CN108710463B

CN108710463B - Operation method for intelligent household panel networking

Info

Publication number: CN108710463B
Application number: CN201810431849.2A
Authority: CN
Inventors: 蔡斌煌; 项日文; 谢志明; 魏建议
Original assignee: Xiamen Dnake Intelligent Technology Co ltd
Current assignee: Xiamen Dnake Intelligent Technology Co ltd
Priority date: 2018-05-08
Filing date: 2018-05-08
Publication date: 2021-02-02
Anticipated expiration: 2038-05-08
Also published as: CN108710463A

Abstract

The invention discloses an operation method for accessing a smart home panel into a network, which comprises the following steps: receiving a first touch signal when the intelligent household panel is in a standby state, wherein the first touch signal is generated by first touching of an operation key; determining that the generation time of the first touch signal is within a first time range, and enabling the intelligent household panel to enter an engineering state; receiving a second touch signal, wherein the second touch signal is generated by touching the operation key for the second time; determining that the generation time of the second touch signal is within a second time range, and enabling the intelligent household panel to enter a network access state; and determining that the gateway allows network access, and enabling the intelligent household panel to execute network access operation. The invention solves the problems of panel disassembly, misoperation and tool assistance in the prior art.

Description

Operation method for intelligent household panel networking

Technical Field

The invention relates to the technical field of networking operation, in particular to an operation method for networking of a panel of an intelligent home.

Background

The smart home is gradually deepened into the mind and is increasingly popularized in the general public. The intelligent household panel replaces a common switch panel and is a future driving force. Generally, smart home panels are classified into two systems, a wired system and a wireless system. The wired system needs to be wired in advance, and later maintenance is inconvenient. The wireless system is simpler than the wired system, and the subsequent maintenance is more convenient. Therefore, wireless systems are a popular driver.

The intelligent home panel of the wireless system needs to be set through a network access mode, so that a user can operate the intelligent home by operating the intelligent home panel. At present, the network access modes in the market are mainly as follows:

1. and detaching the upper panel to set the network. The upper panel is detached, and the set key is pressed within a period of time (for example, 3 seconds) after power is supplied to access the network. However, the panel is easily damaged when the upper panel is frequently disassembled, and the setting key needs to be pressed within three seconds after the power is on, so that the operation is inconvenient;

2. the long press of the setting key can access the network for a certain time. The operation mode is that after the set key is pressed for a preset time (for example, 8 seconds), the network access is applied. However, if the card key is encountered, the network access application state is entered. In addition, children operate or the user touches the network by mistake, so that the network is easy to enter the network access application state. And when entering the network access application state, the device information is reset and then network access is applied. At this time, if the gateway is not in the state of allowing network access, the setting application network access is not successfully established to generate an orphan point over a certain time, and the relevant control cannot be performed. And if other gateways are just allowed to access the network at the moment, other gateways can enter the other gateways at the moment, so that other residents can control the resident. Therefore, the network access mode is easy to have a misoperation mode;

3. the network is accessed by means of tools. The setting key is made into a built-in key, and a tool is required to be adopted to control the built-in setting key outside. However, this method can avoid the misoperation, but the engineering personnel must carry the tool with them, which still causes inconvenience to the engineering maintenance and inconvenient operation;

therefore, the operation of networking the intelligent household panel still has room for improvement.

Disclosure of Invention

The invention mainly aims to provide an operation method for networking a panel of an intelligent home, which aims to solve the problems that the panel needs to be disassembled, the misoperation needs to be carried out and a tool needs to be used in the prior art.

In order to solve the above problem, an embodiment of the present invention provides an operation method for accessing a smart home panel, including: receiving a first touch signal when the intelligent household panel is in a standby state, wherein the first touch signal is generated by first touching of an operation key; determining that the generation time of the first touch signal is within a first time range, and enabling the intelligent household panel to enter an engineering state; receiving a second touch signal, wherein the second touch signal is generated by touching the operation key for the second time; determining that the generation time of the second touch signal is within a second time range, and enabling the intelligent household panel to enter a network access state; and determining that the gateway allows network access, and enabling the intelligent household panel to execute network access operation.

