CN219603345U

CN219603345U - Accurate concentration mineralization system

Info

Publication number: CN219603345U
Application number: CN202320515913.1U
Authority: CN
Inventors: 刘扬龙; 张康宁; 张建芳
Original assignee: Shenzhen Angel Drinking Water Equipment Co Ltd
Current assignee: Shenzhen Angel Drinking Water Equipment Co Ltd
Priority date: 2023-03-03
Filing date: 2023-03-03
Publication date: 2023-08-29
Anticipated expiration: 2033-03-03

Abstract

The utility model discloses a precise concentration mineralization system, which comprises: a water inlet module for inlet water of raw water to be mineralized; a mineralization module for forming mineralized water containing mineral elements from the raw water to be mineralized; the water outlet module is used for discharging the mineralized water; the control module is electrically connected with the water inlet module, the mineralization module and the water outlet module; the mineralization module one end is connected the water inlet module, the other end of mineralization module is connected the water outlet module, mineralization module includes at least one first water route pipeline and at least one second water route pipeline, at least one be equipped with at least one mineralization device and be used for mineral concentration monitoring's second mineral concentration sensor on the second water route pipeline, first water route pipeline with all be equipped with on the second water route pipeline and be used for flow control's flow intelligent control valve, control module is according to the monitoring data control of second mineral concentration sensor flow intelligent control valve's work.

Description

Accurate concentration mineralization system

Technical Field

The utility model relates to the field of mineralized water preparation, in particular to an accurate concentration mineralization system.

Background

At present, people pay more attention to the problem of drinking water health, and a general water purifier adopts reverse osmosis membrane filtering equipment to filter out various impurities in water to obtain pure water, so that drinking water safety is ensured, but beneficial minerals in water can be filtered as well. The nanofiltration water purifier can retain partial mineral substances, but also can not completely filter out harmful substances, and has certain safety risks. Therefore, when the water quality of the drinking water source is uncertain, we usually choose to meet the requirement of safe drinking water, and a safe and healthy drinking water treatment system is necessary.

The general mineralized water machine remineralizes pure water by using solid mineralized materials, and naturally releases safe ions into the water body through ores, so that the concentration is often extremely low or high, and the accurate control cannot be realized.

Disclosure of Invention

The utility model aims to provide an accurate concentration mineralization system for controlling mineralization concentration.

The aim of the utility model is realized by the following technical scheme:

a precision concentration mineralization system, comprising:

a water inlet module for inlet water of raw water to be mineralized;

a mineralization module for forming mineralized water containing mineral elements from the raw water to be mineralized;

the water outlet module is used for discharging the mineralized water;

the control module is electrically connected with the water inlet module, the mineralization module and the water outlet module;

the mineralization module comprises at least one first waterway pipeline and at least one second waterway pipeline, at least one second waterway pipeline is provided with at least one mineralization device and a second mineral concentration sensor for mineral concentration monitoring, flow intelligent control valves for flow control are arranged on the first waterway pipeline and the second waterway pipeline, and the control module controls the working state of the flow intelligent control valves according to the monitoring data of the second mineral concentration sensor.

Further, the water inlet module comprises a power pump for extracting raw water to be mineralized and a water inlet pipeline for the raw water, the power pump is arranged on the water inlet pipeline, the water outlet end of the water inlet pipeline is communicated with the water inlet ends of the first waterway pipeline and the second waterway pipeline, and the control module controls the working state of the power pump.

Further, the water inlet module further comprises a pressure stabilizing valve and a first mineral concentration sensor for monitoring mineral concentration, the pressure stabilizing valve and the first mineral concentration sensor are both arranged on the water inlet pipe line, the pressure stabilizing valve is arranged between the power pump and the first mineral concentration sensor, and the control module controls the working state of the flow intelligent control valve according to the monitoring data of the first mineral concentration sensor and the second mineral concentration sensor.

Further, the water inlet module further comprises a temperature sensor for temperature monitoring, the temperature sensor is arranged on the water inlet pipeline, the temperature sensor is arranged between the pressure stabilizing valve and the first mineral concentration sensor, and the control module controls the working state of the flow intelligent control valve according to monitoring data of the temperature sensor, the first mineral concentration sensor and the second mineral concentration sensor.

Further, the intelligent flow control valve on the second waterway pipeline is arranged at a position between the water inlet module and the mineralizing device, and the second mineral concentration sensor is arranged at the water outlet end of the mineralizing device.

