CN112508142A - Fresh water plant system - Google Patents

Abstract

The invention belongs to the technical field of drinking equipment, and particularly relates to a fresh water factory system. The fresh water factory system consists of a water purification system, a kettle, a water dispenser and an Internet of things system; the water purification system is provided with a first card reading induction module and a first control system, and the first control system is connected with the first card reading induction module; the kettle is provided with a chip; the water dispenser is provided with a second control system, a second card reading induction module and a kettle placing area, and the second control system is connected with the second card reading induction module; the first card reading induction module and the second card reading induction module are used for reading and writing chips on the kettle; the first control system and the second control system are both connected to the Internet of things system. The fresh water factory system can ensure that drinking water is drunk in a short time, and the water quality is not changed in the conveying and storing process, so that the water quality of the drinking water is ensured.

Description

Fresh water plant system

Technical Field

The invention belongs to the technical field of drinking equipment, and particularly relates to a fresh water factory system.

Background

The direct drinking machine can directly form purified water which can be directly drunk from tap water through a series of purification processes, has the advantage of energy conservation, and is widely used. In some large places such as hospitals and schools, if a plurality of dispersed water purification systems are arranged, the management difficulty is increased, and the cost is high. Therefore, the cost and the management difficulty are reduced by adopting a mode of intensively arranging the water purification system and then arranging the water dispensers in each office in a matching way. Therefore, purified water which is subjected to purification treatment is filled in the water purifying system by using the water kettle, and then the water kettle is placed in the drinking water for drinking. The purified water in the kettle may be stored for a period of time to be drunk, and may be polluted in the storage process to cause the deterioration of water quality, thereby causing safety problems.

Disclosure of Invention

The invention provides a fresh water factory system which can effectively ensure the water quality safety.

In order to achieve the purpose, the invention adopts the technical scheme that:

a fresh water factory system is composed of a water purification system, a kettle, a water dispenser and an Internet of things system;

the water purification system is provided with a first card reading induction module and a first control system, and the first control system is connected with the first card reading induction module;

the kettle is provided with a chip;

the water dispenser is provided with a second control system, a second card reading induction module and a kettle placing area, and the second control system is connected with the second card reading induction module;

the first card reading induction module and the second card reading induction module are used for reading and writing chips on the kettle;

the first control system and the second control system are both connected to the Internet of things system.

In the fresh water factory system, a water purification system purifies tap water into purified water. The chip on the kettle can store information, when the kettle receives water from the water purification system, the first card reading sensing module of the water purification system can obtain the chip information and is pushed to the Internet of things system by the first control system, and filling information (such as filling time and the like) is written into the chip. The kettle full of water is inserted into a kettle placing area of the water dispenser, the second card reading sensing module reads information of the chip and water quality information of the current kettle, the information is pushed to the Internet of things system by the second control system, and the Internet of things system sends an instruction to the second control system according to filling information and real-time water quality information in the chip. If the filling time exceeds a certain time (such as 24 hours) and the water quality change exceeds the routine, the drinking machine will flash and alarm. Therefore, the fresh water factory system can ensure that drinking water is drunk in a short time, and the water quality is not changed in the process of conveying and storing, so that the water quality of the drinking water is ensured.

The first control system and the second control system are both connected to the Internet of things system through 4G or wifi.

The intelligent drinking water system disclosed by the invention adopts the technology of Internet of things to realize intelligent control on the water purification system and the water dispenser, and the Internet of things system is composed of an equipment cloud platform and an intelligent control system. The equipment cloud platform is used for receiving, analyzing and processing information uploaded by the first control system and the second control system; the intelligent management and control system is responsible for receiving response user instructions (issued through small programs), processing business logic, decision analysis and receiving response equipment cloud platform information.

The chip on the kettle is a chip for storing information commonly used in the prior art, and the chip on the preferred kettle is an NFC chip.

The water kettle needs to write user identity information into the chip before being used, when the water kettle pumps water from the water purification system, the chip is linked to the Internet of things system through the first card reading sensing module and the first control system of the water purification system to carry out identity verification, and meanwhile, the Internet of things system writes a dynamic code into the chip. The dynamic code can be reported to the Internet of things system through the second sensing module and the second control system when the kettle is inserted into the water dispenser, and is used for judging whether the kettle is tampered or copied, and setting the historical dynamic state as invalid, so that the chip card number is prevented from being copied, and the filling information in the chip is ensured not to be tampered, so that the safety of the purified water quality in the kettle is further ensured. When the kettle is flushed again to the water making system, the Internet of things system can check whether the dynamic code of the kettle meets the requirement, and sends a new dynamic code if the dynamic code is correct, otherwise, the kettle is forbidden to flush.

