation, loading and unloading; the levelness of the automatic movable hypochlorous acid water generation bin can be adjusted by the level adjusting device so as to adapt to the requirements of uneven terrain.

Furthermore, a positioning device and power supply equipment are arranged in the container body, and the positioning device can fix all internal components to prevent damage caused by shaking in the transportation process; the power supply equipment supplies power to the generating bin which is powered off, and the working continuity of the generating bin is kept.

Further, a liquid level meter is arranged on the outer side of the water storage tank 2, and the water level condition in the water storage tank can be visually displayed.

Further, the water quality monitoring system 6 is also provided with a manual sampling valve, and when the sensor fails or needs to be checked, a water quality sample is taken from the manual sampling valve for data detection and analysis.

Furthermore, the control system 9 has a graphical human-computer interaction interface, displays water quality data of raw water, purified water, hypochlorous acid water, drinking water, sensor data, water flow, flow rate and the like in the form of a chart, a curve or a report, can manually or voice input debugging information, is intuitive and simple to operate, has a password on the interface, cannot enter the system without authorization, and ensures the safe operation of the automatic movable hypochlorous acid water generation bin.

Further, the control system 9 is provided with an internet of things communication module, and can transmit data to the outside or receive communication information (such as wired or wireless communication from a telephone, a computer or a satellite), so that remote monitoring, diagnosis and control of the automatic movable hypochlorous acid water generation bin are realized.

Further, the control system 9 is provided with a self-learning and artificial intelligence algorithm, the site water consumption condition and law can be recorded, when the water consumption is abnormal, the problems of water stealing and water leakage can exist, the problems can be timely checked, fed back and solved, and the management efficiency of the generation bin is improved.

Further, the control system 9 can monitor the service life of each component in the generating bin, remind an operator of timely replacement and ensure that the generating bin can work normally.

Further, the automatic movable hypochlorous acid water generation bin is also provided with a video monitoring system.

Further, automatic movable hypochlorous acid water generates storehouse still is equipped with bypass water source supply channel, prevents to generate other emergency such as storehouse trouble and leads to unable water supply, influences the demand of place to the water source.

Furthermore, the positions of pipelines and circuit arrangement among all components of the automatic movable hypochlorous acid water generating bin are centralized and unified, the appearance is attractive and orderly, and the installation, maintenance and management work is simplified.

As shown in fig. 3, the operation method of the automatic movable hypochlorous acid water generating cabin provided by the embodiment of the invention specifically comprises the following steps.

Step 1: the generation bin is electrified, and all the components are started to work.

Step 2: raw water enters the generating bin and the water purifying system from the power system to prepare purified water.

And step 3: the water quality monitoring system detects the water quality index of the purified water and transmits the data to the control system, the control system receives the data and analyzes whether the data meet the set water quality index requirement, if the data do not meet the requirement, the electromagnetic valve is regulated and controlled, and the water source is discharged from the drainage/cleaning pipeline or pumped back to the water purification system for secondary purification; if the water meets the requirement, the water enters a purified water storage tank for storage and standby.

Hypochlorous acid water production has strict requirements on water quality, pollutants mainly come from raw water, the quality of the raw water has important influence on the stability of hypochlorous acid water production and the maintenance of hypochlorous acid water generation system elements, impurities are prevented from being deposited and attached to scale in the system, the generation amount of hypochlorous acid water is influenced, and the damage of the impurities to equipment is reduced, so that a water purification system needs to adjust the water quality of a site to be within a required index range.

And 4, step 4: purified water enters the hypochlorous acid water generating system through the power system, hypochlorous acid water with stable quality is generated and stored in the hypochlorous acid water storage tank, and hypochlorous acid water can be provided for the outside for disinfection and application.

And 5: according to the physicochemical indexes of the raw water and the hypochlorous acid water, the control system controls a flow regulating valve of the power system, and adjusts the optimal flow rate and flow rate of the raw water and the hypochlorous acid water in the drinking water disinfection system to prepare drinking water in the drinking water disinfection system.

Step 6: the water quality monitoring system detects the water quality index of the drinking water and transmits the data to the control system, the control system receives the data and analyzes whether the set water quality index requirement is met, if the set water quality index requirement is not met, the electromagnetic valve is regulated and controlled, a water source is discharged from the drainage/cleaning pipeline, the flow rate and the flow rate of raw water and hypochlorous acid water are finely adjusted, and the quality stability of the drinking water is ensured while the hypochlorous acid water is prevented from being fed too much or too little; if the water meets the requirement, the water enters a drinking water storage tank for storage and standby.