Further, the control module comprises a control panel for setting water outlet parameters, the control panel is arranged on the water outlet module, the water outlet module comprises a water outlet pipeline for mineralized water containing mineral elements and a water taking tap, and the water taking tap is arranged on the water outlet pipeline.

Further, the mineralization system also comprises a water purification module, the water purification module comprises a water purification device, and the water inlet end of the water inlet module is communicated with the water outlet end of the water purification device.

Further, the mineralization system also comprises a water storage module, wherein the water storage module comprises a water tank and a self-priming pump, the water inlet end of the self-priming pump is communicated with the water tank, and the water outlet end of the self-priming pump is communicated with the water inlet end of the water inlet module.

Further, the mineralization system also comprises a tea extraction device for making tea, wherein the water inlet end of the tea extraction device is communicated with the water outlet end of the water outlet module.

Further, the mineralization system also comprises a bubble water device for producing bubble water, wherein the water inlet end of the bubble water device is communicated with the water outlet end of the water outlet module.

According to the utility model, the control module automatically collects the second mineral concentration sensor after setting different mineralization concentrations and water quantities, and the control module obtains a water outlet control scheme according to a preset functional algorithm and according to automatic evaluation and calculation of the mineral concentration of raw water to be mineralized and the mineral concentration of the water outlet end of the mineralization device, so that the flow of the intelligent control valve of the flow of the first waterway pipeline and the second waterway pipeline is accurately controlled respectively, the accurate mineralization system water production is accurately controlled, the set mineralization concentration and water quantity are well controlled, the intelligent, full-automatic, electrodeless concentration regulation, one-machine multipurpose, accurate water quantity control, fresh instant drinking and continuous water outlet of the anhydrous tank are truly realized, the mineral concentration requirements of different crowds and different application scenes are met, the intelligent and rapid safe healthy drinking water preparation scheme is truly realized, and the mineralization system application is wider.

Drawings

FIG. 1 is a schematic diagram of a mineralization system according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of the structure of three mineralization systems according to another embodiment of the present utility model;

FIG. 3 is a schematic diagram of the structure of three mineralization systems according to another embodiment of the present utility model;

wherein: 10. the mineralization system comprises a mineralization system body, 20, a water inlet module body, 21, a water inlet pipeline body, 22, a power pump body, 23, a pressure stabilizing valve body, 24, a temperature sensor body, 25, a first mineral concentration sensor body, 30, a mineralization module body, 31, a first waterway pipeline body, 32, a second waterway pipeline body, 33, a flow intelligent control valve body, 34, a mineralization device body, 35, a second mineral concentration sensor body, 40, a water outlet module body, 41, a water outlet pipeline body, 42, a water inlet tap body, 50, a control module body, 51, a control panel body, 60, a water purifying module body, 61, a water purifying device body, 70, a water storage module body, 71, a water tank body, 72, a self-priming pump body, 80, a tea extracting device body, 81, a bubble water device body, 82 and a coffee machine device.

Detailed Description

In the description of the present utility model, it should be understood that the terms "center," "lateral," "upper," "lower," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more. In addition, the term "include" and any variations thereof are intended to cover a non-exclusive inclusion. In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

The utility model will be further described with reference to the drawings and preferred embodiments.

As shown in fig. 1-3, the present embodiment discloses a precision concentration mineralization system 10, comprising: a water inlet module 20 for inlet water of raw water to be mineralized; a mineralization module 30 for forming mineralized water containing mineral elements from raw water to be mineralized; a water outlet module 40 for discharging mineralized water; the control module 50 is electrically connected with the water inlet module 20, the mineralization module 30 and the water outlet module 40; one end of the mineralizing module 30 is connected to the water inlet module 20, the other end of the mineralizing module 30 is connected to the water outlet module 40, the mineralizing module 30 includes at least one first waterway pipeline 31 and at least one second waterway pipeline 32, at least one second waterway pipeline 32 is provided with at least one mineralizing device 34 and a second mineral concentration sensor 35 for mineral concentration monitoring, the first waterway pipeline 31 and the second waterway pipeline 32 are respectively provided with a flow intelligent control valve 33 for flow control, and the control module 50 controls the working state of the flow intelligent control valve 33 according to the monitoring data of the second mineral concentration sensor 35.