The water purification system is internally provided with a water purification device which can purify tap water into water which can be directly drunk. Preferably, the water purification system is provided with a pre-filtering device, an RO reverse osmosis water purification device, an ozone disinfection device, a water tank and a circulating disinfection system. Wherein, the preposed filtering and RO reverse osmosis water purifying device is responsible for purifying tap water and removing impurities in the water; the hydrolysis ozone disinfection device kills bacteria and viruses in water; the water tank stores the treated fresh water and carries out circulating sterilization through the circulating sterilization system, so that the safety of the fresh water during storage is ensured.

Preferably, a water quantity sensor and a first water quality sensor are arranged in the water purification system, and the water quantity sensor and the first water quality sensor are both connected with a first control system. The first water quality sensor can monitor the water quality conditions of purified water produced by the water purification system, such as indexes of TDS value and the like, and report the water quality conditions to the Internet of things system through the first control system, so that the Internet of things system can monitor the water quality in real time, and fresh water is guaranteed to meet the GB19298-2014 standard; and when the water quality condition does not meet the requirement, the Internet of things system analyzes and sends out consumable replacement and equipment fault alarm reminding according to the received data and sends out a water outlet stopping instruction to the first control system when necessary. The water quantity sensor is used for counting the water passing quantity of the front filtering device, the water passing quantity of the R0 reverse osmosis water purifying device and the filling water quantity of the kettle and transmitting the water passing quantity to the Internet of things system through the first control system. After the water passing amounts of the front filtering device and the R0 reverse osmosis water purifying device respectively reach a certain amount, the Internet of things system can timely send out a prompt for replacing consumables; according to the statistics of the filling water amount of the kettle, the internet of things system calculates corresponding cost information.

And a second water quality sensor is arranged on the water dispenser and is connected with a second control system. When the kettle inserted the water dispenser, the second quality of water sensor can monitor the quality of water condition of kettle middling water like index such as TDS value and transmit quality of water condition data for thing networking system through second control system. When the water quality does not meet the drinking standard, the Internet of things system can give out alarm reminding and send out a water outlet stopping instruction to the second control system when necessary.

The instant heating module is also arranged in the water dispenser and is responsible for heating the outlet water when the drinking hot water is started, so that the fresh water immediately reaches the hot water standard.

Drawings

FIG. 1 is a schematic of the fresh water plant system of the present invention;

FIG. 2 is a schematic view of the internal structure of the fresh water plant of the present invention;

FIG. 3 is a schematic external view of a fresh water plant according to the present invention;

FIG. 4 is a schematic view of the structure of the water bottle of the present invention;

fig. 5 is a schematic structural diagram of the water dispenser of the present invention.

Detailed Description

The fresh water factory system comprises a fresh water factory, a kettle, a water dispenser and an Internet of things system, and the structural schematic diagram of the fresh water factory system is shown in figure 1.

Wherein, the fresh water factory is a water purification system, and the schematic diagram of the internal structure thereof is shown in fig. 2.

Fresh water factory and water pipe direct connection, the running water flows through leading filter equipment (including cotton filter core of PP and active carbon filter core) earlier and carries out the prefiltration, then gets into RO reverse osmosis purifier further filtration purification, later flows through ozone degassing unit and carries out germicidal treatment and form fresh water. Fresh water flows into the water tank for storage and standby, and the water tank is internally provided with a circulating disinfection system for circularly disinfecting and killing the fresh water, so that the safety of the fresh water during storage is ensured. In addition, water quantity sensors are arranged at the water outlet of the pre-filtering device and the water outlet of the RO reverse osmosis water purifying device to respectively count the water passing quantity of the pre-filtering device and the water passing quantity of the RO reverse osmosis water purifying device, and a water quantity sensor and a water quality sensor are arranged at the water outlet of the water tank to count the water quantity and the water quality condition of the water tank.

