CN116978378A - Ultra-pure water machine water taking system and method based on voice control and ultra-pure water machine - Google Patents

Abstract

The application provides an ultra-pure water machine water taking system and method based on voice control and an ultra-pure water machine, wherein the system comprises the following components: the voice training module is used for inputting a voice instruction set into the initial model for training to obtain a voice recognition model; the voice recognition module is used for inputting the monitored voice information into the voice recognition model for recognition to obtain a current wake-up instruction or a current water taking instruction; the connection establishment module is used for responding to the current wake-up instruction to control the ultra-pure water machine to be in a wake-up state and establishing man-machine connection; the detection module is used for controlling the ultra-pure water machine to carry out water quality detection based on the wake-up state; the water taking control module is used for responding to the current water taking instruction to control the water outlet or water cut-off of the ultra-pure water machine when the detection result is up to the standard; and the water intake management module is used for storing the water intake records so as to manage target water intake personnel according to the water intake records. The system not only improves the water taking experience of users, but also improves the management of the water taking system of the ultra-pure water machine.

Description

Ultra-pure water machine water taking system and method based on voice control and ultra-pure water machine

Technical Field

The application relates to the technical field of ultra-pure water machines, in particular to an ultra-pure water machine water taking system and method based on voice control and an ultra-pure water machine.

Background

The ultra-pure water machine adopts pretreatment, reverse osmosis technology, ultra-purification treatment, post-treatment and other methods to almost completely remove the conductive medium in the water and remove the undissociated colloid substances, gases and organic matters in the water to a very low degree. In scientific research and laboratory work, pure laboratory water is indispensable, and the purity and quality of the laboratory water are critical to the accuracy and reliability of scientific experiments, so that the selection of an ultrapure water machine meeting the laboratory water requirements is critical.

In the related art, the laboratory ultrapure water machine adopts programmable control to control the water production process, provides the water source of high purity, but present ultrapure water machine intelligent degree is still not enough, and the personnel of getting water all need more or less manual participation operation when getting water on the ultrapure water machine, if need manual button to carry out water intaking operation, can not liberate user's both hands completely for the personnel of getting water need wait near the ultrapure water machine when getting water, lead to the user to get water to experience poor, simultaneously, the ultrapure water machine lacks the record statistics to the personnel of getting water and the water intaking data that corresponds, is unfavorable for the water intaking management of ultrapure water machine.

Disclosure of Invention

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview, and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended as a prelude to the more detailed description that follows.

In view of the shortcomings of the prior art, the application discloses a water taking system and method of an ultrapure water machine based on voice control and the ultrapure water machine, which are used for solving the technical problems of poor water taking experience of users and imperfect water taking management of the ultrapure water machine in the related art.

In a first aspect, the present application provides a water intake system of an ultrapure water machine based on voice control, the system comprising: the voice training module is used for inputting a voice instruction set into the initial model for training to obtain a voice recognition model, wherein the voice instruction set comprises a historical wake-up instruction and a historical water taking instruction; the voice recognition module is used for inputting the monitored voice information into the voice recognition model for recognition to obtain a current wake-up instruction or a current water taking instruction; the connection establishment module is used for responding to the current wake-up instruction to control the ultrapure water machine to switch from a sleep state to a wake-up state and establishing man-machine connection between a target water taking person and the ultrapure water machine; the detection module is used for controlling the ultra-pure water machine to carry out water quality detection based on the awakening state; the water taking control module is used for responding to the current water taking instruction to control the ultra-pure water machine to discharge or stop water when the detection result is up to standard, wherein the current water taking instruction comprises a water taking starting instruction and a water taking stopping instruction, and the water taking starting instruction carries the water quality grade of the water taken; and the water intake management module is used for storing a water intake record so as to manage the target water intake personnel according to the water intake record, wherein the water intake record comprises the current wake-up instruction, the current water intake time, the current water intake duration, the current water intake quantity and the current water quality grade.

In an embodiment of the present application, the voice training module includes: the acquisition unit is used for acquiring the historical wake-up instruction and the historical water taking instruction from the water taking management module; and the training unit is used for extracting the awakening keywords in the historical awakening instructions, carrying out regression fit on the awakening keywords, inputting the awakening keywords into the initial model for training, extracting the water taking keywords in the historical water taking instructions, carrying out regression fit on the water taking keywords, inputting the water taking keywords into the initial model for training, and obtaining the voice recognition model.

In an embodiment of the present application, the system further includes a personnel management module, where the personnel management module includes: the information recording unit is used for recording voiceprint information of a target crowd to obtain water taking personnel information, and establishing the water taking personnel information base according to the water taking personnel information; the first management unit is used for managing the water taking personnel information base and comprises updating, adding and deleting of the water taking personnel information.

