CN109343359B - Intelligent switch, intelligent control system, method and device and electronic equipment - Google Patents

Abstract

The application discloses intelligence switch, intelligent control system, method, device and electronic equipment, intelligence switch connects power supply and electrical apparatus respectively, and this intelligence switch includes: the state detection module is used for acquiring the working state of the electric appliance; and the control module is connected with the state detection module and used for generating a control instruction according to the working state so as to control the connection state between the electric appliance and the power supply. The intelligent switch provided by the application can accurately identify the working state of an intelligent product, so that the intelligent product can be correctly controlled, the intelligent product can enter the working state from the sleep state only through one-time operation, and the intelligent switch can be used by a user conveniently while the use requirement of the user is met.

Description

Intelligent switch, intelligent control system, method and device and electronic equipment

Technical Field

The present disclosure relates to the field of smart home technologies, and more particularly, to an intelligent switch, an intelligent control system, a method, an apparatus, an electronic device, and a storage medium.

Background

The existing switch is usually disposed on a wall or a floor, and a user can control power supply of various electric devices by controlling the switch. However, the existing switch is mainly used for controlling the on-off state of the electric equipment and the power supply, and the problem that the state of the switch is inconsistent with the working state of the electric equipment is easy to occur, so that the electric equipment is difficult to control according to the needs of users in the actual use process.

Disclosure of Invention

In view of the above problems, the present application provides an intelligent switch, an intelligent control system, a method, an apparatus, an electronic device, and a storage medium, which can accurately identify the operating state of an intelligent product and realize correct control of the intelligent product.

In a first aspect, an embodiment of the present application provides an intelligent switch, and this intelligent switch connects power supply and uses electrical apparatus respectively, includes: the state detection module is used for acquiring the working state of the electric appliance; and the control module is connected with the state detection module and used for generating a control instruction according to the working state so as to control the connection state between the electric appliance and the power supply.

In a second aspect, an embodiment of the present application provides an intelligent control system, where the system includes: a power supply; the electric appliance enters a first working state after being electrified; the intelligent switch according to the first aspect is respectively connected to a power supply and an electrical appliance, and is configured to obtain an operating state of the electrical appliance and control a connection state between the electrical appliance and the power supply according to the operating state.

In a third aspect, an embodiment of the present application provides an intelligent control method, where the method includes: acquiring a state switching instruction; judging whether the switch is closed; when the switch is closed, detecting the current working state of the electric appliance, and judging whether the current working state is a sleep state; when the current working state is the sleep state, the control switch is switched from on to off and then switched from off to on.

In a fourth aspect, an embodiment of the present application provides an intelligent control device, where the device includes: the instruction module is used for acquiring a state switching instruction; the first judgment module is used for judging whether the switch is closed or not; the second judgment module is used for detecting the current working state of the electric appliance when the switch is closed and judging whether the current working state is a sleep state; and the control module is used for controlling the switch to be switched from on to off and then from off to on when the current working state is the sleep state.

In a fifth aspect, an embodiment of the present application provides an electronic device, where the device includes: one or more processors, memory, and one or more applications, wherein the one or more applications are stored in the memory and configured to be executed on the one or more processors, the one or more applications configured to perform the method of the third aspect as described above.

In a sixth aspect, embodiments of the present application provide a computer-readable storage medium, in which program code is stored, and the program code can be called by a processor to execute the method according to the third aspect.

The embodiment of the application provides an intelligent switch, intelligent control system, a method, a device, electronic equipment and storage medium, carry out state detection to electrical apparatus through increasing state detection module in intelligent switch, make the sleep state of electrical apparatus correctly identified, and then after obtaining state switching instruction, control switch switches to the disconnection from the closure, switch to the closure from the disconnection again, so, make the operating condition of electrical apparatus correctly identified by intelligent switch, and the user only need carry out once operation to intelligent switch, just can use electrical apparatus to get into normal operating condition from the sleep state, thereby realize the identification control to intelligent product, the inconvenience in the user use has been reduced, and user's user demand has been satisfied.

These and other aspects of the present application will be more readily apparent from the following description of the embodiments.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 illustrates a schematic structural diagram of an intelligent switch provided according to an embodiment of the present application;

FIG. 2 illustrates a block diagram of an intelligent control system provided according to an embodiment of the present application;

FIG. 3 illustrates a schematic structural diagram of an intelligent switch provided in accordance with another embodiment of the present application;

FIG. 4 illustrates a block diagram of an intelligent control system provided in accordance with another embodiment of the present application;

FIG. 5 is a flow chart illustrating a method for intelligent control according to an embodiment of the present application;

FIG. 6 is a flow chart illustrating another intelligent control method provided according to an embodiment of the present application;

FIG. 7 shows a block diagram of an intelligent control device provided according to an embodiment of the present application;

fig. 8 is a block diagram of an electronic device for executing an intelligent control method according to an embodiment of the present application.

