CN110820845A - Water supply system and water pressure pressurization method and device thereof - Google Patents

Abstract

The application relates to a water supply system and a water pressure pressurization method and device thereof. When the water pressure data is smaller than the preset water pressure and the timing pressurization function of the water supply system is started, the time controller corresponding to the timing pressurization is achieved and controls the booster pump to carry out pressurization processing, so that the water pressure data is increased and the preset water pressure is achieved. Through above-mentioned scheme, can carry out pressurization control when water pressure is low excessively, guarantee that user's water is sufficient, above-mentioned scheme does not need the user to operate to equipment department simultaneously and can realize the pressure boost, has the advantage that the operation convenience is high.

Description

Water supply system and water pressure pressurization method and device thereof

Technical Field

The application relates to the technical field of water supply treatment, in particular to a water supply system and a water pressure pressurization method and device thereof.

Background

With the development of social economy, the living standard of people is generally improved, the number of self-built buildings and the height of the buildings are continuously increased, and the condition that the water pressure of domestic water of residents of high-rise residences is unstable often occurs. Water is used as a necessity of daily life of people, and the unstable water pressure can often cause the shortage of water supply and even the water cut off, thereby seriously affecting the daily life of users.

Traditional water supply mode is mainly through at the piping erection booster pump, finds water pressure when low excessively at the user, carries out the pressure boost through the booster pump and handles, guarantees that the running water can transmit high-rise user. However, the conventional water supply method requires a user to go to the device to turn on the booster pump whenever the water pressure is too low, which has a disadvantage of poor convenience in operation.

Disclosure of Invention

In view of the above, it is necessary to provide a water supply system, a water pressure boosting method and a water pressure boosting device thereof, which are directed to the problem of poor operation convenience of the conventional water supply method.

A method of hydraulic pressurization of a water supply system, the method comprising: acquiring water pressure data, wherein the water pressure data is obtained by detecting a water pressure detection device of a water supply system; when the water pressure data is smaller than the preset water pressure, judging whether the water supply system is started to pressurize at regular time; and if the timing pressurization is started, controlling a booster pump of the water supply system to perform pressurization when the time corresponding to the timing pressurization is reached so as to enable the water pressure data to reach the preset water pressure.

In one embodiment, after the step of determining whether the water supply system is started to pressurize at a fixed time when the water pressure data is less than a preset water pressure, the method further comprises: and if the timing pressurization is not started, controlling a booster pump of the water supply system to perform pressurization through the mobile terminal so as to enable the water pressure data to reach the preset water pressure.

In one embodiment, the step of controlling a booster pump of the water supply system to boost pressure by the mobile terminal includes: pushing the information that the water pressure data is smaller than the preset water pressure to a mobile terminal to inform a user; judging whether a pressurizing control signal sent by a user through the mobile terminal is received or not; and if so, controlling a booster pump of the water supply system to boost.

In one embodiment, after the step of determining whether the pressurization control signal sent by the user through the mobile terminal is received, the method further includes: and if not, returning the acquired water pressure data.

In one embodiment, after the step of determining whether the water supply system is started to pressurize at a fixed time when the water pressure data is less than a preset water pressure, the method further comprises: and if the timing pressurization is not started, controlling a booster pump of the water supply system to perform pressurization through the intelligent household equipment so as to enable the water pressure data to reach the preset water pressure.

In one embodiment, the step of controlling a booster pump of the water supply system to boost pressure by the smart home device includes: pushing the information that the water pressure data is smaller than the preset water pressure to intelligent household equipment to inform a user; judging whether a voice pressurization control signal sent by a user through the intelligent household equipment is received; and if so, controlling a booster pump of the water supply system to boost.

In one embodiment, after the step of determining whether the voice pressurization control signal sent by the user through the smart home device is received, the method further includes: and if not, returning the acquired water pressure data.

In one embodiment, after the step of acquiring the water pressure data, the method further comprises: and when the water pressure data is greater than or equal to the preset water pressure, returning to obtain the water pressure data.

