CN210300663U - Intelligent water dispenser control system and water dispenser - Google Patents

Abstract

The utility model provides an intelligent water dispenser control system and a water dispenser, which relate to the technical field of water dispensers and comprise a water dispenser assembly, a control module, an information acquisition module, a display module and a power module, wherein the water dispenser assembly is used for the work of the water dispenser, and the power module is used for supplying power to the control system; the information acquisition module acquires data of each sensor arranged in the water dispenser assembly, the display module is used for inputting the temperature of water to be taken and advertising wanted to be acquired by a user, and the control module outputs a control signal for adjusting the water outlet temperature of the water dispenser system according to the comparison between the data of each sensor and the temperature of the water to be taken, so that the water temperature at the water outlet is equal to the input temperature of the water to be taken finally; the utility model discloses a two kinds of starting mode of scanning two-dimensional code and reading core card realize the start-up of water dispenser system, adjust water dispenser system leaving water temperature to user demand temperature, fully provided user's water demand.

Description

Intelligent water dispenser control system and water dispenser

Technical Field

The utility model relates to a water dispenser technical field, concretely relates to intelligence water dispenser control system and water dispenser.

Background

In the prior art, for example, a charging water dispenser installed in a high school and/or university campus is generally only used in a card swiping payment mode, and the water dispenser can be used only by campus cards uniformly issued by schools; at present, college campuses are generally opened to the public for entering and exiting, and people visiting or studying from the outside cannot use a water dispenser without a campus card, so that the drinking of hot water by the outside people is inconvenient. Secondly, the water dispenser of colleges and universities generally only supports hot water supply and cannot adjust the temperature, the temperature control requirements of students cannot be met, and especially in hot summer, the water dispenser of schools has no refrigeration function, so that beverage bottles and related garbage of schools are increased rapidly in summer. In addition, the water dispenser installed in schools can only be stopped manually without the automatic water stopping function; in addition, the school water dispenser cannot realize timing power supply closing and opening, and usually needs manual power supply opening and closing.

For example, a hotel restaurant generally supports dinning of a resident and an external customer, a hotel magnetic card is a voucher, the resident can enjoy catering or other services of the restaurant by using the hotel magnetic card, and the external customer needs to charge; generally, beverage tenants in a water dispenser installed in a hotel can drink the beverage freely by virtue of a hotel magnetic card, or the beverage tenants can consume accounts and settle accounts together when the beverage tenants return from the hotel, and foreign customers generally purchase the beverage tenants with staff and settle accounts by scanning codes again; in addition, drinks in hotels usually do not have a temperature regulation function, so that the requirement of customers on the temperature of the drinks cannot be met, and meanwhile, the drinks cannot be injected automatically and can only be stopped manually; in order to ensure that the water dispenser of a hotel can provide drinks at any time, the water dispenser is generally in a 24-hour working state, and unnecessary electric energy consumption is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an intelligence water dispenser system and water dispenser solves among the prior art water dispenser in specific place and can not use widely to masses, produces the problem of reasonable benefit.

To achieve the above objective, the present invention provides the following technical solutions: an intelligent water dispenser control system comprises a water dispenser assembly, a control module, an information acquisition module, a display module for starting a water dispenser system and setting temperature and a power supply module for supplying power to the control system; the water dispenser assembly comprises a box body, a hot water tank, a cold water tank, a water taking tank, a heating device arranged in the hot water tank and a cooling device arranged in the cold water tank, wherein the water taking tank is connected to the hot water tank by adopting a hot water pipeline and is connected to the cold water tank by adopting a cold water pipeline, the outlet of the water taking tank is arranged as a water taking port, and the water taking port is provided with an electromagnetic valve for taking water; the information acquisition module comprises sensors arranged in the water dispenser assembly, and water level, temperature and water flow information in the water dispenser assembly is acquired through the sensors; the control module calculates, analyzes, controls and adjusts the water outlet temperature of the water dispenser system to a set temperature through the data of the information acquisition module.