According to the technical scheme, when the intelligent household panel is in the standby state, the first touch signal is received, the generation time of the first touch signal is determined to be within a first time range, the intelligent household panel is enabled to enter the engineering state, then the second touch signal is received, the generation time of the second touch signal is determined to be within a second time range, the intelligent household panel is enabled to enter the network access state, the gateway is determined to allow network access, and the intelligent household panel is enabled to execute the network access operation. Therefore, the intelligent household panel does not need to be disassembled and the network access operation is carried out in a state without tools, so that the network access operation setting of the intelligent household panel is safer, the misoperation can be effectively prevented, the damage rate can be reduced, and the operation efficiency of engineering personnel can be improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

fig. 1 is a flowchart of an operation method for networking a smart home panel according to an embodiment of the present invention;

FIG. 2 is a detailed flowchart of step S104 of FIG. 1;

FIG. 3 is a detailed flowchart of step S108 of FIG. 1;

fig. 4 is a detailed flowchart of step S110 of fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a flowchart of an operation method for networking a smart home panel according to an embodiment of the present invention. In this embodiment, the smart home surface may include operation keys and a processor. The operation keys can be used for a user to perform touch operation so as to generate corresponding touch signals. The processor can carry out corresponding operation to the intelligent home panel according to the key signal, and the processor can also communicate with the gateway so as to enable the intelligent home panel to carry out network access operation.

In step S102, a first touch signal is received when the smart home panel is in a standby state, where the first touch signal is generated by a first touch on an operation key. That is to say, when the smart home panel is in the standby state, the user may generate the first touch signal by touching the operation key (i.e., touching the operation key for the first time) disposed on the smart home panel, so that the processor disposed in the smart home panel may receive the first touch signal to perform corresponding processing.

In step S104, it is determined that the generation time of the first touch signal is within a first time range, and the smart home panel is enabled to enter an engineering state. That is, after the processor receives the first touch signal, the processor determines whether the generation time of the first touch signal is within a first time range. In the present embodiment, the first time range is, for example, 3 to 6 seconds.

When the processor determines that the generation time of the first touch signal is not within the first time range, that is, the generation time of the first touch signal is not within the range of 3 to 6 seconds, the processor keeps the smart home panel in a standby state. When the processor determines that the generation time of the first touch signal is within a first time range, namely the generation time of the first touch signal is within a range of 3 to 6 seconds, the processor can enable the intelligent home panel to enter an engineering state so as to perform subsequent operations.

In step S106, a second touch signal is received, where the second touch signal is generated by a second touch on the operation key. That is to say, after the smart home panel enters the engineering state, the user may generate the second touch signal by touching the operation key (i.e., touching the operation key for the second time) provided on the smart home panel again, so that the processor provided in the smart home panel may receive the second touch signal to perform corresponding processing.

In step S108, it is determined that the generation time of the second touch signal is within a second time range, and the smart home panel is enabled to enter a network access state. That is, after the processor receives the second touch signal, the processor determines whether the generation time of the second touch signal is within a second time range. In the present embodiment, the second time range is, for example, 3 to 6 seconds.

When the processor determines that the generation time of the second touch signal is not within the second time range, that is, the generation time of the second touch signal is not within the range of 3 to 6 seconds, the processor enables the smart home panel to enter a standby state. When the processor determines that the generation time of the second touch signal is within a second time range, namely the generation time of the second touch signal is within a range of 3 to 6 seconds, the processor can enable the intelligent home panel to enter a network access state so as to perform subsequent operations.

In step S110, it is determined that the gateway allows network access, and the smart home panel is enabled to execute the network access operation. That is to say, after the smart home panel enters the network access state, the processor communicates with the gateway to determine whether the gateway allows network access. When the gateway is determined to allow network access, the processor enables the intelligent home panel to execute network access operation so as to complete relevant setting of the network access operation. When the gateway is determined not to allow network access, the processor enables the intelligent household panel to enter a standby state so as to carry out the next network access operation of the intelligent household panel. Therefore, the intelligent household panel does not need to be disassembled and the network access operation is carried out in a state without tools, so that the network access operation setting of the intelligent household panel is safer, the misoperation can be effectively prevented, the damage rate can be reduced, and the operation efficiency of engineering personnel can be improved.

Further, step S112 may be included after step S110. In step S112, the smart home panel is enabled to return to the standby state. That is to say, after the smart home panel completes the network access operation, the processor enables the smart home panel to enter the standby state to complete the network access operation setting of the smart home panel, thereby avoiding the occurrence of false operation.

Fig. 2 is a detailed flowchart of step S104 of fig. 1. In step S202, it is determined whether the generation time of the first touch signal enters a first time range. In the present embodiment, the first time range is 3 to 6 seconds.

When it is determined that the generation time of the first touch signal does not enter the first time range, the generation time of the first touch signal is less than 3 seconds, the operation goes to step S204, and the smart home panel is kept in the standby state. That is, the first touch signal may be generated by the user unintentionally touching the operation key, and the processor may accordingly keep the smart home panel in the standby state to avoid a malfunction (e.g., incapability of controlling or automatic network logout).

