CN111671303A - Water dispenser control system, control method and water dispenser - Google Patents

Abstract

The invention provides a water dispenser control system, a control method and a water dispenser. The water dispenser control system comprises a power supply module, a water quality acquisition module, a temperature setting module, a wireless transmission module and a main control module; the power supply module is respectively and electrically connected with the water quality acquisition module, the temperature setting module, the wireless transmission module and the main control module; the water quality acquisition module is used for acquiring water quality information of barreled water in the water dispenser; the temperature setting module is used for setting the operating temperature of the water dispenser; the main control module is used for receiving the control instruction sent by the mobile terminal and sending the control instruction to the water quality acquisition module; the water quality acquisition module is used for acquiring water quality information of the water quality; when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module controls the power supply module to supply power to the temperature setting module. The scheme of the invention can realize the detection of the quality of the barreled water in the water dispenser.

Description

Water dispenser control system, control method and water dispenser

Technical Field

The invention relates to the technical field of intelligent home furnishing, in particular to a water dispenser control system, a control method and a water dispenser.

Background

The water dispenser is an electrical appliance widely used by families, and is mainly used for providing convenience for daily drinking water of the families, providing hot water for heating in winter and providing cold water for cooling and quenching thirst in summer, and is an indispensable electrical appliance for each family. However, with the continuous improvement of life quality, people pay more attention to health, and the functions of the traditional water dispenser do not meet the requirements of people.

In the prior art, people usually insert barreled water into a smart seat of a water dispenser, and the barreled water can be replaced by new barreled water after the barreled water is completely drunk. In the process of implementing the technical scheme of the invention, the inventor at least finds that the following technical problems exist in the prior art:

when the drinking water amount of a user is small or the user goes out on a business trip, the consumption amount of the barreled water in the water dispenser is small, the barreled water is in a sealing state for a long time, bacteria are easy to breed, and the water quality is deteriorated. In the real life, the user often can not discover in time that quality of water is bad, continues to drink rotten bottled water, will harm people's health. Alternatively, the user is not relieved of the quality of the bottled water purchased from the water station and wishes to detect the quality of the water more comprehensively before drinking.

The patent with publication number CN107168407A discloses a method and device for controlling the outlet water temperature of an intelligent water dispenser, mainly disclosing that a face image is collected by a camera, target face information matched with the collected face image is selected from a prestored face information base, and water temperature control information corresponding to the target face information is obtained, the water temperature control information is used for controlling the outlet water temperature of the intelligent water dispenser, and the outlet water of the water dispenser is controlled according to the water temperature control information, without the need of manually selecting the outlet water temperature by a user. This technical scheme not only increases to some extent on manufacturing cost, and user experience is not good moreover, because the rate of identification can not guarantee, leads to the user to get the water time at every turn and increases, also can not realize carrying out the purpose that detects to the quality of water of bottled water simultaneously.

In conclusion, the water dispenser in the prior art cannot achieve the purpose of detecting the quality of the barreled water.

Disclosure of Invention

The embodiment of the invention provides a water dispenser control system, a control method and a water dispenser, which can realize detection of the water quality of barreled water in the water dispenser.

In a first aspect, an embodiment of the present invention provides a water dispenser control system, including: the water quality monitoring system comprises a power supply module, a water quality acquisition module, a temperature setting module, a wireless transmission module and a main control module;

the power supply module is respectively and electrically connected with the water quality acquisition module, the temperature setting module, the wireless transmission module and the main control module;

the main control module is respectively and electrically connected with the water quality acquisition module, the temperature setting module and the wireless transmission module;

the water quality acquisition module is used for acquiring water quality information of barreled water in the water dispenser;

the temperature setting module is used for setting the operating temperature of the water dispenser;

the wireless transmission module is used for enabling the mobile terminal and the main control module to carry out data interaction;

the main control module is used for receiving a control instruction sent by the mobile terminal and sending the control instruction to the water quality acquisition module; and

the water quality monitoring system is used for receiving the water quality information acquired by the water quality acquisition module and sending the water quality information to the mobile terminal;

when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module controls the power supply module to supply power to the temperature setting module.

In one possible design, the water quality collection module comprises: a total dissolved solids detector, a water hardness detector, a heavy metal content detector, and a pH detector;

the total soluble solid content detector, the water hardness detector, the heavy metal content detector and the pH value detector are all arranged at the water inlet of the water dispenser.