A hydraulic pressurizing device for a water supply system, the device comprising: the water pressure data acquisition module is used for acquiring water pressure data, and the water pressure data is obtained by detecting a water pressure detection device of the water supply system; the timing pressurization judging module is used for judging whether the water supply system is started to pressurize at regular time or not when the water pressure data is smaller than the preset water pressure; and the timing pressurization control module is used for controlling a booster pump of the water supply system to carry out pressurization when the timing pressurization is started and the time corresponding to the timing pressurization is reached so as to enable the water pressure data to reach the preset water pressure.

The utility model provides a water supply system, the system includes water pressure detection device, booster pump and controller, water pressure detection device set up in the outlet conduit of booster pump, water pressure detection device with the booster pump is connected respectively the controller, water pressure detection device is used for detecting water pressure and sends the water pressure data that obtains to the controller, the controller is used for carrying out the pressure boost according to foretell method.

In one embodiment, the system further comprises a mobile terminal communicatively coupled to the controller.

In one embodiment, the system further comprises an intelligent home device, and the intelligent home device is in communication connection with the controller.

According to the water supply system and the water pressure pressurization method and device thereof, the water supply system is provided with the water pressure detection sensor for detecting the water pressure data of water conveyed to a user, and the detected water pressure data is sent to the controller for comparison and analysis with the preset water pressure. When the water pressure data is smaller than the preset water pressure and the timing pressurization function of the water supply system is started, the time controller corresponding to the timing pressurization is achieved and controls the booster pump to carry out pressurization processing, so that the water pressure data is increased and the preset water pressure is achieved. Through above-mentioned scheme, can carry out pressurization control when water pressure is low excessively, guarantee that user's water is sufficient, above-mentioned scheme does not need the user to operate to equipment department simultaneously and can realize the pressure boost, has the advantage that the operation convenience is high.

Drawings

FIG. 1 is a schematic flow diagram of a hydraulic pressurization method for a water supply system according to an embodiment;

FIG. 2 is a schematic flow chart of a hydraulic pressurization method of a water supply system according to another embodiment;

FIG. 3 is a schematic diagram illustrating a mobile terminal boosting control flow according to an embodiment;

FIG. 4 is a flow diagram of a method for pressurizing water in a water supply system according to one embodiment;

FIG. 5 is a schematic flow chart of a hydraulic pressurization method of a water supply system according to still another embodiment;

fig. 6 is a schematic flow chart illustrating a pressurization control process of the smart home device according to an embodiment;

FIG. 7 is a schematic flow chart of a hydraulic pressurization method of a water supply system according to still another embodiment;

FIG. 8 is a schematic diagram of a hydraulic pressure boosting device of the water supply system according to an embodiment;

FIG. 9 is a schematic structural view of a hydraulic pressure boosting device of a water supply system in another embodiment;

FIG. 10 is a schematic view of an embodiment of a water supply system;

fig. 11 is a schematic view of a water supply system in another embodiment.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are illustrated in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Referring to fig. 1, a method for increasing the pressure of water in a water supply system includes steps S100, S200, and S300.

And step S100, acquiring water pressure data.

Specifically, the water pressure data is detected by a water pressure detection device of the water supply system. The water pressure detection device is arranged on the water supply pipeline, and when the water pressure detection device is powered on to work, the water pressure of water flowing through the water supply pipeline can be detected. Furthermore, the water pressure detection device is arranged at a water outlet pipeline of the booster pump so as to acquire water pressure data which is transmitted to a user after the booster pump is subjected to boosting treatment. The specific application scene of water supply system is not exclusive, specifically can be domestic running water supply system, industry water supply system etc. as long as can appear that the water supply system that water pressure is not enough all can adopt the water pressure boost mode of this application to carry out the pressure boost and handle, guarantees that the water supply is sufficient. To facilitate understanding of the various embodiments of the present application, the following description will be mainly explained in terms of a household tap water supply system to ensure that tap water supply of high-rise households is sufficient.

It should be noted that in one embodiment, the detection of the water pressure by the water pressure detection sensor is performed in real time, and the detected water pressure data is sent to the controller for analysis in real time, so that the controller can react in time when the water pressure data is too low. It can be understood that the type of the water pressure detection device is not exclusive, as long as the water pressure data collection can be accurately carried out. For example, in one embodiment, the water pressure detection device is a water pressure sensor.

And step S200, judging whether the water supply system is started to pressurize at regular time or not when the water pressure data is smaller than the preset water pressure.