Fig. 9 is a storage unit for storing or carrying program codes for implementing an intelligent control method according to an embodiment of the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

A great number of intelligent products capable of being independently controlled have emerged in the current market, and when the intelligent products are used in combination with a controller, misjudgment is easy to occur when whether the intelligent products normally work or not is judged because the state of independent control of the intelligent products cannot be known. Specifically, the state of the switch and the state of the intelligent product cannot be accurately synchronized, and the switch cannot distinguish whether the intelligent product is in a normal working state or a sleep state. And because the operating condition of the intelligent product can not be correctly identified, when the intelligent product is in a sleep state, a user hopes to click the switch to enable the intelligent product to enter a normal operating condition, but in the prior art, the switch is still in a closed state during the sleep state, so after the user clicks the switch, the switch is switched from the closed state to an open state, the intelligent product is enabled to enter a complete closed state due to the disconnection with the power supply, and the intelligent product is not enabled to enter the normal operating condition according to the requirements of the user, so that the use of the user is inconvenient.

In addition, when a user wants to turn off the intelligent product, the user can send an instruction to the intelligent product through the terminal to enable the intelligent product to enter a sleep state, but the intelligent product cannot be completely turned off only through terminal control, namely, the intelligent product is disconnected from a power supply. Therefore, when the user needs to completely turn off the intelligent product, the intelligent product is still required to be disconnected from the power supply through the disconnection switch. Therefore, the user can completely close the intelligent product by the terminal and the switch, so that the operation procedures and steps are increased, and inconvenience is brought to the user.

Based on the above problems, the inventor of the present invention has conducted a series of studies on the existing switch, the intelligent switch and the control method thereof, and has found that the control of the existing switch on the intelligent product needs to be performed on the switch and the intelligent product, respectively, and the existing intelligent switch cannot identify what causes the actual working state of the intelligent product and the control feedback are inconsistent.

In the research process, the inventor researches the difficulty of the current intelligent switch and the control method thereof, comprehensively considers the requirements of users in practical application, and provides the intelligent switch, the intelligent control system, the method, the device, the electronic equipment and the storage medium in the embodiment of the application.

The intelligent switch, the intelligent control system, the method, the device, the electronic device and the storage medium provided by the embodiments of the present application will be described in detail through specific embodiments.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an intelligent switch 100 according to an embodiment of the present application. As shown in fig. 1, the intelligent switch 100 is respectively connected to a power supply and an electrical appliance, and includes: a status detection module 110 and a control module 120. The state detection module 110 and the control module 120 are connected in series between the power supply and the electrical appliance.

In this embodiment, the state detection module 110 and the control module 120 are connected in series between the power supply and the electrical appliance, and are configured to obtain the operating state of the electrical appliance. The state detection module 110 may include at least one of the following devices: the power meter, the ammeter, the electric meter and other measuring devices are used for detecting working parameters between the power supply and the electric appliance and obtaining the working state of the electric appliance according to the detection result.

As an implementation manner, the state detection module 110 employs a power meter to detect power information of an electrical appliance, and then obtains the current working state of the electrical appliance according to the currently detected power information by querying a table corresponding to the power and the working state of the electrical appliance. For another example, the state detection module 110 detects the power consumption of the electrical appliance by using a power meter, and then obtains the current operating state of the electrical appliance according to the currently detected power consumption of the electrical appliance by querying a table indicating that the power consumption of the electrical appliance in unit time of the electrical appliance corresponds to the operating state. The principle of the state detection module 110 using other measuring devices is also the same, and therefore, the description thereof is omitted.

In this embodiment, by adding the state detection module 110, the intelligent switch 100 can identify the operating state of the electrical appliance, and, according to the operating parameter measured by the state detection module 110, the operating state of the electrical appliance is obtained by querying the correspondence table between the operating parameter of the electrical appliance and the operating state, so that the intelligent switch 100 can correctly identify the operating state of the electrical appliance, can distinguish different operating states of the electrical appliance, and lay a foundation for the intelligent switch 100 to correctly control the electrical appliance.

In this embodiment, the electrical appliance may be various electrical appliances such as an electric lamp, a television, a sound box, and the like. The working state of the electrical appliance at least comprises: a first operating state, a second operating state and a third operating state.

In the embodiment, when the electrical appliance is in the first working state, the electrical appliance is communicated with the power supply and works at the first power; when the electrical appliance is in a second working state, the electrical appliance is communicated with the power supply and works at a second power, and the second power is smaller than the first power; and when the electric appliance is in the third working state, the electric appliance is disconnected from the power supply. It should be noted that the second power may be any non-zero power smaller than the first power, that is, the second power may be a determined value, or may be any power falling within a range greater than zero and smaller than the first power.

As an embodiment, the measuring device adopted by the state detecting module 110 is a power meter, and the queried correspondence table between the operating parameter and the operating state of the electrical appliance may be a correspondence table between the power and the operating state of the electrical appliance. In this embodiment, when it is detected that the power of the electrical appliance is the first power, the operating state obtained by the state detection module 110 is the first operating state; when the power of the electrical appliance is detected to be the second power, the working state acquired by the state detection module 110 is the second working state; when it is detected that the power of the electrical appliance is the third power, the operating state acquired by the state detecting module 110 is the third operating state.

It can be understood that, different electrical appliances have different corresponding tables of power and operating state, so the corresponding relationship between the power and the operating state of the electrical appliances is different for different electrical appliances. The number of the working states corresponding to the electrical appliances can be three or more than three. When the number of the operating states corresponding to the electrical equipment is three, in this embodiment, the second power may be a certain power that falls within a range greater than zero and smaller than the first power, or may be any power, that is, when the detected power is greater than zero and smaller than the first power, the operating state of the electrical equipment may be considered as the second operating state. When the number of the corresponding working states of the electrical appliances exceeds three, the same reasoning can be applied, and therefore, the description is omitted.