In an embodiment of the present application, the voice recognition module includes: the monitoring unit is used for monitoring the voice information, carrying out voiceprint recognition on the voice information and determining the target water taking personnel in the water taking personnel information base; the first recognition unit is used for recognizing wake-up keywords in the voice information based on the voice recognition model, obtaining the current wake-up instruction, and generating a wake-up operation instruction according to the current wake-up instruction, so that the connection establishment module responds to the wake-up operation instruction to control the ultrapure water machine to switch from a sleep state to a wake-up state; the second recognition unit is used for recognizing the water taking keywords in the voice information based on the voice recognition model, obtaining the current water taking instruction, and generating a water taking operation instruction according to the current water taking instruction, so that the water taking control module responds to the water taking operation instruction to control the ultra-pure water machine to outlet water or stop water, the water taking operation instruction comprises a water taking starting operation instruction and a water taking stopping operation instruction, and the water taking keywords comprise water quality grades.

In an embodiment of the application, the detection module includes: an instruction generating unit for generating a primary detection instruction based on the wake-up state; the self-circulation unit is used for responding to the primary detection instruction and starting an automatic circulation function of the ultra-pure water machine so as to perform primary self-circulation of water in a circulation cavity of the ultra-pure water machine; the water quality detection unit is used for detecting the water quality of the water after primary self-circulation, broadcasting the water quality to reach the standard when the detection result is up to the standard, and sending a secondary detection instruction to the detection control unit when the detection result is not up to the standard; the detection control unit is used for responding to the secondary detection instruction and controlling the self-circulation unit to perform secondary self-circulation until the detection result reaches the standard.

In an embodiment of the application, the water intake control module includes: the water outlet control unit is used for responding to the water quality grade in the water taking starting operation instruction and controlling the water outlet of the ultra-pure water machine; the water cut-off control unit is used for responding to the instruction of stopping water taking operation and the historical water taking amount or the historical water taking duration corresponding to the target water taking personnel to control the water cut-off of the ultra-pure water machine; the recording unit is used for recording the current water taking time, the current water taking amount and the current water quality level.

In an embodiment of the present application, the water intake management module includes: the acquisition unit is used for acquiring the current wake-up instruction, the current water taking time, the current water taking amount and the current water quality grade; the storage unit is used for carrying out associated storage on the current wake-up instruction, the current water taking time, the current water taking amount, the current water quality level and the target water taking personnel so as to update the water taking personnel information base; and the second management unit is used for forming the work log of the target water taking person according to the updated water taking person information base.

In an embodiment of the present application, the system further includes a shutdown module, where the shutdown module is configured to: if the current water taking instruction is not monitored within the preset time, the man-machine connection is disconnected, and the ultra-pure water machine is switched from the awakening state to the sleeping state; or monitoring a current sleep instruction, and responding to the current sleep instruction to disconnect the man-machine connection so as to switch the ultra-pure water machine from the awakening state to the sleep state.

In a second aspect, the present application provides a method for taking water from an ultrapure water machine based on voice control, using the ultrapure water machine water taking system based on voice control as described in the first aspect, the method comprising: inputting a voice instruction set into an initial model for training to obtain a voice recognition model, wherein the voice instruction set comprises a historical wake-up instruction and a historical water taking instruction; inputting the monitored voice information into the voice recognition model for recognition to obtain a current wake-up instruction or a current water taking instruction; responding to the current wake-up instruction to control the ultra-pure water machine to switch from a sleep state to a wake-up state, and establishing man-machine connection between a target water taking person and the ultra-pure water machine; controlling the ultra-pure water machine to perform water quality detection based on the awakening state; when the detection result is up to standard, controlling the ultra-pure water machine to discharge or stop water in response to the current water taking instruction, wherein the current water taking instruction comprises a water taking starting instruction and a water taking stopping instruction, and the water taking starting instruction carries the water quality grade of the water taken; and storing a water taking record so as to manage the target water taking personnel according to the water taking record, wherein the water taking record comprises the current wake-up instruction, the current water taking time, the current water taking amount and the current water quality level.

In a third aspect, the present application provides an ultrapure water machine, comprising the ultrapure water machine water intake system based on voice control according to the first aspect, or using the ultrapure water machine water intake method based on voice control according to the second aspect.

