CN114690649A

CN114690649A - Multi-mode configuration method and device of control panel, equipment, panel and medium

Info

Publication number: CN114690649A
Application number: CN202011613207.8A
Authority: CN
Inventors: 陈雷; 游震春; 汤孝义
Original assignee: Lumi United Technology Co Ltd
Current assignee: Lumi United Technology Co Ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2022-07-01
Anticipated expiration: 2040-12-30
Also published as: CN114690649B

Abstract

The embodiment of the application provides a multi-mode configuration method and device of an intelligent control panel, the intelligent control panel, a terminal device and a medium, wherein the intelligent control panel comprises a base and a panel which are detachably connected, and the method comprises the following steps: acquiring the number of on-off devices included in the base; determining the parameter relation between the keys and the on-off device, determining the control relation between the keys and the on-off device according to the parameter relation, and forming different control modes for the load equipment associated with the on-off device according to the control relation. The corresponding relation between the keys and the on-off devices is defined through the configuration parameter relation, and the panels comprising different numbers of keys and the bottom plates of the on-off devices with different paths can be assembled, so that the configuration of the intelligent control panel has higher universality, the wrong installation and combination can be avoided, different intelligent control panel products do not need to be developed respectively aiming at various application scenes, and the cost is effectively reduced.

Description

Multi-mode configuration method and device of control panel, equipment, panel and medium

Technical Field

The present application relates to the field of smart home technologies, and in particular, to a multi-mode configuration method and apparatus for a smart control panel, a terminal device, and a computer-readable storage medium.

Background

The intelligent home is a trend of an information-oriented society, and the existing intelligent home devices generally adopt a remote control technology, and all the intelligent home devices are accessed to the same gateway or router through a panel switch to realize a networking function so as to carry out remote control. The panel switch generally includes a high Current (AC) and a low Current (DC), where the AC is controlled by a multi-way relay in the panel switch, and the DC is controlled by a physical key or a touch screen in the panel switch.

However, the known panel switch needs to configure relays and/or physical keys corresponding to the number of paths according to the number of external load equipment loops, so that the configuration of the panel switch is not universal, is not only easy to make mistakes, but also inconvenient to upgrade, and greatly increases the cost.

Disclosure of Invention

In order to solve the existing technical problems, the application provides a multi-mode configuration method and device of an intelligent control panel, the intelligent control panel, a terminal device and a computer readable storage medium, wherein the multi-mode configuration method and device can effectively avoid errors, reduce cost and have higher universality.

In order to achieve the above purpose, the technical solution of the embodiment of the present application is implemented as follows:

in a first aspect, an embodiment of the present application provides a multi-mode configuration method for an intelligent control panel, where the intelligent control panel includes a base and a panel that are detachably connected, and the method includes:

acquiring the number of on-off devices included in the base;

determining the parameter relationship between the keys and the on-off device, determining the control relationship between the keys and the on-off device according to the parameter relationship, and forming different control modes for the load equipment associated with the on-off device according to the control relationship.

In a second aspect, an embodiment of the present application provides a multi-mode configuration device for an intelligent control panel, where the intelligent control panel includes a base and a panel that are detachably connected, and the device includes:

the acquisition module is used for acquiring the number of the on-off devices included by the base;

and the control module is used for determining the parameter relationship between the keys and the on-off device, determining the control relationship between the keys and the on-off device according to the parameter relationship, and forming different control modes for the load equipment associated with the on-off device according to the control relationship.

In a third aspect, an embodiment of the present application provides an intelligent control panel, including a detachably connected base and a panel, where the base includes a first controller, a first memory connected to the first controller, and at least one on-off device, the panel includes a second controller, a second memory connected to the second controller, and a communication module, and a serial communication protocol is used between the first controller and the second controller for data transmission,

the first memory and the second memory store computer programs executable by the corresponding first controller and the second controller, and when the computer programs are executed by the first controller and the second controller, the computer programs implement the multi-mode configuration method of the intelligent control panel, which is applied to any embodiment of the intelligent control panel.

The embodiment of the application provides a multi-mode configuration method and device of an intelligent control panel and the intelligent control panel, wherein the intelligent control panel comprises a base and a panel which are detachably connected, the number of on-off devices contained in the base is obtained, the parameter relation between a key and the on-off devices contained in the panel is determined, the control relation between the key and the on-off devices is determined according to the parameter relation, different control modes of load equipment associated with the on-off devices are formed according to the control relation, therefore, the corresponding relation between the key and the on-off devices is defined through the configuration parameter relation, the panels containing different numbers of keys and bottom plates of the on-off devices with different paths can be assembled, the configuration of the intelligent control panel has universality, the occurrence of wrong installation combination can be avoided, and the intelligent control panel is suitable for application scenes of various external different load equipment loops, the upgrading can be conveniently completed by changing the parameter relationship between the keys and the on-off device when the load equipment loops of different numbers are externally connected, different intelligent control panel products do not need to be developed aiming at various application scenes, and the cost is effectively reduced.

In a fourth aspect, an embodiment of the present application provides a multi-mode configuration method for an intelligent control panel, which is applied to a terminal device, where the intelligent control panel includes a base and a panel that are detachably connected, and the method includes:

receiving the number of on-off devices included in the base and sent by the intelligent control panel, and generating a matched key interface according to the number of the on-off devices;

acquiring configuration parameters of a key and the on-off device based on the key interface;

and sending the configuration parameters to the intelligent control panel, and determining the control relation between the key and the on-off device by the intelligent control panel according to the configuration parameters so as to form different control modes of load equipment associated with the on-off device.

In a fifth aspect, an embodiment of the present application provides a multi-mode configuration device for an intelligent control panel, which is applied to a terminal device, where the intelligent control panel includes a base and a panel that are detachably connected, and the device includes:

the receiving module is used for receiving the number of the on-off devices included in the base and sent by the intelligent control panel and generating a matched key interface according to the number of the on-off devices;

the configuration module is used for acquiring configuration parameters of the key and the on-off device based on the key interface;

and the sending module is used for sending the configuration parameters to the intelligent control panel, and the intelligent control panel determines the control relation between the key and the on-off device according to the configuration parameters so as to form different control modes of load equipment associated with the on-off device.

In a sixth aspect, an embodiment of the present application provides a terminal device, including a processor, a memory, and a computer program stored on the memory and executable by the processor, where the computer program, when executed by the processor, implements the multi-mode configuration method of the intelligent control panel according to any embodiment of the present application applied to the terminal device.

According to the multi-mode configuration method and device for the intelligent control panel and the intelligent control panel, the terminal equipment receives the number of the on-off devices included in the base and sent by the intelligent control panel, and generates a matched key interface according to the number of the on-off devices; acquiring configuration parameters of a key and the on-off device based on the key interface; sending the configuration parameters to the intelligent control panel, and determining the control relation between the key and the on-off device by the intelligent control panel according to the configuration parameters so as to form different control modes of load equipment associated with the on-off device; therefore, the parameter relationship between the keys and the on-off devices is configured through the terminal equipment based on the number of the on-off devices, the corresponding relationship between the keys and the on-off devices is defined through the configuration parameter relationship, and the panel comprising the keys with different numbers and the bottom plate of the on-off devices with different paths can be assembled, so that the configuration of the intelligent control panel has higher universality, the wrong installation combination can be avoided, the intelligent control panel is suitable for various application scenes externally connecting different load equipment loops, the upgrading can be conveniently completed by changing the parameter relationship between the keys and the on-off devices when the load equipment loops with different numbers are externally connected, different intelligent control panel products do not need to be respectively developed aiming at various application scenes, and the cost is effectively reduced.

In a seventh aspect, this application provides a computer-readable storage medium, where a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the method for configuring multiple modes of an intelligent control panel according to any embodiment of this application is implemented.

The computer-readable storage medium provided in the foregoing embodiment is used to implement the multi-mode configuration method of the intelligent control panel provided in the embodiment of the present application, and has the same technical effects as the multi-mode configuration method of the intelligent control panel, and for avoiding repetition, details are not repeated here.