Specifically, the preset water pressure is the minimum water pressure required by the user for normal water use, and when the preset water pressure is lower than the minimum water pressure, the user can have the phenomenon of insufficient water supply or even water cut-off. The controller storage has and predetermines water pressure, all can carry out comparative analysis with predetermineeing water pressure after the controller received water pressure data, according to water pressure data and predetermine the not equidimension relation of water pressure, the controller will carry out different operations. The timing pressurization is to perform pressurization treatment on the water in a command time period or at a specified time point. It is to be understood that the manner of determining whether the timed pressurization is on is not exclusive, and in one embodiment, the determination may be made by determining whether the controller receives a timed pressurization on command sent by a user within a preset time period. If the timing pressurization starting instruction is received, the user wants to realize the water pressure pressurization of the water supply system according to the pressurization program corresponding to the timing pressurization, and the timing pressurization starting is indicated at the moment. If the timing pressurization starting instruction sent by the user is not received within the preset time length, the timing pressurization function of the water supply system is not started.

And step S300, if the timing pressurization is started, controlling a booster pump of the water supply system to perform pressurization when the time corresponding to the timing pressurization is reached so as to enable the water pressure data to reach the preset water pressure.

Specifically, when the controller judges that the timing pressurization function of the water supply system is started, the controller realizes the water pressure pressurization control according to a control program corresponding to the timing pressurization. It can be understood that the time period or the time point corresponding to the timed pressurization is not unique, taking the timed pressurization as the pressurization of water at the specified time as an example, a user can set the timed pressurization function in the controller in advance according to the living habits of the user, the peak time of regional water consumption and the like, that is, if the water pressure data in the specified time period is set in the controller and is less than the preset water pressure, the controller executes corresponding operations to increase the water pressure. For example, in one embodiment, the time period corresponding to the time period from 11 am to 1 pm is set by the user, and if the user has a water demand during the time period and the water pressure data is smaller than the preset water pressure, the controller will control the booster pump to boost the polar water pressure.

It can be understood that the timing pressurization can be realized by controlling the current flowing through the booster pump to increase according to the pressurization signal sent by the controller on the basis that the booster pump of the water supply system is started to operate, so that the power of the booster pump is improved, and the purpose of water pressure pressurization is achieved. In another embodiment, the controller may control the booster pump to start operation when a time period or a time point corresponding to the timing boosting is reached under the condition that the booster pump is not started. Furthermore, if the water pressure of the booster pump after the booster pump is controlled to be started and operated does not reach the preset water pressure, the current flowing through the booster pump can be further controlled to be increased, and the operation power of the booster pump is improved so as to realize further boosting operation.

It should be noted that, in the process of the controller controlling the booster pump to perform the water pressure boosting treatment, the water pressure detection device arranged at the water outlet pipeline of the booster pump can send the detected water pressure data to the controller in real time to perform the comparative analysis with the preset water pressure. If the water pressure data is still less than the preset water pressure, the controller controls the current flowing through the booster pump to continue increasing, so that the power of the booster pump continuously increases, and the water pressure gradually rises until the water pressure data is greater than or equal to the preset water pressure. When the water pressure data is larger than or equal to the preset water pressure, the controller controls the booster pump to maintain the current power operation.

Referring to fig. 2, in an embodiment, after step S200, the method further includes step S400.

And step S400, if the timing pressurization is not started, controlling a booster pump of the water supply system to perform pressurization through the mobile terminal so as to enable the water pressure data to reach the preset water pressure.

Specifically, in this embodiment, the user may also perform the water pressure pressurization control in other manners, and when the timing pressurization function is not turned on, the user directly controls the pressurization pump of the water supply system through the mobile terminal, and when the water pressure is too low, the water pressure pressurization operation is implemented. In this embodiment, the user only needs to send the pressurization instruction to the controller through the mobile terminal, and the controller can implement the corresponding pressurization operation according to the instruction until the water pressure data is greater than or equal to the preset water pressure. Compared with a mode of carrying out water pressure pressurization according to a time period or a time point corresponding to timing pressurization, the control mode is not limited by time and has the advantage of stronger control flexibility. Meanwhile, the water supply system is combined with the mobile terminal by the control mode, so that a user can carry out water pressure pressurization treatment anytime and anywhere, and the control method has stronger operation convenience.