As described above, the ultra-pure water intake system and method based on voice control and the ultra-pure water machine provided by the embodiment of the application have the following beneficial effects:

through the speech recognition model that trains, discernment to the speech information of water intaking personnel obtains current awakening instruction and current water intaking instruction to control ultrapure water machine entering awakening state and carry out quality of water self-checking, and control ultrapure water machine after quality of water reaches standard and go out water or stop water, through the water intaking of pronunciation intelligent control ultrapure water machine, made things convenient for water intaking personnel's water intaking operation, promoted water intaking personnel's water intaking experience, simultaneously, accomplish the water intaking back at water intaking personnel, carry out the associative record and the storage to water intaking personnel and the water intaking data that its corresponds based on water intaking management module, can carry out water intaking management and carry out statistics management to water intaking data of ultrapure water machine, perfect the management of ultrapure water machine water intaking system.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application as claimed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application. It is evident that the drawings in the following description are only some embodiments of the present application and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art. In the drawings:

FIG. 1 is a block diagram of an ultrapure water machine water intake system based on voice control according to an exemplary embodiment of the present application;

FIG. 2 is a block diagram of a speech training module shown in accordance with an exemplary embodiment of the present application;

FIG. 3 is a block diagram of another ultra-pure water intake system based on voice control according to an exemplary embodiment of the present application;

FIG. 4 is a block diagram of a personnel management module shown in accordance with an exemplary embodiment of the present application;

FIG. 5 is a block diagram of a speech recognition module shown in accordance with an exemplary embodiment of the present application;

FIG. 6 is a block diagram of a detection module shown in an exemplary embodiment of the application;

FIG. 7 is a block diagram of a water intake control module shown in an exemplary embodiment of the application;

FIG. 8 is a block diagram of an intake management module shown in an exemplary embodiment of the application;

FIG. 9 is a block diagram of yet another ultra-pure water intake system based on voice control, according to an exemplary embodiment of the present application;

FIG. 10 is a flow chart of a water intake method of an ultrapure water machine based on voice control according to an exemplary embodiment of the present application;

fig. 11 is a schematic view of an ultrapure water machine shown in an exemplary embodiment of the application.

Detailed Description

Further advantages and effects of the present application will become readily apparent to those skilled in the art from the disclosure herein, by referring to the accompanying drawings and the preferred embodiments. The application may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present application. It should be understood that the preferred embodiments are presented by way of illustration only and not by way of limitation.

It should be noted that the illustrations provided in the following embodiments merely illustrate the basic concept of the present application by way of illustration, and only the components related to the present application are shown in the drawings and are not drawn according to the number, shape and size of the components in actual implementation, and the form, number and proportion of the components in actual implementation may be arbitrarily changed, and the layout of the components may be more complicated.

In the following description, numerous details are set forth in order to provide a more thorough explanation of embodiments of the present application, it will be apparent, however, to one skilled in the art that embodiments of the present application may be practiced without these specific details, in other embodiments, well-known structures and devices are shown in block diagram form, rather than in detail, in order to avoid obscuring the embodiments of the present application.

The purity and quality of the laboratory water are critical to the accuracy and reliability of scientific experiments, and the related research and development of the ultra-pure water machine meeting the laboratory water requirement is more and more, wherein the function of controlling the water production process by adopting programmable control of the laboratory ultra-pure water machine is realized, and a high-purity water source is provided for the experiments. However, the inventor researches the present application have found that the current ultrapure water machine has insufficient intelligence, when the water taker takes water from the ultrapure water machine, more or less manual operation is needed, if the water taker needs to take water from the ultrapure water machine, the manual key is needed to take water, and both hands of the user cannot be completely liberated, so that the water taker needs to wait beside the ultrapure water machine when taking water, which results in poor water taking experience of the user, and meanwhile, the ultrapure water machine lacks record statistics for the water taker and corresponding water taking data, which is unfavorable for water taking management of the ultrapure water machine.

Accordingly, the present application provides an ultrapure water intake system based on voice control, please refer to fig. 1, fig. 1 is a block diagram of an ultrapure water intake system based on voice control according to an exemplary embodiment of the present application, as shown in fig. 1, the system 100 at least includes a voice training module 101, a voice recognition module 102, a connection establishment module 103, a detection module 104, an intake control module 105 and an intake management module 106, and the details are as follows:

the voice training module 101 is configured to input a voice instruction set into the initial model for training, so as to obtain a voice recognition model, where the voice instruction set includes a historical wake instruction and a historical water intake instruction.

It should be noted that, the voice instruction set is obtained from the voice instructions stored in the water intake management module 106, the historical wake-up instruction is a plurality of instructions capable of waking up the ultrapure water machine, including wake-up keywords of the ultrapure water machine, in the historical water intake process, and the historical water intake instruction is a plurality of instructions capable of performing water intake operations, including water intake keywords of the ultrapure water machine, in the historical water intake process. In addition, the speech training to obtain the speech recognition model is a mature prior art, and will not be described in detail herein.