In one possible design, further comprising: a pressure sensor;

the pressure sensor is electrically connected with the power supply module and the main control module respectively;

the pressure sensor is used for collecting weight information of barreled water arranged on the water dispenser and sending the weight information to the main control module;

when the weight information acquired by the pressure sensor is greater than a first set threshold value, the main control module controls the power supply module to supply power to the water quality acquisition module so that the water quality acquisition module acquires the water quality information in the water dispenser;

and when the weight information acquired by the pressure sensor is smaller than a second set threshold value, the main control module sends a water ordering request to the mobile terminal through the wireless transmission module.

In one possible design, further comprising: a temperature sensor;

the temperature sensor is electrically connected with the power supply module and the main control module respectively;

the temperature sensor is used for collecting water temperature information in the water dispenser and sending the water temperature information to the main control module;

when the temperature difference between the water temperature information collected by the temperature sensor and the operating temperature set by the temperature setting module is larger than the set temperature difference, the main control module controls the power supply module to supply power to the temperature setting module so that the temperature setting module works.

In one possible design, further comprising: a display module;

the display module is electrically connected with the power supply module and the main control module respectively;

and the display module is used for receiving the control instruction sent by the main control module and displaying the real-time information of the water dispenser according to the control instruction.

In one possible design, the temperature setting module includes: a heating module and a refrigerating module;

when the heating module works, the water dispenser has a tea making mode, a coffee mode, a milk powder mode and a milk tea mode.

In one possible design, the wireless transmission module includes: WIFI module, bluetooth module, 4G module, 3G module, zigBee module.

In a second aspect, an embodiment of the present invention provides a water dispenser control method based on the water dispenser control system, including:

the mobile terminal sends a control instruction to the main control module through the wireless transmission module;

the main control module sends the control instruction to the water quality acquisition module,

the water quality acquisition module executes the control instruction and sends acquired water quality information of barreled water in the water dispenser to the main control module;

the main control module sends the water quality information to the mobile terminal through the wireless transmission module;

when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module controls the power supply module to supply power to the temperature setting module.

In a possible design, before the main control module sends the water quality information to the mobile terminal through the wireless transmission module, the method further includes:

collecting weight information of barreled water arranged on the water dispenser by using a pressure sensor, and sending the weight information to the main control module;

when the weight information acquired by the pressure sensor is larger than a first set threshold value, the main control module controls the power supply module to supply power to the water quality acquisition module, so that the water quality acquisition module acquires the water quality information in the water dispenser.

In a possible design, after the collecting, by the pressure sensor, weight information of the barreled water disposed on the water dispenser and sending the weight information to the main control module, the method further includes:

and when the weight information acquired by the pressure sensor is smaller than a second set threshold value, the main control module sends a water ordering request to the mobile terminal through the wireless transmission module.

In a third aspect, the embodiment of the invention provides a water dispenser, which comprises the water dispenser control system.

According to the scheme, the water quality information of barreled water in the water dispenser is acquired by the water quality acquisition module, the water quality information acquired by the water quality acquisition module can be sent to the mobile terminal through the main control module, when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module controls the power supply module to supply power to the temperature setting module, so that the water quality in the water dispenser can be accurately detected, the temperature setting module can be powered only when the water quality is qualified, otherwise the temperature setting module cannot be powered, the situation that water is still heated when the water quality is unqualified can be avoided, and electric energy is further saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of a dispenser control system according to an embodiment of the present invention;

FIG. 2 is a schematic view of a dispenser control system according to another embodiment of the present invention;

fig. 3 is a flowchart of a control method of a water dispenser according to an embodiment of the present invention;

fig. 4 is a flowchart of a control method of a water dispenser according to another embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

FIG. 1 is a schematic diagram of a dispenser control system according to an embodiment of the present invention. As shown in fig. 1, an embodiment of the present invention provides a control system for a water dispenser, which may include: the system comprises a power supply module 101, a water quality acquisition module 102, a temperature setting module 103, a wireless transmission module 104 and a main control module 105;

the power supply module 101 is respectively electrically connected with the water quality acquisition module 102, the temperature setting module 103, the wireless transmission module 104 and the main control module 105;

the main control module 105 is respectively electrically connected with the water quality acquisition module 102, the temperature setting module 103 and the wireless transmission module 104;

the water quality acquisition module 102 is used for detecting the water quality in the water dispenser;

the temperature setting module 103 is used for setting the operating temperature of the water dispenser;

a wireless transmission module 104, configured to enable the mobile terminal to perform data interaction with the main control module 105;

the main control module 105 is used for receiving a control instruction sent by the mobile terminal and sending the control instruction to the water quality acquisition module 102; and

the water quality monitoring system is used for receiving the water quality information sent by the water quality acquisition module 102 and sending the water quality information to the mobile terminal;

when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module 105 controls the power supply module 101 to supply power to the temperature setting module 103.