Referring to fig. 3, in one embodiment, step S400 includes step S410, step S420 and step S430.

And step S410, pushing the information that the water pressure data is smaller than the preset water pressure to the mobile terminal to inform a user.

Specifically, referring to fig. 4, in the present embodiment, two different hydraulic pressurization control methods are pre-stored in the controller, one of which is to perform timed pressurization and the other is to perform controlled pressurization through the mobile terminal. In actual operation, the priority of the timing pressurization is higher than that of mobile terminal control pressurization, and the controller enables the mobile terminal pressurization only in the case that the timing pressurization is not started. Firstly, the controller can push the information that the water pressure data is less than the preset water pressure to the user, specifically can feed back the information to the APP of the mobile terminal for user reminding, and then the user further determines whether the water pressure boosting operation needs to be executed through the mobile terminal according to the self requirement.

It should be noted that the type of the mobile terminal is not exclusive, and specifically, the mobile terminal may be a mobile phone, a tablet computer, or other terminal device with a wireless communication function, as long as information interaction with the controller is achieved. It can be understood that when the water pressure data is smaller than the preset water pressure, the information is pushed to the mobile terminal, the mode for informing the user is not unique, the user can be informed through modes such as voice prompt, character display and vibration, and the user can be informed as long as the user can know the water pressure data in time.

Step S420, determining whether a pressurization control signal sent by the user through the mobile terminal is received.

Specifically, referring to fig. 4, after receiving the information that the water pressure data pushed by the controller is smaller than the preset water pressure, the user determines whether the water pressure needs to be pressurized according to the water demand of the user, and feeds back a corresponding pressurization control signal to the controller if the water pressure pressurization needs to be performed, and ignores the signal and does not send the pressurization control signal to the controller if the water pressure pressurization does not need to be performed. And if the controller judges that the pressurizing control signal sent by the user through the mobile terminal can be received, analyzing and judging whether the user sends the pressurizing control signal to the controller or not within the preset time after the water pressure data sent by the controller is smaller than the preset water pressure, and if the controller does not detect the pressurizing control signal within the preset time, indicating that the user does not have the requirement for water pressure pressurization.

If yes, the controller receives the pressurization control signal, and then step S430 is executed to control a booster pump of the water supply system to boost pressure. At the moment, the requirement of the user on useful water is indicated, water pressure pressurization is needed, tap water and the like can be stably transmitted to the user side, and therefore the requirement of the user on water use is guaranteed. It can be understood that the specific manner in which the controller controls the booster pump of the water supply system to boost pressure is similar to the manner in which the controller controls the booster pump to boost pressure when the booster pump automatically pressurizes in the above embodiment, and the specific manner is mainly realized by controlling the current flowing through the booster pump to increase so as to improve the operating power of the booster pump, and is not described herein again.

Further, referring to fig. 3, in an embodiment, after step S420, the method further includes: if not, returning to obtain the water pressure data. If no, the user does not need to carry out water pressure boosting at the moment in order to avoid waste of water resources and the like, or the water demand of the user for water is small. Therefore, in this case, the user does not feed back the pressurization control signal to the controller through the mobile terminal, that is, the controller analyzes and judges that the user does not send the pressurization control signal to the controller within a preset time after the sent water pressure data is smaller than the preset water pressure. In order to ensure that the user can timely respond when needing to adjust the water pressure in the subsequent operation, the controller can receive the water pressure data sent by the water pressure detection device again to perform the operation such as analysis.

Referring to fig. 5, in an embodiment, after step S200, the method further includes step S500.

And S500, if the timing pressurization is not started, controlling a booster pump of the water supply system to perform pressurization through the intelligent household equipment so as to enable the water pressure data to reach the preset water pressure.

Specifically, please refer to fig. 4 in combination, in this embodiment, the user may also perform the water pressure pressurization control in other manners, and when the timing pressurization function is not started, the user directly controls the booster pump of the water supply system through the smart home device, and when the water pressure is too low, the water pressure pressurization operation is implemented. In this embodiment, the user only needs to send the pressure boost instruction to the controller through the smart home devices, and the controller can realize corresponding pressure boost operation according to the instruction until the water pressure data is greater than or equal to the preset water pressure. Compared with a mode of carrying out water pressure pressurization according to a time period or a time point corresponding to timing pressurization, the control mode is not limited by time and has the advantage of stronger control flexibility. Simultaneously, this kind of control mode combines together water supply system and the intelligent household equipment that has the water demand, and the user can carry out water pressure boost anytime and anywhere and handle, has stronger operation convenience.