In particular, referring to fig. 2, fig. 2 is a block diagram of a speech training module according to an exemplary embodiment of the present application. As shown in fig. 2, the voice training module 101 at least includes an acquisition unit 201 and a training unit 202, as follows: an obtaining unit 201, configured to obtain a historical wake-up instruction and a historical water intake instruction from the water intake management module 106; the training unit 202 is configured to extract a wake-up keyword in the historical wake-up instruction, perform regression fit on the wake-up keyword, input the wake-up keyword into the initial model, perform training, extract a water intake keyword in the historical water intake instruction, perform regression fit on the water intake keyword, input the water intake keyword into the initial model, and perform training, thereby obtaining a speech recognition model.

It should be noted that, the water intake management module 106 stores the current wake-up instruction and the current water intake instruction, that is, becomes a historical wake-up instruction and a historical water intake instruction, and forms a voice instruction set. The voice recognition model is used for recognizing the wake-up instruction and the water taking instruction in voice information of the water taking personnel, so that training for recognizing the wake-up instruction and the water taking instruction is involved. In addition, after a preset period of time, such as one week or one month, the preset period of time is not limited herein, and the voice training module 101 performs training update of the voice recognition model according to the latest voice instruction set, so as to improve accuracy of voice information recognition of the water taker.

The voice recognition module 102 is configured to input the monitored voice information into a voice recognition model for recognition, and obtain a current wake-up instruction or a current water intake instruction.

When water intaking personnel need water intaking, can put the water intaking container in ultrapure water machine water outlet, then wake up ultrapure water machine through the pronunciation and go out water or stop going out water through pronunciation intelligent control ultrapure water machine, and speech recognition module 102 is then used for monitoring the speech information that water intaking personnel sent, and input speech recognition model with the speech information who monitors and discern, obtain the current instruction of intaking that wakes up ultrapure water machine or with the current instruction of intaking that makes ultrapure water machine automatic water outlet or stop going out water promptly, thereby made things convenient for water intaking personnel's water intaking operation, promoted water intaking personnel's water intaking experience.

In an embodiment, please refer to fig. 3-4, fig. 3 is a block diagram of another ultra-pure water intake system based on voice control according to an exemplary embodiment of the present application, and fig. 4 is a block diagram of a personnel management module according to an exemplary embodiment of the present application. As shown in fig. 3, the system 300 at least includes a voice training module 101, a voice recognition module 102, a connection establishment module 103, a detection module 104, a water intake control module 105, a water intake management module 106, and a personnel management module 107, and as shown in fig. 4, the personnel management module 107 includes at least an information recording unit 401 and a first management unit 402, as follows: the information recording unit 401 is configured to record voiceprint information of a target crowd, obtain information of water intake personnel, and establish a water intake personnel information base according to the information of the water intake personnel; the first management unit 402 is configured to manage a water intake personnel information base, including updating, adding and deleting of water intake personnel information.

In this embodiment, the target crowd refers to people who use the ultra-pure water machine, for example, all people in a laboratory, the personnel management module 107 can record voiceprint information of the target crowd to obtain the information of the water taking personnel, and establish a water taking personnel information base according to the information of the water taking personnel, that is, in the water taking personnel information base, each person in the target crowd has a one-to-one correspondence with the voiceprint information thereof, when people in the target crowd need to reset the voiceprint information, or when people in the target crowd have variation, the personnel management module 107 can also update, add and delete the information of the water taking personnel, so that the ultra-water storage can match the voiceprint in the information base of the water taking personnel according to the voiceprint of the voice information sent by the water taking personnel when the water taking personnel takes water, thereby determining the name of the target water taking personnel, that is the current water taking personnel, and improving the management of the water taking system.

In particular, referring to fig. 5, fig. 5 is a block diagram of a speech recognition module according to an exemplary embodiment of the present application. As shown in fig. 5, the voice recognition module 102 at least includes a listening unit 501, a first recognition unit 502, and a second recognition unit 503, as follows: the monitoring unit 501 is configured to monitor voice information, perform voiceprint recognition on the voice information, and determine a target water taker in the water taker information base; the first recognition unit 502 is configured to recognize a wake-up keyword in the voice information based on the voice recognition model, obtain a current wake-up instruction, and generate a wake-up operation instruction according to the current wake-up instruction, so that the connection establishment module controls the ultrapure water machine to switch from a sleep state to a wake-up state in response to the wake-up operation instruction; the second recognition unit 503 is configured to recognize a water intake keyword in the voice information based on the voice recognition model, obtain a current water intake instruction, and generate a water intake operation instruction according to the current water intake instruction, so that the water intake control module controls the ultrapure water machine to output water or stop water in response to the water intake operation instruction, where the water intake operation instruction includes a start water intake operation instruction and a stop water intake operation instruction, and the water intake keyword includes a water quality level.