Specifically, the information acquisition module is connected to the control module and comprises a first liquid level sensor, a second liquid level sensor, a third liquid level sensor, a first temperature sensor, a second temperature sensor, a third temperature sensor, a first water flow sensor and a second water flow sensor; the first liquid level sensor and the first temperature sensor are both arranged in the hot water tank and are used for detecting the hot water level and the hot water temperature in the hot water tank; the second liquid level sensor and the second temperature sensor are both arranged in the cold water tank and are used for detecting the cold water level and the cold water temperature in the cold water tank; the third liquid level sensor and the third temperature sensor are arranged in the water taking tank and are used for detecting the water level to be taken and the temperature to be taken in the water taking tank; the first water flow sensor is arranged on the hot water pipeline, and the second water flow sensor is arranged on the cold water pipeline and is respectively used for detecting the water flow of the hot water pipeline and the water flow of the cold water pipeline; in addition, the hot water tank, the cold water tank and the water taking tank are respectively provided with a water outlet pipeline, the water outlet pipelines are respectively provided with three pulse electromagnetic valves, and the three pulse electromagnetic valves are respectively and correspondingly connected with the first liquid level sensor, the second liquid level sensor and the third liquid level sensor; the water outlet pipelines are respectively connected with a water inlet pipeline for delivering water to the water dispenser system, and a water purifying device is arranged between the water outlet of the water inlet pipeline and the water dispenser system.

The display module is respectively connected with the control module and the information acquisition module and comprises a touch display screen, a card reading device and a temperature setting unit; the touch display screen is used for displaying a two-dimensional code for starting the water dispenser system and the readings of the temperature sensors in the information acquisition module, the card reading device is used for starting a core card of the water dispenser system, and the temperature setting unit is used for setting the temperature of the water for taking; the water dispenser control system is used for controlling and adjusting numerical values of the first water flow sensor and the second water flow sensor according to the indication number of each temperature sensor in the information acquisition module and the temperature set by the temperature setting unit after the water dispenser system is started, and controlling the electromagnetic valve to open water when the temperature set by the temperature setting unit is equal to the sensing temperature of the third temperature sensor.

Furthermore, the control module comprises a single chip microcomputer, a signal converter and a temperature comparison unit, wherein the temperature comparison unit is used for comparing the water taking temperature set by the temperature setting unit with the induction temperature of a third temperature sensor in the water taking tank, and generating an electric signal to be sent to the signal converter according to the compared result, the signal converter receives the electric signal sent by the temperature comparison unit and outputs a signal which can be identified by the single chip microcomputer, the single chip microcomputer receives the output signal of the signal converter and carries out calculation processing, and outputs a control signal for adjusting the numerical values of the first water flow sensor and the second water flow sensor to the first water flow sensor and the second water flow sensor, so that the purpose of adjusting the water taking temperature in the water taking tank is achieved by adjusting the water flow of the hot water.

Further, the water intake is provided with a distance sensor which is electrically connected with the electromagnetic valve and used for closing the electromagnetic valve after water is taken from the water taking device; namely, the closing of the water intake is realized by controlling the distance between the water intake liquid level and the water outlet in the water intake device.

Furthermore, the intelligent water dispenser control system also comprises a water fee payment module, and the water fee payment module comprises a core card automatic fee deducting unit and a two-dimensional code recognition payment unit; the automatic core card fee deducting unit is arranged in the card reading device and is in communication connection with the core card management center and used for automatically deducting water fee from the balance of the core card after the electromagnetic valve is closed; the two-dimension code recognition payment unit is connected to a payment module of the mobile terminal through a wireless network and used for automatically deducting water fees from the payment module of the mobile terminal after the electromagnetic valve is closed.

Furthermore, the intelligent water dispenser control system further comprises a timing module, a remote control module and a wireless communication module, wherein the remote control module is connected to the timing module and the power module respectively through the wireless communication module and used for remotely controlling the working time of the power module, so that the timing work of the water dispenser system is realized, and the power consumption is reduced. Furthermore, the intelligent water dispenser control system also comprises a video module, wherein the video module is connected to the control module and the touch display screen and is used for circularly playing on the touch display screen when the water dispenser system is not started, so that the advertising effect of the water dispenser system is realized.