After setting different mineralization concentrations and water quantities, the control module 50 automatically collects the second mineral concentration sensor 35, and the control module 50 automatically evaluates and calculates according to a preset function algorithm according to the mineral concentration of raw water to be mineralized and the mineral concentration of the water outlet end of the mineralizing device 34 to obtain a water outlet control scheme, and respectively and accurately controls the flow of the intelligent flow control valve 33 of the first waterway pipeline 31 and the second waterway pipeline 32, so as to realize accurate and control of the mineralization system 10 to produce water and set mineralization concentration and water quantity, truly realize intelligent, full-automatic, stepless concentration regulation, one-machine multipurpose, accurate water quantity control, fresh drinking and continuous water outlet of a water tank, meet mineral concentration requirements of different groups and different application scenes, and truly realize an intelligent and fast safe healthy drinking water preparation scheme.

Wherein, the first waterway pipeline 31 and the second waterway pipeline 32 respectively supply water, one of the waterways extracts high-concentration mineral water, the other waterway is low-concentration water, the intelligent chip in the control module 50 and the sensors arranged in the functional modules are used for real-time monitoring, the working state of the flow intelligent control valve 33 is accurately controlled in real time in cooperation with the preset algorithm program of the control module 50, and finally, the output water required by the set parameters of a user is finally achieved, the error in the low concentration range is 0-10 ppm, and the error in the high concentration range is 0-10%.

Wherein, the raw water to be mineralized generally adopts pure water or distilled water with low mineral concentration; mineralizer 34 is typically filled with a quantity of naturally beneficiated ore material that primarily releases into the water some of the conventional human body's desired mineral elements, such as k+, na+, ca2+, sr2+, mg2+, and the like.

Wherein the water inlet module 20 comprises a power pump 22 for extracting raw water to be mineralized and a water inlet pipeline 21 for the raw water, the power pump 22 is arranged on the water inlet pipeline 21, and the power pump 22 is used for providing the whole mineralization system 10 with raw water to be mineralized; the water outlet end of the water inlet pipeline 21 is communicated with the water inlet ends of the first waterway pipeline 31 and the second waterway pipeline 32, the control module 50 controls the working state of the power pump 22, controls the working state of the power pump 22 such as input voltage, current, working time and the like, continuously monitors the parameters of each sensor in real time, and continuously calculates, corrects the working state of each functional module and the scheme in the working process, thereby further improving the mineralization concentration and the accuracy of water yield and ensuring that the actual result is consistent with the set value of a user.

The water inlet module 20 further comprises a pressure stabilizing valve 23 and a first mineral concentration sensor 25 for mineral concentration monitoring, the pressure stabilizing valve 23 and the first mineral concentration sensor 25 are both arranged on the water inlet pipeline 21, the pressure stabilizing valve 23 is arranged between the power pump 22 and the first mineral concentration sensor 25, the pressure of raw water to be mineralized, which is pumped in by the power pump 22, in the whole mineralization system 10 is stabilized through the pressure stabilizing valve 23, the stability of water flow in the mineralization system 10 is further improved, and the flow control of the flow intelligent control valve 33 can be more accurate; the control module 50 controls the working states of the flow intelligent control valve 33 according to the monitoring data of the first mineral concentration sensor 25 and the second mineral concentration sensor 35, the first mineral concentration sensor 25 detects the mineral concentration value of the water inlet, the second mineral concentration sensor 35 detects the mineral concentration value of the mineralization system 10, the control module 50 obtains the control scheme of each flow intelligent control valve 33 after accurately calculating according to a preset relation algorithm and correction parameters, and sends working instructions to control the working states of the flow intelligent control valve 33 in the first waterway pipeline 31 and the flow intelligent control valve 33 in the second waterway pipeline 32, such as the flow state, the flow state is controlled to be 0-2000 ml/min, and the working states of the power pump 22 in the system, such as the input voltage, the current, the working time and the like, simultaneously, continuously monitors the parameters of each sensor in real time, and calculates the correction scheme and the working states of each functional module in the working process.