In this embodiment, the first recognition unit 502 in the voice recognition module 102 is a wake-up instruction recognition unit, recognizes wake-up keywords in voice information, such as "mole hello", "hello mole", or "mole", through a voice recognition model, obtains a current wake-up instruction, and then generates a wake-up operation instruction according to the current wake-up instruction. The second recognition unit 503 in the voice recognition module 102, a water intake instruction recognition unit, recognizes the water intake keyword in the voice information through the voice recognition model, for example, "get primary water", "get secondary water" or "stop water", etc., obtains the current water intake instruction, and then generates the water intake operation instruction according to the current water intake instruction, where the primary and secondary represent the water quality level.

It should be noted that, according to different application occasions, the requirements on water quality are different, for example, the primary water is mainly used in analysis tests with strict requirements, including tests with requirements on particles, etc.; the secondary water is mainly used for tests such as inorganic trace analysis and the like, such as water for atomic absorption spectrometry; tertiary water was used for general chemical analysis experiments.

The connection establishment module 103 is used for responding to the current wake-up instruction, controlling the ultrapure water machine to switch from the sleep state to the wake-up state, and establishing man-machine connection between the target water intake personnel and the ultrapure water machine.

When the voice recognition module 102 recognizes the wake-up keyword from the voice information of the target water intake person based on the voice recognition model, which indicates that the ultrapure water machine receives the current wake-up instruction of the target water intake person, the connection establishment module 103 controls the ultrapure water machine to switch from the sleep state to the wake-up state in response to the current wake-up instruction, and establishes the man-machine connection between the ultrapure water machine and the target water intake person, i.e. the water intake operation is associated with the target water intake person, and it is noted that the target water intake person is confirmed by the voice recognition module 102.

The detection module 104 is used for controlling the ultra-pure water machine to perform water quality detection based on the wake-up state.

It should be understood that if the ultrapure water machine does not get water for a long time, the water in the pipeline is in a dead water state, namely the water quality is reduced, so that when getting water, the resistivity of the water just taken out is very low, the experimental requirement cannot be met, but only in the water taking process, the water quality can be increased to meet the use requirement, so that the water just taken out can be poured out each time, the water can not be used until the water quality display meets the requirement, but the waste of the water is caused, and the utilization rate of equipment consumables is reduced. Therefore, after the ultrapure water machine is awakened, the detection module 104 can control the ultrapure water machine to perform water quality self-detection, so that waste of water is avoided, and the utilization rate of equipment consumables is improved.

In particular, referring to fig. 6, fig. 6 is a block diagram of a detection module according to an exemplary embodiment of the present application. As shown in fig. 6, the detection module 104 includes at least an instruction generating unit 601, a self-circulation unit 602, a water quality detection unit 603, and a detection control unit 604, as follows: an instruction generating unit 601, configured to generate a primary detection instruction based on the wake state; a self-circulation unit 602 for starting an automatic circulation function of the ultra-pure water machine in response to a primary detection instruction to perform primary self-circulation of water in a circulation chamber of the ultra-pure water machine; the water quality detection unit 603 is configured to perform water quality detection on water after primary self-circulation, broadcast water quality up to standard when the detection result is up to standard, and send a secondary detection instruction to the detection control unit when the detection result is not up to standard; and the detection control unit 604 is configured to control the self-circulation unit to perform secondary self-circulation in response to the secondary detection instruction until the detection result reaches the standard.

In this embodiment, the built-in program in the detection module 104 controls the self-circulation and water quality detection of the ultrapure water machine, and the automatic circulation function of the ultrapure water machine means that a buffer space is provided by using the circulation cavity, and water in the circulation cavity can flow back into the ultrapure water machine again so as to raise the water quality to meet the experimental use requirement. The water quality detection means that the water after self circulation is detected in conductivity, total bacteria, organic matter content, metal ion content, trace element content and the like, and the water quality detection is judged to meet the requirement of corresponding water quality grade, so that the water taken by a target water taking person is ensured to meet the experimental requirement, and the waste of water is avoided.

And the water taking control module 105 is used for responding to the current water taking instruction to control the water outlet or the water cut-off of the ultra-pure water machine when the detection result is up to the standard, wherein the current water taking instruction comprises a water taking starting instruction and a water taking stopping instruction, and the water taking starting instruction carries the water quality grade of the taken water.

When the water in the ultrapure water machine reaches the requirement of the water quality level in the current water intake instruction, the water intake control module 105 generates a water intake operation instruction according to the current water intake instruction obtained by the recognition of the voice recognition module 102, and controls the ultrapure water machine to output or stop water in response to the water intake operation instruction. Through the speech intelligent control ultrapure water machine water outlet or cut off water, the target water intaking personnel no longer need wait for the water intaking by the ultrapure water machine through the button, has made things convenient for water intaking personnel's water intaking operation, has promoted water intaking personnel's water intaking experience.