Furthermore, the utility model also provides an install above-mentioned intelligent water dispenser control system's water dispenser, not only can set for the temperature of water intaking, have the advertising function, can also time switch system, reduce power consumption.

According to the technical scheme, the utility model discloses an intelligence water dispenser system and water dispenser that technical scheme provided has obtained following beneficial effect:

the utility model discloses an intelligent water dispenser control system and a water dispenser, which comprises a water dispenser assembly, a control module, an information acquisition module, a display module and a power module, wherein the water dispenser assembly is used for the work of the water dispenser; the information acquisition module acquires data of each sensor arranged in the water dispenser assembly, the display module is used for inputting the temperature of water to be taken and advertising wanted to be acquired by a user, and the control module outputs a control signal for adjusting the water outlet temperature of the water dispenser system according to the comparison between the data of each sensor and the temperature of the water to be taken, so that the water temperature at the water outlet is finally equal to the input temperature of the water to be taken, and the water demand of the user is fully met; the utility model discloses a scanning two-dimensional code and core card discernment dual mode realize the start-up of water dispenser system and use, can make things convenient for staff and exotic personnel to use simultaneously to the water dispenser of specific place installation.

In addition, the water dispenser system of the utility model is provided with the timing module, which can set the working time of the water dispenser system and reduce the working power consumption of the water dispenser system; and when the water dispenser system of the water dispenser is not started, the display module circularly plays videos of the video module, including advertisements and important message notifications, so that information is conveniently forwarded to a user, the understanding of external personnel to the place is improved, and the commercial value of the water dispenser is effectively improved.

It should be understood that all combinations of the foregoing concepts and additional concepts described in greater detail below can be considered as part of the inventive subject matter of the present disclosure unless such concepts are mutually inconsistent.

The foregoing and other aspects, embodiments and features of the present teachings can be more fully understood from the following description taken in conjunction with the accompanying drawings. Additional aspects of the present invention, such as features and/or advantages of exemplary embodiments, will be apparent from the description which follows, or may be learned by practice of the specific embodiments in accordance with the teachings of the present invention.

Drawings

The drawings are not intended to be drawn to scale. In the drawings, each identical or nearly identical component that is illustrated in various figures may be represented by a like numeral. For purposes of clarity, not every component may be labeled in every drawing. Embodiments of various aspects of the present invention will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a block diagram of the structure of a water dispenser system of the present invention;

FIG. 2 is a detailed structure diagram of the water dispenser system of the present invention;

fig. 3 is a block diagram of the structure of the control module and the display module of the present invention.

Wherein, the specific meaning of each mark is as follows:

1-a water dispenser component, 2-a control module, 3-an information acquisition module, 4-a display module, 5-a power supply module, 6-a water fee payment module, 7-a timing module, 8-a remote control module, 9-a wireless communication module, 10-a video module, 11-a water purifying device, 1.1-a box body, 1.2-a hot water tank, 1.3-a cold water tank, 1.4-a water taking tank, 1.5-a heating device, 1.6-a cooling device, 1.7-a hot water pipeline, 1.8-a cold water pipeline, 1.9-a water inlet pipeline, 1.0-an electromagnetic valve, 1.11-a distance sensor, 2.1-a single chip microcomputer, 2.2-a signal converter, 2.3-a temperature comparison unit, 3.1-a first liquid level sensor, 3.2-a second liquid level sensor and 3.3-a third liquid level sensor, 3.4-a first temperature sensor, 3.5-a second temperature sensor, 3.6-a third temperature sensor, 3.7-a first water flow sensor, 3.8-a second water flow sensor, 4.1-a touch display screen, 4.2-a card reading device and 4.3-a temperature setting unit.

Detailed Description

For a better understanding of the technical content of the present invention, specific embodiments are described below in conjunction with the accompanying drawings.

In this disclosure, aspects of the present invention are described with reference to the accompanying drawings, in which a number of illustrative embodiments are shown. Embodiments of the present disclosure are not intended to include all aspects of the present invention. It should be appreciated that the various concepts and embodiments described above, as well as those described in greater detail below, may be implemented in any of numerous ways, as the disclosed concepts and embodiments are not limited to any implementation. Additionally, some aspects of the present disclosure may be used alone or in any suitable combination with other aspects of the present disclosure.

