CN114326637A - Management method and system for water-saving control equipment - Google Patents

Abstract

The invention provides a management method and a management system for water-saving control equipment, and belongs to the field of water-using control equipment. When the water-saving control equipment is off-line, the communication connection between the equipment and the production service platform is established, the production service platform generates an equipment unique number according to the hardware characteristic information of the equipment, and the binding connection between the water-saving control equipment and the production management service platform is realized through the equipment unique number. When the water-saving control equipment is installed, communication connection between the equipment and the client one-card platform is established, the client one-card platform receives the unique number of the equipment and forwards the unique number to the production service platform, the production service platform verifies the legality of the equipment, if the verification is passed, the client one-card platform keeps long connection with the equipment, and if the verification is not passed, the connection of the equipment is disconnected. In the using process of the water-saving control equipment, the equipment sends the equipment state information of the equipment to the production management service platform, and the production management service platform monitors the water-saving control equipment in the whole process.

Description

Management method and system for water-saving control equipment

Technical Field

The invention provides a management method and a management system for water-saving control equipment, belongs to the field of water-using control equipment, and particularly relates to a method for carrying out full-life-cycle management on the water-using control equipment.

Background

After the traditional water-saving control equipment is produced and detected on a production line, only simple evaluation can be carried out on the production information of the equipment terminal, namely whether the detection is qualified or not is detected. Because the module type of each equipment terminal, and the information such as the function and the initialization state of each module can not be obtained, the equipment terminals can not be effectively supervised in the production management and control link, and the production efficiency is low.

Moreover, after the traditional water-saving control equipment enters a warehouse, information such as the storage time, the storage state, the loss condition and the like of the equipment terminal can be obtained only by detecting in the warehouse by a worker, so that a production manager cannot master the storage information of the water-saving control equipment in real time, the management efficiency of the water-saving control equipment in the warehousing link is influenced, and unnecessary loss is easily caused.

In addition, after the traditional water-saving control equipment enters the market for sale, equipment maintenance personnel cannot master the equipment state of the sold equipment terminal, the attribution of the equipment is not clear, whether the equipment has abnormal conditions or not cannot be known, and whether the equipment needs to be maintained in time or not can be known. Therefore, the equipment manufacturer cannot know the use efficiency and the real-time state of the product, so that the customer can only contact maintenance personnel to remove the fault when the equipment fails, the customer experience is poor, and the condition cannot provide guiding significance for the research and development design of the product for the equipment manufacturer.

To sum up, traditional water conservation controlgear can't satisfy the demand that the producer obtained the equipment state, leads to can't provide better customer experience for the customer, is unfavorable for producer's product research and development moreover.

Disclosure of Invention

The invention aims to provide a management method and a management system for water-saving control equipment, which are used for solving the problem that manufacturers are difficult to track the equipment state of the water-saving control equipment after sale.

In order to achieve the above object, the present invention provides a management method for a water saving control apparatus, comprising the steps of:

s1, when the water-saving control equipment is off-line, establishing communication connection between the water-saving control equipment and a production management service platform, sending the hardware characteristic information of the water-saving control equipment to the production management service platform, generating an equipment unique number by the production management service platform according to the received hardware characteristic information of the water-saving control equipment, and sending the generated equipment unique number to the corresponding water-saving control equipment;

s2, when the water-saving control equipment is installed, establishing communication connection between the water-saving control equipment and a client one-card platform, sending the own equipment unique number to the client one-card platform by the water-saving control equipment, sending the received equipment unique number to a production management service platform by the client one-card platform, verifying the legality of the equipment unique number by the production management service platform, and feeding back a verification result to the client one-card platform;

and S3, when the water-saving control equipment is used, the water-saving control equipment sends the equipment state information in the use process to the production management service platform, and the production management service platform monitors the water-saving control equipment according to the equipment state information in the use process of the water-saving control equipment.

