CN110631854A - Water purifier comprehensive monitoring system and method - Google Patents

Abstract

The invention discloses a water purifier comprehensive monitoring system and a method, comprising an identity recognition module, a water purifier identification module and a water purifier identification module, wherein the identity recognition module is used for scanning a two-dimensional code of a filter element and acquiring identity information of the filter element; the judging module is used for judging whether the filter element is qualified or not according to the identity information of the filter element; the detection module is used for detecting the electric leakage, water leakage and water quality conditions of equipment and acquiring corresponding detection information; the analysis module is used for analyzing the acquired detection information according to preset safety information to generate corresponding early warning information; the early warning module is used for carrying out early warning in a corresponding early warning mode according to the early warning information; and the start-stop module is used for controlling the start-stop of the equipment. The invention can identify the filter element of the water purifier, ensure the use normalization and the safety of the filter element, monitor and control the purified water quantity of the filter element in real time and ensure the absolute safety of the water quality; meanwhile, the leakage and water leakage safety of the water purifier can be monitored, and the use safety of the water purifier is ensured.

Description

Water purifier comprehensive monitoring system and method

Technical Field

The invention relates to the technical field of water purifier monitoring, in particular to a comprehensive monitoring system and method for a water purifier.

Background

The water purifier has brought very big convenience for people's life, and the core component is the filter core in the water purifier, and the service environment direct influence of filter core is filterable effect, and along with filterable going on constantly, the filter core needs regularly to be changed. The traditional method for judging the service life of the filter element of the water purifier mainly estimates the service life by accumulating the flow or using the filter element for a certain time, but the error of estimation is very large due to the difference of water quality, so that the purified water quantity of the filter element cannot be timely and accurately detected; in addition, in the process of using the water purifier, dangerous situations such as electric leakage, water leakage and the like can occur, the situations such as electric leakage, water leakage and the like cannot be timely and effectively solved by the common technology, the safety problem is easily caused, and great loss is caused to users.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a comprehensive monitoring system and a method for a water purifier, which can identify a filter element of the water purifier, ensure the use standardization of the filter element, monitor and control the purified water quantity of the filter element in real time and ensure the absolute safety of the water quality; meanwhile, the leakage and water leakage safety of the water purifier can be monitored, and the use safety of the water purifier is ensured.

The technical scheme adopted by the invention is as follows:

the utility model provides a water purifier integrated monitoring system, includes identity identification module, judge module, detection module, analysis module, early warning module and opens and stop the module, wherein:

the identity recognition module is used for scanning the two-dimensional code of the filter element to acquire identity information of the filter element;

the judging module is used for judging whether the filter element is qualified or not according to the identity information of the filter element, and if so, the detecting module works; if not, the identity recognition module;

the detection module is used for detecting the electric leakage, water leakage and water quality conditions of equipment and acquiring corresponding detection information;

the analysis module is used for analyzing the acquired detection information according to preset safety information to generate corresponding early warning information;

the early warning module is used for carrying out early warning in a corresponding early warning mode according to the early warning information;

and the start-stop module is used for controlling the start-stop of the equipment.

Every new filter core all has disposable only identification's two-dimensional code, when new filter core is changed, scan the two-dimensional code through identification module, acquire the identity information of this filter core, carry out system authentication through judging module, judge whether match with the identity information that prestores, if match, then system authentication passes through, it is qualified to explain the filter core, be the regular filter core that belongs to this company, to opening and stopping the module and sending a qualified signal, start and stop the module and receive behind this signal controlgear start, the operation work, if mismatch, system authentication can not pass through, explain the filter core is the regular filter core of this company, then to opening and stop the module and send an unqualified signal, start and stop the module and receive this unqualified signal after, controlgear stop work. In the equipment use, detection module detects in real time, in time acquire the electric leakage of equipment, leak and water quality condition information, analyze through analysis module, it has the electric leakage to acquire the condition such as electric leakage, leak or quality of water is unqualified, generate early warning information immediately, early warning is carried out with corresponding early warning mode through early warning module, if carry out the early warning through modes such as pilot lamp scintillation, the SMS notice, voice notice, and send corresponding outage signal or outage signal to opening the stop module immediately, open the stop module and control equipment and cut off the power supply or cut off the water supply immediately, guarantee the safety in utilization of equipment and the safety of quality of water.