Specifically, referring to fig. 7, fig. 7 is a block diagram of a water intake control module according to an exemplary embodiment of the present application. As shown in fig. 7, the water intake control module 105 at least includes a water outlet control unit 701, a water cut-off control unit 702, and a recording unit 703, as follows: a water outlet control unit 701 for controlling water outlet of the ultra-pure water machine in response to the water quality level in the instruction to start water taking operation; a water cut-off control unit 702, configured to control water cut-off of the ultrapure water machine in response to a water cut-off operation instruction, a historical water intake amount or a historical water intake duration corresponding to a target water intake person; a recording unit 703, configured to record a current water intake time, a current water intake duration, a current water intake amount, and a current water quality level.

It should be noted that, the water cut-off control unit 702 may control the ultrapure water machine to stop water output in response to the water cut-off operation instruction, but considering that the target water taker is not beside the ultrapure water machine and the water intake amount in the water intake container is not needed to be noticed by the target water taker at any time, so the water cut-off control unit 702 may also control the ultrapure water machine to cut off water based on the historical water intake amount or the historical water intake duration corresponding to the target water taker, where the historical water intake amount and the historical water intake duration are the average value of the water intake amount and the water intake duration corresponding to the historical water intake of the target water taker recorded in the water intake management module 106, so that the water is prevented from overflowing the water intake container when the voice recognition module 102 does not recognize the water cut-off instruction, and the water intake experience of the water taker is improved.

As a possible embodiment, the water cut-off control unit 702 may also control the water cut-off of the ultra-pure water machine by means of the weight of the water in the water intake container, the water line, etc.

The water intake management module 106 is configured to store a water intake record, so as to manage a target water intake person according to the water intake record, where the water intake record includes a current wake-up instruction, a current water intake time, a current water intake duration, a current water intake amount, and a current water quality level.

After the target water taking personnel finishes water taking, namely the ultrapure water machine stops water outlet, the water taking record and the target water taking personnel can be stored in a correlated mode, such as the current wake-up instruction, the current water taking time, the current water taking amount, the current water quality level and other information of the current water taking, so that unified management of the water taking personnel and the water taking data is formed, and management of a water taking system of the ultrapure water machine is perfected.

In particular, referring to fig. 8, fig. 8 is a block diagram of an intake management module according to an exemplary embodiment of the present application. As shown in fig. 8, the water intake management module 106 includes at least an acquisition unit 801, a storage unit 802, and a second management unit 803, as follows: an obtaining unit 801, configured to obtain a current wake-up instruction, a current water intake time, a current water intake duration, a current water intake amount, and a current water quality level; the storage unit 802 is configured to store a current wake-up instruction, a current water intake time, a current water intake duration, a current water intake amount, a current water quality level, and a target water intake person in association with each other, so as to update a water intake person information base; and a second management unit 803 for forming a work log of the target water taker according to the updated water taker information base.

The method is characterized in that a current wake-up instruction, a current water taking time, a current water taking amount and a current water quality grade of a target water taking person are stored in association with the target water taking person, information of the target water taking person in a water taking person information base is updated to form a work log of the target water taking person, and according to the work log, the water taking frequency, the high-frequency work time period, whether experimental work is carried out or not and the like of the work day of the target water taking person can be known, so that management is formed for the whole target crowd.

In an embodiment, please refer to fig. 9, fig. 9 is a block diagram of still another ultra-pure water intake system based on voice control according to an exemplary embodiment of the present application. As shown in fig. 9, the system 900 at least includes a voice training module 101, a voice recognition module 102, a connection establishment module 103, a detection module 104, a water intake control module 105, a water intake management module 106, a personnel management module 107, and a shutdown module 108, where the shutdown module 108 is configured to: if the current water taking instruction is not monitored within the preset time, the connection of the man-machine is disconnected, and the ultra-pure water machine is switched from the awakening state to the sleeping state; or monitoring a current sleep instruction, and responding to the current sleep instruction to disconnect the human-computer connection so as to switch the ultra-pure water machine from the awakening state to the sleep state.

It should be noted that, after the ultrapure water machine establishes a man-machine connection with the target water intake person, the state of waiting for executing the instruction is entered, when the voice recognition module 102 does not recognize the current water intake instruction within a certain period of time, for example, 3s or 5s, the shutdown module 108 controls to disconnect the man-machine connection so as to switch the ultrapure water machine from the awake state to the sleep state, in addition, when the target water intake person completes water intake, if the current sleep instruction in the voice information is monitored, for example, "shutdown", "closing", etc., the shutdown module 108 controls to disconnect the man-machine connection in response to the current sleep instruction, so that the ultrapure water machine is switched from the awake state to the sleep state.