In the use process of the water-saving control equipment after sale, manufacturers are difficult to obtain the actual use condition of the equipment, so that the equipment with abnormal conditions cannot be overhauled and replaced in time, the customer experience is poor, the use condition of the equipment cannot be collected, and suggestions for research, development and improvement of the equipment cannot be provided. Therefore, the invention establishes the communication connection between the equipment and the production service platform when the water-saving control equipment is off-line, the production service platform generates the equipment unique number according to the hardware characteristic information of the equipment, and the binding connection between the water-saving control equipment and the production management service platform is realized through the equipment unique number. When the water-saving control equipment is installed, communication connection between the equipment and the client one-card platform is established, the client one-card platform receives the unique number of the equipment and forwards the unique number to the production service platform, the production service platform verifies the legality of the equipment, if the verification is passed, the client one-card platform keeps long connection with the equipment, and if the verification is not passed, the connection of the equipment is disconnected. In the subsequent use process of the water-saving control equipment, the equipment sends the equipment state information of the equipment to the production management service platform, and the production management service platform monitors the water-saving control equipment in the whole process.

Further, in the method, when the water-saving control equipment is offline, a production serial number is also set on the water-saving control equipment, the production serial number is collected by the code scanning equipment and then is sent to the production management service platform, and the production management service platform establishes the corresponding relation between the equipment unique number and the production serial number.

When the water-saving control equipment is offline in production, a production serial number is also set on the water-saving control equipment, the production serial number is uploaded to a production management service platform after being collected by code scanning equipment, and the production management service platform establishes a corresponding relation between the equipment unique number and the production serial number. The production serial number is adopted and the corresponding relation between the production serial number and the unique equipment number is established, so that double verification can be performed during equipment maintenance, the water-saving control equipment is guaranteed to be produced by manufacturers, and the supervision on the water-saving control equipment is improved.

Further, in the above method, the communication connection between the water-saving control device and the production management service platform is established by a server address transfer medium, and the communication address of the production management service platform is transferred to the water-saving control device by the server address transfer medium; the server address transmission medium is physical line connection or wireless connection.

For the communication connection between the water-saving control equipment and the production management service platform, a specific implementation mode is provided: and the communication address of the production management service platform is sent to the water-saving control equipment through a server address transmission medium, and the water-saving control equipment is in communication connection with the production management service platform through the communication address of the production management service platform. The server address transfer medium can be a physical communication line or a wireless communication line.

Further, in the above method, the communication connection between the water-saving control device and the client-card platform is established by a server address transmission medium, and the communication address of the client-card platform is transmitted to the water-saving control device by the server address transmission medium; the server address transmission medium is physical line connection or wireless connection.

For the communication connection between the water-saving control equipment and the client one-card platform, a specific implementation mode is provided, the communication address of the client one-card platform is sent to the water-saving control equipment through an address transmission medium before the visit, and the water-saving control equipment is in communication connection with the client one-card platform through the communication address of the client one-card platform. The server address transfer medium can be a physical communication line or a wireless communication line.

Further, in the method, when the production management service platform judges that the water-saving control equipment is abnormal according to the equipment state information, the equipment unique number of the abnormal water-saving control equipment is sent to the client one-card platform, and the client one-card platform reminds workers to overhaul, investigate or replace the abnormal water-saving control equipment.

When the production management service platform judges whether the water-saving control equipment is abnormal or not according to the equipment state information of the water-saving control equipment, such as voltage, current, temperature, water flow and the like. If the abnormal equipment exists, the unique equipment number of the abnormal equipment is sent to the client one-card platform, the client one-card platform reminds maintenance workers, and the abnormal water-saving control equipment is overhauled, maintained, checked and replaced in time, so that the experience of the client is improved, and the collection of the fault information of the product is facilitated.

Further, in the method, the production management service platform also acquires a real-time geographical position of the water-saving control equipment, and determines the geographical position change condition of the water-saving control equipment according to the real-time geographical position and the pre-acquired initial geographical position of the corresponding water-saving control equipment; and sending the unique equipment number of the water-saving control equipment with the changed geographical position to the client all-purpose card platform, and reminding a worker to check the water-saving control equipment with the changed geographical position by the client all-purpose card platform.