The system can identify the filter element of the water purifier, ensure the use standardization of the filter element, monitor and control the purified water quantity of the filter element in real time and ensure the absolute safety of water quality; meanwhile, the leakage and water leakage safety of the water purifier can be monitored, and the use safety of the water purifier is ensured.

Further, the detection module comprises an electric leakage detection submodule, a water leakage detection submodule and a water quality detection submodule, wherein:

the leakage detection submodule is used for detecting the leakage condition of the equipment and acquiring leakage information;

the water leakage detection submodule is used for detecting the water leakage condition of the equipment and acquiring water leakage information;

and the water quality detection submodule is used for acquiring water quality information.

The method comprises the steps of detecting the electric leakage, water leakage and water quality conditions of the equipment in real time, acquiring electric leakage, water leakage and water quality information, comprehensively monitoring various possible dangerous conditions of the equipment, and acquiring more comprehensive information.

Further, the water quality detection submodule comprises a water quality detection sensor and a purified water amount detection unit, wherein:

the water quality detection sensor is used for detecting the water quality condition and acquiring water quality information;

and the water purification amount detection unit is used for detecting the water purification amount condition of the filter element, calculating the water purification amount of the filter element and acquiring water quality information.

Detect quality of water or through the water purification volume condition that detects the filter core through the water quality testing sensor, calculate the water purification volume of filter core (being the life of filter core promptly), acquire water quality information, in case quality of water exceeds standard or in case filter core life-span reaches red early warning, send early warning information to opening the stop module immediately, open and stop the module and receive the early warning information after, immediate control equipment stop work to guarantee the absolute safety of quality of water, wait to detect quality of water normal or new filter core and change the back, operate again through opening the stop equipment control device.

Further, the analysis module comprises an electric leakage analysis submodule, a water leakage analysis submodule and a water quality analysis submodule, wherein:

the leakage analysis submodule is used for analyzing leakage information according to preset leakage safety information and generating leakage early warning information;

the water leakage analysis submodule is used for analyzing water leakage information according to preset water leakage safety information and generating water leakage early warning information;

and the water quality analysis submodule is used for analyzing the water quality information according to the preset water quality safety information to generate water quality early warning information.

And analyzing the electric leakage information, the water leakage information or the water quality information, and if the electric leakage, the water leakage or the water quality failure is found through analysis, generating corresponding electric leakage early warning information, water leakage early warning information or water quality early warning information to perform comprehensive monitoring and early warning.

Further, the early warning module includes early warning control submodule and early warning terminal, wherein:

the early warning control submodule is used for issuing an early warning instruction according to the detection information and controlling a corresponding early warning terminal to carry out early warning;

and the early warning terminal is used for receiving the early warning instruction and carrying out early warning in a corresponding early warning mode.

The early warning control submodule controls the early warning terminal to carry out early warning in a corresponding early warning mode, and carries out early warning in different modes aiming at different conditions, such as carrying out blue, orange and red three-level early warning on the service life of the filter element, and carrying out the early warning in all aspects.

The water purifier comprehensive monitoring method applying the water purifier comprehensive monitoring system comprises the following steps:

s1, scanning the two-dimensional code of the filter element to obtain identity information of the filter element;

s2, judging whether the filter element is qualified according to the filter element identity information, and if so, entering the step S3; if not, go to step S1;

s3, detecting the electric leakage, water leakage and water quality of the equipment to obtain corresponding detection information;

s4, analyzing the acquired detection information according to preset safety information to generate corresponding early warning information;

s5, performing early warning in a corresponding early warning mode according to the early warning information;

and S6, controlling the start and stop of the equipment.

The method can identify the filter element of the water purifier, ensure the use standardization of the filter element, monitor and control the purified water quantity of the filter element in real time and ensure the absolute safety of water quality; meanwhile, the leakage and water leakage safety of the water purifier can be monitored, and the use safety of the water purifier is ensured.