In the embodiment of the invention, the water quality information of the barreled water in the water dispenser is acquired by using the water quality acquisition module 102, the water quality information acquired by the water quality acquisition module 102 can be sent to the mobile terminal through the main control module 105, when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module 105 controls the power supply module 101 to supply power to the temperature setting module 103, so that the water quality in the water dispenser can be accurately detected, the temperature setting module 103 can supply power only when the water quality is qualified, otherwise the temperature setting module 103 cannot supply power, the situation that the water is still heated when the water quality is unqualified can be avoided, and the electric energy is further saved.

It should be noted that the mobile terminal stores standard water quality information, and after the water quality acquisition module 102 sends the acquired water quality information to the mobile terminal, the mobile terminal can determine whether the water quality information matches the standard water quality information, and generate a determination result. When the water quality information is within the standard water quality information range, the water quality information is matched with the standard water quality information, and further the water quality (namely the water quality of the barreled water) in the water dispenser reaches the standard water quality, at the moment, the mobile terminal can send the judgment result to the main control module 105, so that the main control module 105 controls the power supply module 101 to supply power to the temperature setting module 103, and further, the operations of heating or refrigerating water and the like can be realized. And when the water quality information is not in the range of the standard water quality information, the water quality information is not matched with the standard water quality information, and further the water quality in the water dispenser is not up to the standard water quality, at the moment, the mobile terminal can send the judgment result to the main control module 105, so that the main control module 105 controls the power supply module 101 not to supply power to the temperature setting module 103, the situation that water is still heated when the water quality is unqualified can be avoided, and the electric energy is further saved.

It should be noted that, in the embodiment of the present invention, the main control module 105 may be implemented by a microprocessor, a single chip, or a programmable logic controller, and the present invention is not limited to the specific implementation manner.

It can be understood that the water dispenser can be a desktop water dispenser, a vertical water dispenser, a compressor type water dispenser, a semiconductor water dispenser and the like, and the description is not exhaustive.

In one embodiment of the present invention, the water quality collection module 102 includes: a total dissolved solids detector, a water hardness detector, a heavy metal content detector, and a pH detector;

the total soluble solid content detector, the water hardness detector, the heavy metal content detector and the pH value detector are all arranged at the water inlet of the water dispenser.

In the present example, the total dissolved solids, i.e., total dissolved solids, in milligrams per liter (mg/L) of water in a keg, can be obtained by a total dissolved solids detector, indicating how many milligrams of dissolved solids are in 1 liter of water in a keg. The higher the value, the more impurities contained in the water; lower values indicate less impurities in the water.

In the present example, the ability of calcium and magnesium ions in the water drum to precipitate soap hydration liquid was obtained by a water hardness detector, and measured in milligrams per liter (mg/L), indicating how many milligrams of calcium oxide are present in 1 liter of water drum. The higher the value, the more the calcium oxide content in the water; lower values indicate lower calcium oxide content in the water.

In the embodiment of the invention, the contents of copper, chromium, nickel, manganese, iron, arsenic, lead, cadmium and zinc in barreled water can be obtained by a heavy metal content detector, and the measurement unit is milligram/liter (mg/L), which shows that 1 liter of barreled water contains milligram of heavy metals. The higher the value, the more heavy metal content in the water; lower values indicate less heavy metal content in the water.

In the embodiment of the invention, the pH value of the barreled water can be obtained through the pH value detector, and when the pH value is less than 7, the barreled water is relatively acidic; when the pH value is equal to 7, the barreled water is neutral; when the pH value is more than 7, the barreled water is alkaline. Further, in the embodiment of the present invention, if the data range detected by the pH detector is less than 6.5 or greater than 8.5, it indicates that the bottled water is not easy to drink currently; if the data range detected by the pH value detector is between 6.5 and 8.5, the barreled water is suitable for drinking. In order to increase the experience of the user, a display icon related to the pH value detection value can be set on a program interface of the mobile terminal, for example, when the data range detected by the pH value detector is less than 6.5 or more than 8.5, the icon is displayed as an orange icon or an orange icon is lightened; when the data detected by the pH value detector is in the range of 6.5-8.5, the icon is displayed as green or the green icon is lightened.