Wherein, the water inlet module 20 further comprises a temperature sensor 24 for temperature monitoring, the temperature sensor 24 is arranged on the water inlet pipeline 21, the temperature sensor 24 is arranged between the pressure stabilizing valve 23 and the first mineral concentration sensor 25, and the control module 50 controls the working state of the flow intelligent control valve 33 according to the monitoring data of the temperature sensor 24, the first mineral concentration sensor 25 and the second mineral concentration sensor 35; the mineral concentration sensor is generally greatly influenced by environmental factors, the temperature sensor 24 is arranged at the front end of the water inlet module 20 to monitor the temperature of the mineralization system 10, so that the whole mineralization system 10 can be further improved to perform accurate mineralization work, the flow state of the mineralization system 10 is detected and adjusted by combining the flow intelligent control valve 33 on the mineralization module 30, and the influence coefficient k of the mineral concentration sensor is obtained through an algorithm; the flow state controlled by the flow control valve in the first waterway line 31 is Ln, the mineral concentration Cn, the working time tn, and the total water amount is V1; the flow state controlled by the flow control valve in the second waterway line 32 is Lm, the mineral concentration Cm, the operating time tm, and the total water amount V2; the water quantity in the water cup at the water taking position is V3, the mineralization concentration is C3, the actual concentration detected by the first mineral concentration sensor 25 is kC1, the actual concentration detected by the second mineral concentration sensor 35 is kC2 (n and m respectively represent different time period control schemes, if the total process is 30s, 3 schemes for fine adjustment are adopted in the regulation and control program, and Ln1, ln2 and Ln3 are respectively adopted for pushing the same); according to the law of conservation of substances, knowing the total water quantity and concentration requirement required by a user, the quantity of total mineral substances can be calculated, the water outlet control scheme is budgeted through an algorithm, namely V3XC3= kCn ×Lntn×+ kCm ×Lmtm, data are collected in real time by each sensor in the process through real-time monitoring and correction in the process, if fluctuation occurs in the data, the main control system immediately coordinates the working state of each module unit through calculation, the integral water outlet effect is ensured to reach a preset value, the total quantity deviation is controlled, and the result error is ensured to be between 0 and 10%, wherein kCn ×Lntn×+ kCm ×Lmtm is more than or equal to 0.9V3 ×C3.

The flow intelligent control valve 33 on the second waterway pipeline 32 is arranged between the water inlet module 20 and the mineralizing device 34, the second mineral concentration sensor 35 is arranged at the water outlet end of the mineralizing device 34, and the second mineral concentration sensor 35 is arranged at the water outlet end of the mineralizing device 34, so that the accuracy of mineralizing concentration monitoring of the mineralizing device 34 can be further improved, more accurate water quantity and mineralizing concentration control can be better ensured, mineral concentration requirements of different crowds and different application scenes can be met, and an intelligent and rapid safe and healthy drinking water preparation scheme can be truly realized.

The control module 50 comprises a control panel 51 for setting water outlet parameters, the control panel 51 is arranged on the water outlet module 40, the stepless regulation and control of the mineralization system 10 can be well realized through the control panel 51, the mineralization system 10 can meet different application parameter requirements, different application scene/crowd requirements are covered, the system is fully-automatic and intelligent in detection, an adjustment scheme is continuously optimized through an algorithm, a user can amplify or reduce an adjustment range in a certain range according to different requirements, adjustment of different coverage ranges is realized, the maximum adjustment range is 0-900 ppm, the water quantity is 100-5000 ml, and the mineral concentration and the water quantity required by stepless regulation can be realized by randomly setting the required parameter requirements in the range; optionally, the adjusting range is set to be 0-250 ppm, and the water quantity is 100-300 ml in a single time; the water outlet module 40 comprises a water outlet pipeline 41 for mineralized water containing mineral elements and a water inlet tap 42, the water inlet tap 42 is arranged on the water outlet pipeline 41, the water outlet pipeline 41 is convenient to install, and the water outlet pipeline 41 with a non-passing length can be arranged according to actual use requirements, so that the mineralization system 10 is more convenient to install and configure; optionally, the water intake tap 42 is directly connected to the water outlet end of the mineralizing module 30, and the water intake tap 42 also adopts the flow intelligent control valve 33, so that a user can automatically configure mineralized water meeting requirements and flow into the water intake container only by placing the water intake container under the water intake tap 42 and setting parameters.

As shown in fig. 2 and 3, the mineralization system 10 further includes a water purifying module 60, the water purifying module 60 includes a water purifying device 61, the water inlet end of the water inlet module 20 is communicated with the water outlet end of the water purifying device 61, and the water purifying device 61 is disposed at the water inlet end of the water inlet module 20 to further improve the quality of raw water to be mineralized, so that the mineralization system 10 is safer and safer to use, and can obtain purer mineralized water.

Optionally, the mineralizing system 10 further includes a water storage module 70, the water storage module 70 includes a water tank 71 and a self-priming pump 72, the water inlet end of the self-priming pump 72 is communicated with the water tank 71, the water outlet end of the self-priming pump 72 is communicated with the water inlet end of the water inlet module 20, the water storage module 70 is arranged at the water inlet end of the water inlet module 20, the water tank 71 is used for storing raw water to be mineralized and extracting the raw water through the self-priming pump 72, the mineralized raw water is conveniently used in environments where water taking is inconvenient, mineral concentration requirements of different crowds and different application scenes are met, and an intelligent and rapid safe and healthy drinking water preparation scheme is truly realized.