Based on the prior art, the water dispenser installed in each specific place can only be used by people who have special magnetic cards for taking, such as student cards in schools and house cards in hotels, and can only be taken by identity recognition through the cards; in addition, the water dispensers in the places cannot determine the temperature of the water to be taken and cannot meet the requirement of the water taking personnel on the water temperature; therefore, the utility model aims at providing an intelligent water dispenser system and water dispenser that the temperature definite drinking water can also be taken to the visitor in specific place.

The intelligent water dispenser system and the water dispenser of the present invention will be further described in detail with reference to the embodiments shown in the drawings.

Referring to fig. 1, an intelligent water dispenser control system comprises a water dispenser assembly 1, a control module 2, an information acquisition module 3, a display module 4 for starting a water dispenser system and setting the water outlet temperature of the water dispenser system, and a power supply module 5 for supplying power to the control system; the water dispenser assembly 1 comprises a box body 1.1, a hot water tank 1.2, a cold water tank 1.3, a water taking tank 1.4, a heating device 1.5 arranged in the hot water tank 1.2 and a cooling device 1.6 arranged in the cold water tank 1.3, wherein the hot water tank 1.2, the cold water tank 1.3 and the water taking tank 1.4 are all arranged in the box body 1.1, the water taking tank 1.4 is connected to the hot water tank 1.2 through a hot water pipeline 1.7 and is connected to the cold water tank 1.3 through a cold water pipeline 1.8, an outlet of the water taking tank 1.4 is provided with a water taking port, the water taking port is provided with an electromagnetic valve 1.10 for taking water, and the electromagnetic valve 1.10 is electrically connected to the control module 2; usually, the intake is provided with an arc pipeline structure, and an electromagnetic valve 1.10 is installed in the arc pipeline to control the on-off of the water flow of the intake.

In the embodiment shown in the drawings, a distance sensor 1.11 is arranged at the water intake, the distance sensor 1.11 can be selected from GP2D120X of Sharpu, and the distance sensor 1.11 is electrically connected with an electromagnetic valve 1.10 and used for closing the electromagnetic valve 1.10 after water is taken from the water taking device; namely, the distance between the water intake liquid level and the water intake port in the water intake device is controlled to reach the measuring threshold value of the distance sensor 1.11, the distance sensor 1.11 acts to cut off the electric connection between the electromagnetic valve 1.10 and the control module 2, the electromagnetic valve 1.10 is directly closed, and then the water intake port is closed, and the water intake action of a user is completed.

As shown in fig. 2, the information acquisition module 3 includes sensors disposed in the water dispenser assembly 1, including a first liquid level sensor 3.1 and a first temperature sensor 3.4 disposed in the hot water tank 1.2, and the first liquid level sensor 3.1 and the first temperature sensor 3.4 are used for detecting the hot water level and the hot water temperature in the hot water tank 1.2; the second liquid level sensor 3.2 and the second temperature sensor 3.5 are arranged in the cold water tank 1.3, and the second liquid level sensor 3.2 and the second temperature sensor 3.5 are used for detecting the water level and the cold water temperature in the cold water tank 1.3; the third liquid level sensor 3.3 and the third temperature sensor 3.6 are arranged in the water taking tank 1.4, and the third liquid level sensor 3.3 and the third temperature sensor 3.6 are used for detecting the water level to be taken and the temperature to be taken in the water taking tank 1.4; wherein the model of the liquid level sensor is UGN-3040, and the model of the temperature sensor is PT 100.

With further reference to the embodiment shown in fig. 2, the information collecting module 3 further comprises a first water flow sensor 3.7 and a second water flow sensor 3.8, the water flow sensor is generally YF-21-6; the first water flow sensor 3.7 is arranged on the hot water pipeline 1.7, and the second water flow sensor 3.8 is arranged on the cold water pipeline 1.8 and is respectively used for measuring and adjusting the water flow of the hot water pipeline 1.7 and the water flow of the cold water pipeline 1.8; the information acquisition module 3 acquires water level, temperature and water flow information of each water tank in the water dispenser assembly 1 through each set liquid level, temperature and flow sensor, and sends the signals to the control module 2, and the control module 2 further performs analog computation analysis on the data of the information acquisition module 3 to control and adjust the water outlet temperature of the water dispenser system to the desired drinking water temperature set by the user.