In order to realize the management of the equipment in the whole life cycle, the real-time geographical position of the water-saving control equipment needs to be mastered, so that on one hand, the personnel can conveniently go to the door for overhauling during troubleshooting. On the other hand, when the equipment is stored in a warehouse or installed in place, the position of the equipment is set as the initial geographic position, and the real-time geographic position of the equipment can be compared with the initial geographic position so as to determine whether the geographic position of the water-saving control equipment is changed. If the geographical position of the water-saving control equipment changes, the unique equipment number of the water-saving control equipment is pushed to the one-card platform of the client, and the staff checks the unique equipment number, so that the influence on the use of the client due to the loss of the equipment is prevented.

Further, in the method, the production management service platform also obtains the network flow consumption of the water-saving control equipment, and sends the flow early warning information to the one-card platform of the client when the network flow consumption is greater than the set flow.

Because water conservation controlgear is in the networking state always, consequently still need monitor the flow consumption condition of equipment, when flow exceeded certain quota, in time send flow early warning information to customer's all-purpose card platform, the suggestion customer looks over the network state of equipment, prevents someone from maliciously rubbing the net, has increased the use amount of flow to avoid equipment to appear the communication fault that the flow is not enough to lead to.

The invention also provides a management system for the water-saving control equipment, which comprises a production management service platform and a client one-card platform; when the water-saving control equipment is offline, establishing communication connection between the water-saving control equipment and a production management service platform, sending hardware characteristic information of the water-saving control equipment to the production management service platform by the water-saving control equipment, generating an equipment unique number by the production management service platform according to the received hardware characteristic information of the water-saving control equipment, and sending the generated equipment unique number to the corresponding water-saving control equipment;

when the water-saving control equipment is installed, the communication connection between the water-saving control equipment and a client one-card platform is established, the water-saving control equipment sends the own equipment unique number to the client one-card platform, the client one-card platform sends the received equipment unique number to a production management service platform, and the production management service platform verifies the legality of the equipment unique number and feeds back a verification result to the client one-card platform;

when the water-saving control equipment is used, the water-saving control equipment sends the equipment state information in the use process to the production management service platform, and the production management service platform monitors the water-saving control equipment according to the equipment state information in the use process of the water-saving control equipment.

Further, in the system, when the water-saving control equipment is offline, a production serial number is also set on the water-saving control equipment, the production serial number is collected by the code scanning equipment and then is sent to the production management service platform, and the production management service platform establishes a corresponding relation between the equipment unique number and the production serial number.

Further, in the system, when the production management service platform judges that the water-saving control equipment is abnormal according to the equipment state information, the unique equipment number of the abnormal water-saving control equipment is sent to the client one-card platform, and the client one-card platform reminds workers to overhaul, investigate or replace the abnormal water-saving control equipment.

Drawings

FIG. 1 is a block diagram showing the construction of a management system for a water saving control apparatus in the system embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a water saving control apparatus in an embodiment of the system of the present invention;

FIG. 3 is a schematic diagram illustrating interaction between a water-saving control device and a production management service platform according to an embodiment of the system of the present invention;

FIG. 4 is a block diagram of a process for provisioning the management system in an embodiment of the system of the present invention;

FIG. 5 is a block diagram illustrating the operation of the management system during daily monitoring according to an embodiment of the present invention;

FIG. 6 is a schematic circuit diagram of a display module of the water conservation control apparatus in an embodiment of the system of the present invention;

FIG. 7 is a schematic diagram of a driving circuit of a FLASH chip of the water saving control chip in the system embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments.

The embodiment of the system is as follows:

the management system for the water-saving control equipment utilizes a wireless communication technology to realize long connection between the water-saving control equipment and a production management service platform as well as a client all-purpose card platform. The consumption service of the water-saving control equipment interacts with the client all-purpose card platform, and the consumption characteristic factors are received from the client all-purpose card platform. The production management service platform inquires the change of the attributive client of the water-saving control equipment in real time through the telecom operator Internet of things card platform, monitors the flow consumption of the water-saving control equipment and realizes the management function of the flow card. The water-saving control equipment carries out self-checking periodically and sends the self-checked equipment state information to the production management service platform, and the production management service platform judges the equipment state information so as to determine whether the equipment is abnormal or not and generate corresponding abnormal state information; and the production management service platform pushes the abnormal state information and the flow change situation to the client one-card platform, and a maintainer at the location of the client checks the abnormal equipment so as to maintain and replace the abnormal equipment at home in time, thereby enhancing the client experience.