Further, step S3 includes the steps of:

s31, detecting the electric leakage condition of the equipment to obtain electric leakage information;

s32, detecting the water leakage condition of the equipment and acquiring water leakage information;

and S33, acquiring water quality information.

The method comprises the steps of detecting the electric leakage, water leakage and water quality conditions of the equipment in real time, acquiring electric leakage, water leakage and water quality information, comprehensively monitoring various possible dangerous conditions of the equipment, and acquiring more comprehensive information.

Further, step S4 includes the steps of:

s41, analyzing the obtained electric leakage information according to the preset electric leakage safety information to generate electric leakage early warning information;

s42, analyzing the acquired water leakage information according to the preset water leakage safety information to generate water leakage early warning information;

and S43, analyzing the acquired water quality information according to the preset water quality safety information to generate water quality early warning information.

And analyzing the electric leakage information, the water leakage information or the water quality information, and if the electric leakage, the water leakage or the water quality failure is found through analysis, generating corresponding electric leakage early warning information, water leakage early warning information or water quality early warning information to perform comprehensive monitoring and early warning.

The invention has the beneficial effects that:

1. the identity recognition is carried out on the filter element, so that the use standardization and the water quality safety of the filter element are ensured;

2. the dangerous conditions such as electric leakage and water leakage are monitored, and once the electric leakage or water leakage happens accidentally during use, the power failure or water cut-off of the equipment is controlled, so that the use safety of the equipment is ensured;

3. the water quality detection sensor and the purified water amount (service life) of the filter element are used for real-time monitoring and control, blue, orange and red three-level automatic early warning prompt is carried out on the service life of the filter element, and once the water quality exceeds a standard or the service life of the filter element reaches red early warning, the control equipment stops working so as to ensure the absolute safety of the water quality;

4. and the early warning control submodule controls the early warning terminal to perform early warning in a corresponding early warning mode, and performs all-around early warning according to different conditions.

Drawings

FIG. 1 is a schematic diagram of a water purifier comprehensive monitoring system according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a detection module of the integrated monitoring system of a water purifier according to an embodiment of the present invention;

fig. 3 is a flowchart of a comprehensive monitoring method for a water purifier according to an embodiment of the present invention.

Description of reference numerals:

1. an identity recognition module; 2. a judgment module; 3. a detection module; 4. an analysis module; 5. an early warning module; 6. a start-stop module; 31. a leakage detection submodule; 32. a water leakage detection submodule; 33. a water quality detection submodule; 331. a water quality detection sensor; 332. a purified water amount detection unit; 41. a leakage analysis submodule; 42. a water leakage analysis submodule; 43. a water quality analysis submodule; 51. an early warning control submodule; 52. and (5) early warning terminal.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Examples

As shown in fig. 1-2, a water purifier comprehensive monitoring system includes an identity recognition module 1, a judgment module 2, a detection module 3, an analysis module 4, an early warning module 5 and a start/stop module 6, wherein:

the identity recognition module 1 is used for scanning the two-dimensional code of the filter element to obtain the identity information of the filter element; each new filter element is provided with a one-time unique identity identification two-dimensional code, and when the new filter element is replaced, the identity information of the filter element is obtained by scanning the two-dimensional code through the identity identification module 1.

The judging module 2 is used for judging whether the filter element is qualified or not according to the identity information of the filter element; carry out system authentication through judging module 2, judge and whether match with the identity information that prestores, if match, then the system is verified and is passed through, it is qualified to explain the filter core, be the normal filter core that belongs to this company, to opening and stop module 6 and send a qualified signal, open and stop module 6 and receive the signal after controlgear starts, the operation work, if not match, the system is verified and is failed to pass through, explain the filter core is the normal filter core of this company, then to opening and stop module 6 and send a non-qualified signal, open and stop module 6 and receive behind this non-qualified signal, controlgear stop work.

The detection module 3 is used for detecting the electric leakage, water leakage and water quality conditions of the equipment and acquiring corresponding detection information; in the using process of the equipment, the detection module 3 detects in real time and timely acquires the electric leakage, water leakage and water quality condition information of the equipment.