In this embodiment, the corresponding table of the operating parameters and the operating states of the electrical appliance may be stored locally in the intelligent switch 100, that is, the intelligent switch 100 may query locally when querying the corresponding table of the operating parameters and the operating states of the electrical appliance. Through local query, the result can be rapidly and conveniently queried, and when the network signal is not good, the query efficiency can still be ensured, and the efficiency of acquiring the working state of the electrical appliance by the state detection module 110 due to network delay is avoided.

In this embodiment, the control module 120 is connected to the state detection module 110, and is configured to generate a control instruction according to the working state of the electrical appliance, which is obtained by the state detection module 110, so as to control the connection state of the electrical appliance and the power supply. The control module 120 includes a switch 121. The control instruction generated by the control module 110 at least includes: and the first control instruction is used for switching the electric appliance from the second working state to the first working state through the third working state when the electric appliance is in the second working state. The switch 121 is configured to sequentially perform opening and closing operations in response to the first control instruction, so as to control the electrical appliance to be switched from the second operating state to the first operating state via the third operating state.

In some embodiments, the switch 121 may be a relay, a smart socket, or the like that may perform an opening or closing function. It can be understood that when the switch 121 is in a closed state, the electrical appliance is communicated with the power supply, and the power supply can supply power to the electrical appliance; when the switch 121 is in an off state, the electrical appliance is disconnected from the power supply, and the power supply cannot supply power to the electrical appliance. In some embodiments, the control instructions generated by the control module 120 may further include: a second control instruction and a third control instruction.

The second control instruction is used for switching the electric appliance from the first working state to a third working state when the electric appliance is in the first working state; and the third control instruction is used for switching the electric appliance from the third working state to the first working state when the electric appliance is in the third working state.

In some embodiments, when the electrical appliance is in the first operating state, the control module 120 generates a second control instruction, and the control switch 121 is switched from on to off, so that the electrical appliance is switched from the first operating state to the third operating state, it can be understood that the operation of turning off the electrical appliance is realized by performing one operation on the intelligent switch 100, that is, switching from the normal operating state to the off state; when the electrical appliance is in the second working state, the control module 120 generates a first control instruction, the control switch 121 is switched from on to off, and then switched from off to on, so that the electrical appliance is switched from the second working state to the first working state, and it can be understood that the electrical appliance is directly switched into the normal working state from the sleep state by performing one-time operation on the intelligent switch 100; when the electrical equipment is in the third operating state, the control module 120 generates a third control instruction, and the control switch 121 is switched from off to on, so that the electrical equipment is switched from the third operating state to the first operating state.

In one particular application scenario, for example, when a user is watching a smart television, the user needs to leave temporarily, because the user wishes to return and continue watching, and therefore does not turn off the television power. Under the condition that the intelligent television detects that no user uses the intelligent television for a long time, the intelligent television automatically changes from the normal working state to the sleeping state. When a user needs to start the smart television and watch the smart television, the user only needs to click the smart switch 100 once, the smart switch 100 detects that the smart television is in a sleep state, at the moment, the switch 121 in the smart switch 100 is switched from on to off and then from off to on, so that the smart television enters a normal working state, namely works under rated power. Therefore, the user can change the electrical appliance from the sleep state to the normal working state only by operating the intelligent switch 100 once, the operation is simple and convenient, and the requirement that the user hopes to awaken the electrical appliance from the sleep state to the normal working state is met.

For another example, when the user watches the smart television and needs to turn off the smart television completely, the user can click the smart switch 100 once, the smart switch 100 detects that the smart television is in a normal working state at present, and at this time, the switch 121 in the smart switch 100 is switched from on to off, so that the smart television is turned off completely, and the connection with the power supply is disconnected. Therefore, the user only needs to operate the intelligent switch 100 once, the electric appliance can be completely turned off from the normal working state, and the power supply does not supply power to the electric appliance any more. However, in the prior art, after the smart television is turned off by using a remote controller or other terminal devices, the connection between the smart television and the power supply is still not cut off, that is, the smart television is not completely turned off, the smart television is only in a sleep state or a standby state, and if the smart television needs to be completely turned off, a switch for connecting the smart television with the power supply needs to be manually turned off, that is, if switching control between various working states needs to be performed on the smart television in the prior art, operations need to be performed on the switch and two platforms of the smart television, respectively, so that the complexity of the operations is increased.

In some embodiments, the smart switch 100 may further include an alarm module 130, configured to detect whether the current operating power of the electrical appliance is the turn-on power of the electrical appliance after controlling the electrical appliance to switch from the second operating state to the first operating state via the third operating state, and perform an alarm prompt when the current operating power of the electrical appliance is not the turn-on power of the electrical appliance. That is, after the control switch 121 is switched from on to off and then switched from off to on, the state detection module 110 detects the current operating power of the electrical appliance, and gives an alarm to the user when the current operating power is not the on power of the electrical appliance. It should be noted that the starting power of the electrical appliance can be obtained through a name plate of the electrical appliance, and can be the power of the electrical appliance immediately after power is turned on, and also can be the rated power of the electrical appliance. It is understood that the measurement device adopted by the state detection module 110 in the intelligent switch 100 is currently selected as a power meter, and is merely for convenience of description, and other measurement devices such as the current meter, the electricity meter, and the like that have been described above are also within the protection scope of the present solution, but the usage principle is substantially the same, and therefore, the description is omitted here.