As shown in fig. 1, the management system for the water saving control apparatus includes a customer one-card platform and a production management service platform. During the production, the opening and the daily use of the water-saving control equipment, the all-purpose card platform and the production management service platform are communicated and interconnected in a wireless communication mode.

The water-saving control device is shown in fig. 2 and comprises a central processing unit, a memory (FLASH chip), a wireless communication module, a card reading module, a display module and a flow module. The central processing unit is connected with the wireless communication module through a serial port line and is used for realizing communication interconnection with the server platform. The flow module is used for plugging a flow card, and the central processing unit is connected to a telecommunication operator network through the flow module to realize the networking of the water-saving control equipment. In addition, the central processing unit is also connected with the FLASH chip, the card reading module and the display module through the SPI bus respectively, data are temporarily stored through the FLASH chip, user data in the user one-card is read through the card reading module, and the user data and user operation prompt information of the one-card are displayed through the display module.

In this embodiment, the wireless communication module adopts a 4G wireless communication module, and has the advantages of long transmission distance, low power consumption and low cost. As other embodiments, if the cost and power consumption are not considered, other wireless communication modules capable of realizing long-distance transmission can be adopted.

The water-saving control equipment acquires the hardware characteristic information of the water-saving control equipment and sends the hardware characteristic information of the water-saving control equipment to the production management service platform through the 4G wireless communication module. And the production management service platform generates an equipment unique number according to the hardware characteristic information of the corresponding equipment, sends the equipment unique number to the corresponding water-saving control equipment, and the water-saving control equipment caches the equipment unique number locally. And the production management service platform is bound with the water-saving control equipment through the unique equipment number. The hardware characteristic information comprises information such as a hardware state, 4G base station coordinates, a 4G wireless communication module IMEI, a traffic card ICCID and the like. The hardware state is the state information of the hardware such as a flow meter, a valve, a display module, a FLASH chip, a card reading module and the like.

The unique number of the equipment is a special numbering rule agreed by the production management service platform, and can be set according to specific requirements by adopting unique number or character information.

As shown in fig. 3, when the production of the water-saving control device goes off-line, the production serial number generator is used to generate the identifier, the identifier is the production serial number of the device, the identifier is attached to the shell of the water-saving control device, and then the address of the production management service platform is transmitted to the water-saving control device by using the server address transmission medium. The production personnel can scan the identification on the shell of the water-saving control equipment through the code scanning intelligent gateway and transmit the identification of the corresponding equipment to the production management service platform, and the production management service platform establishes the corresponding relation between the identification of the equipment and the unique equipment number according to the identification of the equipment and the unique equipment number.

For example, if the device serial number includes the coordinates of the 4G base station or the ICCID of the traffic card, an agreed rule may be set, and the coordinates of the 4G base station or the ICCID of the traffic card may also be added to the production serial number, so that the production serial number and the device unique number have a corresponding relationship.

Manufacturers can inquire the production serial number of the equipment according to the unique number of the equipment, master the equipment information in the production and storage processes, and compared with a mode of personnel investigation, the efficiency is higher; and when the equipment is maintained and replaced, the double verification can be carried out on the water-saving control equipment, so that the equipment to be maintained is the equipment produced by a manufacturer and is not the product of other factories.

After being electrified, the 4G wireless communication module of the water-saving control equipment is connected to a telecommunication operator network, establishes network connection with a production management service platform according to the address of the production management service platform, and keeps long connection after the connection is successful. Compared with the traditional wiring modes such as RS485, CAN, TCP and the like, the cost is greatly saved in the aspects of manpower and wire rods, and the communication efficiency is higher than that of low-speed wireless equipment such as LORA, sub 1G and the like.

In this embodiment, the code scanning intelligent gateway is an intelligent device having a code scanning function and connected to an external network. The address transmission medium of the equipment server can be a card, and can also be a physical communication line or a wireless communication line.

When the water-saving control equipment is installed, the water-saving control equipment is connected with a power supply system, and the power supply system supplies power to the water-saving control equipment. The water-saving control equipment is also connected with the valve driving circuit, and when the card reading module reads the one-card of the user, the valve driving circuit is used for controlling the valve on the water outlet pipeline to be opened or closed according to the consumption information of the user, so that the function of the user for getting water through the one-card is realized. In addition, the water-saving control equipment is also connected with a flow sensor arranged on the water outlet pipeline and used for detecting water flow when the central processing unit opens the valve through the valve driving circuit, so that the water consumption of a user can be obtained and displayed on the display module.