The analysis module 4 is used for analyzing the acquired detection information according to preset safety information to generate corresponding early warning information; the analysis module 4 is used for analyzing, acquiring the conditions of electric leakage, water leakage or unqualified water quality and the like, and immediately generating corresponding early warning information of electric leakage, water leakage or overproof water quality and the like.

The early warning module 5 is used for carrying out early warning in a corresponding early warning mode according to the early warning information; and carrying out blue, orange and red three-level early warning prompt on the service life of the filter element.

And the start-stop module 6 is used for controlling the start and stop of the equipment.

Every new filter core all has disposable only identification's two-dimensional code, when new filter core is changed, scan the two-dimensional code through identification module 1, acquire the identity information of this filter core, carry out system authentication through judging module 2, judge whether match with the identity information that prestores, if match, then system authentication passes through, explain that the filter core is qualified, be the regular filter core that belongs to this company, to opening and stopping module 6 and sending a qualified signal, open and stop that control device starts after module 6 receives this signal, the operation work, if mismatch, system authentication fails to pass through, explain that the filter core is non-regular filter core of this company, then to opening and stop module 6 and send a non-qualified signal, open and stop after module 6 received this non-qualified signal, control device stop work. In the equipment use process, detection module 3 detects in real time, in time acquire the electric leakage of equipment, leak and quality of water condition information, carry out the analysis through analysis module 4, acquire the circumstances such as have the electric leakage, leak or quality of water is unqualified, generate early warning information immediately, early warning through early warning module 5, and send corresponding outage signal or outage signal to opening and stopping module 6 immediately, open and stop module 6 and control equipment and cut off the power supply or cut off the water supply immediately, guarantee the safety in utilization of equipment and the safety of quality of water.

In one embodiment, as shown in fig. 2, the detection module 3 includes a leakage detection sub-module 31, a water leakage detection sub-module 32, and a water quality detection sub-module 33, wherein:

the leakage detection submodule 31 is configured to detect a leakage condition of the device and acquire leakage information;

the water leakage detection submodule 32 is used for detecting the water leakage condition of the equipment and acquiring water leakage information;

and the water quality detection submodule 33 is used for acquiring water quality information.

The method comprises the steps of detecting the electric leakage, water leakage and water quality conditions of the equipment in real time, acquiring electric leakage, water leakage and water quality information, comprehensively monitoring various possible dangerous conditions of the equipment, and acquiring more comprehensive information.

In one embodiment, as shown in fig. 2, the water quality detection sub-module 33 includes a water quality detection sensor 331 and a purified water amount detection unit 332, wherein:

the water quality detection sensor 331 is used for detecting the water quality condition and acquiring water quality information;

and a purified water amount detection unit 332 for detecting the purified water amount condition of the filter element, calculating the purified water amount of the filter element, and acquiring the water quality information.

Detect quality of water or through the water purification volume condition that detects the filter core through water quality testing sensor 331, calculate the water purification volume of filter core (being the life of filter core promptly), acquire water quality information, in case quality of water exceeds standard or in case filter core life-span reaches red early warning, send early warning information to opening and stopping module 6 immediately, open and stop module 6 and receive early warning information after, the immediate control equipment stop work to guarantee the absolute safety of quality of water, wait to detect quality of water normal or new filter core and change the back, operate again through opening and stopping equipment control equipment.

In one embodiment, as shown in fig. 1, the analysis module 4 includes a leakage current analysis sub-module 41, a leakage water analysis sub-module 42, and a water quality analysis sub-module 43, wherein:

the electric leakage analysis submodule 41 is configured to analyze electric leakage information according to preset electric leakage safety information and generate electric leakage early warning information;

the water leakage analysis submodule 42 is used for analyzing water leakage information according to preset water leakage safety information and generating water leakage early warning information;

and the water quality analysis submodule 43 is used for analyzing the water quality information according to the preset water quality safety information and generating water quality early warning information.

And analyzing the electric leakage information, the water leakage information or the water quality information, and if the electric leakage, the water leakage or the water quality failure is found through analysis, generating corresponding electric leakage early warning information, water leakage early warning information or water quality early warning information to perform comprehensive monitoring and early warning.