As shown in fig. 3, the display module 4 of the intelligent water dispenser control system of the present invention is connected to the control module 2 and the information acquisition module 3, respectively, and includes a touch display screen 4.1, a card reading device 4.2 and a temperature setting unit 4.3; the touch display screen 4.1 is used for displaying a two-dimensional code for starting the water dispenser system and the readings of the temperature sensors in the information acquisition module 3, the card reading device 4.2 is used for identifying a core card for starting the water dispenser system, and the temperature setting unit 4.3 is used for setting the temperature of drinking water taken by a user; the control module 2 comprises a singlechip 2.1, a signal converter 2.2 and a temperature comparison unit 2.3, wherein the singlechip 2.1 selects STC11F 02; the temperature comparison unit 2.3 is used for comparing the temperature of the taken water set by the temperature setting unit 4.3 with the sensing temperature of the third temperature sensor 3.6 in the water taking tank 1.4, generating an electric signal according to a comparison result and sending the electric signal to the signal converter 2.2, the signal converter 2.2 receives the electric signal sent by the temperature comparison unit 2.3 and outputs a signal which can be identified by the single chip microcomputer 2.1, the single chip microcomputer 2.1 receives an output signal of the signal converter 2.2 and performs calculation processing, and outputs a control signal for adjusting the numerical values of the first water flow sensor 3.7 and the second water flow sensor 3.8 to the first water flow sensor 3.7 and the second water flow sensor 3.8, and the first water flow sensor 3.7 and the second water flow sensor 3.8 start to adjust the water flow in the hot water pipeline 1.7 and the cold water pipeline 1.8 after receiving the control signal, so as to achieve the purpose of adjusting the temperature of the water to.

In the embodiment shown in the attached drawings, after the water dispenser system is started, the control module 2 controls and adjusts the values of the first water flow sensor 3.7 and the second water flow sensor 3.8 according to the indication number of each temperature sensor in the information acquisition module 3 and the temperature set by the temperature setting unit 4.3, and controls the electromagnetic valve 1.10 to open water outlet when the temperature set by the temperature setting unit 4.3 is equal to the sensing temperature of the third temperature sensor 3.6, so that a user starts to take water.

In some embodiments, because the water storage amounts in the hot water tank 1.2, the cold water tank 1.3 and the water taking tank 1.4 are gradually increased, the hot water tank 1.2, the cold water tank 1.3 and the water taking tank 1.4 are respectively provided with a water outlet pipeline which is respectively connected to a water inlet pipeline 1.9 for delivering water to the water dispenser system, and the water outlet pipelines are respectively provided with a pulse electromagnetic valve, the three pulse electromagnetic valves are respectively and correspondingly connected to the first liquid level sensor 3.1, the second liquid level sensor 3.2 and the third liquid level sensor 3.3, namely when any liquid level of the water storage amounts in the hot water tank 1.2, the cold water tank 1.3 and the water taking tank 1.4 exceeds the induction value of the corresponding liquid level sensors, the control module 2 controls to open the pulse electromagnetic valves, so that the surplus water storage amount is circulated to the water inlet pipeline 1.9 of the water dispenser system, and the water of the integral water dispenser system is recycled; in order to reduce the impurities such as macromolecular aggregation, scaling and the like caused by repeated heating of drinking water in the water dispenser system, a water purifying device 11 is arranged between the water outlet of the water inlet pipeline 1.9 and the water dispenser system, the water purifying device 11 is used for purifying circulating water, and the water purifying device 11 can adopt a filtering carbon core which is used for filtering and adsorbing the circulating water flowing out of the water inlet pipeline 1.9.