As shown in fig. 4, when the water-saving control device is ready to be opened after being installed, a field worker transmits a client one-card platform address to the water-saving control device by using a server address transmission medium, the 4G wireless communication module is automatically accessed to a telecommunication operator network, connects the client one-card platform according to the client one-card platform address, and keeps a long connection state after the connection is successful.

The water-saving control equipment sends the equipment unique number to the client all-purpose card platform, and after the client all-purpose card platform receives the equipment unique number of the corresponding equipment, the equipment unique number is forwarded to the production management service platform, so that the legality of the water-saving control equipment is verified. If the water-saving control equipment is illegal, the client one-card platform actively disconnects the connection with the water-saving control equipment; if the water-saving control equipment is legal, the client all-purpose card platform automatically generates consumption characteristic information of the corresponding equipment, sends the consumption characteristic information to the corresponding water-saving control equipment, and the water-saving control equipment caches the consumption characteristic information locally. The consumption characteristic information includes a key factor and a consumption parameter. All consumption services of the water-saving control equipment are only interacted with the client-card platform, and data designed in the interaction process are encrypted and decrypted according to an agreed rule, so that the data security in the interaction process is ensured.

As shown in fig. 5, in the using process of the water-saving control device, the production management service platform queries the home client of the water-saving control device in real time through the telecom operator internet of things card platform, detects the network flow consumption condition of the water-saving control device, and sends flow early warning information to the client one-card platform in time when the flow exceeds a certain limit, so as to prompt the client to check the network state of the device, and prevent someone from maliciously rubbing the network, which results in too fast flow consumption. And the functions of opening and suspending of the flow card, renewal and upgrading of the tariff package and the like can also be realized.

In addition, the water-saving control equipment carries out self-checking periodically to obtain equipment state information, the 4G wireless communication module sends the equipment state information to the production management service platform through a telecommunication network, and the production management service platform checks whether the water-saving control equipment has a hardware module damage condition or not according to the equipment state information, such as current, voltage, temperature or water outlet flow of a controlled pipeline when the water-saving control equipment works. When the production management service platform judges that the water-saving control equipment is abnormal according to the equipment state information, abnormal state information is generated, the equipment unique number and the abnormal state information of the abnormal water-saving control equipment are sent to the client one-card platform, and the client one-card platform reminds workers to overhaul, investigate or replace the abnormal water-saving control equipment.

The production management service platform also acquires the geographic position information of the equipment. On the one hand, the device is convenient for workers to go to the door for maintenance during troubleshooting. On the other hand, when the equipment is stored in a warehouse or installed in place, the position of the equipment is set as the initial geographic position, and the real-time geographic position of the equipment can be compared with the initial geographic position so as to determine whether the geographic position of the water-saving control equipment is changed. If the geographical position of the water-saving control equipment changes, the unique equipment number of the water-saving control equipment is pushed to the one-card platform of the client, and the staff checks the unique equipment number, so that the influence on the use of the client due to the loss of the equipment is prevented.

In this embodiment, the display module of the water-saving control device uses a dot-matrix liquid crystal display as a main carrier of human-computer interaction, and is used for displaying water use information in a digital, Chinese character, English, picture and other ways. The display module employs a display circuit as shown in fig. 6, and J61 is a connection port of a liquid crystal panel. The capacitors C63, C64 and the inductor B602 form a pi-shaped filter circuit of a 3.3V power supply, and then are connected with a 5-pin VDD and a 4-pin VSS of J61. The capacitors C61, C62 and the resistor R61 form a booster circuit to provide high voltage for the liquid crystal display. The central processing unit is directly connected with a 10 pin CSB, a 9 pin RSTB and an 8 pin A0 of the J61. The central processing unit is respectively connected with a 6-pin SDA and a 7-pin SCL of J61 through an inductor B600 and an inductor B601. According to the interface communication protocol of the liquid crystal screen, the central processing unit transmits the display pulse to CSB, RSTB, A0, SCL and SDA pins of J61 according to a certain rule, and the expected characters can be displayed on the liquid crystal screen.