Drawings

Fig. 1 is a framework diagram of an internet of things system in an optional application scenario of a multi-mode configuration method of an intelligent control panel in an embodiment of the present application;

FIG. 2 is a schematic structural diagram of an intelligent control panel according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of an intelligent control panel according to an embodiment of the present application;

FIG. 4 is a flowchart of a multi-mode configuration method of an intelligent control panel according to an embodiment of the present application;

FIG. 5 is a schematic diagram of a parameter relationship between a key and an on-off device in an embodiment of the present application;

FIG. 6 is a flow chart of a method for multi-mode configuration of an intelligent control panel according to another embodiment of the present application;

FIG. 7 is a flow chart of a method for multi-mode configuration of a smart control panel in an alternative example of the present application;

FIG. 8 is a flow chart of a method for multi-mode configuration of a smart control panel in another alternative example of the present application;

FIG. 9 is a schematic diagram of a multi-mode configuration device for an intelligent control panel according to an embodiment of the present application;

FIG. 10 is a schematic diagram of a multi-mode configuration device for an intelligent control panel according to another embodiment of the present application;

FIG. 11 is a schematic structural diagram of an intelligent control panel according to an embodiment of the present application;

FIG. 12 is a schematic structural diagram of an intelligent control panel according to another embodiment of the present application;

fig. 13 is a schematic structural diagram of a terminal device in an embodiment of the present application;

fig. 14 is a schematic structural diagram of an intelligent control panel according to another embodiment of the present application.

Detailed Description

The technical solution of the present application is further described in detail with reference to the drawings and specific embodiments of the specification.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of implementations of the present application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application. In the description of the present application, the meaning of "a plurality" is two or more unless otherwise specified.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Referring to fig. 1, a framework diagram of an internet of things system for an optional application scenario of the multi-mode configuration method of the intelligent control panel according to the embodiment of the present application is shown. The internet of things system comprises an intelligent control panel 10, gateway equipment 53, a server 52, terminal equipment 51 and the like. The terminal device 51 may be any device having communication and storage functions, such as: the system comprises a smart phone, a desktop computer, a notebook computer, a tablet computer or other intelligent communication equipment with a network connection function. The server 52 may be a network access server, a database server, a cloud server, or the like. Optionally, the gateway device 53 may be built based on a ZigBee protocol, and the load device of the internet of things is controlled by the intelligent control panel 10, and may be added to the gateway device 53 in advance, for example, the load device of the internet of things may be a device in a suite to which the gateway device belongs when the gateway device 53 leaves a factory; or may be a device that is subsequently connected to the gateway device 53 by a user operation.

Optionally, a client capable of managing the load device of the internet of things is installed in the terminal device 51, where the client may be an application client (such as a mobile phone APP) or a web page client, and is not limited herein.

Optionally, the intelligent control panel 10 may establish a network connection with the gateway device 53 based on the ZigBee protocol, so as to join the ZigBee network.

The intelligent control panel 10, the terminal device 51 and the load device of the internet of things can be accessed into the ethernet through the gateway device 53, and the gateway device 53 can be accessed into the server through a wired or wireless communication connection mode. For example, the gateway device 53 and the terminal device 51 may store the acquired information in the server 52. Optionally, the terminal device 51 may also establish a network connection with the server 52 through 2G/3G/4G/5G, WiFi, so as to obtain data sent by the server 52.

Optionally, the terminal device 51, the gateway device 53 and the intelligent control panel 10 may be in the same local area network, or may be in the same wide area network as the server 52. When the terminal device 51 and the gateway device 53 are in the same local area network, the terminal device 51 may interact with the gateway device 53 and the intelligent control panel 10 connected to the gateway device 53 through a local area network path; it is also possible to interact with the gateway device 53 and the intelligent control panel 10 connected to the gateway device 53 through a wide area network path. When the terminal device 51 is not in the same local area network as the gateway device 53, the terminal device 51 may interact with the gateway device 53 and the smart control panel 10 connected to the gateway device 53 through a wide area network path. The internet of things system can further realize the control of opening or closing the internet of things load equipment within the range of the local area network or correspondingly connected with the local area network through the intelligent control panel 10. The internet of things load equipment can include, but is not limited to, smart home products such as smart lamps, automatic curtains and air conditioners.

Referring to fig. 2 and 3, the base 15 of the intelligent control panel is an Alternating Current (AC) board, and the panel 16 is a Direct Current (DC) board. The panel 16 may be a touch panel, and the keys included in the touch panel are corresponding virtual keys; the panel 16 may also be a key panel, and the keys included in the key panel are corresponding physical keys. The base 15 and the panel 16 communicate with each other by using a serial communication protocol, for example, the base 15 sends the number of the on-off devices included to the panel 16, and the panel 16 sends a control instruction to the corresponding on-off device on the base 15 according to the control relationship between the keys and the on-off devices after receiving an external control instruction. The number of the on-off devices included on the base 15 may be one or any number, the panel 16 obtains the number of the on-off devices included in the base 15, determines a parameter relationship between the keys included in the panel 16 and the on-off devices, determines a control relationship between the keys and the on-off devices according to the parameter relationship, and forms different control modes for load equipment associated with the on-off devices according to the control relationship.

Taking the panel 16 as a touch panel as an example, the touch panel obtains the number of on/off devices included in the base 15, the same number of virtual keys are displayed on the touch screen, the touch panel sends the number of on-off devices contained in the base 15 to the terminal equipment, the terminal equipment displays the same number of virtual keys on a corresponding configuration page of an application program implementing the multi-mode configuration method of the intelligent control panel, a user can configure the parameter relationship between the keys and the on-off devices on the corresponding configuration page of the terminal equipment, different working modes of the intelligent control panel are realized through the logical relationship between the keys and the on-off device, wherein the control relationship between the keys and the on-off device can be one-to-one, one-to-many, mutually exclusive, interlocking and the like, therefore, the number of the effective on-off devices is set, and the control relation between the keys and the effective on-off devices is set so as to realize different control modes of the connected load equipment of the Internet of things.

Taking the panel 16 as a key panel as an example, the key panel acquires the number of on-off devices contained in the base 15, the key panel sends the number of on-off devices contained in the base 15 and the number of mechanical keys contained in the key panel to the terminal device, the terminal device displays virtual keys the same as the number of the mechanical keys on a corresponding configuration page of an application program of the multi-mode configuration method of the intelligent control panel, a user can configure the parameter relationship between the keys and the on-off devices on the corresponding configuration page of the terminal device, different working modes of the intelligent control panel are realized through the logical relationship between the keys and the on-off device, wherein the control relationship between the keys and the on-off device can be one-to-one, one-to-many, mutually exclusive, interlocking and the like, therefore, the number of the effective on-off devices is set, and the control relation between the keys and the effective on-off devices is set so as to realize different control modes of the connected load equipment of the Internet of things.

Referring to fig. 4, a multi-mode configuration method for an intelligent control panel according to an embodiment of the present application is applicable to the intelligent control panel shown in fig. 1. The intelligent control panel comprises a base and a panel which are detachably connected, the multi-mode configuration method of the intelligent control panel comprises but is not limited to S101 and S103, and the specific introduction is as follows:

s101, acquiring the number of on-off devices included in the base.

The intelligent control panel can be assembled with different types of panels by adopting a base containing any number of on-off devices. After the assembled intelligent control panel is connected to a network, the intelligent control panel acquires the number of the on-off devices contained in the base and sends the number of the on-off devices contained in the base to the corresponding terminal equipment. The on-off device may be referred to as a relay.

S103, determining the parameter relation between the keys and the on-off device, determining the control relation between the keys and the on-off device according to the parameter relation, and forming different control modes for the load equipment associated with the on-off device according to the control relation.

The intelligent control panel determines the parameter relationship between the keys contained in the panel and the on-off device, and can adopt the following two modes: the method comprises the following steps that firstly, an intelligent control panel determines the parameter relation between a key and an on-off device according to the number of the on-off devices contained in a base and initial configuration parameters corresponding to the number of the on-off devices; and secondly, the intelligent control panel determines the parameter relation between the keys and the on-off devices according to the number of the on-off devices contained in the base and the updated configuration parameters after the terminals configure the keys and the on-off devices according to the number of the on-off devices. The parameter relationship between the key and the on-off device may include a corresponding state between the key and the on-off device and an action state between the key and the on-off device.

For the first approach, the initial configuration parameters corresponding to the number of on-off devices may include the following examples: the number of the on-off devices is 1, the corresponding state of the keys and the on-off devices is that the default single key 1 corresponds to the on-off devices in a one-to-one mode, and at the moment, the action of the key 1 is effective to one on-off device; the number of the on-off devices is 2, the corresponding state of the keys and the on-off devices is that the default single key 1 corresponds to the on-off devices in a one-to-two mode, and at the moment, the action of the key 1 is effective to 2 on-off devices; the number of the on-off devices is 3, the corresponding state of the keys and the on-off devices is that default single keys 1 correspond to the on-off devices in a one-to-three mode, and at the moment, the action of the keys 1 is effective to 3 on-off devices. The action states of the key and the on-off device are the default same-direction action.