Further, in step 6, the unsatisfactory drinking water is pumped back into the drinking water disinfection system.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications, equivalents and changes may occur to those skilled in the art without departing from the inventive concepts herein. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (10)

1. The utility model provides an automatic change movable hypochlorous acid water and generate storehouse to the container body is the carrier, its characterized in that: the container body is externally provided with a door plate, power supply equipment, a pipeline connecting port and a ventilation opening, wherein the pipeline connecting port comprises a raw water inlet, a hypochlorous water outlet, a drinking water outlet and a water outlet;

the container body internally comprises a water storage tank, a water purification system, a power system, a drainage/cleaning pipeline, a water quality monitoring system, a hypochlorous acid water generation system, a drinking water disinfection system, a control system, a ventilation device and an alarm device;

the water storage tanks comprise a purified water storage tank, a hypochlorous acid water storage tank and a drinking water storage tank, each water storage tank is provided with a water inlet, a water outlet, a vent hole and an overflow port, and is provided with a liquid level sensor, wherein the overflow port is connected with a drainage/cleaning pipeline;

the water purification system comprises a primary water purification system and a secondary water purification system, and the water purification system mainly comprises a filtering device, an ultraviolet sterilization device and a heat exchanger;

the power system comprises a water pump, a pressure sensor, a check valve, a flow regulating valve, a flowmeter, a pressure tank and an electromagnetic valve;

the drainage/cleaning pipeline is connected with the water outlets of the purified water storage tank, the hypochlorous acid water storage tank and the drinking water storage tank;

the water quality monitoring system mainly comprises a sensor;

the drinking water disinfection system comprises a raw water inlet, a hypochlorous water inlet, a drinking water outlet pipeline and a pipeline mixer.

2. The automated portable hypochlorous acid water generating cabin of claim 1, wherein the bottom of the container body is provided with pulleys and a level adjusting device, and the container body is internally provided with a positioning device and a power supply device.

3. The automated mobile hypochlorous acid water generating tank as claimed in claim 1, wherein a liquid level meter is disposed outside said water storage tank.

4. The automated mobile hypochlorous acid water generating tank of claim 1, wherein said water quality monitoring system comprises a manual sampling valve.

5. The automated mobile hypochlorous acid water generating cabin of claim 1, wherein the hypochlorous acid water generating system uses an electroless hypochlorous acid water generating device.

6. The automated mobile hypochlorous water generating tank of claim 1, wherein said control system comprises a human-machine interface.

7. The automated mobile hypochlorous acid water generating cabin of claim 1, wherein the control system is provided with an internet of things communication module.

8. The automated mobile hypochlorous acid water generating cabin of claim 1, further comprising a video monitoring system.

9. An automatic movable hypochlorous acid water generating bin working method, which is used for the automatic movable hypochlorous acid water generating bin in any one of claims 1 to 8, and is characterized by comprising the following steps:

step 1: the generation bin is electrified, and all components are started to work;

step 2: raw water enters the generation bin and the water purification system from the power system to prepare purified water;

and step 3: the water quality monitoring system detects the water quality index of the purified water and transmits the data to the control system, the control system receives the data and analyzes whether the data meet the set water quality index requirement, if the data do not meet the requirement, the electromagnetic valve is regulated and controlled, and the water source is discharged from the drainage/cleaning pipeline or pumped back to the water purification system for secondary purification; if the water meets the requirements, the water enters a purified water storage tank to be stored for standby;

and 4, step 4: purified water enters a hypochlorous acid water generating system from a power system to generate hypochlorous acid water with stable quality, and the hypochlorous acid water is stored in a hypochlorous acid water storage tank and can be provided for the outside for disinfection;

and 5: according to the physicochemical indexes of the raw water and the hypochlorous acid water, a flow regulating valve of a power system is controlled by a control system, the optimal flow ratio and flow rate of the raw water and the hypochlorous acid water in the drinking water disinfection system are adjusted, and drinking water is prepared in the drinking water disinfection system;

step 6: the water quality monitoring system detects the water quality index of the drinking water and transmits the data to the control system, the control system receives the data and analyzes whether the set water quality index requirement is met, if the set water quality index requirement is not met, the electromagnetic valve is regulated and controlled, a water source is discharged from the drainage/cleaning pipeline, the flow rate and the flow rate of raw water and hypochlorous acid water are finely adjusted, and the quality stability of the drinking water is ensured while the hypochlorous acid water is prevented from being fed too much or too little; if the water meets the requirement, the water enters a drinking water storage tank for storage and standby.

10. The method as claimed in claim 9, wherein in step 6, the unsatisfactory drinking water is pumped back to the drinking water disinfection system.

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