In this embodiment, the FLASH chip of the water saving control device adopts a driving circuit as shown in fig. 7, and the FLASH chip adopts a special chip U601 with the model number of W25Q 32. Pin WP of chip U601 connects 3.3v power, realizes freely reading and writing. One end of the resistor R602 and one end of the capacitor C6023 are connected with a reset pin REST of the chip U601 together, and the other end of the resistor R602 and the other end of the capacitor C6023 are connected with a 3.3v power supply and a grounding pin GND respectively, so that power-on reset is realized, and the reliability requirement is met. Pins FLASH _ MOIS, FLASH _ MISO, FLASH _ SCK and FLASH _ CS are respectively connected to the SPI communication interface pin of the central processing unit, and the SPI level protocol is followed during communication.

The method comprises the following steps:

the management method for the water-saving control equipment comprises the following steps:

and S1, the production management platform obtains the unique equipment number of the water-saving control equipment according to the hardware characteristic information of the water-saving control equipment when the water-saving control equipment leaves the factory, and the binding of the water-saving control equipment and the production management service platform is realized through the initial hardware characteristic information and the unique equipment number corresponding to the water-saving control equipment. And the address of the production management service platform is transmitted to the wireless communication module of the water-saving control equipment through a server transmission medium. When the water-saving control equipment is networked, the water-saving control equipment is connected with the production management service platform according to the address of the production management service platform.

And S2, when the water-saving control equipment is installed and opened, the water-saving control equipment is connected with the one-card platform of the client through the address of the one-card platform of the client. After the equipment is opened, the water-saving control equipment sends the equipment unique number to the client all-purpose card platform, and the client all-purpose card platform sends the equipment unique number corresponding to the water-saving control equipment to the production management service platform.

And S3, the production management platform verifies whether the water-saving control equipment corresponding to the equipment unique number is legal or not according to the equipment unique number. If the water-saving control equipment is illegal, the user all-purpose card platform is disconnected with the water-saving control equipment, and if the water-saving control equipment is legal, the step S4 is carried out.

And S4, when the water-saving control equipment is legal, keeping the long connection between the customer one-card platform and the water-saving control equipment. The water-saving control equipment carries out self-checking at regular intervals to obtain equipment state information, and the equipment state information is sent to the production management service platform.

And S5, the production management service platform judges whether the corresponding water-saving control equipment is abnormal or not according to the equipment state information. When the water-saving control equipment is abnormal, generating abnormal state information, packaging the abnormal state information and the equipment unique number and sending the abnormal state information and the equipment unique number to the client one-card platform, and after a maintenance worker checks the abnormal water-saving control equipment on the client one-card platform, carrying out door-to-door maintenance on the abnormal water-saving control equipment according to the real-time geographical position of the abnormal water-saving control equipment.

And in the use process of the water-saving control equipment, the production management service platform also acquires the real-time geographical position of the water-saving control equipment, determines the geographical position change condition of the water-saving control equipment according to the real-time geographical position and the pre-acquired initial geographical position corresponding to the water-saving control equipment, and sends the equipment unique number of the water-saving control equipment with the changed geographical position to the client one-card platform, and the client one-card platform reminds a worker to check the water-saving control equipment with the changed geographical position.

Because the water-saving control equipment is always in a networking state, the flow consumption condition of the equipment is monitored, and when the flow exceeds a certain limit, the flow early warning information is sent to the client one-card platform in time to prompt the client to check the network state of the equipment, so that the communication fault caused by insufficient flow of the equipment is avoided.

The hardware structure and the working process required for implementing the above management method are already described in the system embodiment for clarity, and are not described herein again.