For the second way, the updated configuration parameters corresponding to the number of on-off devices may include, but are not limited to, the following examples: the number of the on-off devices is 1, different single keys can be configured to correspond to the on-off devices in a one-to-one manner, for example, if the number of the keys included in the key panel is two, the left key 1 can be configured to correspond to the on-off devices in a one-to-one manner or the right key 2 can be configured to correspond to the on-off devices in a one-to-one manner. The number of the on-off devices is 2, different single keys can be configured to correspond to the on-off devices in a one-to-one manner, for example, if the number of the keys contained in the key panel is two, the left key 1 and the left on-off device can be configured to correspond to one, or the right key 2 and the right on-off device can be configured to correspond to one; or different single keys and the on-off devices can be configured to be in one-to-two correspondence, for example, a left key 1 and two on-off devices are configured to be in one-to-two correspondence, or a right key 2 and two on-off devices are configured to be in one-to-two correspondence; or different single keys can be configured to correspond to one on-off device, while the other on-off device is uncontrollable, for example, the right key 1 can be configured to correspond to the right on-off device in a one-to-one manner, while the left on-off device is invalid. The number of the on-off devices is 3, different single keys can be configured to correspond to the on-off devices in a one-to-one manner, for example, if the number of the keys in the key panel is three, a left key 1, a middle key 2 and a right key 3 can be configured to correspond to the left on-off device, the middle on-off device and the right on-off device in a one-to-one manner respectively; or different single keys and the on-off devices can be configured to be in one-to-two correspondence, and the other on-off device is not controllable, for example, the left key 1 corresponds to the left on-off device and the middle on-off device, and the right on-off device is not controllable; or different single keys are configured to correspond to the on-off devices in a one-to-three manner, for example, the left key 1 corresponds to the three on-off devices in a one-to-three manner. When the keys and the on-off device are in one-to-many corresponding states, the action states of the keys and the on-off device can be selectively configured into equidirectional actions or mutually exclusive actions. The mutual exclusion action means that the plurality of on-off devices keep reverse actions according to the closing or opening of the same associated on-off device.

The intelligent control panel determines the control relation between the key and the on-off device according to the parameter relation between the key and the on-off device, and different control modes of load equipment associated with the on-off device are formed according to the control relation. The control relation between the keys and the on-off device means that the on-off device which can be correspondingly controlled by each key in the panel can be determined according to the parameter relation between the keys and the on-off device, and the on-off device which can be correspondingly controlled by the on-off device can be controlled to be closed or opened by opening or closing each key, so that different control modes of load equipment related to the on-off device are formed by combining the connection relation between the on-off device and the internet of things load equipment controlled by the intelligent control panel.

In the above embodiment of the application, the intelligent control panel comprises a base and a panel which are detachably connected, the parameter relationship between the keys and the on-off devices included in the panel is determined by obtaining the number of the on-off devices included in the base, the control relationship between the keys and the on-off devices is determined according to the parameter relationship, and different control modes of the load equipment associated with the on-off devices are formed according to the control relationship, so that the corresponding relationship between the keys and the on-off devices is defined by configuring the parameter relationship, so that the panel including the keys with different numbers and the bottom plates of the on-off devices with different numbers can be assembled, the configuration of the intelligent control panel has universality, the occurrence of wrong installation combination can be avoided, the intelligent control panel can be suitable for various application scenes of external load equipment loops with different internet of things, and when the external load equipment loops with different numbers are connected, the parameter relationship between the keys and the on-off devices can be conveniently changed to complete upgrading, different intelligent control panel products do not need to be developed respectively aiming at various application scenes, and the cost is effectively reduced.

In some embodiments, the panel is a touch panel, and before determining the parameter relationship between the keys included in the panel and the on-off device, the method further includes:

and forming virtual keys respectively corresponding to the on-off devices on the panel according to the number of the on-off devices.

The base containing any number of on-off devices can be assembled with the touch panel, after the assembled intelligent control panel is connected to a network, the touch panel obtains the number of the on-off devices contained in the base, and virtual keys with corresponding number are formed on the panel according to the number of the on-off devices contained in the assembled base. The touch panel also sends the number of the on-off devices contained in the base to the corresponding terminal equipment so that the terminal equipment can form a corresponding number of virtual keys on a corresponding configuration page of an application program implementing the multi-mode configuration method of the intelligent control panel.

The touch panel forms a corresponding number of virtual keys according to the number of the on-off devices contained in the current base and the base assembled with the touch panel, and then parameter relations between the keys and the on-off devices are configured, so that the touch panel can be assembled with the bases of any number of the on-off devices, and the universality of the intelligent control panel is improved.

In some embodiments, the determining a parameter relationship between the keys included in the panel and the on-off device includes:

sending the number of the on-off devices to terminal equipment, and forming a matched key interface by the terminal equipment according to the number of the on-off devices;

receiving configuration parameters of the key and the on-off device, which are acquired by the terminal equipment based on the key interface;

and determining the parameter relationship between the key and the on-off device according to the configuration parameters.

The intelligent control panel sends the number of the on-off devices to the terminal equipment, the terminal equipment forms a matched key interface according to the number of the on-off devices, a user carries out configuration operation on the keys and the on-off devices through the key interface on the terminal equipment, the configuration operation can set corresponding state parameters between each key and the on-off devices, action state parameters of the keys and the on-off devices are set under the condition that the keys and the on-off devices are in one-to-many corresponding states, the terminal equipment obtains the configuration parameters of the keys and the on-off devices based on the configuration operation of the user and sends the configuration parameters to the intelligent control panel, and the intelligent control panel determines the parameter relationship between the keys and the on-off devices according to the configuration parameters. The intelligent control panel can communicate with the terminal equipment through the wireless communication module contained in the panel, so that data interaction between the intelligent control panel and the terminal equipment is realized, for example, the number of the on-off devices contained in the base is acquired through the panel, the on-off devices are sent to the terminal equipment, and configuration parameters of the keys and the on-off devices sent by the terminal equipment are received.

When the panel is a touch panel, the touch panel forms a corresponding number of virtual keys according to the number of the on-off devices contained in the base, the number of the keys in the touch panel and the number of the virtual keys in the key interface in the terminal equipment are kept the same as the number of the on-off devices, and the virtual keys in the key interface of the terminal equipment correspond to the virtual keys in the touch panel in the intelligent control panel. When the panel is a key panel, the key panel further sends the number of keys contained to the terminal equipment, the terminal equipment forms a matched key interface according to the number of keys contained in the key panel and the number of the on-off devices, the terminal equipment receives configuration operation of a user on the keys and the on-off devices on the basis of the key interface, configuration parameters are obtained according to the configuration operation and sent to the intelligent control panel, and the intelligent control panel determines the parameter relation between the keys and the on-off devices according to the configuration parameters.

The intelligent control panel can be formed by assembling a base containing any number of on-off devices and different types of panels, after the assembled intelligent control panel is connected to a network, the intelligent control panel can interact with terminal equipment to complete the configuration of the logical relation between the keys in the panel and the on-off devices in the base, different control relations between the keys of the panel and the on-off devices in the base are formed through configuration, then different control modes of the intelligent control panel on an externally connected Internet of things load equipment loop are formed, and the universality of the intelligent control panel is improved.

In some embodiments, the panel is a key panel, and the determining a parameter relationship between keys included in the panel and the on-off device further includes:

sending the number of the contained entity keys to the terminal equipment;

the receiving the configuration parameters of the key and the on-off device acquired by the terminal device based on the key interface, and determining the parameter relationship between the key and the on-off device according to the configuration parameters includes:

and receiving configuration parameters of the keys and the on-off device, which are acquired by the terminal equipment based on the key interface, and determining the number of effective entity keys included in the panel and the parameter relation between the effective entity keys and the on-off device according to the configuration parameters.

The intelligent control panel can be assembled by a base containing any number of on-off devices and different types of key panels, and when the number of the on-off devices contained in the base is inconsistent with the number of keys contained in the key panels, the terminal equipment forms corresponding key interfaces according to the number of the keys and the number of the on-off devices. The number of the effective entity keys refers to the number of the keys which are set by a user through a key interface on the terminal equipment and establish the corresponding relation between the actual key and the on-off device. Taking the on-off device as 2 and the number of keys in the key panel as 3 as an example, the number of virtual keys in the key interface formed by the terminal device is 3, and a user can configure the corresponding state and the action state of one or two virtual keys and two on-off devices in the key interface, for example, configure the virtual key 1 to correspond to the on-off device 1 and the virtual key 2 to correspond to the on-off device 2, and can correspondingly determine the parameter relationship between the key 1 and the key 2 of the panel and the on-off device according to the configuration operation, wherein the key 1 and the key 2 are effective entity keys.