In actual life, a part of water dispensers installed in a specific place have a charge rule when supplying drinking water, for example, the water dispensers in a campus can use a water card to take water and deduct fees; therefore, in some embodiments, the intelligent water dispenser control system further comprises a water fee payment module 6, wherein the water fee payment module 6 comprises a core card automatic fee deduction unit and a two-dimensional code identification payment unit; the automatic core card fee deducting unit is arranged in the card reading device 4.2, is in communication connection with a core card management center and is used for automatically deducting water fee from the balance of the core card after the electromagnetic valve 1.10 is closed; the two-dimensional code recognition payment unit is connected to a payment module of the mobile terminal by adopting a wireless network and is used for automatically deducting water fee from the payment module of the mobile terminal after the electromagnetic valve 1.10 is closed; this design mainly considers that external personnel can't use the campus card to carry out the water intaking operation, and the poor problem of current water dispenser system convenience effectively improves intelligent water dispenser control system's user scope and practicality. In order to further enhance and improve the commercial value of the intelligent water dispenser control system, a video module 10 is further arranged and stored in the intelligent water dispenser control system, the video module 10 is connected to the control module 3 and the touch display screen 4.1, and videos in the video module 10 can be advertisements or consultations and are used for being played on the touch display screen 4.1 in a circulating mode when the water dispenser system is not started by the two-dimensional code or the core card, so that an advertising effect is added to the water dispenser system.

In some embodiments, the intelligent water dispenser control system further comprises a timing module 7, the timing module 7 is connected to the power module 5, and the power module 5 supplies power to the water dispenser system only in a time region set by the timing module 7, so that the power consumption of the water dispenser system is reduced; in other embodiments, the intelligent water dispenser control system is further provided with a remote control module 8 respectively connected to the timing module 7 and the power module 5, and the remote control module 8 is connected to the timing module 7 and the power module 5 by a wireless communication module 9 and is used for setting a timing interval of the timing module 7 in a remote operation manner to realize remote control of timing work of the water dispenser system; the wireless communication module 9 may be one of a 4G network, bluetooth, and WIFI.

For solving the problem that the personnel of coming in particular place can't take specific temperature drinking water among the prior art, the utility model discloses still provide a water dispenser, foretell intelligent water dispenser control system is installed to this water dispenser, effectively solves particular place, like school and hotel etc. makes the user directly acquire the drinking water that the temperature can the accurate regulation to this water dispenser can also propagate advertisement or consultation, reaches efficient propaganda effect.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention. The present invention is intended to cover by those skilled in the art various modifications and adaptations of the invention without departing from the spirit and scope of the invention. Therefore, the protection scope of the present invention is subject to the claims.

Claims (10)

1. An intelligent water dispenser control system is characterized by comprising a water dispenser assembly, a control module, an information acquisition module, a display module and a power supply module for supplying power to the control system;

the water dispenser assembly comprises a box body, a hot water tank, a cold water tank, a water taking tank and a heating device arranged in the hot water tank, wherein the hot water tank, the cold water tank and the water taking tank are all arranged in the box body; the water taking tank is connected with the hot water tank by adopting a hot water pipeline and connected with the cold water tank by adopting a cold water pipeline, the outlet of the water taking tank is arranged as a water taking opening, and the water taking opening is provided with an electromagnetic valve for taking water;

the information acquisition module is connected with the control module and comprises a first liquid level sensor, a second liquid level sensor, a third liquid level sensor, a first temperature sensor, a second temperature sensor, a third temperature sensor, a first water flow sensor and a second water flow sensor; the first liquid level sensor and the first temperature sensor are both arranged in the hot water tank and are used for detecting the hot water level and the hot water temperature in the hot water tank; the second liquid level sensor and the second temperature sensor are both arranged in the cold water tank and are used for detecting the cold water level and the cold water temperature in the cold water tank; the third liquid level sensor and the third temperature sensor are arranged in the water taking tank and are used for detecting the water level to be taken and the temperature to be taken in the water taking tank; the first water flow sensor is arranged on the hot water pipeline, and the second water flow sensor is arranged on the cold water pipeline and is respectively used for detecting the water flow of the hot water pipeline and the water flow of the cold water pipeline;

the display module is respectively connected with the control module and the information acquisition module and comprises a touch display screen, a card reading device and a temperature setting unit; the touch display screen is used for displaying a two-dimensional code for starting the water dispenser system and the readings of the temperature sensors in the information acquisition module, the card reading device is used for reading a core card for starting the water dispenser system, and the temperature setting unit is used for setting the temperature of the water for taking;

the control module is used for controlling and adjusting the numerical values of the first water flow sensor and the second water flow sensor according to the indication number of each temperature sensor in the information acquisition module and the temperature set by the temperature setting unit after the water dispenser system is started, and controlling the electromagnetic valve to open water when the temperature set by the temperature setting unit is equal to the sensing temperature of the third temperature sensor.