Referring to fig. 6, in one embodiment, step S500 includes step S510, step S520, and step S530.

And step S510, pushing the information that the water pressure data is smaller than the preset water pressure to the intelligent household equipment to inform a user.

Specifically, two different water pressure pressurization control methods are prestored in the controller, one is to pressurize at regular time, and the other is to control pressurization through an interconnection terminal of the intelligent household equipment. In the actual operation process, the priority of the timing pressurization is higher than that of the pressurization controlled by the mobile terminal, and only under the condition that the timing pressurization is not started, the controller enables the interconnection terminal pressurization of the intelligent household equipment. Firstly, the controller can push information that the water pressure data is smaller than the preset water pressure to a user, specifically, the information can be fed back to the intelligent household equipment with a voice prompt function, the intelligent household equipment informs the user in a voice signal mode, and the user further determines whether the water pressure pressurization operation needs to be executed through the intelligent household equipment according to the self demand.

It can be understood that, in other embodiments, information that the water pressure data is smaller than the preset water pressure can be pushed to the household equipment with the display function, and the like, as long as the user can be informed in time. It should be noted that the type of the smart home device is not exclusive, and specifically, the smart home device may be a voice smart water heater, a voice smart electric cooker or a voice smart toilet lamp.

And step S520, judging whether a voice pressurization control signal sent by the user through the intelligent household equipment is received.

Specifically, after receiving the information that the water pressure data pushed by the controller is smaller than the preset water pressure, the user determines whether the water pressure needs to be boosted by combining with the water demand of the user, and the determination is similar to the determination of whether the pressurization control signal sent by the mobile terminal is received in the above embodiment, and details are not repeated again.

If yes, step S530 is executed to control a booster pump of the water supply system to boost pressure. If yes, the user needs the useful water, water pressure pressurization is needed, tap water and the like can be stably transmitted to the user side, and therefore the water demand of the user is guaranteed. It can be understood that the specific manner in which the controller controls the booster pump of the water supply system to boost pressure is similar to the manner in which the controller controls the booster pump to boost pressure when the booster pump automatically pressurizes in the above embodiment, and the specific manner is mainly realized by controlling the current flowing through the booster pump to increase so as to improve the operating power of the booster pump, and is not described herein again.

Referring to fig. 6, in an embodiment, after step S520, the method further includes: if not, returning to obtain the water pressure data.

Specifically, if no indicates that the user has no water demand or has a small water demand, the user does not need to perform hydraulic pressurization in order to avoid waste of water resources and the like. Therefore, in this case, the user does not feed back the voice pressurization control signal to the controller through the smart home device, that is, the controller analyzes and judges that the user does not send the voice pressurization control signal to the controller within the preset time after the sent water pressure data is smaller than the preset water pressure. In order to ensure that the user can timely respond when needing to adjust the water pressure in the subsequent operation, the controller can receive the water pressure data sent by the water pressure detection device again to perform the operation such as analysis.

Referring to fig. 7, in an embodiment, after step S100, the method further includes: and when the water pressure data is greater than or equal to the preset water pressure, returning to obtain the water pressure data. When the controller carries out the analysis according to the water pressure data that acquire, the condition that water pressure data is greater than or equal to preset water pressure still can appear, then need not carry out the pressure boost to water pressure this moment and also can guarantee that user's water consumption is sufficient. Therefore, the controller will return the operation of obtaining the water pressure data again at this moment, obtain the water pressure data in real time and carry out contrastive analysis with predetermineeing the water pressure promptly to can in time carry out the water pressure boost when the water pressure data is less than predetermineeing the water pressure.

According to the water pressure boosting method of the water supply system, the water pressure detection sensor is arranged on the water supply system and used for detecting the water pressure data of water conveyed to a user, and the detected water pressure data is sent to the controller to be compared and analyzed with the preset water pressure. When the water pressure data is smaller than the preset water pressure and the timing pressurization function of the water supply system is started, the time controller corresponding to the timing pressurization is achieved and controls the booster pump to carry out pressurization processing, so that the water pressure data is increased and the preset water pressure is achieved. Through above-mentioned scheme, can carry out pressurization control when water pressure is low excessively, guarantee that user's water is sufficient, above-mentioned scheme does not need the user to operate to equipment department simultaneously and can realize the pressure boost, has the advantage that the operation convenience is high.