In other embodiments of the present invention, the water quality acquisition module 102 may further include a mineral element detector, and the mineral element detector may be used to know whether the barreled water contains mineral elements, wherein the mineral elements include, but are not limited to, calcium, magnesium, potassium, sodium, and the like. It can be known that the water quality information collected by the water quality collecting module 102 may include mineral element information, but the standard water quality information does not include standard mineral element information, because the mineral element information does not belong to a factor for determining whether the water quality is standard.

FIG. 2 is a schematic diagram of a dispenser control system according to another embodiment of the present invention. As shown in fig. 2, the water dispenser control system further includes: a pressure sensor 106;

the pressure sensor 106 is electrically connected with the power module 101 and the main control module 105 respectively;

the pressure sensor 106 is used for collecting the weight information of the barreled water arranged on the water dispenser and sending the weight information to the main control module 105;

when the weight information acquired by the pressure sensor 106 is greater than a first set threshold, the main control module 105 controls the power module 101 to supply power to the water quality acquisition module 102, so that the water quality acquisition module 102 acquires the water quality information in the water dispenser;

when the weight information collected by the pressure sensor 106 is less than a second set threshold, the main control module 105 sends a water ordering request to the mobile terminal through the wireless transmission module 104.

It should be noted that the control instruction for triggering the water quality acquisition module 102 to perform the acquisition operation may be sent by the mobile terminal as mentioned in the above scheme, or may be sent by the main control module 105. Compared with the two ways of triggering the water quality acquisition module 102 to perform the acquisition work, the two ways of triggering the water quality acquisition module 102 to perform the acquisition work can prolong the service life of the water quality acquisition module 102 and better meet the daily living habits of users (i.e., the water quality acquisition module 102 does not need to work in real time).

In the embodiment of the present invention, when the control instruction is sent by the main control module 105, the determination condition that the weight information collected by the pressure sensor 106 is greater than the first set threshold may be used for triggering. For example, the first set threshold may be a first set percentage of the weight of the barreled water for a household standard model (e.g., 18L) water dispenser when the barreled water is not opened, where the first set percentage may be 80% to 90%, and when the weight information acquired by the pressure sensor 106 is greater than the first set threshold, it may be determined that the barreled water is just installed on the water dispenser at this time, and at this time, the pressure sensor 106 triggers the main control module 105 to send a control instruction to the water quality acquisition module 102, so that the water quality acquisition module 102 acquires the water quality information in the water dispenser.

In addition, when the weight information collected by the pressure sensor 106 is less than a second set threshold, the main control module 105 sends a water ordering request to the mobile terminal through the wireless transmission module 104. For example, the second set threshold may be a second set percentage of the weight of the unopened barreled water for a household standard model (e.g., 18L) water dispenser, where the second set percentage may be 1% to 5%, and when the weight information collected by the pressure sensor 106 is smaller than the second set threshold, it may be determined that the remaining amount of the barreled water is insufficient at this time, and at this time, the pressure sensor 106 triggers the main control module 105 to send a water ordering request to the mobile terminal, so that the user can make a call for ordering water according to the water ordering request.

Of course, the wireless transmission module 104 and the mobile terminal can also be in communication connection through a server, so that remote control of the water dispenser control system can be realized. Moreover, when the weight information collected by the pressure sensor 106 is smaller than the second set threshold, the pressure sensor 106 may also trigger the main control module 105 to directly send a water ordering request to the server, and the server directly orders water according to a water ordering telephone stored in the server in advance. In addition, the control authority can be shared to family members through the mobile terminal so as to share the control authority.

In one embodiment of the present invention, the wireless transmission module 104 includes: WIFI module, bluetooth module, 4G module, 3G module, zigBee module to adapt to different network environment. For example, in an environment with a WIFI network, a WIFI module may be used to save mobile communication traffic cost; when no WIFI network exists, the 4G communication module can be adopted in the range covered by the 4G network, so that better communication efficiency is ensured.

Referring to fig. 2, the control system of the water dispenser further includes: a temperature sensor 107;

the temperature sensor 107 is electrically connected with the power module 101 and the main control module 105 respectively;

the temperature sensor 107 is used for collecting water temperature information in the water dispenser and sending the water temperature information to the main control module 105;

when the temperature difference between the water temperature information collected by the temperature sensor 107 and the operating temperature set by the temperature setting module 103 is greater than the set temperature difference, the main control module 105 controls the power supply module 101 to supply power to the temperature setting module 103, so that the temperature setting module 103 operates.