It should be noted that, after the electrical equipment is controlled to be switched from the second operating state to the first operating state via the third operating state, when the current operating power of the electrical equipment is not the turn-on power of the electrical equipment, it indicates that the electrical equipment is not operating normally, and this condition may be determined as a failure of the electrical equipment or a disconnection of a circuit between the electrical equipment and the intelligent switch 100, and the alarm module 130 gives an alarm to the user. The alarm prompt may be any one or more of a sound alarm, a light alarm, and an alarm notification sent to the terminal of the user, which is not limited herein. Therefore, when the control feedback obtained after the intelligent switch 100 sends the control instruction to the electric appliance is inconsistent with the working state of the electric appliance, whether the control feedback is caused by the fault of the electric appliance or caused by the control problem of the intelligent switch 100 is judged, and fault detection and subsequent maintenance of the intelligent switch 100 are facilitated. The analysis and the processing of the user or maintenance personnel are facilitated, and the use convenience of the user is further improved.

Specifically, when the control feedback obtained after the intelligent switch 100 sends the control instruction to the electrical appliance is inconsistent with the working state of the electrical appliance and the alarm module 130 sends an alarm prompt, it indicates that the electrical appliance is in failure or the circuit between the electrical appliance and the intelligent switch 100 is disconnected, and at this time, the user can contact the staff for maintenance; when the control feedback obtained after the intelligent switch 100 sends the control instruction to the electrical appliance is inconsistent with the working state of the electrical appliance and the alarm module 130 does not send an alarm prompt, it indicates that the electrical appliance and the connection circuit thereof are not in fault, and at this time, the user can check the control scheme of the electrical appliance or the intelligent switch 100 at the terminal by himself or herself to try to solve the problem. Therefore, the user can carry out fault detection and maintenance by himself or prompt the user that the fault needs to be maintained when the fault cannot be solved by himself. The analysis and the processing of the user or maintenance personnel are facilitated, and the use convenience of the user is further improved.

Referring to fig. 2, fig. 2 is a schematic structural diagram of an intelligent control system 200 according to the present embodiment. As shown in fig. 2, the intelligent control system 200 includes: power supply 210, electrical appliance 220, and intelligent switch 230. Wherein the intelligent switch 230 may be the intelligent switch 100 of fig. 1.

The embodiment of the application provides an intelligent switch and an intelligent control system, the state detection module is added in the intelligent switch to detect the state of an electric appliance, so that the working state of the electric appliance can be correctly identified, and when the electrical appliance is in the sleep state, the intelligent switch acquires the state switching instruction, then the control switch is switched from on to off and then from off to on, so that the working state of the electrical appliance can be correctly identified by the intelligent switch, and the user only needs to execute one-time operation on the intelligent switch, the electric appliance can be enabled to enter the normal working state from the sleep state, therefore, the intelligent product is correctly controlled, a user only needs to operate on one platform of the intelligent switch, inconvenience in the use process of the user is reduced, and the use requirement of the user in switching the working state of the electric appliance is met. In addition, can also report to the police through increasing alarm module to the condition of using electrical apparatus trouble or using circuit disconnection between electrical apparatus and the intelligence switch suggestion to when feedback that obtains after the intelligence switch control is inconsistent with preset program, can discern and judge whether the reason is because of the trouble or the problem of using electrical apparatus self independent control, the troubleshooting of being convenient for does benefit to user or maintenance personal analysis and processing, further increases the convenience that the user used.

Referring to fig. 3, fig. 3 is a schematic structural diagram of an intelligent switch 300 according to another embodiment of the present application. As shown in fig. 3, the intelligent switch 300 has substantially the same structure as the intelligent switch described in the first embodiment, except that:

the smart switch 300 also includes a communication module 330.

In this embodiment, the communication module 330 is connected to the control module 320 and configured to receive a state switching instruction from the outside, and the control module 320 is further configured to control a connection state between the electrical appliance and the power supply according to the state switching instruction from the outside and the working state.

In this embodiment, the state switching instruction may be issued by operating on the main body of the intelligent switch 300, or may be issued to the intelligent switch 300 by a remote controller, a mobile phone, or other terminal device capable of remotely sending an instruction.

As an embodiment, the state switching command is issued by a user operating on the intelligent switch main body, specifically, for example, the intelligent switch is a button switch, and the intelligent switch can obtain the state switching command by clicking a button on the intelligent switch.

As another embodiment, the communication module 330 may perform binding connection between the intelligent switch 300 and the gateway according to a device adding instruction sent by an application client on the terminal device, and after the binding is completed, the communication module 330 may obtain a state switching instruction according to a control operation sent by the application client.

In some other embodiments, the communication module 330 may further obtain the state switching instruction according to a control signal sent by the remote controller.

In this embodiment, the communication module 330 may be a WiFi module, a ZigBee module, or a bluetooth module, and binds the intelligent switch 300 with the gateway, so that the intelligent switch 300 can be controlled by a terminal device as a sub-device under the gateway.

In a specific application scenario, for example, when a user is on the building and wants to turn off the ceiling lamp a in a down-floor living room, a turn-off command may be sent to the smart switch 300 through an application client capable of controlling the smart switch 300 on a terminal device such as a mobile phone, and the smart switch 300 may implement remote control of the ceiling lamp a upon receiving the turn-off command. It should be noted that the ceiling lamp a is connected with the intelligent switch 300, and the working state can be switched under the control of the intelligent switch 300. In this embodiment, by adding the communication module 330, remote control over the electrical appliance can be realized, the use requirements of more daily scenes of a user are met, and the use convenience is improved.