Referring to fig. 8, a hydraulic pressure boosting device of a water supply system includes: a water pressure data acquisition module 100, a timed pressurization judgment module 200 and a timed pressurization control module 300. The water pressure data acquisition module 100 is used for acquiring water pressure data; the timing pressurization judging module 200 is used for judging whether the water supply system is started to pressurize at a timing when the water pressure data is smaller than the preset water pressure; the timing pressurization control module 300 is configured to control a booster pump of the water supply system to perform pressurization when the timing pressurization is started and the time corresponding to the timing pressurization is reached, so that the water pressure data reaches a preset water pressure.

Referring to fig. 9, in one embodiment, the hydraulic pressurizing apparatus of the water supply system further includes a mobile terminal control module 400. The mobile terminal control module 400 is configured to control a booster pump of the water supply system to boost pressure through the mobile terminal if the timing pressurization is not started, so that the water pressure data reaches a preset water pressure.

In one embodiment, the mobile terminal control module 400 is further configured to push information that the water pressure data is smaller than the preset water pressure to the mobile terminal to notify the user; judging whether a pressurizing control signal sent by a user through a mobile terminal is received or not; if so, controlling a booster pump of the water supply system to boost pressure; if not, returning to obtain the water pressure data.

Referring to fig. 9, in an embodiment, the hydraulic pressure boosting apparatus of the water supply system further includes an intelligent home control module 500. The intelligent home control module 500 is used for controlling the booster pump of the water supply system to boost pressure through the intelligent home equipment if the timing pressurization is not started, so that the water pressure data reaches the preset water pressure.

In one embodiment, the smart home control module 500 is further configured to push information that the water pressure data is smaller than the preset water pressure to the smart home device to notify the user; judging whether a voice pressurization control signal sent by a user through intelligent household equipment is received; if so, controlling a booster pump of the water supply system to boost pressure; if not, returning to obtain the water pressure data.

In one embodiment, the timed pressurization determination module 200 is further configured to return to acquiring the water pressure data when the water pressure data is greater than or equal to the preset water pressure.

Specific limitations regarding the hydraulic pressurization device of the water supply system can be found in the above limitations regarding the hydraulic pressurization method of the water supply system, which are not described herein again. All or part of each module in the water pressure boosting device of the water supply system can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

Above-mentioned water supply system's water pressure supercharging device is provided with the water pressure detection sensor at water supply system and is used for detecting the water pressure data of the water of carrying for the user to the water pressure data that will detect the acquisition send the controller and predetermine the water pressure and carry out contrastive analysis. When the water pressure data is smaller than the preset water pressure and the timing pressurization function of the water supply system is started, the time controller corresponding to the timing pressurization is achieved and controls the booster pump to carry out pressurization processing, so that the water pressure data is increased and the preset water pressure is achieved. Through above-mentioned scheme, can carry out pressurization control when water pressure is low excessively, guarantee that user's water is sufficient, above-mentioned scheme does not need the user to operate to equipment department simultaneously and can realize the pressure boost, has the advantage that the operation convenience is high.

Referring to fig. 10, a water supply system includes a water pressure detecting device 20, a booster pump 30 and a controller 10, wherein the water pressure detecting device 20 is disposed in a water outlet pipe (not shown) of the booster pump 30, the water pressure detecting device 20 and the booster pump 30 are respectively connected to the controller 10, the water pressure detecting device 20 is configured to detect a water pressure and send obtained water pressure data to the controller 10, and the controller 10 is configured to perform boosting according to the above-mentioned method.

Specifically, the water pressure detecting device 20 is disposed at a water outlet pipe of the booster pump 30, so as to collect and obtain water pressure data that is sent to a user after the booster pump 30 performs boosting processing. The specific application scene of water supply system is not exclusive, specifically can be domestic running water supply system, industry water supply system etc. as long as can appear that the water supply system that water pressure is not enough all can adopt the water pressure boost mode of this application to carry out the pressure boost and handle, guarantees that the water supply is sufficient. To facilitate understanding of the various embodiments of the present application, the following description will be mainly explained in terms of a household tap water supply system to ensure that tap water supply of high-rise households is sufficient.