In the embodiment of the invention, the temperature of the water in the water dispenser can be known in real time by arranging the temperature sensor 107, for example, when the set operating temperature is 50 ℃, the heating module stops working when the temperature of the water in the water dispenser reaches 50 ℃, the temperature is gradually reduced at the moment, and when the reduced temperature difference is greater than the set temperature difference (for example, 5 ℃), the main control module 105 controls the heating module to work again, so that the current water temperature is basically maintained at about 50 ℃.

Referring to fig. 2, the control system of the water dispenser further includes: a display module 108;

the display module 108 is electrically connected with the power module 101 and the main control module 105 respectively;

and the display module 108 is used for receiving the control instruction sent by the main control module 105 and displaying the real-time information of the water dispenser according to the control instruction.

In the embodiment of the present invention, the display module 108 may be composed of a power indicator, a wireless connection indicator, a real-time temperature display, an automatic water-ordering indicator, and the like. Therefore, the user can check the working state and the water ordering state of the existing water dispenser in real time, and timely find and solve the problems.

In one embodiment of the present invention, the temperature setting module 103 includes: a heating module and a refrigerating module;

when the heating module works, the water dispenser has a tea making mode, a coffee mode, a milk powder mode and a milk tea mode.

Wherein, the heating module can be a heater, and the refrigerating module can be a refrigerator. The heating temperature range of the heating module can be 45-95 ℃, the refrigerating temperature range of the refrigerating module can be 5-15 ℃, and the precision of temperature setting can be accurate to 1 ℃. For example, when the setting mode is a tea making mode, the temperature is automatically heated to 80 ℃; when the setting mode is a coffee mode, the temperature can be automatically heated to 85 ℃; when the setting mode is a milk powder mode, the temperature can be automatically heated to 45 ℃; when the setting mode is the milk tea mode, the temperature can be automatically heated to 80 ℃.

It is to be understood that the illustrated structure of the embodiment of the present invention does not constitute a specific limitation to the control system of the water dispenser. In other embodiments of the present invention, the dispenser control system may include more or fewer components than shown, or some components may be combined, some components may be separated, or a different arrangement of components.

FIG. 3 is a flow chart of a method for controlling a drinking water dispenser according to an embodiment of the present invention. As shown in fig. 3, the water dispenser control method is applied to the water dispenser control system, and the water dispenser control method includes the following steps:

s1, the mobile terminal sends a control instruction to the main control module through the wireless transmission module;

s2, the main control module sends the control instruction to the water quality acquisition module;

s3, the water quality acquisition module executes the control instruction and sends the acquired water quality information in the water dispenser to the main control module;

s4, the main control module sends the water quality information to the mobile terminal through the wireless transmission module;

and S5, when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module controls the power supply module to supply power to the temperature setting module.

In the embodiment of the invention, the control method utilizes the water quality acquisition module to acquire the water quality information in the water dispenser, the water quality information acquired by the water quality acquisition module can be sent to the mobile terminal through the main control module, and when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module controls the power supply module to supply power to the temperature setting module, so that the water quality in the water dispenser can be accurately detected, the temperature setting module can be supplied with power only when the water quality is qualified, otherwise, the temperature setting module cannot be supplied with power, the situation that the water is still heated when the water quality is unqualified can be avoided, and the electric energy is further saved.

Based on the control method shown in fig. 3, in an embodiment of the present invention, before step S4, the method further includes:

collecting weight information of barreled water arranged on the water dispenser by using a pressure sensor, and sending the weight information to the main control module;

when the weight information acquired by the pressure sensor is larger than a first set threshold value, the main control module controls the power supply module to supply power to the water quality acquisition module, so that the water quality acquisition module acquires the water quality information in the water dispenser.

In the embodiment of the present invention, when the control instruction is sent by the main control module, the control instruction may be triggered by using a determination condition that the weight information collected by the pressure sensor is greater than the first set threshold. For example, the first set threshold may be a first set percentage of the weight of the barreled water for a domestic standard model (for example, 18L) water dispenser when the barreled water is not opened, where the first set percentage may be 80% to 90%, and when the weight information acquired by the pressure sensor is greater than the first set threshold, it may be determined that the barreled water is just installed on the water dispenser at this time, and at this time, the pressure sensor triggers the main control module to send a control instruction to the water quality acquisition module, so that the water quality acquisition module acquires the water quality information in the water dispenser.

Based on the control method shown in fig. 3, in an embodiment of the present invention, after the collecting, by the pressure sensor, weight information of the barreled water disposed on the water dispenser and sending the weight information to the main control module, the method further includes:

and when the weight information acquired by the pressure sensor is smaller than a second set threshold value, the main control module sends a water ordering request to the mobile terminal through the wireless transmission module.