In this embodiment, the working parameter of electrical apparatus and the corresponding table of operating condition can be deposited in intelligence switch 300 locally, also can deposit in the cloud server, that is to say, intelligence switch 300 can inquire in local when the corresponding table of working parameter and operating condition of electrical apparatus, also can inquire through communicating with the cloud server.

As an implementation manner, the correspondence table between the operating parameters and the operating states of the electrical appliance is stored locally in the intelligent switch 300, the result can be quickly and conveniently queried through local query, and when the network signal is not good, the query efficiency can still be ensured, thereby avoiding the influence on the efficiency of the state detection module 310 on obtaining the operating states of the electrical appliance due to network delay.

As another embodiment, the correspondence table between the operating parameters and the operating states of the electrical appliances is stored in the cloud server, so that the storage pressure on the intelligent switch 300 itself can be avoided, the requirement on the local storage capacity of the intelligent switch 300 is reduced, and the manufacturing cost of the intelligent switch 300 can be reduced.

Further, in some other embodiments, the cloud server may further deploy a machine learning model, transmit the working parameters detected by the state detection module 310 to the cloud server through the communication module 330 on the smart switch 300, input the machine learning model deployed on the cloud server, output the working state of the electrical appliance corresponding to the working parameters through the machine learning model, and then return to the state detection module 310 to obtain the working state corresponding to the current working parameters of the electrical appliance. Therefore, the working state of the electric appliance is identified through artificial intelligence, and the electric appliance is controlled correctly.

In some embodiments, the machine learning model takes a plurality of corresponding relations between power and working state as a training set, for example, an electrical appliance works in the working state a, and the power of the electrical appliance is power a; working in a working state B, wherein the power of the working state B is power B; … … are provided. The machine learning model is trained by using the training set, so that the working state corresponding to the specific power output can be obtained by inputting the specific power into the trained machine learning model. Therefore, the working state of the electrical appliance can be accurately identified, and the electrical appliance can be correctly controlled. Furthermore, the evaluation feedback of the user on the control result can be collected and transmitted to the cloud server through the communication module 330, and the machine learning model is updated by taking the evaluation feedback as a sample, so that the identification result of the working state is more accurate, and the control effect on the electric appliance is further optimized continuously.

Referring to fig. 4, fig. 4 is a schematic structural diagram of an intelligent control system 400 according to the present embodiment. As shown in fig. 4, the intelligent control system includes: power supply 410, consumer 420, intelligent switch 430. The intelligent switch 430 may be the intelligent switch 300 in fig. 3.

In this embodiment, the intelligent control system 400 may further include a cloud server 440 in communication connection with the intelligent switch 430, and the intelligent switch 430 is configured to obtain a corresponding table of the operating parameters and the operating states of the electrical appliances from the cloud server 440.

The embodiment of the application provides an intelligent switch and an intelligent control system, on the basis of the first embodiment, a communication module is added, remote control can be realized, in addition, the communication module can be used for communicating with a cloud server 440, on the basis of communicating with the cloud server 440, the correspondence table of the working state of the working parameters of the electric appliances stored in the local intelligent switch in the first embodiment can be stored in the cloud server 440, the requirement on the storage capacity of the intelligent switch is reduced, the manufacturing cost of the intelligent switch is reduced, and the intelligent switch is favorable for production and sale. In addition, a machine learning model can be deployed in the cloud server 440, so that the recognition accuracy of the intelligent switch on the working state of the electric appliance is improved, and the control effect of the intelligent switch on the electric appliance is further optimized. Referring to fig. 5, an embodiment of the present application provides an intelligent control method applied to an intelligent switch. As will be described in detail with respect to the flow shown in fig. 5, the intelligent control method may specifically include the following steps:

step S501: and acquiring a state switching instruction.

In this embodiment, the state switching instruction may be issued by operating on the intelligent switch main body, or may be issued to the intelligent switch by a remote controller, a mobile phone, or other device capable of remotely sending an instruction.

As an embodiment, the state switching command is issued by a user operating on the main body of the intelligent switch, and the internal structure of the intelligent switch can refer to fig. 1. The intelligent switch can comprise one or more of a button switch, a one-way press switch and the like. Specifically, for example, the intelligent switch is a button switch, and the intelligent switch can obtain the state switching instruction by clicking a button on the intelligent switch.

As another embodiment, the state switching instruction is sent to the intelligent switch by a user through a device capable of sending an instruction remotely, such as a remote controller, a mobile phone, and the like, and at this time, the internal structure of the intelligent switch may refer to fig. 2 and include a communication module. Specifically, for example, when a user sends an instruction to the smart switch on an application client that is capable of controlling the smart switch on a mobile phone, the smart switch obtains a state switching instruction through a communication module therein.

Step S502: and judging whether the switch is closed or not.

In this embodiment, the state detection module of the intelligent switch detects the working parameters in the circuit, and determines whether the switch is closed according to the detected working parameters. It should be noted that, when the switch is in the closed state, the power supply can supply power to the electrical appliance, and when the switch is in the open state, the power supply cannot supply power to the electrical appliance, and at this time, the electrical appliance is in the completely closed state. The operating parameters may include power, current, etc., as determined by the measurement devices employed in the condition detection module.