The water quantity sensor at the water outlet of the front-mounted filtering device, the water quantity sensor at the water outlet of the RO reverse osmosis water purifying device, the water quantity sensor at the water outlet of the water tank and the water quality sensor are all connected with a control system (composed of a Micro Control Unit (MCU) and an Android system), and the control system is connected into an Internet of things system through 4G or WIFI. The inside NFC module (reading and writing NFC chip information on the kettle) that still is equipped with of fresh water factory, this NFC module links to each other with control system.

The whole appearance of the fresh water factory is shown in fig. 3, and the fresh water factory is provided with a display screen (displaying user information, water quality conditions and water consumption), a touch key (a water outlet control switch), two water outlet tank tubes (respectively connected with the touch key) and a tray, wherein a groove for placing a water kettle is arranged on the tray.

The water jug (capacity 1 gallon) is provided with an NFC chip, and the structure of the water jug is shown in figure 4. The NFC chip on the kettle (the NFC chip is embedded into the kettle and the corresponding sector is encrypted when the kettle is produced, and the ID number of the chip is led into the Internet of things system) can record client information and water fetching information. Placing the kettle into a groove of a fresh water factory, wherein an NFC chip area of the kettle corresponds to an NFC module area of the fresh water factory, the NFC module reads chip information and pushes the information to an Internet of things system for verification through a control system, and then the Internet of things system confirms the use authority (whether the kettle is defaulted or not); if no fee is owed, the filling of water can be started. Writing dynamic codes in the chip; and after the kettle is filled, stopping filling, and writing the filling water quantity and the water filling time into the chip. The water jug filled with water is stored for standby.

The structure of the water dispenser is shown in figure 5. The instant heating module, the water quality sensor, the NFC module and the control system (MCU) are arranged in the water dispenser, wherein the instant heating module, the water quality sensor and the NFC module are respectively connected with the control system, and the control system is connected into the Internet of things system through 4G or WIFI. The water dispenser shell is provided with a water outlet, a hot water key, a cold water key, a child lock key and an indicator light.

When the water dispenser is used, the water kettle filled with water is inserted into the water dispenser, the position of an NFC chip on the water kettle corresponds to the position of an NFC module in the water dispenser, and the NFC module is responsible for reading and writing NFC chip information in the water kettle; the water quality sensor acquires the water quality condition in the kettle.

The dynamic code in the NFC chip reports to the Internet of things system when the kettle is inserted into the water dispenser, and the Internet of things system is used for judging whether the kettle is tampered or copied and setting the historical dynamic state as invalid; when the kettle goes to a fresh water factory again for water pumping, the Internet of things system can check whether the dynamic code of the kettle meets the requirement, and sends a new dynamic code if the dynamic code is correct, otherwise, the kettle is forbidden to pump water. The Internet of things system can achieve certain fault-tolerant capability by controlling the use times of the dynamic codes.

The control system is responsible for transmitting the drinking water condition, the NFC chip information and the water quality condition to the Internet of things system, the Internet of things system carries out data analysis and processing, whether the water in the kettle and the water dispenser meet the safety standard or not is judged, the service process of the water dispenser is monitored, and safety warnings (indicator light flashing) such as filling overtime (whether 24 hours are exceeded), kettle illegal (whether dynamic codes meet the requirements or not), water quality exceeding and the like are made, or the service of the water dispenser is interrupted.

Claims (5)

1. A fresh water factory system is characterized by comprising a water purification system, a kettle, a water dispenser and an Internet of things system;

the water purification system is provided with a first card reading induction module and a first control system, and the first control system is connected with the first card reading induction module;

the kettle is provided with a chip;

the water dispenser is provided with a second control system, a second card reading induction module and a kettle placing area, and the second control system is connected with the second card reading induction module;

the first card reading induction module and the second card reading induction module are used for reading and writing chips on the kettle;

the first control system and the second control system are both connected to the Internet of things system.

2. The fresh water plant system of claim 1, wherein the internet of things system consists of a device cloud platform and an intelligent management and control system.

3. The fresh water factory system according to claim 1, wherein the chip of the filled kettle has a dynamic code written therein.

4. The fresh water plant system of any of claims 1-3, wherein a water quantity sensor and a first water quality sensor are provided in the water purification system, both of which are connected to the first control system.

5. The fresh water plant system of any of claims 1-3, wherein a second water quality sensor is provided on the water dispenser, the second water quality sensor being connected to a second control system.

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