The intelligent control panel sends the number of the on-off devices in the base and the number of the keys in the key panel to the terminal equipment, the terminal equipment forms a matched key interface, a user carries out configuration operation on the keys and the on-off devices through the key interface on the terminal equipment, the configuration operation can set corresponding state parameters between each key and the on-off devices, action state parameters of the keys and the on-off devices are set under the condition that the keys and the on-off devices are in one-to-many corresponding states, the terminal equipment obtains the configuration parameters of the keys and the on-off devices based on the configuration operation of the user and sends the configuration parameters to the intelligent control panel, and the intelligent control panel determines the parameter relationship between the keys and the on-off devices according to the configuration parameters. The intelligent control panel can be assembled by a base containing any number of on-off devices and a key panel containing any number of keys, after the assembled intelligent control panel is connected to a network, the intelligent control panel can interact with terminal equipment to complete the configuration of the logical relation between the keys in the panel and the on-off devices in the base, different control relations between the keys in the panel and the on-off devices in the base are formed through configuration, different control modes of the intelligent control panel on an external Internet of things load equipment loop are further formed, and the universality of the intelligent control panel is improved.

In some embodiments, the determining a parameter relationship between the key and the on-off device according to the configuration parameter includes:

under the condition that the current configuration state is determined to be the initial state, the panel determines the parameter relation between the keys and the on-off device according to the number of the entity keys, the preset number of different keys and the initial configuration parameters of the on-off device;

and under the condition that the current configuration state is determined to be the updating state, the panel determines the parameter relationship between the key and the on-off device according to the configuration parameters sent by the terminal equipment.

The initial state refers to a state when the intelligent control panel is restored to factory settings after being assembled and before or after being configured. The updating state is a state in which the corresponding state and the action state of the key and the on-off device are configured by the user through the terminal equipment after the intelligent control panel is assembled. After the intelligent control panel is powered on, judging whether a current user carries out over-configuration on the parameter relation between the key and the on-off device, if the intelligent control panel is assembled and is not configured or is restored to factory setting after the over-configuration, namely the current configuration state is an initial state, preferentially determining the control relation between the key and the on-off device by adopting a default parameter relation according to the initial configuration parameters corresponding to the number of the on-off devices, and forming different control modes on load equipment associated with the on-off device according to the control relation. After the intelligent control panel is assembled, under the premise that the corresponding states and action states of the keys and the on-off device are configured, namely the current configuration state is an update state, the control relation between the keys and the on-off device is preferentially determined according to the configured update configuration parameters, and different control modes of load equipment associated with the on-off device are formed according to the control relation.

As an optional example, the initial configuration parameters corresponding to the number of the on-off devices, and the updated configuration parameters obtained after configuring the corresponding states and the action states of the keys and the on-off devices may be as shown in the following table one:

watch 1

By setting initial configuration parameters corresponding to different numbers of on-off devices, the intelligent control panel can be ensured to realize control of external Internet of things load equipment after the intelligent control panel selects bases of the on-off devices with different numbers to be assembled with panels of different types, and the condition of wrong installation and combination is avoided; the control mode which meets different requirements of a user can be realized by supporting the updating of the corresponding state and the action state of the key and the on-off device, the continuously-increased high-end requirement of the user is met, the user experience is increased, different products do not need to be developed respectively aiming at various scenes, and the applicability is stronger.

Optionally, the multi-mode configuration method of the intelligent control panel further includes:

receiving an operation instruction based on the key sent by the terminal equipment, or acquiring the operation instruction aiming at the key by the panel;

and controlling the load equipment associated with the on-off device to execute corresponding actions according to the operation instruction and the control relation.

The user can control the intelligent control panel corresponding to the externally connected load equipment of the internet of things through the terminal equipment. The terminal device detects touch operation of a user on a key in a key interface, sends an operation instruction to the intelligent control panel based on the touch operation on the key, and the intelligent control panel controls the corresponding on-off device to execute a closing/opening action according to the operation instruction and the control relation between the key and the on-off device, so that the corresponding action on the internet of things load device correspondingly connected with the on-off device is correspondingly realized, and the corresponding action is executed, such as the control of the on-off or the control of the on-off of the internet of things load device, or the forward rotation or the reverse rotation of a motor of the internet of things load device, and the like. Optionally, the user can also directly operate the key in the panel of the intelligent control panel to control the intelligent control panel corresponding to the external load device of the internet of things. The touch panel detects touch operation of a user on the virtual keys, or the key panel detects pressing operation or shifting operation of the user on the mechanical keys, operation instructions are formed based on the operation on the keys in the panel, and the intelligent control panel controls the corresponding on-off device to execute on/off actions according to the operation instructions and the control relation between the keys and the on-off device, so that corresponding actions are executed on the load equipment of the internet of things correspondingly connected with the on-off device.

The intelligent control panel can be formed by assembling a base containing any number of on-off devices and a key panel containing any number of keys, after the assembled intelligent control panel is connected to a network, the intelligent control panel can interact with terminal equipment to complete the configuration of the logical relation between the keys in the panel and the on-off devices in the base, different control relations between the keys of the panel and the on-off devices in the base are formed through the configuration, a user can operate the terminal equipment or a local panel of the intelligent control panel to control different control modes of the intelligent control panel on an external load device loop of the Internet of things, the universality of the intelligent control panel is improved, and the continuously-increasing high-end use requirements of the user are met.

In some embodiments, the controlling, according to the operation instruction and the control relationship, the load device associated with the on-off device to perform a corresponding action includes:

under the condition that the control mode is a single-opening control mode, the control relations between the keys and the on-off devices are in one-to-one correspondence, and load equipment associated with the corresponding on-off devices is controlled to execute corresponding actions according to the operation instructions and the control relations;

under the condition that the control mode is a double-opening control mode, the control relations between the keys and the on-off devices are in one-to-one correspondence, and load equipment associated with the corresponding on-off devices is controlled to execute corresponding actions according to the operation instructions and the control relations; or the control relation between the key and the on-off device is a one-to-two synchronous corresponding relation, and the load equipment related to the corresponding on-off device is controlled to simultaneously execute corresponding actions according to the operation instruction and the control relation; or the control relation between the key and the on-off device is a one-to-two exclusive corresponding relation, and load equipment associated with the on-off device corresponding to the control relation is controlled to respectively execute opposite actions according to the operation instruction and the control relation;

under the condition that the control mode is a three-opening control mode, the control relations between the keys and the on-off devices are in one-to-one correspondence, and load equipment associated with the corresponding on-off devices is controlled to execute corresponding actions according to the operation instructions and the control relations; or the control relation between the key and the on-off device is a one-to-many synchronous corresponding relation, and the load equipment related to the corresponding on-off device is controlled to simultaneously execute corresponding actions according to the operation instruction and the control relation; or the control relation between the key and the on-off device is a one-to-many mutual exclusion corresponding relation, and the load equipment associated with the on-off device corresponding to the control relation is controlled to respectively execute opposite actions according to the operation instruction and the control relation.

As shown in fig. 5-1, the control relationships between the keys and the on-off devices are in a one-to-one correspondence relationship, which means that the number of keys included in the panel in the intelligent control panel is the same as the number of the on-off devices, one key corresponds to one on-off device, and the on or off of each key controls the on or off of the corresponding on-off device. As shown in fig. 5-2, the control relationship between the keys and the on-off devices is a one-to-many synchronous correspondence relationship, which means that one key in the panel of the intelligent control panel corresponds to a plurality of on-off devices at the same time, and the opening or closing of the key controls the closing or opening of the corresponding on-off devices. As shown in fig. 5-3, the control relationship between the keys and the on-off devices is a one-to-many mutual exclusion correspondence relationship, that is, one key in the panel of the intelligent control panel corresponds to a plurality of on-off devices at the same time, when some of the on-off devices in the plurality of on-off devices corresponding to the opening control of the key are closed, another part of the on-off devices are opened, otherwise, when some of the on-off devices in the plurality of on-off devices corresponding to the closing control of the key are opened, another part of the on-off devices are closed. For example, when the key 1 controls the on-off device 1 to be turned on, the key 1 can control the on-off device 3 to be turned off; the key 3 controls the on-off device 1 to be closed when controlling the on-off device 3 to be opened.