Specifically, for example, the intelligent switch detects the working state of the electrical appliance by using a power meter, and when the power detected by the power meter is zero, the switch is in a disconnected state; when the power detected by the power meter is not zero, the switch is in a closed state.

For another example, the intelligent switch detects the working state of the electrical appliance by using an ammeter, and when the current detected by the ammeter is zero, the switch is in a disconnected state; when the current detected by the current meter is not zero, the switch is in a closed state. It can be understood that the intelligent switch may employ measuring devices such as a power meter, a current meter, an electricity meter, and the principle for determining whether the switch is closed is substantially the same, and therefore, the details are not described herein.

In this embodiment, the determination result of determining whether the switch is closed may include:

when the switch is in the closed state, step S503 is executed;

when the switch is in the open state, the switch is switched from open to closed.

Step S503: when the switch is closed, the current working state of the electric appliance is detected, and whether the current working state is a sleep state or not is judged.

In this embodiment, the sleep state refers to an operating state in which the power of the electrical appliance is the minimum when the switch is in the closed state, and may be obtained by querying a corresponding table of the power and the state of the electrical appliance, where correspondingly, the power of the electrical appliance after being powered on is the turn-on power, and the power in the sleep state is smaller than the turn-on power.

When the switch is closed, the state detection module in the intelligent switch detects the working parameters of the electrical appliance, inquires the corresponding table of the working parameters and the working states of the electrical appliance according to the detected working parameters to obtain the current working state of the electrical appliance, and judges whether the current working state is a sleep state or not. Therefore, the intelligent switch can correctly identify the working state of the electrical appliance, can distinguish the normal working state and the sleep state of the electrical appliance, and lays a foundation for the intelligent switch to realize correct control on the electrical appliance.

As an implementation manner, when the switch is closed, the state detection module in the intelligent switch detects the working parameters of the electrical appliance, queries the correspondence table between the working parameters and the working states of the electrical appliance, and determines whether the working state corresponding to the detected working parameters is a sleep state.

In this embodiment, the determining whether the current working state is the sleep state includes:

when the current working state is the sleep state, executing step S504;

and when the current working state is the non-sleep state, switching the switch from the current state to another state. Specifically, if the current state of the switch is off, the switch is switched to on; and if the current state of the switch is closed, switching to be opened.

Step S504: when the current working state is the sleep state, the control switch is switched from on to off and then switched from off to on.

In this embodiment, the electrical appliance is in a sleep state, and the control module in the intelligent switch controls the switch to be switched from the current on state to the off state and then from the off state to the on state according to the current working state acquired by the state detection module.

In a specific application scenario, for example, in the prior art, the tv T is connected to the switch a, and the current tv T is in a sleep state, but since no display is displayed on the screen of the tv T, the user cannot determine whether the current tv T is in the sleep state or the power-off state. At this time, when the user wishes to turn on the television T, the switch a is clicked for the first time, and when it is found that the screen of the television T is still not displayed after clicking, the switch a is clicked for the second time, and at this time, the television T is turned on. It will be appreciated that the first time the user clicks on switch a, the television T is turned off directly, and the user's purpose is not fulfilled. If the intelligent control method provided by the embodiment is used for the intelligent switch B, and the intelligent switch B is connected with the television T, it can be realized that when a user clicks the switch for the first time, since the state detection module in the intelligent switch B detects that the current working state is the sleep state, the switch in the intelligent switch B is controlled to be switched from on to off, and then switched from off to on, the television T is awakened from the sleep state to directly enter the normal working state, so that the purpose of the user is realized, and only one operation needs to be performed on the intelligent switch B by the user in the awakening process, so that the user can conveniently use the television T while the user requirements are met.

Further, after step S504, step S505 and step S506 are also included, and please refer to fig. 6 for a flowchart of specific steps.

Step S505: and detecting whether the current working power of the electrical appliance is the starting power of the electrical appliance.

In this embodiment, the control switch is switched from on to off, and then switched from off to on, whether the current operating power of the electrical appliance is the on power of the electrical appliance is detected. It should be noted that the starting power of the electrical appliance can be obtained through a name plate of the electrical appliance, and can be the power of the electrical appliance immediately after power is turned on, and also can be the rated power of the electrical appliance.

Step S506: and when the current working power of the electric appliance is not the starting power of the electric appliance, giving an alarm for prompting.

In this embodiment, when the current operating power of the electrical appliance is not the turn-on power of the electrical appliance, it indicates that the electrical appliance is not operating normally, and this condition may be determined as a failure of the electrical appliance or a disconnection of a circuit between the electrical appliance and the intelligent switch, and the intelligent switch gives an alarm to a user for this condition. The alarm prompt may be any one or more of a sound alarm, a light alarm, and an alarm notification sent to the terminal of the user, which is not limited herein. Therefore, when the control feedback obtained after the intelligent switch sends the control instruction to the electric appliance is inconsistent with the working state of the electric appliance, whether the control feedback is caused by the fault of the electric appliance or caused by the control problem of the intelligent switch is judged, analysis and processing of a user or a maintenance worker are facilitated, and the use convenience of the user is further improved.