In one embodiment, as shown in fig. 1, the early warning module 5 includes an early warning control sub-module 51 and an early warning terminal 52, where:

the early warning control submodule 51 is used for issuing an early warning instruction according to the detection information and controlling the corresponding early warning terminal 52 to carry out early warning;

and the early warning terminal 52 is used for receiving the early warning instruction and carrying out early warning in a corresponding early warning mode.

The early warning control submodule 51 controls the early warning terminal 52 to carry out early warning in a corresponding early warning mode, and carries out early warning in different modes aiming at different conditions, such as blue, orange and red three-level early warning for the service life of a filter element and carrying out comprehensive early warning; once the water quality exceeds the standard or the service life of the filter element reaches the red warning, the start-stop module 6 controls the equipment to stop working so as to ensure the absolute safety of the water quality, and after the water quality is qualified or a new filter element is replaced, the start-stop module 6 controls the equipment to re-purify water.

As shown in fig. 3, the water purifier comprehensive monitoring method using the water purifier comprehensive monitoring system includes the following steps:

s1, scanning the two-dimensional code of the filter element to obtain identity information of the filter element;

s2, judging whether the filter element is qualified according to the filter element identity information, and if so, entering the step S3; if not, go to step S1;

s3, detecting the electric leakage, water leakage and water quality of the equipment to obtain corresponding detection information;

s4, analyzing the acquired detection information according to preset safety information to generate corresponding early warning information;

s5, performing early warning in a corresponding early warning mode according to the early warning information;

and S6, controlling the start and stop of the equipment according to the early warning information.

Every new filter core all has disposable only identification's two-dimensional code, when new filter core is changed, scan the two-dimensional code, acquire the identity information of this filter core, system authentication carries out, judge and whether match with the identity information that prestores, if match, then system authentication passes through, it is qualified to explain the filter core, be the regular filter core that belongs to this company, to opening and stopping the module and sending a qualified signal, start and stop the module and receive behind this signal controlgear start, the operation work, if mismatch, system authentication fails, explain the filter core is the regular filter core of this company, then to opening and stop the module and send a unqualified signal, start and stop the module and receive behind this unqualified signal, controlgear stop work. In the equipment use process, carry out real-time detection to equipment, in time acquire the electric leakage of equipment, leak and quality of water condition information, carry out the analysis through analysis module, it has the electric leakage to acquire the condition such as electric leakage, leak or quality of water is unqualified, generate early warning information immediately, and early warning with corresponding early warning mode, if carry out the early warning through modes such as pilot lamp scintillation, SMS notice, voice notice, and send corresponding outage signal or outage signal to opening the stop module immediately, open the stop module and control equipment outage or cut off the water supply immediately, guarantee the safety in utilization of equipment and the safety of quality of water.

The method can identify the filter element of the water purifier, ensure the use standardization of the filter element, monitor and control the purified water quantity of the filter element in real time and ensure the absolute safety of water quality; meanwhile, the leakage and water leakage safety of the water purifier can be monitored, and the use safety of the water purifier is ensured.

In one embodiment, step S3 includes the following steps:

s31, detecting the electric leakage condition of the equipment to obtain electric leakage information;

s32, detecting the water leakage condition of the equipment and acquiring water leakage information;

and S33, acquiring water quality information.

Detect quality of water or through the water purification volume condition that detects the filter core through the water quality testing sensor, calculate the water purification volume of filter core (being the life of filter core promptly), acquire water quality information, in case quality of water exceeds standard or in case filter core life-span reaches red early warning, send early warning information to opening the stop module immediately, open and stop the module and receive the early warning information after, immediate control equipment stop work to guarantee the absolute safety of quality of water, wait to detect quality of water normal or new filter core and change the back, operate again through opening the stop equipment control device. The method comprises the steps of detecting the electric leakage, water leakage and water quality conditions of the equipment in real time, acquiring electric leakage, water leakage and water quality information, comprehensively monitoring various possible dangerous conditions of the equipment, and acquiring more comprehensive information.

In one embodiment, step S4 includes the following steps:

s41, analyzing the obtained electric leakage information according to the preset electric leakage safety information to generate electric leakage early warning information;

s42, analyzing the acquired water leakage information according to the preset water leakage safety information to generate water leakage early warning information;

and S43, analyzing the acquired water quality information according to the preset water quality safety information to generate water quality early warning information.