In an alternative specific example, in the single-open control mode, the control relationship between the key and the on-off device and the relationship for controlling the load device to execute the corresponding action may be as shown in the following table 2-1:

TABLE 2-1

In an alternative specific example, in the dual-open control mode, the control relationship between the key and the on-off device and the relationship for controlling the load device to perform the corresponding actions may be as shown in the following table 2-2:

tables 2 to 2

In an alternative specific example, in the three-open control mode, the control relationship between the keys and the on-off device and the relationship for controlling the load device to execute the corresponding actions may be as shown in the following tables 2 to 3:

tables 2 to 3

The configuration of different control modes is related to the number of on-off devices contained in the base in the intelligent control panel, and when the number of the on-off devices contained in the base only comprises one, the control modes only support a single-open control mode and do not support one-to-many synchronous corresponding relation or one-to-many mutual exclusion corresponding relation between the keys and the on-off devices. When the number of the on-off devices contained in the base is two, the control mode can support a single-opening control mode and also support a double-opening control mode, and under the double-opening control mode, one key action can be configured to realize that two on-off devices simultaneously act in the same way or one key action is configured to realize that two on-off devices keep reverse action. When the number of the on-off devices contained in the base is three, the control mode can support a single-opening control mode, a double-opening control mode or a three-opening control mode, and in the three-opening control mode, one key can be configured to realize the same action of the three on-off devices at the same time or one key can be configured to realize the reverse action of the two on-off devices and the other on-off device. Each on-off device is correspondingly connected with one or more load equipment loops, and the action of each on-off device correspondingly controls the load equipment in the corresponding one or more load equipment loops to execute corresponding actions, such as controlling the corresponding load equipment to be opened or closed, controlling the valve of the corresponding load equipment to be opened or closed, controlling the motor of the corresponding load equipment to rotate forwards or reversely, and the like.

Referring to fig. 6, another aspect of the present invention provides a multi-mode configuration method for an intelligent control panel, which can be applied to the terminal device shown in fig. 1, including but not limited to S201, S203, and S205, and is specifically described as follows:

s201, receiving the number of the on-off devices included in the base and sent by the intelligent control panel, and generating a matched key interface according to the number of the on-off devices.

And after the assembled intelligent control panel is connected to the network, the intelligent control panel acquires the number of the on-off devices contained in the base and sends the number of the on-off devices contained in the base to the corresponding terminal equipment. And the terminal equipment receives the number of the on-off devices sent by the intelligent control panel and generates a matched key interface according to the number of the on-off devices. Optionally, the base in the intelligent control panel may be assembled with the touch panel or with the key panel, and when the panel is the key panel, the intelligent control panel further includes a key number transmitting unit that transmits the number of keys included in the key panel to the terminal device, and the terminal device generates a matched key interface according to the number of keys and the number of the on-off devices.

And S203, acquiring configuration parameters of the key and the on-off device based on the key interface.

And the terminal equipment detects that the user carries out configuration operation based on the key interface and acquires configuration parameters of the key and the on-off device. The configuration parameters comprise corresponding states of the keys and the on-off device and action states of the keys and the on-off device. The configurable key and the corresponding state of the on-off device are in one-to-one relation or one-to-many relation according to the number of the on-off devices; when the corresponding states of the keys and the on-off devices are in one-to-one relationship, each key controls the on-off device associated with the key to execute corresponding action, and when the corresponding states of the keys and the on-off devices are in one-to-many relationship, the action states of the keys and the on-off devices can be equidirectional action or mutually exclusive action. The mutual exclusion action means that the plurality of on-off devices keep reverse actions according to the closing or opening of the same associated on-off device.

S205, sending the configuration parameters to the intelligent control panel, and determining the control relation between the key and the on-off device by the intelligent control panel according to the configuration parameters so as to form different control modes of load equipment associated with the on-off device.

The terminal equipment obtains configuration parameters of the key and the on-off device according to configuration operation of a user and sends the configuration parameters to the intelligent control panel, and the intelligent control panel determines the control relation between the key and the on-off device according to the configuration parameters so as to form different control modes of load equipment related to the on-off device. The control relation between the keys and the on-off devices refers to that the on-off devices which can be controlled by the keys correspondingly in the panel can be determined according to the parameter relation between the keys and the on-off devices, and the on-off devices can be controlled to be closed or opened by opening or closing the keys, so that different control modes of load equipment related to the on-off devices are formed by combining the connection relation between the on-off devices and the internet of things load equipment controlled by the intelligent control panel.

In the embodiment of the application, the terminal equipment receives the number of the on-off devices included in the base and sent by the intelligent control panel, and generates a matched key interface according to the number of the on-off devices; acquiring configuration parameters of a key and the on-off device based on the key interface; sending the configuration parameters to the intelligent control panel, and determining the control relation between the key and the on-off device by the intelligent control panel according to the configuration parameters so as to form different control modes of load equipment associated with the on-off device; therefore, the parameter relationship between the keys and the on-off devices is configured through the terminal equipment based on the number of the on-off devices, the corresponding relationship between the keys and the on-off devices is defined through the configuration parameter relationship, and the panel comprising the keys with different numbers and the bottom plate of the on-off devices with different paths can be assembled, so that the configuration of the intelligent control panel has higher universality, the wrong installation combination can be avoided, the intelligent control panel is suitable for various application scenes externally connecting different load equipment loops, the upgrading can be conveniently completed by changing the parameter relationship between the keys and the on-off devices when the load equipment loops with different numbers are externally connected, different intelligent control panel products do not need to be respectively developed aiming at various application scenes, and the cost is effectively reduced.

In some embodiments, the method for multi-mode configuration of the smart control panel further comprises:

receiving the number of entity keys included in the panel sent by the intelligent control panel;

the acquiring of the configuration parameters of the key and the on-off device based on the key interface comprises:

and acquiring the selected entity key and the parameter relation between the entity key and the on-off device based on the key interface to obtain the configuration parameters of the key and the on-off device.

The intelligent control panel can be assembled by a base containing any number of on-off devices and different types of key panels, the intelligent control panel sends the number of the on-off devices contained in the base and the number of keys contained in the key panels to the terminal equipment, and the terminal equipment forms corresponding key interfaces according to the number of the keys and the number of the on-off devices. The number of the effective entity keys refers to the number of the keys which are set by a user through a key interface on the terminal equipment and establish the corresponding relation between the actual key and the on-off device. Taking the on-off device as 2 and the number of keys in the key panel as 3 as an example, the number of virtual keys in the key interface formed by the terminal device is 3, and a user can configure the corresponding state and the action state of one or two virtual keys and two on-off devices in the key interface, for example, configure the virtual key 1 to correspond to the on-off device 1 and the virtual key 2 to correspond to the on-off device 2, and can correspondingly determine the parameter relationship between the key 1 and the key 2 of the panel and the on-off device according to the configuration operation, wherein the key 1 and the key 2 are effective entity keys.

The terminal equipment forms a matched key interface according to the number of the on-off devices and the number of the keys in the intelligent control panel, a user performs configuration operation on the keys and the on-off devices through the key interface on the terminal equipment, the configuration operation can set corresponding state parameters between each key and the on-off devices, action state parameters of the keys and the on-off devices are set under the condition that the keys and the on-off devices are in one-to-many corresponding states, the terminal equipment obtains the configuration parameters of the keys and the on-off devices based on the configuration operation of the user and sends the configuration parameters to the intelligent control panel, and the intelligent control panel determines the parameter relationship between the keys and the on-off devices according to the configuration parameters. The intelligent control panel can be formed by assembling a base containing any number of on-off devices and a key panel containing any number of keys, after the assembled intelligent control panel is connected to a network, the intelligent control panel can interact with terminal equipment to complete the configuration of the logical relation between the keys in the panel and the on-off devices in the base, different control relations between the keys in the panel and the on-off devices in the base are formed through the configuration, then different control modes of the intelligent control panel on an externally connected Internet of things load equipment loop are formed, and the universality of the intelligent control panel is improved.

In some embodiments, the key interface includes virtual keys corresponding to the number of the on-off devices, and the obtaining the configuration parameters of the keys and the on-off devices based on the key interface includes:

acquiring a configuration instruction for setting one-to-one correspondence between the virtual key and the on-off device, and acquiring configuration parameters of the key and the on-off device according to the configuration instruction; or the like, or, alternatively,

acquiring a configuration instruction for setting one-to-many synchronous corresponding relation between the virtual key and the on-off device, and acquiring configuration parameters of the key and the on-off device according to the configuration instruction; or the like, or, alternatively,

and acquiring a configuration instruction for setting one-to-many mutual exclusion corresponding relation between the virtual key and the on-off device, and acquiring configuration parameters of the key and the on-off device according to the configuration instruction.

The user configures the keys and the on-off device through the key interface of the terminal equipment, and the terminal equipment detects the configuration instruction input by the user through the key interface and sends the configuration instruction to the intelligent control panel. The configuration instruction may be a configuration instruction of a one-to-one correspondence relationship between the virtual key and the on-off device, a configuration instruction of a one-to-many synchronous correspondence relationship between the virtual key and the on-off device, or a configuration instruction of a one-to-many exclusive correspondence relationship between the virtual key and the on-off device.