Claims (10)

1. A management method for a water-saving control apparatus, characterized by comprising the steps of:

s1, when the water-saving control equipment is off-line, establishing communication connection between the water-saving control equipment and a production management service platform, sending the hardware characteristic information of the water-saving control equipment to the production management service platform, generating an equipment unique number by the production management service platform according to the received hardware characteristic information of the water-saving control equipment, and sending the generated equipment unique number to the corresponding water-saving control equipment;

s2, when the water-saving control equipment is installed, establishing communication connection between the water-saving control equipment and a client one-card platform, sending the own equipment unique number to the client one-card platform by the water-saving control equipment, sending the received equipment unique number to a production management service platform by the client one-card platform, verifying the legality of the equipment unique number by the production management service platform, and feeding back a verification result to the client one-card platform;

and S3, when the water-saving control equipment is used, the water-saving control equipment sends the equipment state information in the use process to the production management service platform, and the production management service platform monitors the water-saving control equipment according to the equipment state information in the use process of the water-saving control equipment.

2. The management method for the water-saving control equipment according to claim 1, wherein when the water-saving control equipment is off-line, a production serial number is further set on the water-saving control equipment, the production serial number is collected by the code scanning equipment and then sent to the production management service platform, and the production management service platform establishes a corresponding relationship between the equipment unique number and the production serial number.

3. The management method for a water-saving control apparatus according to claim 1 or 2, wherein the communication connection between the water-saving control apparatus and the production management service platform is established by a server address transfer medium through which the communication address of the production management service platform is transferred to the water-saving control apparatus; the server address transmission medium is physical line connection or wireless connection.

4. The management method for a water-saving control apparatus according to claim 1 or 2, wherein the communication connection between the water-saving control apparatus and the client-side card platform is established by a server address transfer medium through which the communication address of the client-side card platform is transferred to the water-saving control apparatus; the server address transmission medium is physical line connection or wireless connection.

5. The management method for the water-saving control equipment according to claim 1 or 2, characterized in that when the production management service platform judges that the water-saving control equipment is abnormal according to the equipment state information, the equipment unique number of the abnormal water-saving control equipment is sent to the customer one-card platform, and the customer one-card platform reminds a worker to overhaul, investigate or replace the abnormal water-saving control equipment.

6. The management method for the water-saving control equipment according to claim 1 or 2, wherein the production management service platform further acquires a real-time geographical position of the water-saving control equipment, and determines a geographical position change condition of the water-saving control equipment according to the real-time geographical position and a pre-acquired initial geographical position of the corresponding water-saving control equipment; and sending the unique equipment number of the water-saving control equipment with the changed geographical position to the client all-purpose card platform, and reminding a worker to check the water-saving control equipment with the changed geographical position by the client all-purpose card platform.

7. The management method for the water-saving control equipment according to claim 1 or 2, wherein the production management service platform further obtains the network traffic consumption of the water-saving control equipment, and sends traffic warning information to the client one-card platform when the network traffic consumption is greater than a set traffic.

8. A management system for water-saving control equipment is characterized by comprising a production management service platform and a client one-card platform; when the water-saving control equipment is offline, establishing communication connection between the water-saving control equipment and a production management service platform, sending hardware characteristic information of the water-saving control equipment to the production management service platform by the water-saving control equipment, generating an equipment unique number by the production management service platform according to the received hardware characteristic information of the water-saving control equipment, and sending the generated equipment unique number to the corresponding water-saving control equipment;

when the water-saving control equipment is installed, the communication connection between the water-saving control equipment and a client one-card platform is established, the water-saving control equipment sends the own equipment unique number to the client one-card platform, the client one-card platform sends the received equipment unique number to a production management service platform, and the production management service platform verifies the legality of the equipment unique number and feeds back a verification result to the client one-card platform;

when the water-saving control equipment is used, the water-saving control equipment sends the equipment state information in the use process to the production management service platform, and the production management service platform monitors the water-saving control equipment according to the equipment state information in the use process of the water-saving control equipment.

9. The management system for the water-saving control equipment according to claim 8, wherein when the water-saving control equipment is off-line, a production serial number is further set on the water-saving control equipment, the production serial number is collected by the code scanning equipment and then sent to the production management service platform, and the production management service platform establishes a correspondence between the equipment unique number and the production serial number.

10. The management system for the water-saving control equipment according to claim 8 or 9, wherein when the production management service platform judges that the water-saving control equipment is abnormal according to the equipment state information, the equipment unique number of the abnormal water-saving control equipment is sent to the customer one-card platform, and the customer one-card platform reminds a worker to overhaul, investigate or replace the abnormal water-saving control equipment.

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