In the embodiment of the invention, when the weight information acquired by the pressure sensor is less than a second set threshold, the main control module sends a water ordering request to the mobile terminal through the wireless transmission module. For example, the second set threshold may be a second set percentage of the weight of the unopened barreled water for a household standard model (e.g., 18L) water dispenser, where the second set percentage may be 1% to 5%, and when the weight information collected by the pressure sensor is less than the second set threshold, it may be determined that the remaining amount of the barreled water is insufficient at this time, and at this time, the pressure sensor triggers the main control module to send a water ordering request to the mobile terminal, so that the user can make a call for ordering water according to the water ordering request.

Fig. 4 is a flowchart of a control method of a water dispenser according to another embodiment of the present invention. As shown in fig. 4, another embodiment of the present invention further provides a control method of a water dispenser, wherein the detection method includes the following steps:

step 101, the mobile terminal sends a control instruction to the main control module through the wireless transmission module;

the control instructions include the type of water quality information to be collected by the water quality collection module, such as total dissolved solids content, water hardness, heavy metal content, and pH.

102, the main control module sends the control instruction to the water quality acquisition module;

103, the water quality acquisition module executes the control instruction and sends the acquired water quality information in the water dispenser to the main control module;

the water quality information includes total soluble solids content, water hardness, heavy metal content, pH, and the like. For example, total dissolved solids in the drum water can be obtained by a dissolved total solids content detector; for another example, the ability of calcium and magnesium ions in the barreled water to precipitate soap hydration liquid can be obtained through a water hardness detector; for another example, the contents of copper, chromium, nickel, manganese, iron, arsenic, lead, cadmium and zinc in the barreled water can be obtained by a heavy metal content detector; for another example, the pH of the water in the bucket can be known by a pH detector.

In steps 101 to 103, a control instruction for triggering the water quality acquisition module to perform acquisition work is sent through the mobile terminal.

104, collecting weight information of barreled water arranged on the water dispenser by using a pressure sensor, and sending the weight information to the main control module;

in step 104, the control instruction for triggering the water quality acquisition module to perform the acquisition operation is sent by the main control module, specifically, the weight information acquired by the pressure sensor is fed back to the main control module, and the weight information is sent after being triggered by the main control module.

105, when the weight information acquired by the pressure sensor is greater than a first set threshold value, the main control module controls the power supply module to supply power to the water quality acquisition module so that the water quality acquisition module acquires water quality information in the water dispenser;

for example, the first set threshold may be a first set percentage of the weight of the barreled water for a domestic standard model (for example, 18L) water dispenser when the barreled water is not opened, where the first set percentage may be 80% to 90%, and when the weight information acquired by the pressure sensor is greater than the first set threshold, it may be determined that the barreled water is just installed on the water dispenser at this time, and at this time, the pressure sensor triggers the main control module to send a control instruction to the water quality acquisition module, so that the water quality acquisition module acquires the water quality information in the water dispenser.

Step 106, the main control module sends the water quality information to the mobile terminal through the wireless transmission module;

step 107, when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module controls the power supply module to supply power to the temperature setting module;

the mobile terminal stores standard water quality information, and after the water quality acquisition module sends the acquired water quality information to the mobile terminal, the mobile terminal can judge whether the water quality information is matched with the standard water quality information or not and generate a judgment result. When the water quality information is within the range of the standard water quality information, the water quality information is matched with the standard water quality information, the water quality (namely the water quality of the barreled water) in the water dispenser reaches the standard water quality is further explained, at the moment, the mobile terminal can send the judgment result to the main control module, so that the main control module controls the power supply module to supply power to the temperature setting module, and further, the operations of heating or refrigerating water and the like can be realized.

Step 108, when the weight information collected by the pressure sensor is smaller than a second set threshold value, the main control module sends a water ordering request to the mobile terminal through the wireless transmission module;

for example, the second set threshold may be a second set percentage of the weight of the unopened barreled water for a household standard model (e.g., 18L) water dispenser, where the second set percentage may be 1% to 5%, and when the weight information collected by the pressure sensor is less than the second set threshold, it may be determined that the remaining amount of the barreled water is insufficient at this time, and at this time, the pressure sensor triggers the main control module to send a water ordering request to the mobile terminal, so that the user can make a call for ordering water according to the water ordering request.