The setting modes of different configuration instructions are related to the number of the on-off devices contained in the base in the intelligent control panel, and when the number of the on-off devices contained in the base only comprises one, the configuration instructions between the keys and the on-off devices only support single-open control configuration instructions, and do not support one-to-many synchronous corresponding relation or one-to-many mutual exclusion corresponding relation between the keys and the on-off devices. When the number of the on-off devices contained in the base is two, the configuration instruction between the key and the on-off devices can support a single-opening control configuration instruction or a double-opening control configuration instruction, and under the double-opening control configuration instruction, one key action can be configured to realize the same action of the two on-off devices at the same time or one key action is configured to realize the reverse action of the two on-off devices. When the number of the on-off devices contained in the base is three, the configuration instruction between the keys and the on-off devices can support a single-opening control configuration instruction, a double-opening control configuration instruction or a three-opening control configuration instruction, and under the three-opening control configuration instruction, one key action can be configured to realize the same action of the three on-off devices at the same time or one key action is configured to realize the reverse action of the two on-off devices and the other on-off device.

Each on-off device in the intelligent control panel is correspondingly connected with one or more load devices, and each on-off device correspondingly controls one or more corresponding load devices to execute corresponding actions, such as controlling the corresponding load devices to be opened or closed, controlling the valves of the corresponding load devices to be opened or closed, controlling the motors of the corresponding load devices to rotate forwards or reversely, and the like.

acquiring an operation instruction for a key in the key interface based on the key interface;

and sending the operation instruction to the intelligent control panel, and controlling load equipment associated with the on-off device to execute corresponding actions by the intelligent control panel according to the operation instruction and the control relation between the key and the on-off device.

The user can control the intelligent control panel corresponding to the externally connected load equipment of the internet of things through the terminal equipment. The terminal device detects touch operation of a user on a key in a key interface, sends an operation instruction to the intelligent control panel based on the touch operation on the key, and the intelligent control panel controls the corresponding on-off device to execute a closing/opening action according to the operation instruction and the control relation between the key and the on-off device, so that the related internet of things load device connected with the on-off device is correspondingly controlled to execute the corresponding action, such as controlling the internet of things load device to be opened or closed, or controlling a motor of the internet of things load device to rotate forwards or backwards and the like.

Referring to fig. 7, in order to provide a more systematic understanding of the multi-mode configuration method of the intelligent control panel provided in the embodiment of the present application, the following description is made in conjunction with a specific example, and the multi-mode configuration method of the intelligent control panel includes the following steps:

and S11, the intelligent control panel is assembled with the touch panel by using any number of on-off devices.

S12, when the intelligent control panel is not connected to the network, the touch panel reads the number of the on-off devices contained in the base, displays the virtual keys with the corresponding number according to the number of the on-off devices, and forms the parameter relation between the local keys and the on-off devices according to the initial configuration parameters corresponding to the number of the on-off devices.

And S13, after the intelligent control panel is connected to the network, the touch panel sends the number of the on-off devices to the terminal equipment.

And S14, the terminal equipment displays the same number of virtual keys on a corresponding configuration page of an application program implementing the multi-mode configuration method of the intelligent control panel according to the number of the on-off devices.

And S15, the terminal equipment receives a configuration instruction input by a user based on the configuration page, and determines the corresponding state and the action state between the key and the on-off device according to the configuration instruction to obtain the parameter relationship between the key and the on-off device.

The setting modes of different configuration instructions are related to the number of the on-off devices contained in the base in the intelligent control panel, and when the number of the on-off devices contained in the base only comprises one, the configuration instructions between the keys and the on-off devices only support single-open control configuration instructions, and do not support one-to-many synchronous corresponding relation or one-to-many mutual exclusion corresponding relation between the keys and the on-off devices. When the number of the on-off devices contained in the base is two, the configuration instruction between the key and the on-off devices can support a single-open control configuration instruction or a double-open control configuration instruction, and under the double-open control configuration instruction, one key can be configured to act to realize that the two on-off devices simultaneously act in the same manner or one key acts to realize that the two on-off devices keep reverse actions. When the number of the on-off devices contained in the base is three, the configuration instruction between the keys and the on-off devices can support a single-opening control configuration instruction, a double-opening control configuration instruction or a three-opening control configuration instruction, and under the three-opening control configuration instruction, one key action can be configured to realize the same action of the three on-off devices at the same time or one key action is configured to realize the reverse action of the two on-off devices and the other on-off device.

And S16, the intelligent control panel receives the parameter relation between the key and the on-off device sent by the terminal equipment, determines the control relation between the key and the on-off device according to the parameter relation, and forms different control modes for the load equipment associated with the on-off device according to the control relation.

The configuration of different control modes is related to the number of the on-off devices contained in the base in the intelligent control panel, when the number of the on-off devices contained in the base only comprises one, the control modes only support a single-opening control mode, in the single-opening control mode, the keys and the on-off devices are in a one-to-one corresponding relationship, and the keys are opened or closed to control the on-off devices to be correspondingly opened or closed. When the number of the on-off devices contained in the base comprises two, the control mode can support a single-opening control mode or a double-opening control mode, and in the double-opening control mode, one key action can be configured to realize that the two on-off devices simultaneously act in the same way or one key action is configured to realize that the two on-off devices keep reverse action. When the number of the on-off devices contained in the base is three, the control mode can support a single-opening control mode, a double-opening control mode or a three-opening control mode, and in the three-opening control mode, one key can be configured to realize the same action of the three on-off devices at the same time or one key can be configured to realize the reverse action of the two on-off devices and the other on-off device. Each on-off device is correspondingly connected with one or more load devices, and the action of each on-off device correspondingly controls the corresponding one or more load devices to execute corresponding actions, such as controlling the corresponding load devices to be opened or closed, controlling the valves of the corresponding load devices to be opened or closed, controlling the motors of the corresponding load devices to rotate forwards or backwards, and the like, so as to realize different control modes.

Referring to fig. 8, in order to provide a more systematic understanding of the multi-mode configuration method of the smart control panel provided in the embodiment of the present application, the following description is made with reference to another specific example, and the multi-mode configuration method of the smart control panel includes the following steps:

and S21, the intelligent control panel is assembled with the key panel by using any number of on-off devices.

And S22, when the intelligent control panel is not networked, the key panel reads the number of the on-off devices contained in the base, and the parameter relation between the local keys and the on-off devices is formed according to the number of the local keys contained in the key panel and the initial configuration parameters corresponding to the number of the on-off devices.

And S23, after the intelligent control panel is connected to the network, the key panel sends the number of the keys and the number of the on-off devices to the terminal equipment.

And S24, the terminal device displays virtual keys with the same number as the keys on a corresponding configuration page of an application program implementing the multi-mode configuration method of the intelligent control panel according to the number of the keys and the number of the on-off devices.

And S25, the terminal equipment receives a configuration instruction input by a user based on the configuration page, and determines the corresponding state and the action state between the key and the on-off device according to the configuration instruction to obtain the parameter relationship between the key and the on-off device.

The setting modes of different configuration instructions are related to the number of the on-off devices contained in the base in the intelligent control panel, and when the number of the on-off devices contained in the base only comprises one, the configuration instructions between the keys and the on-off devices only support single-open control configuration instructions, and do not support one-to-many synchronous corresponding relation or one-to-many mutual exclusion corresponding relation between the keys and the on-off devices. When the number of the on-off devices contained in the base is two, the configuration instruction between the key and the on-off devices can support a single-opening control configuration instruction or a double-opening control configuration instruction, and under the double-opening control configuration instruction, one key action can be configured to realize that two on-off devices simultaneously act in the same way or one key action is configured to realize that two on-off devices keep reverse action. When the number of the on-off devices contained in the base is three, the configuration instruction between the keys and the on-off devices can support a single-opening control configuration instruction, a double-opening control configuration instruction or a three-opening control configuration instruction, and under the three-opening control configuration instruction, one key action can be configured to realize the same action of the three on-off devices at the same time or one key action is configured to realize the reverse action of the two on-off devices and the other on-off device.

And S26, the intelligent control panel receives the parameter relation between the key and the on-off device sent by the terminal equipment, determines the control relation between the key and the on-off device according to the parameter relation, and forms different control modes for the load equipment associated with the on-off device according to the control relation.

In another aspect of the embodiments of the present application, please refer to fig. 9, which also provides a multi-mode configuration apparatus for an intelligent control panel, where the intelligent control panel includes a base and a panel that are detachably connected, and the apparatus includes: an obtaining module 11, configured to obtain the number of on-off devices included in the base; and the control module 12 is configured to determine a parameter relationship between a key included in the panel and the on-off device, determine a control relationship between the key and the on-off device according to the parameter relationship, and form different control modes for the load device associated with the on-off device according to the control relationship.

In some embodiments, the panel is a touch panel, and the device further includes a key module configured to form virtual keys corresponding to the on-off devices on the panel according to the number of the on-off devices.