The ultrapure water machine water intake system based on voice control that the embodiment provided, through the speech recognition model that trains, discern the speech information of water intaking personnel and obtain current awakening instruction and current water intaking instruction, thereby control ultrapure water machine entering awakening state and carry out quality of water self-checking, and control ultrapure water machine after quality of water reaches standard and go out water or stop water, water intaking through the ultrapure water machine of voice intelligent control, the water intaking operation of water intaking personnel has been made things convenient for, the water intaking experience of water intaking personnel has been promoted, simultaneously, after water intaking personnel accomplish the water intaking, carry out associative record and storage to water intaking personnel and the water intaking data that corresponds thereof based on water intaking management module, can carry out water intaking management and the water intaking data of ultrapure water machine to water intaking personnel, perfect the management of ultrapure water machine water intaking system.

Referring to fig. 10, fig. 10 is a flowchart illustrating a water intake method of an ultrapure water machine based on voice control according to an exemplary embodiment of the present application. As shown in fig. 10, in an exemplary embodiment, the water intake method of the ultra-pure water machine based on voice control at least includes steps S1001 to S1006, which are described in detail as follows:

step S1001, inputting a voice instruction set into an initial model for training to obtain a voice recognition model, wherein the voice instruction set comprises a historical wake-up instruction and a historical water taking instruction;

step S1002, inputting the monitored voice information into a voice recognition model for recognition, and obtaining a current wake-up instruction or a current water taking instruction;

step S1003, controlling the ultra-pure water machine to switch from a sleep state to an awake state in response to a current awake instruction, and establishing man-machine connection between a target water intake person and the ultra-pure water machine;

step S1004, controlling the ultra-pure water machine to perform water quality detection based on the wake-up state;

step S1005, when the detection result is that the water reaches the standard, controlling the ultra-pure water machine to discharge or stop water in response to the current water taking instruction, wherein the current water taking instruction comprises a water taking starting instruction and a water taking stopping instruction, and the water taking starting instruction carries the water quality grade of the water taken;

step S1006, storing a water taking record to manage the target water taking personnel according to the water taking record, wherein the water taking record comprises a current wake-up instruction, a current water taking time length, a current water taking amount and a current water quality grade.

It should be noted that, the water intake method of the ultrapure water machine based on the voice control provided by the above embodiment and the water intake system of the ultrapure water machine based on the voice control provided by the above embodiment belong to the same concept, wherein the content of executing the operation of each module has been described in detail in the system embodiment, and will not be described here again.

Referring to fig. 11, fig. 11 is a schematic view of an ultrapure water machine according to an exemplary embodiment of the present application. As shown in fig. 11, the ultrapure water machine includes the above-described ultrapure water machine water intake system based on the voice control, or the above-described ultrapure water machine water intake method based on the voice control is used. Fig. 11 is only an example of the ultrapure water machine, and is not limited to a specific shape, structure, and the like of the ultrapure water machine.

The above embodiments are merely illustrative of the principles of the present application and its effectiveness, and are not intended to limit the application. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the application. Accordingly, it is intended that all equivalent modifications and variations of the application be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (10)

1. An ultrapure water machine water intake system based on voice control, characterized in that the system comprises:

the voice training module is used for inputting a voice instruction set into the initial model for training to obtain a voice recognition model, wherein the voice instruction set comprises a historical wake-up instruction and a historical water taking instruction;

the voice recognition module is used for inputting the monitored voice information into the voice recognition model for recognition to obtain a current wake-up instruction or a current water taking instruction;

the connection establishment module is used for responding to the current wake-up instruction to control the ultrapure water machine to switch from a sleep state to a wake-up state and establishing man-machine connection between a target water taking person and the ultrapure water machine;

the detection module is used for controlling the ultra-pure water machine to carry out water quality detection based on the awakening state;

the water taking control module is used for responding to the current water taking instruction to control the ultra-pure water machine to discharge or stop water when the detection result is up to standard, wherein the current water taking instruction comprises a water taking starting instruction and a water taking stopping instruction, and the water taking starting instruction carries the water quality grade of the water taken;

and the water intake management module is used for storing a water intake record so as to manage the target water intake personnel according to the water intake record, wherein the water intake record comprises the current wake-up instruction, the current water intake time, the current water intake duration, the current water intake quantity and the current water quality grade.

2. The ultra-pure water intake system based on voice control of claim 1, wherein the voice training module comprises:

the acquisition unit is used for acquiring the historical wake-up instruction and the historical water taking instruction from the water taking management module;

and the training unit is used for extracting the awakening keywords in the historical awakening instructions, carrying out regression fit on the awakening keywords, inputting the awakening keywords into the initial model for training, extracting the water taking keywords in the historical water taking instructions, carrying out regression fit on the water taking keywords, inputting the water taking keywords into the initial model for training, and obtaining the voice recognition model.