2. The intelligent water dispenser control system according to claim 1, wherein the control module comprises a single chip microcomputer, a signal converter and a temperature comparison unit, the temperature comparison unit is used for comparing the temperature of the water taken by the temperature setting unit with the sensing temperature of a third temperature sensor in the water taking tank, generating an electric signal according to the comparison result and sending the electric signal to the signal converter, the signal converter receives the electric signal sent by the temperature comparison unit and outputs a signal which can be identified by the single chip microcomputer, the single chip microcomputer receives the output signal of the signal converter and performs calculation processing, and outputs a control signal for adjusting the numerical values of the first water flow sensor and the second water flow sensor to the first water flow sensor and the second water flow sensor;

defining the temperature of the taken water set by the temperature setting unit as T1, and the sensing temperature of a third temperature sensor in the water taking tank as T2; when T1 is larger than T2, the single chip microcomputer controls and adjusts the value of the second water flow sensor to be zero, and the value of the first water flow sensor is increased; when T1 is less than T2, the single chip microcomputer controls and adjusts the value of the first water flow sensor to be zero, and the value of the second water flow sensor is increased; when T1 is equal to T2, the values of the first water flow sensor and the second water flow sensor are controlled by the single chip microcomputer to be kept unchanged.

3. The intelligent water dispenser control system according to claim 1, wherein the water intake is provided with a distance sensor electrically connected to the solenoid valve for closing the solenoid valve when water is taken from the water intake device.

4. The intelligent water dispenser control system of claim 3, further comprising a water fee payment module connected to the control module, the water fee payment module comprising a core card automatic fee deduction unit and a two-dimensional code recognition payment unit; the automatic core card fee deducting unit is arranged in the card reading device and is in communication connection with the core card management center and used for automatically deducting water fee from the balance of the core card after the electromagnetic valve is closed; the two-dimension code recognition payment unit is connected to a payment module of the mobile terminal through a wireless network and used for automatically deducting water fees from the payment module of the mobile terminal after the electromagnetic valve is closed.

5. The intelligent water dispenser control system of claim 1, further comprising a timing module connected to the power module for controlling the operating time of the power module.

6. The intelligent water dispenser control system according to claim 1, wherein the hot water tank, the cold water tank and the water taking tank are respectively provided with water outlet pipes, the water outlet pipes are respectively provided with three pulse electromagnetic valves, and the three pulse electromagnetic valves are respectively correspondingly connected to the first liquid level sensor, the second liquid level sensor and the third liquid level sensor; the water outlet pipelines are respectively connected with a water inlet pipeline for delivering water to the water dispenser system, and a water purifying device is arranged between the water outlet of the water inlet pipeline and the water dispenser system.

7. The intelligent water dispenser control system of claim 1, further comprising a video module connected to the control module and the touch display screen for playing cyclically on the touch display screen when the water dispenser system is not activated.

8. The intelligent water dispenser control system according to claim 2, wherein a temperature reduction device is disposed in the water intake box, the temperature reduction device is electrically connected to the control module, and comprises a stirring unit disposed at the bottom of the water intake box and a heat dissipation unit disposed at the top of the water intake box, and is used for accelerating the temperature reduction of water to be taken in the water intake box to T1 when T1 < T2.

9. The intelligent water dispenser control system according to claim 5, further comprising a remote control module and a wireless communication module, wherein the remote control module is connected to the timing module and the power module respectively by using the wireless communication module.

10. The water dispenser is characterized by comprising the intelligent water dispenser control system as claimed in any one of claims 1 to 9.

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