In some embodiments, the control module 12 is specifically configured to send the number of the on-off devices to a terminal device, and the terminal device forms a matched key interface according to the number of the on-off devices; receiving configuration parameters of the key and the on-off device, which are acquired by the terminal equipment based on the key interface; and determining the parameter relationship between the key and the on-off device according to the configuration parameters.

In some embodiments, the panel is a key panel, and the control module 12 is specifically configured to send the number of included entity keys to the terminal device; and receiving configuration parameters of the keys and the on-off device, which are acquired by the terminal equipment based on the key interface, and determining the number of effective entity keys included in the panel and the parameter relation between the effective entity keys and the on-off device according to the configuration parameters.

In some embodiments, the control module 12 is specifically configured to, when it is determined that the current configuration state is the initial state, determine, by the panel, a parameter relationship between the key and the on-off device according to the number of included entity keys, the preset number of different keys, and an initial configuration parameter of the on-off device; and under the condition that the current configuration state is determined to be the updating state, the panel determines the parameter relationship between the key and the on-off device according to the configuration parameters sent by the terminal equipment.

In some embodiments, the apparatus further includes an execution module 13, where the execution module is configured to receive an operation instruction based on the key sent by the terminal device, or the panel acquires an operation instruction for the key; and controlling the load equipment associated with the on-off device to execute corresponding actions according to the operation instruction and the control relation.

In some embodiments, the executing module 13 is specifically configured to control the load device associated with the corresponding on-off device to execute a corresponding action according to the operating instruction and the control relationship, where the control relationship between the key and the on-off device is a one-to-one correspondence relationship; under the condition that the control mode is a double-opening control mode, the control relations between the keys and the on-off devices are in one-to-one correspondence, and load equipment associated with the corresponding on-off devices is controlled to execute corresponding actions according to the operation instructions and the control relations; or the control relation between the key and the on-off device is a one-to-two synchronous corresponding relation, and the load equipment related to the corresponding on-off device is controlled to simultaneously execute corresponding actions according to the operation instruction and the control relation; or the control relation between the key and the on-off device is a one-to-two mutual exclusion corresponding relation, and load equipment associated with the on-off device corresponding to the control relation is controlled to respectively execute opposite actions according to the operation instruction and the control relation; under the condition that the control mode is a three-opening control mode, the control relations between the keys and the on-off devices are in one-to-one correspondence, and load equipment associated with the corresponding on-off devices is controlled to execute corresponding actions according to the operation instructions and the control relations; or the control relation between the key and the on-off device is a one-to-many synchronous corresponding relation, and load equipment associated with the corresponding on-off device is controlled to simultaneously execute corresponding actions according to the operation instruction and the control relation; or the control relation between the key and the on-off device is a one-to-many mutual exclusion corresponding relation, and the load equipment associated with the on-off device corresponding to the control relation is controlled to respectively execute opposite actions according to the operation instruction and the control relation.

It should be noted that: in the multi-mode configuration device of the intelligent control panel provided in the above embodiment, in the process of implementing configuration of different control modes for an external load device, only the division of the program modules is illustrated, and in practical applications, the processing may be completed by different program modules according to needs, that is, the internal structure of the device may be divided into different program modules, so as to complete all or part of the above described method steps. In addition, the multimode configuration device of the intelligent control panel provided in the above embodiment and the multimode configuration method embodiment applied to the intelligent control panel on the intelligent control panel side belong to the same concept, and the specific implementation process thereof is described in detail in the method embodiment and is not described herein again.

In another aspect of the embodiments of the present application, please refer to fig. 10, which further provides a multi-mode configuration apparatus for an intelligent control panel, applied to a terminal device, including: the receiving module 21 is configured to receive the number of on-off devices included in the base and sent by the intelligent control panel, and generate a matched key interface according to the number of the on-off devices; the configuration module 22 is used for acquiring configuration parameters of the key and the on-off device based on the key interface; the sending module 23 is configured to send the configuration parameters to the intelligent control panel, and the intelligent control panel determines a control relationship between the key and the on-off device according to the configuration parameters, so as to form different control modes for the load device associated with the on-off device.

In some embodiments, the receiving module 21 is further configured to receive the number of physical keys included in the panel sent by the intelligent control panel; the configuration module is specifically configured to obtain the selected entity key and the parameter relationship between the entity key and the on-off device based on the key interface, and obtain the configuration parameters between the key and the on-off device.

In some embodiments, the key interface includes virtual keys corresponding to the number of the on-off devices, and the configuration module 22 is specifically configured to obtain a configuration instruction for setting a one-to-one correspondence relationship between the virtual keys and the on-off devices, and obtain configuration parameters of the keys and the on-off devices according to the configuration instruction; or acquiring a configuration instruction for setting one-to-many synchronous corresponding relation between the virtual key and the on-off device, and acquiring configuration parameters of the key and the on-off device according to the configuration instruction; or acquiring a configuration instruction for setting one-to-many mutual exclusion correspondence between the virtual key and the on-off device, and obtaining configuration parameters of the key and the on-off device according to the configuration instruction.

In some embodiments, the configuration module 22 is further configured to obtain an operation instruction for a key in a key interface based on the key interface; and sending the operation instruction to the intelligent control panel, and controlling the load equipment associated with the on-off device to execute corresponding actions by the intelligent control panel according to the operation instruction and the control relation between the key and the on-off device.

It should be noted that: in the multi-mode configuration device of the intelligent control panel provided in the above embodiment, in the process of implementing configuration of different control modes for an external load device, only the division of the program modules is illustrated, and in practical applications, the processing may be completed by different program modules according to needs, that is, the internal structure of the device may be divided into different program modules, so as to complete all or part of the above described method steps. In addition, the multi-mode configuration device of the intelligent control panel provided in the above embodiment and the multi-mode configuration method embodiment of the intelligent control panel applied to the terminal device side belong to the same concept, and the specific implementation process thereof is described in the method embodiment and is not described herein again.

In another aspect of the present invention, please refer to fig. 11, which provides an intelligent control panel, comprising a base and a panel detachably connected, the base comprises a first controller 110, a first memory 111 connected with the first controller 110 and at least one on-off device 112, the panel includes a second controller 113, a second memory 114 connected with the second controller 113, and a communication module 115, the first controller 110 and the second controller 113 perform data transmission by using a serial communication protocol, the first memory 111 and the second memory 114 have stored therein computer programs executable by the corresponding first controller 110 and the second controller 113, the computer programs, when executed by the first controller 110 and the second controller 113, implement the multi-mode configuration method applied to the intelligent control panel on the intelligent control panel side provided in any embodiment of the present application.

The first controller 110 may adopt an mcu (micro controller unit) of an arm (advanced RISC machines) core, and the first controller 110 is responsible for functions of identification and control of a relay, power metering, protection, zero-crossing detection, and the like. The second controller 113 may adopt a touch screen driving chip, the communication module 115 is a wireless module (RF module), the wireless module may be a zigbee wireless module or a wifi wireless module, and the second controller 113 is used for taking charge of functions of key control of the intelligent control panel, touch screen control, communication with the terminal device, and the like.

In some embodiments, the panel is a touch panel, and the touch panel displays control keys respectively corresponding to the on-off devices according to the number of the on-off devices included in the base.

In some embodiments, the panel is a key panel, the key panel includes at least one entity key, and the key panel determines a parameter relationship between the entity key and the on-off device according to a preset number of different keys and an initial configuration parameter of the on-off device when the current configuration state is determined to be an initial state; and under the condition that the current configuration state is determined to be the updating state, the key panel determines the parameter relationship between the entity key and the on-off device according to the received configuration parameters sent by the terminal equipment.

Please refer to fig. 12, which is a block diagram of a hardware structure of an intelligent control panel according to an embodiment of the present application. As shown in fig. 12, the smart control panel may be a panel switch 64. Among them, the panel switch 64 may generate a relatively large difference due to different configurations or performances, and may include one or more processors 64a (CPUs) (the processor 64a may include but is not limited to a processing device such as a microprocessor MCU or a programmable logic device FPGA), a memory 64b for storing the data 1400, one or more storage media 1600 (such as one or more mass storage devices) for storing the application 1500 or the data 1400, a relay J, and a mechanical switch K. The processor 64a is respectively connected with the relay J, the mechanical switch K, the memory 64b and the storage medium 1600; memory 64b and storage medium 1600 may be transient or persistent storage. The program stored in the storage medium 1600 may include one or more modules, each of which may include a series of instruction operations for a server. Further, the processor 64a may be configured to communicate with the storage medium 1600 to execute a series of instruction operations in the storage medium 1600 on the switch 64.

When the mechanical switch K is pressed, the processor 64a receives a pressed signal command, the relay J is a controlled switch and is connected to the control end of the processor 64a, the processor 64a can output a control signal through the control end to control the opening and closing of the relay J, the relay J is connected to the main circuit, the main circuit is connected to a power supply and a controlled device, and the power supply can be 220V mains supply.