The embodiment of the invention also provides a water dispenser, which comprises the water dispenser control system mentioned above and a shell (not shown in the figure) for accommodating the water dispenser control system. It can be known that the water dispenser and the water dispenser control system provided by the embodiment of the invention have the same beneficial effects based on the same inventive concept, and are not described herein again.

Embodiments of the present invention also provide a computer-readable medium storing instructions for causing a computer to perform a water dispenser control method as described herein. Specifically, a system or an apparatus equipped with a storage medium on which software program codes that realize the functions of any of the above-described embodiments are stored may be provided, and a computer (or a CPU or MPU) of the system or the apparatus is caused to read out and execute the program codes stored in the storage medium.

In this case, the program code itself read from the storage medium can realize the functions of any of the above-described embodiments, and thus the program code and the storage medium storing the program code constitute a part of the present invention.

Examples of the storage medium for supplying the program code include a floppy disk, a hard disk, a magneto-optical disk, an optical disk (e.g., CD-ROM, CD-R, CD-RW, DVD-ROM, DVD-RAM, DVD-RW, DVD + RW), a magnetic tape, a nonvolatile memory card, and a ROM. Alternatively, the program code may be downloaded from a server computer via a communications network.

Further, it should be clear that the functions of any one of the above-described embodiments may be implemented not only by executing the program code read out by the computer, but also by causing an operating system or the like operating on the computer to perform a part or all of the actual operations based on instructions of the program code.

Further, it is to be understood that the program code read out from the storage medium is written to a memory provided in an expansion board inserted into the computer or to a memory provided in an expansion unit connected to the computer, and then causes a CPU or the like mounted on the expansion board or the expansion unit to perform part or all of the actual operations based on instructions of the program code, thereby realizing the functions of any of the above-described embodiments.

In summary, the water dispenser control system, the control method and the water dispenser provided by the invention at least have the following beneficial effects:

1. in the embodiment of the invention, the water quality information in the water dispenser is acquired by using the water quality acquisition module, the water quality information acquired by the water quality acquisition module can be sent to the mobile terminal through the main control module, when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module controls the power supply module to supply power to the temperature setting module, so that the water quality in the water dispenser can be accurately detected, the temperature setting module can be powered when the water quality is qualified, otherwise, the temperature setting module cannot be powered, the situation that the water is still heated when the water quality is unqualified can be avoided, and the electric energy is further saved.

2. In the embodiment of the present invention, when the control instruction is sent by the main control module, the control instruction may be triggered by using a determination condition that the weight information collected by the pressure sensor is greater than the first set threshold. For example, the first set threshold may be a first set percentage of the weight of the barreled water for a domestic standard model (for example, 18L) water dispenser when the barreled water is not opened, where the first set percentage may be 80% to 90%, and when the weight information acquired by the pressure sensor is greater than the first set threshold, it may be determined that the barreled water is just installed on the water dispenser at this time, and at this time, the pressure sensor triggers the main control module to send a control instruction to the water quality acquisition module, so that the water quality acquisition module acquires the water quality information in the water dispenser.

3. In the embodiment of the invention, when the weight information acquired by the pressure sensor is less than a second set threshold, the main control module sends a water ordering request to the mobile terminal through the wireless transmission module. For example, the second set threshold may be a second set percentage of the weight of the unopened barreled water for a household standard model (e.g., 18L) water dispenser, where the second set percentage may be 1% to 5%, and when the weight information collected by the pressure sensor is less than the second set threshold, it may be determined that the remaining amount of the barreled water is insufficient at this time, and at this time, the pressure sensor triggers the main control module to send a water ordering request to the mobile terminal, so that the user can make a call for ordering water according to the water ordering request.

It should be noted that not all steps and modules in the above flows and system structure diagrams are necessary, and some steps or modules may be omitted according to actual needs. The execution order of the steps is not fixed and can be adjusted as required. The system structure described in the above embodiments may be a physical structure or a logical structure, that is, some modules may be implemented by the same physical entity, or some modules may be implemented by a plurality of physical entities, or some components in a plurality of independent devices may be implemented together.

In the above embodiments, the hardware unit may be implemented mechanically or electrically. For example, a hardware element may comprise permanently dedicated circuitry or logic (such as a dedicated processor, FPGA or ASIC) to perform the corresponding operations. The hardware elements may also comprise programmable logic or circuitry, such as a general purpose processor or other programmable processor, that may be temporarily configured by software to perform the corresponding operations. The specific implementation (mechanical, or dedicated permanent, or temporarily set) may be determined based on cost and time considerations.