The embodiment provides an intelligent control method, which is applied to an intelligent switch, and can directly enable an electric appliance to enter a normal working state through one-time operation by identifying the current working state of the electric appliance and when the electric appliance is in a sleeping state. So, realize the correct discernment to the operating condition with electrical apparatus, can distinguish the normal operating condition and the sleep state with electrical apparatus to the realization satisfies user's user demand to the correct control with electrical apparatus, has improved the convenience that the user used. In addition, the alarm prompt can be carried out on the condition that the electric appliance is in failure or the circuit between the electric appliance and the intelligent switch is disconnected, so that when the condition that the feedback is inconsistent with the working state of the electric appliance after the intelligent switch is controlled, the problem that the reason is the failure or the independent control of the electric appliance can be identified and judged, the troubleshooting is convenient, the analysis and the processing of a user or a maintenance person are facilitated, and the use convenience of the user is further improved.

Referring to fig. 7, fig. 7 is a block diagram illustrating modules of an intelligent control device 600 according to an embodiment of the present disclosure. As will be explained below with respect to the block diagram of fig. 6, the intelligent control device 600 includes: an instruction module 610, a first determination module 620, a second determination module 630 and a control module 640, wherein:

the instruction module 610 is configured to obtain a state switching instruction.

The first determining module 620 is configured to determine whether the switch is closed.

The second determining module 630 is configured to detect a current working state of the electrical appliance when the switch is turned on, and determine whether the current working state is a sleep state.

Further, in this embodiment, the second determining module 630 includes:

the detection unit is used for detecting the working parameters of the electric appliance;

the query unit is used for querying a corresponding table of the working parameters and the working states of the electric appliances;

and the judging unit is used for judging whether the working state corresponding to the detected working parameter is a sleep state.

And the control module 640 is configured to control the switch to switch from on to off and then switch from off to on when the current working state is the sleep state.

Further, the intelligent control device 600 may further include:

the detecting module 650 is configured to detect whether the current operating power of the electrical appliance is the starting power of the electrical appliance.

And the prompting module 660 is used for giving an alarm prompt when the current working power of the electrical appliance is not the starting power of the electrical appliance.

The intelligent control device that this application embodiment provided is applied to intelligent switch, through discernment with the current operating condition of electrical apparatus to when being in the sleep state with electrical apparatus, can directly just make with electrical apparatus entering normal operating condition through one operation. So, realize the correct discernment to the operating condition with electrical apparatus, can distinguish the normal operating condition and the sleep state with electrical apparatus to the realization satisfies user's user demand to the correct control with electrical apparatus, has improved the convenience that the user used.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described apparatuses and modules may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, the coupling or direct coupling or communication connection between the modules shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or modules may be in an electrical, mechanical or other form.

In addition, functional modules in the embodiments of the present application may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode.

Referring to fig. 8, a block diagram of an electronic device according to an embodiment of the present disclosure is shown, where the electronic device 700 may be an intelligent switch. The electronic device 700 in the present application may include one or more of the following components: a processor 710, a memory 720, and one or more applications, which may be stored in the memory and configured to be executed by the one or more processors, connected by a system bus, the one or more programs configured to perform the methods as described in the foregoing method embodiments.

Wherein the processor of the electronic device 700 is configured to provide computing and control capabilities. The memory 720 of the electronic device 700 includes a nonvolatile storage medium 721 and an internal memory 722. The non-volatile storage medium 721 stores an operating system, application programs, and a database. The internal memory 722 provides an environment for the operation of the operating system and the application programs in the nonvolatile storage medium 721. The database of the electronic device 700 is used for storing a corresponding table of the operating parameters and the operating states of the electrical appliances.

In another embodiment of the present application, the electronic device 700 may further include a communication interface 730, where the communication interface 730 may adopt one or more of a WiFi module, a ZigBee module, or a bluetooth module, and is used for connecting and communicating with an external terminal through a network, on one hand, the electronic device 700 does not need to locally store a correspondence table between operating parameters and operating states of electrical appliances, and can obtain the correspondence table from the outside through the communication interface 730, thereby reducing the storage pressure of the electronic device 700, reducing the requirements of the electronic device 700 on storage capacity, and reducing the cost of production and manufacturing, and further facilitating production and sale. On the other hand can also communicate with the cloud server of deploying the machine learning model, utilizes the machine learning model of cloud server to detect the operating condition with electrical apparatus to gather the feedback and further train this machine learning model as the sample, realize more accurate detection and discernment, constantly optimize to electrical apparatus operating condition recognition effect, and then constantly optimize the control effect to electrical apparatus.

Those skilled in the art will appreciate that the structure shown in fig. 8 is a block diagram of only a portion of the structure relevant to the present disclosure, and does not constitute a limitation on the electronic device to which the present disclosure may be applied, and that a particular electronic device may include more or less components than those shown, or combine certain components, or have a different arrangement of components.

Referring to fig. 9, a block diagram of a computer-readable storage medium according to an embodiment of the present disclosure is shown. The computer-readable storage medium 800 stores program code that can be called by a processor to execute the methods described in the above-described method embodiments.

The computer-readable storage medium 800 may be an electronic memory such as a flash memory, an EEPROM (electrically erasable and programmable read only memory), an EPROM, a hard disk, or a ROM. Alternatively, the computer-readable storage medium 800 includes a non-transitory computer-readable storage medium. The computer readable storage medium 800 has storage space for program code 810 for performing any of the method steps described above. The program code can be read from or written to one or more computer program products. The program code 810 may be compressed, for example, in a suitable form.