The preset water pressure is the minimum water pressure required by the user for normal water use, and when the preset water pressure is lower than the preset water pressure, the user can have the phenomenon of insufficient water supply or even water cut-off. The controller 10 stores preset water pressure, and after receiving the water pressure data, the controller 10 compares the preset water pressure with the preset water pressure for analysis, and according to the different size relationships between the water pressure data and the preset water pressure, the controller 10 executes different operations. The timing pressurization is to perform pressurization treatment on the water in a command time period or at a specified time point. It will be appreciated that the manner of determining whether the timed pressurization is on is not exclusive and in one embodiment, the determination may be made by determining whether the controller 10 receives a timed pressurization on command from a user within a preset time period. If the timing pressurization starting instruction is received, the user wants to realize the water pressure pressurization of the water supply system according to the pressurization program corresponding to the timing pressurization, and the timing pressurization starting is indicated at the moment. If the timing pressurization starting instruction sent by the user is not received within the preset time length, the timing pressurization function of the water supply system is not started.

When the controller 10 determines that the timing pressurization function of the water supply system is turned on, the controller 10 implements the water pressure pressurization control according to a control program corresponding to the timing pressurization. It can be understood that the time period or the time point corresponding to the timed pressurization is not unique, and taking the timed pressurization as the pressurization of water at the specified time as an example, a user may set a timed pressurization function in the controller 10 in advance according to the living habits of the user, the peak time of regional water consumption, and the like, that is, if the water pressure data in the specified time period is less than the preset water pressure in the controller 10, the controller 10 performs corresponding operations so as to increase the water pressure. For example, in one embodiment, the time period corresponding to the time period from 11 am to 1 pm is set by the user, and if the user has a water demand during the time period and the water pressure data is less than the preset water pressure, the controller 10 will control the booster pump 30 to boost the water pressure in a polar manner.

Referring to fig. 11, in one embodiment, the water supply system further includes a mobile terminal 40, and the mobile terminal 40 is communicatively connected to the controller 10.

Specifically, in this embodiment, the user may also perform the water pressure boosting control in other manners, and in the case that the timing pressurization function is not turned on, the user directly controls the booster pump 30 of the water supply system through the mobile terminal 40, and in the case that the water pressure is too low, the water pressure boosting operation is implemented. In this embodiment, the user only needs to send the pressurization instruction to the controller 10 through the mobile terminal 40, and the controller 10 can implement the corresponding pressurization operation according to the instruction until the water pressure data is greater than or equal to the preset water pressure. Compared with a mode of carrying out water pressure pressurization according to a time period or a time point corresponding to timing pressurization, the control mode is not limited by time and has the advantage of stronger control flexibility. Meanwhile, the control mode combines the water supply system with the mobile terminal 40, so that a user can carry out water pressure pressurization treatment at any time and any place, and the operation convenience is higher.

Referring to fig. 11, in an embodiment, the water supply system further includes a smart home device 50, and the smart home device 50 is in communication connection with the controller 10.

Specifically, please refer to fig. 4 in combination, in this embodiment, the user may also perform the water pressure boosting control in other manners, and when the timing pressurization function is not started, the user directly controls the booster pump 30 of the water supply system through the smart home device 50, and when the water pressure is too low, the water pressure boosting operation is implemented. In this embodiment, the user only needs to send the pressurization instruction to the controller 10 through the smart home device 50, and the controller 10 can implement the corresponding pressurization operation according to the instruction until the water pressure data is greater than or equal to the preset water pressure. Compared with a mode of carrying out water pressure pressurization according to a time period or a time point corresponding to timing pressurization, the control mode is not limited by time and has the advantage of stronger control flexibility. Simultaneously, this kind of control mode combines together water supply system and the intelligent household equipment 50 that has the water demand, and the user can carry out water pressure boost anytime and anywhere and handle, has stronger operation convenience.