The panel switch 64 may also include one or more internal power supplies 1000, one or more wired or wireless network interfaces 1100, one or more input-output interfaces 1200, and/or one or more operating systems 1300, such as Windows server, MacOSXTM, UnixTM, LinuxTM, FreeBSDTM, etc.

The input output interface 1200 may be used to receive or transmit data 1400 via a network. Specific examples of such networks may include wireless networks provided by the communications provider of the switch 64. In one example, the i/o interface 1200 includes a network adapter (NIC) that can be connected to other network devices through a base station to communicate with the internet. In one example, the input/output interface 1200 may be a Radio Frequency (RF) module, which is used for communicating with the internet in a wireless manner. It will be understood by those skilled in the art that the structure shown in fig. 12 is merely illustrative and is not intended to limit the structure of the panel switch 64 described above. For example, the panel switch 64 may also include more or fewer components than shown in FIG. 12, or have a different configuration than shown in FIG. 12.

In another aspect of the embodiment of the present application, please refer to fig. 13, which further provides a terminal device, including a processor 211, a memory 212, and a computer program stored on the memory 212 and executable by the processor 211, where the computer program, when executed by the processor 211, implements the multi-mode configuration method applied to the intelligent control panel on the terminal device side provided in any embodiment of the present application, and can achieve the same technical effect, and is not repeated here to avoid repetition. The terminal device may be a smart phone, a personal computer, or the like.

Please refer to fig. 14, which is a block diagram of an alternative hardware structure of a terminal device according to an embodiment of the present application. As shown in fig. 14, terminal devices may have relatively large differences due to different configurations or performances, and may include one or more processors (CPUs) 1110 (the processors 1110 may include but are not limited to processing devices such as a microprocessor MCU or a programmable logic device FPGA), a memory 1130 for storing data, and one or more storage media 1120 (e.g., one or more mass storage devices) for storing application programs 1123 or data 1122. The memory 1130 and the storage medium 1120 may be, among other things, transient storage or persistent storage. The program stored in the storage medium 1120 may include one or more modules, each of which may include a series of instructions operating on a scene control panel. Still further, processor 1110 may be configured to communicate with storage medium 1120 to execute a sequence of instruction operations in storage medium 1120 on a smart device. The smart device may also include one or more power supplies 1160, one or more wired or wireless network interfaces 1150, one or more input output interfaces 1140, and/or one or more operating systems 1121, such as Windows Server, MacOSXTM, UnixTM, LinuxTM, FreeBSDTM, and so forth.

The input output interface 1140 may be used to receive or transmit data via a network. Specific examples of the network described above may include a wireless network provided by a communication provider of the smart device. In one example, i/o interface 1140 includes a network adapter (NIC) that may be coupled to other network devices via a base station to communicate with the internet. In one example, the input/output interface 1140 can be a Radio Frequency (RF) module, which is used for communicating with the internet in a wireless manner.

It will be understood by those skilled in the art that the structure shown in fig. 14 is only an illustration, and does not limit the structure of the terminal device. For example, the terminal device may also include more or fewer components than shown in FIG. 14, or have a different configuration than shown in FIG. 14.

The embodiment of the present application further provides a computer-readable storage medium, where a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the computer program implements each process of the multi-mode configuration method embodiment of the intelligent control panel, and can achieve the same technical effect, and in order to avoid repetition, the details are not repeated here. The computer-readable storage medium may be a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk.

The above description is only for the specific embodiments of the present application, but the protection scope of the present application is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present application, and shall cover the protection scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. A multi-mode configuration method of an intelligent control panel, wherein the intelligent control panel comprises a base and a panel which are detachably connected, and the method comprises the following steps:

acquiring the number of on-off devices included in the base;

2. The method of claim 1, wherein the panel is a touch panel, and before determining the parameter relationship between the keys included in the panel and the on-off device, the method further comprises:

3. The method of claim 1 or 2, wherein said determining a parameter relationship between keys comprised by said panel and said on-off device comprises:

4. The method of claim 3, wherein the panel is a key panel, and wherein determining the parametric relationship between the keys included in the panel and the on-off device further comprises:

sending the number of the contained entity keys to the terminal equipment;

5. The method of claim 3, wherein said determining a parameter relationship of the key to the on-off device based on the configuration parameter comprises:

under the condition that the current configuration state is determined to be the initial state, the panel determines the parameter relation between the keys and the on-off device according to the number of the entity keys, the number of different preset keys and the initial configuration parameters of the on-off device;

6. The method of claim 1, further comprising:

7. The method of claim 6, wherein the controlling the load device associated with the on-off device to perform the corresponding action according to the operation command and the control relationship comprises:

the control relations between the keys and the on-off devices are in one-to-one correspondence, and the load equipment associated with the corresponding on-off devices is controlled to execute corresponding actions according to the operation instructions and the control relations;

under the condition that the control mode is a double-opening control mode, the control relations between the keys and the on-off devices are in one-to-one correspondence, and load equipment associated with the corresponding on-off devices is controlled to execute corresponding actions according to the operation instructions and the control relations; or the control relation between the key and the on-off device is a one-to-two synchronous corresponding relation, and the load equipment related to the corresponding on-off device is controlled to simultaneously execute corresponding actions according to the operation instruction and the control relation; or the control relation between the key and the on-off device is a one-to-two mutual exclusion corresponding relation, and load equipment associated with the on-off device corresponding to the control relation is controlled to respectively execute opposite actions according to the operation instruction and the control relation;

under the condition that the control mode is a three-opening control mode, the control relations between the keys and the on-off devices are in one-to-one correspondence, and load equipment associated with the corresponding on-off devices is controlled to execute corresponding actions according to the operation instructions and the control relations; or the control relation between the key and the on-off device is a one-to-many synchronous corresponding relation, and load equipment associated with the corresponding on-off device is controlled to simultaneously execute corresponding actions according to the operation instruction and the control relation; or the control relation between the key and the on-off device is a one-to-many mutual exclusion corresponding relation, and the load equipment associated with the on-off device corresponding to the control relation is controlled to respectively execute opposite actions according to the operation instruction and the control relation.

8. A multi-mode configuration method of an intelligent control panel is applied to terminal equipment, and is characterized in that the intelligent control panel comprises a base and a panel which are detachably connected, and the method comprises the following steps:

9. The method of claim 8, further comprising: receiving the number of entity keys included in the panel sent by the intelligent control panel;

10. The method of claim 8, wherein the key interface includes virtual keys corresponding to the number of on-off devices, respectively, and the obtaining configuration parameters of keys and the on-off devices based on the key interface includes:

11. The method of any of claims 8 to 10, further comprising:

and sending the operation instruction to the intelligent control panel, and controlling the load equipment associated with the on-off device to execute corresponding actions by the intelligent control panel according to the operation instruction and the control relation between the key and the on-off device.

12. A multi-mode configuration device for an intelligent control panel, the intelligent control panel comprising a base and a panel that are detachably connected, the device comprising:

13. The utility model provides a multimode configuration device of intelligent control panel, is applied to terminal equipment, its characterized in that, intelligent control panel is including base and the panel of dismantling the connection, the device includes:

14. An intelligent control panel is characterized by comprising a base and a panel which are detachably connected, wherein the base comprises a first controller, a first memory connected with the first controller and at least one on-off device, the panel comprises a second controller, a second memory connected with the second controller and a communication module, a serial port communication protocol is adopted between the first controller and the second controller for data transmission,

the first memory and the second memory have stored therein computer programs executable by the corresponding first controller and the second controller, the computer programs, when executed by the first controller and the second controller, implementing the multi-mode configuration method of the smart control panel according to any one of claims 1 to 7.

15. The intelligent control panel according to claim 14, wherein the panel is a touch panel, and the touch panel displays control keys respectively corresponding to the on-off devices according to the number of the on-off devices included in the base.

16. The intelligent control panel of claim 14, wherein the panel is a key panel, the key panel including at least one physical key,

under the condition that the current configuration state is determined to be the initial state, the key panel determines the parameter relation between the entity keys and the on-off device according to the preset number of different keys and the initial configuration parameters of the on-off device;

and under the condition that the current configuration state is determined to be the updating state, the key panel determines the parameter relationship between the entity key and the on-off device according to the received configuration parameters sent by the terminal equipment.

17. A terminal device comprising a processor, a memory, and a computer program stored on the memory and executable by the processor, the computer program when executed by the processor implementing the multi-mode configuration method of the smart control panel of any of claims 8 to 11.

18. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a computer program which, when executed by a processor, implements the multimode configuration method of an intelligent control panel according to any of claims 1 to 11.