On the other hand, when it is determined that the generation time of the first touch signal enters the first time range, which indicates that the generation time of the first touch signal is greater than 3 seconds and less than 6 seconds, the process proceeds to step S206, and a first indication signal is generated. That is to say, when the processor determines that the generation time of the first touch signal enters the first time range, the processor correspondingly generates the first indication signal to the indicator lamp arranged on the smart home panel, so that the indicator lamp generates the first flicker to prompt the user that the generation time of the first touch signal enters the first time range, and further subsequent operations are performed.

In step S208, it is determined whether the generation time of the first touch signal exceeds a first time range. That is, after generating the first indication signal, the processor further determines whether the generation time of the first touch signal exceeds the first time range, i.e., whether the generation time of the first touch signal exceeds 6 seconds.

When it is determined that the generation time of the first touch signal does not exceed the first time range, step S210 is performed, and the smart home panel is enabled to enter the engineering state. That is to say, after the first indication signal is generated, the processor determines that the generation time of the first touch signal does not exceed 6 seconds, which indicates that the user releases the operation key at this time, and the processor enables the smart home surface to enter the engineering state, so as to perform subsequent operations.

When it is determined that the generation time of the first touch signal exceeds the first time range, step S212 is performed, and the smart home panel is enabled to enter the standby state. That is to say, after the first indication signal is generated, the processor determines that the generation time of the first touch signal exceeds 6 seconds, which indicates that the operation key is still being touched, that is, the state of the operation key is a card key state, and the processor enables the smart home surface to enter a standby state and correspondingly stops generating the first indication signal, so as to avoid the occurrence of a false operation.

Fig. 3 is a detailed flowchart of step S108 of fig. 1. In step S302, it is determined whether the generation time of the second touch signal enters a second time range. In the present embodiment, the second time range is 3 to 6 seconds.

When it is determined that the generation time of the second touch signal does not enter the second time range, which indicates that the generation time of the second touch signal is less than 3 seconds, the method enters step S304, and the smart home panel is enabled to enter the standby state. That is, the second touch signal may be generated when the user touches the operation key for a period of time that is not enough, and the processor may accordingly keep the smart home panel in the standby state, so as to avoid a malfunction (e.g., an inability to control or an automatic network logout).

On the other hand, when it is determined that the generation time of the second touch signal enters the second time range, which indicates that the generation time of the second touch signal is greater than 3 seconds and less than 6 seconds, the process proceeds to step S306, and a second indication signal is generated. That is to say, when the processor determines that the generation time of the second touch signal enters the second time range, the processor correspondingly generates a second indication signal to the indicator lamp arranged on the smart home panel, so that the indicator lamp generates a second flicker to prompt the user that the generation time of the second touch signal enters the second time range, and further subsequent operations are performed. In this embodiment, the flicker rate of the second flicker is higher than the flicker rate of the first flicker, i.e. the first flicker is a slow flicker and the second flicker is a fast flicker.

In step S308, it is determined whether the generation time of the second touch signal exceeds a second time range. That is, after generating the second indication signal, the processor further determines whether the generation time of the second touch signal exceeds the second time range, i.e., whether the generation time of the second touch signal exceeds 6 seconds.

And when it is determined that the generation time of the second touch signal does not exceed the second time range, the method goes to step S310, and the smart home panel is enabled to enter the network access state. That is to say, after the second indication signal is generated, the processor determines that the generation time of the second touch signal does not exceed 6 seconds, which indicates that the user releases the operation key at this time, and the processor enables the smart home surface to enter the engineering state, so as to perform subsequent operations.

When it is determined that the generation time of the second touch signal exceeds the second time range, step S312 is performed, and the smart home panel is enabled to enter the standby state. That is to say, after the second indication signal is generated, the processor determines that the generation time of the second touch signal exceeds 6 seconds, which indicates that the operation key is still being touched, that is, the state of the operation key is a card key state, the processor enables the smart home surface to enter a standby state, and correspondingly stops generating the second indication signal, so as to avoid the occurrence of false operation.

Fig. 4 is a detailed flowchart of step S110 of fig. 1. In step S402, it is determined whether the gateway allows network entry. That is to say, the processor communicates with the gateway to determine whether the gateway allows the smart home panel to apply for the network access operation.

When it is determined that the gateway allows network access, the method proceeds to step S404, and enables the smart home panel to execute network access operation. That is, when it is determined that the gateway allows network access, the processor enables the smart home panel to perform a direct network access operation, so as to complete a relevant setting of the network access operation.

When determining that the gateway does not allow network access, the method proceeds to step S406, and determines whether the network access state exceeds a preset time. That is, after determining that the gateway does not allow network entry, the processor may determine whether the network entry status exceeds a preset time, so as to perform subsequent operations. The preset time can be adjusted by the user according to the requirement.