And analyzing the electric leakage information, the water leakage information or the water quality information, and if the electric leakage, the water leakage or the water quality failure is found through analysis, generating corresponding electric leakage early warning information, water leakage early warning information or water quality early warning information to perform comprehensive monitoring and early warning.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (8)

1. The utility model provides a water purifier integrated monitoring system which characterized in that, includes identity identification module, judge module, detection module, analysis module, early warning module and opens and stop the module, wherein:

the identity recognition module is used for scanning the two-dimensional code of the filter element to acquire identity information of the filter element;

the judging module is used for judging whether the filter element is qualified or not according to the identity information of the filter element, and if so, the detecting module works; if not, the identity recognition module;

the detection module is used for detecting the electric leakage, water leakage and water quality conditions of equipment and acquiring corresponding detection information;

the analysis module is used for analyzing the acquired detection information according to preset safety information to generate corresponding early warning information;

the early warning module is used for carrying out early warning in a corresponding early warning mode according to the early warning information;

and the start-stop module is used for controlling the start-stop of the equipment.

2. The water purifier integrated monitoring system of claim 1, wherein the detection module comprises a leakage detection submodule, a water leakage detection submodule, and a water quality detection submodule, wherein:

the leakage detection submodule is used for detecting the leakage condition of the equipment and acquiring leakage information;

the water leakage detection submodule is used for detecting the water leakage condition of the equipment and acquiring water leakage information;

and the water quality detection submodule is used for acquiring water quality information.

3. The water purifier integrated monitoring system of claim 2, wherein the water quality detection submodule comprises a water quality detection sensor and a purified water amount detection unit, wherein:

the water quality detection sensor is used for detecting the water quality condition and acquiring water quality information;

and the water purification amount detection unit is used for detecting the water purification amount condition of the filter element, calculating the water purification amount of the filter element and acquiring water quality information.

4. The water purifier integrated monitoring system of claim 3, wherein the analysis module comprises an electric leakage analysis sub-module, a water leakage analysis sub-module, and a water quality analysis sub-module, wherein:

the electric leakage analysis submodule is used for analyzing electric leakage information according to preset electric leakage safety information and generating electric leakage early warning information;

the water leakage analysis submodule is used for analyzing water leakage information according to preset water leakage safety information and generating water leakage early warning information;

and the water quality analysis submodule is used for analyzing the water quality information according to the preset water quality safety information to generate water quality early warning information.

5. The water purifier integrated monitoring system of claim 1, wherein the early warning module comprises an early warning control submodule and an early warning terminal, wherein:

the early warning control submodule is used for issuing an early warning instruction according to the detection information and controlling a corresponding early warning terminal to carry out early warning;

and the early warning terminal is used for receiving the early warning instruction and carrying out early warning in a corresponding early warning mode.

6. A comprehensive monitoring method for a water purifier is characterized by comprising the following steps:

s1, scanning the two-dimensional code of the filter element to obtain identity information of the filter element;

s2, judging whether the filter element is qualified according to the filter element identity information, and if so, entering the step S3; if not, go to step S1;

s3, detecting the electric leakage, water leakage and water quality of the equipment to obtain corresponding detection information;

s4, analyzing the acquired detection information according to preset safety information to generate corresponding early warning information;

s5, performing early warning in a corresponding early warning mode according to the early warning information;

and S6, controlling the start and stop of the equipment.

7. The integrated monitoring method for water purifiers according to claim 6, wherein the step S3 comprises the following steps:

s31, detecting the electric leakage condition of the equipment to obtain electric leakage information;

s32, detecting the water leakage condition of the equipment and acquiring water leakage information;

and S33, acquiring water quality information.

8. The integrated monitoring method for water purifiers according to claim 7, wherein the step S4 comprises the following steps:

s41, analyzing the obtained electric leakage information according to the preset electric leakage safety information to generate electric leakage early warning information;

s42, analyzing the acquired water leakage information according to the preset water leakage safety information to generate water leakage early warning information;

and S43, analyzing the acquired water quality information according to the preset water quality safety information to generate water quality early warning information.

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