To sum up, the intelligent switch, the intelligent control system, the method, the device, the electronic equipment and the storage medium provided by the embodiment of the application, the state detection module is added in the intelligent switch to detect the state of the electric appliance, so that the sleep state of the electric appliance can be correctly identified, and further after the state switching instruction is acquired, the control switch is switched from on to off and then switched from off to on, so that the working state of the electric appliance can be correctly identified by the intelligent switch, and a user only needs to perform one-time operation on the intelligent switch, so that the electric appliance can be used to enter a normal working state from the sleep state, thereby realizing the identification control of an intelligent product, reducing the inconvenience in the use process of the user, and meeting the use requirements of the user.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (14)

1. The utility model provides an intelligent switch, intelligent switch connects power supply and uses electrical apparatus respectively, its characterized in that, intelligent switch includes:

the state detection module is used for acquiring the working state of the electric appliance;

a control module, connected to the state detection module, configured to generate a control instruction according to a state switching instruction obtained by the intelligent switch and the working state, so as to control a connection state between the electrical appliance and the power supply, where the working state at least includes a first working state, a second working state, and a third working state, where in the first working state, the electrical appliance is connected to the power supply and works at a first power, in the second working state, the electrical appliance is connected to the power supply and works at a second power, the second power is smaller than the first power, and in the third working state, the electrical appliance is disconnected from the power supply, the control instruction at least includes a first control instruction, and the first control instruction is used when the electrical appliance is in the second working state, and switching the electrical appliance from the second working state to the first working state through the third working state.

2. The intelligent switch of claim 1, wherein the control instructions further comprise:

the second control instruction is used for switching the electric appliance from the first working state to the third working state when the electric appliance is in the first working state; or the like, or, alternatively,

and the third control instruction is used for switching the electric appliance from the third working state to the first working state when the electric appliance is in the third working state.

3. The intelligent switch of claim 1, wherein the control module comprises:

and the switch is used for responding to the first control instruction to sequentially perform opening and closing operations so as to control the electric appliance to be switched to the first working state from the second working state through the third working state.

4. The intelligent switch of claim 3, further comprising:

and the alarm module is used for detecting whether the current working power of the electrical appliance is the starting power of the electrical appliance or not after controlling the electrical appliance to be switched from the second working state to the first working state through the third working state, and giving an alarm prompt when the current working power of the electrical appliance is not the starting power of the electrical appliance.

5. The intelligent switch of claim 3, wherein the state detection module and the switch are connected in series between the power supply and the electrical consumer.

6. The intelligent switch of claim 5, wherein the state detection module comprises at least one of: power meter, ammeter.

7. The intelligent switch of claim 1, further comprising:

the communication module is connected with the control module, the communication module is used for receiving a state switching instruction from the outside, and the control module is further used for controlling the connection state between the electric appliance and the power supply according to the state switching instruction from the outside and the working state.

8. An intelligent control system, comprising:

a power supply;

the electric appliance enters a first working state after being electrified;

the intelligent switch according to any one of claims 1 to 7, wherein the intelligent switch is connected to the power supply and the electrical appliance, and the intelligent switch is configured to obtain an operating state of the electrical appliance, and control a connection state between the electrical appliance and the power supply according to a state switching instruction obtained by the intelligent switch and the operating state, where the operating state at least includes a first operating state, a second operating state, and a third operating state, where in the first operating state, the electrical appliance is connected to the power supply and operates at a first power, in the second operating state, the electrical appliance is connected to the power supply and operates at a second power, the second power is smaller than the first power, and in the third operating state, the electrical appliance is disconnected from the power supply, the control instruction at least comprises a first control instruction, and the first control instruction is used for switching the electric appliance from the second working state to the first working state through the third working state when the electric appliance is in the second working state.

9. The intelligent control system according to claim 8, further comprising:

the cloud server is in communication connection with the intelligent switch, and the intelligent switch is used for acquiring the corresponding table of the working parameters and the working state of the electric appliance from the cloud server.

10. An intelligent control method is applied to an intelligent switch and is characterized by comprising the following steps:

acquiring a state switching instruction;

judging whether the switch is closed;

when the switch is closed, detecting the current working state of the electric appliance, and judging whether the current working state is a sleep state;

and when the current working state is a sleep state, controlling the switch to be switched from on to off and then from off to on.

11. The method of claim 10, wherein after controlling the switch to switch from closed to open and from open to closed, the method further comprises:

detecting whether the current working power of the electric appliance is the starting power of the electric appliance;

and when the current working power of the electrical appliance is not the starting power of the electrical appliance, giving an alarm prompt.

12. An intelligent control device, comprising:

the instruction module is used for acquiring a state switching instruction;

the first judgment module is used for judging whether the switch is closed or not;

the second judgment module is used for detecting the current working state of the electric appliance when the switch is closed and judging whether the current working state is a sleep state;

and the control module is used for controlling the switch to be switched from on to off and then from off to on when the current working state is the sleep state.

13. An electronic device, comprising:

one or more processors;

a memory;

one or more applications, wherein the one or more applications are stored in the memory and configured to be executed by the one or more processors, the one or more applications configured to perform the method of claim 10.

14. A computer-readable storage medium, having stored thereon program code that can be invoked by a processor to perform the method of claim 10.

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