3. The ultra-pure water system based on voice control of claim 1, further comprising a personnel management module, the personnel management module comprising:

the information recording unit is used for recording voiceprint information of a target crowd to obtain water taking personnel information, and establishing the water taking personnel information base according to the water taking personnel information;

the first management unit is used for managing the water taking personnel information base and comprises updating, adding and deleting of the water taking personnel information.

4. The ultra-pure water intake system based on voice control of claim 3, wherein the voice recognition module comprises:

the monitoring unit is used for monitoring the voice information, carrying out voiceprint recognition on the voice information and determining the target water taking personnel in the water taking personnel information base;

the first recognition unit is used for recognizing wake-up keywords in the voice information based on the voice recognition model, obtaining the current wake-up instruction, and generating a wake-up operation instruction according to the current wake-up instruction, so that the connection establishment module responds to the wake-up operation instruction to control the ultrapure water machine to switch from a sleep state to a wake-up state;

the second recognition unit is used for recognizing the water taking keywords in the voice information based on the voice recognition model, obtaining the current water taking instruction, and generating a water taking operation instruction according to the current water taking instruction, so that the water taking control module responds to the water taking operation instruction to control the ultra-pure water machine to outlet water or stop water, the water taking operation instruction comprises a water taking starting operation instruction and a water taking stopping operation instruction, and the water taking keywords comprise water quality grades.

5. The ultra-pure water intake system based on voice control of claim 1, wherein the detection module comprises:

an instruction generating unit for generating a primary detection instruction based on the wake-up state;

the self-circulation unit is used for responding to the primary detection instruction and starting an automatic circulation function of the ultra-pure water machine so as to perform primary self-circulation of water in a circulation cavity of the ultra-pure water machine;

the water quality detection unit is used for detecting the water quality of the water after primary self-circulation, broadcasting the water quality to reach the standard when the detection result is up to the standard, and sending a secondary detection instruction to the detection control unit when the detection result is not up to the standard;

the detection control unit is used for responding to the secondary detection instruction and controlling the self-circulation unit to perform secondary self-circulation until the detection result reaches the standard.

6. The ultra-pure water system based on voice control according to claim 3, wherein the water intake control module comprises:

the water outlet control unit is used for responding to the water quality grade in the water taking starting operation instruction and controlling the water outlet of the ultra-pure water machine;

the water cut-off control unit is used for responding to the instruction of stopping water taking operation and the historical water taking amount or the historical water taking duration corresponding to the target water taking personnel to control the water cut-off of the ultra-pure water machine;

the recording unit is used for recording the current water taking time, the current water taking amount and the current water quality level.

7. The ultra-pure water system based on voice control of claim 6, wherein the water intake management module comprises:

the acquisition unit is used for acquiring the current wake-up instruction, the current water taking time, the current water taking amount and the current water quality grade;

the storage unit is used for carrying out associated storage on the current wake-up instruction, the current water taking time, the current water taking amount, the current water quality level and the target water taking personnel so as to update the water taking personnel information base;

and the second management unit is used for forming the work log of the target water taking person according to the updated water taking person information base.

8. The ultra-pure water system based on voice control according to any one of claims 1 to 7, further comprising a shutdown module for:

if the current water taking instruction is not monitored within the preset time, the man-machine connection is disconnected, and the ultra-pure water machine is switched from the awakening state to the sleeping state; or (b)

Monitoring a current sleep instruction, and responding to the current sleep instruction to disconnect the man-machine connection so as to switch the ultra-pure water machine from the awakening state to the sleep state.

9. A method for taking water from an ultra-pure water machine based on voice control, characterized in that the ultra-pure water machine water taking system based on voice control as set forth in any one of claims 1 to 8 is used, and the method comprises:

inputting a voice instruction set into an initial model for training to obtain a voice recognition model, wherein the voice instruction set comprises a historical wake-up instruction and a historical water taking instruction;

inputting the monitored voice information into the voice recognition model for recognition to obtain a current wake-up instruction or a current water taking instruction;

responding to the current wake-up instruction to control the ultra-pure water machine to switch from a sleep state to a wake-up state, and establishing man-machine connection between a target water taking person and the ultra-pure water machine;

controlling the ultra-pure water machine to perform water quality detection based on the awakening state;

when the detection result is up to standard, controlling the ultra-pure water machine to discharge or stop water in response to the current water taking instruction, wherein the current water taking instruction comprises a water taking starting instruction and a water taking stopping instruction, and the water taking starting instruction carries the water quality grade of the water taken;

and storing a water taking record so as to manage the target water taking personnel according to the water taking record, wherein the water taking record comprises the current wake-up instruction, the current water taking time, the current water taking amount and the current water quality level.

10. An ultrapure water machine, characterized by comprising the ultrapure water machine water intake system based on voice control as claimed in any one of claims 1 to 8, or by using the ultrapure water machine water intake method based on voice control as claimed in claim 9.