The mineralization system 10 further comprises a tea extraction device 80 for making tea, wherein the water inlet end of the tea extraction device 80 is communicated with the water outlet end of the water outlet module 40, so that a user can set self requirements or can configure mineralized water with different concentrations according to the requirements of different tea leaves to make tea, the mineral concentration requirements of different crowds on tea making scenes can be met, and the mineralization system 10 is widely applied.

Optionally, the mineralizing system 10 further includes a bubble water device 81 for making bubble water, where the water inlet end of the bubble water device 81 is communicated with the water outlet end of the water outlet module 40, so that a user can set his own demand, and can configure mineralized water with different concentrations to make bubble water, so as to meet the mineral concentration demands of different people on the scene of making bubble water, and make the mineralizing system 10 more widely used.

Optionally, the mineralizing system 10 further includes a coffee maker device 82 for making coffee, where the water inlet end of the coffee maker device 82 is communicated with the water outlet end of the water outlet module 40, so that a user can set his own demand, and can configure mineralized water with different concentrations to make coffee, so as to meet the mineral concentration demands of different people on the coffee making scene, and make the mineralizing system 10 more widely used.

The foregoing is a further detailed description of the utility model in connection with the preferred embodiments, and it is not intended that the utility model be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the utility model, and these should be considered to be within the scope of the utility model.

Claims

1. A precision concentration mineralization system, comprising:

a water inlet module for inlet water of raw water to be mineralized;

the water outlet module is used for discharging the mineralized water;

2. The accurate concentration mineralization system according to claim 1, wherein the water inlet module comprises a power pump for extracting raw water to be mineralized and a water inlet pipeline for the raw water, the power pump is arranged on the water inlet pipeline, the water outlet end of the water inlet pipeline is communicated with the water inlet ends of the first waterway pipeline and the second waterway pipeline, and the control module controls the working state of the power pump.

3. The accurate concentration mineralization system according to claim 2, wherein the water inlet module further comprises a pressure stabilizing valve and a first mineral concentration sensor for mineral concentration monitoring, the pressure stabilizing valve and the first mineral concentration sensor are both arranged on the water inlet pipe line, the pressure stabilizing valve is arranged between the power pump and the first mineral concentration sensor, and the control module controls the working state of the flow intelligent control valve according to the monitoring data of the first mineral concentration sensor and the second mineral concentration sensor.

4. A precision concentration mineralization system according to claim 3, wherein the water inlet module further comprises a temperature sensor for temperature monitoring, the temperature sensor is arranged on the water inlet line, the temperature sensor is arranged between the pressure stabilizing valve and the first mineral concentration sensor, and the control module controls the working state of the flow intelligent control valve according to the monitoring data of the temperature sensor, the first mineral concentration sensor and the second mineral concentration sensor.

5. The accurate concentration mineralization system according to any one of claims 1 to 4, wherein the flow intelligent control valve on the second waterway pipeline is arranged at a position between the water inlet module and the mineralization device, and the second mineral concentration sensor is arranged at the water outlet end of the mineralization device.

6. An accurate concentration mineralisation system according to any of claims 1 to 4, wherein said control module comprises a control panel for setting of parameters of the water output, said control panel being provided on said water output module, said water output module comprising a water output line for mineralised water containing mineral elements and a water tap provided on said water output line.

7. The accurate concentration mineralization system according to claim 1, further comprising a water purification module comprising a water purification device, wherein the water inlet end of the water inlet module is in communication with the water outlet end of the water purification device.

8. The accurate concentration mineralization system according to claim 1, further comprising a water storage module, wherein the water storage module comprises a water tank and a self-priming pump, wherein the water inlet end of the self-priming pump is communicated with the water tank, and the water outlet end of the self-priming pump is communicated with the water inlet end of the water inlet module.

9. A precision concentration mineralization system according to claim 7 or 8, further comprising tea extraction means for making tea, wherein the water inlet end of the tea extraction means is in communication with the water outlet end of the water outlet module.

10. A precision concentration mineralization system according to claim 7 or 8, further comprising a bubble water device for producing bubble water, wherein the water inlet end of the bubble water device is in communication with the water outlet end of the water outlet module.