Above-mentioned water supply system is provided with the water pressure detection sensor at water supply system and is used for detecting the water pressure data of the water of carrying for the user to the water pressure data that will detect and obtain sends the controller and predetermines the water pressure and carry out contrastive analysis. When the water pressure data is smaller than the preset water pressure and the timing pressurization function of the water supply system is started, the time controller corresponding to the timing pressurization is achieved and controls the booster pump to carry out pressurization processing, so that the water pressure data is increased and the preset water pressure is achieved. Through above-mentioned scheme, can carry out pressurization control when water pressure is low excessively, guarantee that user's water is sufficient, above-mentioned scheme does not need the user to operate to equipment department simultaneously and can realize the pressure boost, has the advantage that the operation convenience is high.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (12)

1. A method of hydraulic pressurization of a water supply system, the method comprising:

acquiring water pressure data, wherein the water pressure data is obtained by detecting a water pressure detection device of a water supply system;

when the water pressure data is smaller than the preset water pressure, judging whether the water supply system is started to pressurize at regular time;

and if the timing pressurization is started, controlling a booster pump of the water supply system to perform pressurization when the time corresponding to the timing pressurization is reached so as to enable the water pressure data to reach the preset water pressure.

2. The water pressure boosting method according to claim 1, wherein after the step of determining whether the water supply system is on for timed pressurization when the water pressure data is less than a preset water pressure, further comprising:

and if the timing pressurization is not started, controlling a booster pump of the water supply system to perform pressurization through the mobile terminal so as to enable the water pressure data to reach the preset water pressure.

3. The water pressure boosting method according to claim 2, wherein the step of boosting by controlling a booster pump of the water supply system through a mobile terminal comprises:

pushing the information that the water pressure data is smaller than the preset water pressure to a mobile terminal to inform a user;

judging whether a pressurizing control signal sent by a user through the mobile terminal is received or not;

and if so, controlling a booster pump of the water supply system to boost.

4. The hydraulic pressurizing method according to claim 3, wherein the step of determining whether the pressurizing control signal transmitted from the user through the mobile terminal is received further comprises:

and if not, returning the acquired water pressure data.

5. The water pressure boosting method according to claim 1, wherein after the step of determining whether the water supply system is on for timed pressurization when the water pressure data is less than a preset water pressure, further comprising:

and if the timing pressurization is not started, controlling a booster pump of the water supply system to perform pressurization through the intelligent household equipment so as to enable the water pressure data to reach the preset water pressure.

6. The water pressure boosting method according to claim 5, wherein the step of boosting by controlling a booster pump of the water supply system through smart home equipment comprises:

pushing the information that the water pressure data is smaller than the preset water pressure to intelligent household equipment to inform a user;

judging whether a voice pressurization control signal sent by a user through the intelligent household equipment is received;

and if so, controlling a booster pump of the water supply system to boost.

7. The water pressure boosting method according to claim 6, wherein after the step of determining whether the voice pressurization control signal sent by the user through the smart home device is received, the method further comprises:

and if not, returning the acquired water pressure data.

8. The water pressure boosting method according to claim 1, wherein the step of obtaining water pressure data is followed by further comprising:

and when the water pressure data is greater than or equal to the preset water pressure, returning to obtain the water pressure data.

9. A hydraulic pressurizing device for a water supply system, the device comprising:

the water pressure data acquisition module is used for acquiring water pressure data, and the water pressure data is obtained by detecting a water pressure detection device of the water supply system;

the timing pressurization judging module is used for judging whether the water supply system is started to pressurize at regular time or not when the water pressure data is smaller than the preset water pressure;

and the timing pressurization control module is used for controlling a booster pump of the water supply system to carry out pressurization when the timing pressurization is started and the time corresponding to the timing pressurization is reached so as to enable the water pressure data to reach the preset water pressure.

10. A water supply system is characterized by comprising a water pressure detection device, a booster pump and a controller, wherein the water pressure detection device is arranged on a water outlet pipeline of the booster pump, the water pressure detection device and the booster pump are respectively connected with the controller,

the water pressure detection device is used for detecting water pressure and sending the obtained water pressure data to the controller, and the controller is used for carrying out pressurization according to the method of any one of claims 1 to 8.

11. The water supply system of claim 10, further comprising a mobile terminal in communicative connection with the controller.

12. The water supply system according to claim 10, wherein the system further comprises smart home equipment, the smart home equipment being in communication with the controller.

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