While the invention has been shown and described in detail in the drawings and in the preferred embodiments, it is not intended to limit the invention to the embodiments disclosed, and it will be apparent to those skilled in the art that various combinations of the code auditing means in the various embodiments described above may be used to obtain further embodiments of the invention, which are also within the scope of the invention.

Claims (10)

1. The water dispenser control system is characterized by comprising: the water quality monitoring system comprises a power supply module, a water quality acquisition module, a temperature setting module, a wireless transmission module and a main control module;

the power supply module is respectively and electrically connected with the water quality acquisition module, the temperature setting module, the wireless transmission module and the main control module;

the main control module is respectively and electrically connected with the water quality acquisition module, the temperature setting module and the wireless transmission module;

the water quality acquisition module is used for acquiring water quality information of barreled water in the water dispenser;

the temperature setting module is used for setting the operating temperature of the water dispenser;

the wireless transmission module is used for enabling the mobile terminal and the main control module to carry out data interaction;

the main control module is used for receiving a control instruction sent by the mobile terminal and sending the control instruction to the water quality acquisition module; and

the water quality monitoring system is used for receiving the water quality information acquired by the water quality acquisition module and sending the water quality information to the mobile terminal;

when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module controls the power supply module to supply power to the temperature setting module.

2. The water dispenser control system of claim 1,

the water quality acquisition module comprises: a total dissolved solids detector, a water hardness detector, a heavy metal content detector, and a pH detector;

the total soluble solid content detector, the water hardness detector, the heavy metal content detector and the pH value detector are all arranged at the water inlet of the water dispenser.

3. The water dispenser control system of claim 1 further comprising: a pressure sensor;

the pressure sensor is electrically connected with the power supply module and the main control module respectively;

the pressure sensor is used for collecting weight information of barreled water arranged on the water dispenser and sending the weight information to the main control module;

when the weight information acquired by the pressure sensor is greater than a first set threshold value, the main control module controls the power supply module to supply power to the water quality acquisition module so that the water quality acquisition module acquires the water quality information in the water dispenser;

and when the weight information acquired by the pressure sensor is smaller than a second set threshold value, the main control module sends a water ordering request to the mobile terminal through the wireless transmission module.

4. The water dispenser control system of claim 1 further comprising: a temperature sensor;

the temperature sensor is electrically connected with the power supply module and the main control module respectively;

the temperature sensor is used for collecting water temperature information in the water dispenser and sending the water temperature information to the main control module;

when the temperature difference between the water temperature information collected by the temperature sensor and the operating temperature set by the temperature setting module is larger than the set temperature difference, the main control module controls the power supply module to supply power to the temperature setting module so that the temperature setting module works.

5. The water dispenser control system of claim 1 further comprising: a display module;

the display module is electrically connected with the power supply module and the main control module respectively;

and the display module is used for receiving the control instruction sent by the main control module and displaying the real-time information of the water dispenser according to the control instruction.

6. The water dispenser control system of any one of claims 1-5,

the temperature setting module includes: a heating module and a refrigerating module;

when the heating module works, the water dispenser has a tea making mode, a coffee mode, a milk powder mode and a milk tea mode.

7. The water dispenser control method based on the water dispenser control system according to any one of claims 1 to 6, characterized by comprising:

the mobile terminal sends a control instruction to the main control module through the wireless transmission module;

the main control module sends the control instruction to the water quality acquisition module;

the water quality acquisition module executes the control instruction and sends acquired water quality information of barreled water in the water dispenser to the main control module;

the main control module sends the water quality information to the mobile terminal through the wireless transmission module;

when the mobile terminal determines that the water quality in the water dispenser is qualified according to the water quality information, the main control module controls the power supply module to supply power to the temperature setting module.

8. The water dispenser control method according to claim 7, before the main control module sends the water quality information to the mobile terminal through the wireless transmission module, further comprising:

collecting weight information of barreled water arranged on the water dispenser by using a pressure sensor, and sending the weight information to the main control module;

when the weight information acquired by the pressure sensor is larger than a first set threshold value, the main control module controls the power supply module to supply power to the water quality acquisition module, so that the water quality acquisition module acquires the water quality information in the water dispenser.

9. The water dispenser control method of claim 8, wherein after the collecting weight information of the barreled water arranged on the water dispenser by the pressure sensor and sending the weight information to the main control module, the method further comprises:

and when the weight information acquired by the pressure sensor is smaller than a second set threshold value, the main control module sends a water ordering request to the mobile terminal through the wireless transmission module.

10. Water dispenser, characterized in that it comprises a water dispenser control system according to any one of claims 1-6.

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