And when the network access state is determined not to exceed the preset time, returning to the step S402, and determining whether the gateway allows network access. That is, after it is determined that the network access state does not exceed the preset time, which indicates that the network access operation setting of the smart home panel can still be continued, the processor may continuously communicate with the gateway to determine whether the gateway allows network access again, until it is determined that the gateway allows network access, step S404 is performed, or until it is determined that the network access state exceeds the preset time, step S408 is performed.

And when the network access state is determined to exceed the preset time, the method enters step S408, and the intelligent household panel is enabled to enter the standby state. That is to say, when it is determined that the network access state exceeds the preset time, which indicates that the network access operation of the smart home panel exceeds the set time, the processor enables the smart home panel to enter the standby state, so as to avoid the occurrence of a false operation.

In summary, according to the technical solution of the present invention, when the smart home panel is in the standby state, the first touch signal is received, and the generation time of the first touch signal is determined within a first time range, the smart home panel is enabled to enter the engineering state, then the second touch signal is received, and the generation time of the second touch signal is determined within a second time range, the smart home panel is enabled to enter the network access state, and the gateway is determined to allow network access, so that the smart home panel is enabled to execute the network access operation. Therefore, the intelligent household panel does not need to be disassembled and the network access operation is carried out in a state without tools, so that the network access operation setting of the intelligent household panel is safer, the misoperation can be effectively prevented, the damage rate can be reduced, and the operation efficiency of engineering personnel can be improved.

The above description is only an example of the present invention, and is not intended to limit the present invention, and it is obvious to those skilled in the art that various modifications and variations can be made in the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. An operation method for networking a panel of an intelligent home is characterized by comprising the following steps:

receiving a first touch signal when the intelligent household panel is in a standby state, wherein the first touch signal is generated by first touching of an operation key;

determining that the generation time of the first touch signal is within a first time range, and enabling the intelligent household panel to enter an engineering state;

receiving a second touch signal, wherein the second touch signal is generated by touching the operation key for the second time;

determining that the generation time of the second touch signal is within a second time range, and enabling the intelligent household panel to enter a network access state;

and determining that the gateway allows network access, and enabling the intelligent household panel to execute network access operation.

2. The operating method for networking of an intelligent home panel according to claim 1, wherein determining that the generation time of the first touch signal is within a first time range, enabling the intelligent home panel to enter an engineering state comprises:

determining whether a generation time of the first touch signal enters a first time range;

when the generation time of the first touch signal is determined not to enter a first time range, keeping the intelligent household panel in the standby state;

generating a first indication signal when it is determined that the generation time of the first touch signal enters a first time range;

determining whether a generation time of the first touch signal exceeds a first time range;

enabling the intelligent household panel to enter the engineering state when the generation time of the first touch signal is determined not to exceed a first time range;

and when the generation time of the first touch signal is determined to exceed a first time range, enabling the intelligent household panel to enter the standby state.

3. The operating method for the smart home panel networking of claim 1 or 2, wherein the first time range is 3 to 6 seconds.

4. The operating method for networking of the smart home panel according to claim 1, wherein the step of enabling the smart home panel to enter the networking state comprises the step of determining that the generation time of the second touch signal is within a second time range:

determining whether a generation time of the second touch signal enters a second time range;

enabling the intelligent household panel to enter the standby state when the generation time of the second touch signal is determined not to enter a second time range;

generating a second indication signal when it is determined that the generation time of the second touch signal enters a second time range;

determining whether a generation time of the second touch signal exceeds a second time range;

enabling the intelligent household panel to enter the network access state when the generation time of the second touch signal is determined not to exceed a second time range;

and when the generation time of the second touch signal is determined to exceed a second time range, enabling the intelligent household panel to enter the standby state.

5. The operating method for the smart home panel networking of claim 3, wherein the second time range is 3 to 6 seconds.

6. The operating method for the smart home panel networking of claim 4, wherein the second time range is 3 to 6 seconds.

7. The operating method for networking of the smart home panel according to claim 1, wherein the step of determining that the gateway allows networking and enabling the smart home panel to perform networking operation comprises:

determining whether the gateway allows network access;

when the gateway is determined to allow network access, enabling the intelligent home panel to execute network access operation;

when determining that the gateway does not allow network access, determining whether the network access state exceeds preset time;

when the network access state is determined not to exceed the preset time, returning to the step of determining whether the gateway allows network access;

and when the network access state is determined to exceed the preset time, enabling the intelligent household panel to enter the standby state.

8. The operating method for networking of a smart home panel according to claim 1, wherein the step of determining that the gateway allows networking and enabling the smart home panel to perform networking further comprises:

enabling the intelligent household panel to return to the standby state.