CN112180754B - Setting method of intelligent control scene and equipment control system - Google Patents

Abstract

The invention discloses a setting method of an intelligent control scene and an equipment control system. The setting method of the intelligent control scene comprises the following steps: if the basic logic command set required by the current intelligent control scene does not exist, establishing the basic logic command set and continuing the next step, otherwise, directly executing the next step; each of the basic logical command sets includes a set value or a set range of at least one parameter of at least one device; setting basic information of a current intelligent control scene, and respectively selecting corresponding basic logic command sets to form a condition command set and an execution command set of the intelligent control scene, so that when the current intelligent control scene is applied and parameters corresponding to all devices in the condition command set meet corresponding set values or set ranges, parameters corresponding to all devices in the execution command set are triggered to be executed according to the set values or the set ranges. The invention can improve the setting efficiency of the intelligent control scene.

Description

Setting method of intelligent control scene and equipment control system

Technical Field

The invention relates to the technical field of intelligent building and intelligent home control, in particular to a setting method of an intelligent control scene of an intelligent building or an intelligent home and a device control system capable of realizing the setting method.

Background

The intelligent control scenes of indoor space equipment such as building intelligent scene control, intelligent home scene control and the like can only realize simple intelligent scene customization at present, and once the situation that more equipment is involved, the management setting of the intelligent scenes becomes very complicated.

The existing specific process of creating a scene by a manager under the condition of more devices is mainly divided into two stages.

In the first stage, various trigger conditions (also called execution conditions) of a scene need to be set first, and since all devices are classified into a plurality of subsystems, such as a lighting subsystem, a fresh air subsystem, a cooling and heating subsystem, and the like, in order to manage all devices more conveniently in a building management system, a setting person needs to select the subsystem where the corresponding device is located first, then select a corresponding single device in the subsystem, and then set the trigger condition corresponding to the device, for example, when the door control device monitors that a person is present, the trigger condition corresponding to the door control device is set. If a plurality of devices need to be set, corresponding trigger conditions need to be set one by one, and the process is very complicated.

In the second phase, various device actions of the scene due to trigger conditions need to be set. Similarly, the subsystem is selected first and then the device is selected, and after the device is selected, an execution command (command for controlling the device to operate) can be set only for a single device.

It can be seen from the above operation process that the operation process of the existing scene setting is very tedious, if there are many devices and the similarity of multiple groups of scenes is high, the adding operation one by one is complicated, it is easy to make mistakes, and the probability of repeated modification is high. The triggering command and the executing command of the scene cannot be multiplexed, and the conditional command and the executing command need to be created again every time a scene is created, so that the time cost is high.

Disclosure of Invention

The invention provides a setting method of an intelligent control scene and an equipment control system, and aims to solve the technical problems that the setting of the intelligent control scene is complex and tedious in the prior art.

The setting method of the intelligent control scene provided by the invention comprises the following steps:

if the basic logic command set required by the current intelligent control scene does not exist, establishing the basic logic command set and continuing the next step, otherwise, directly executing the next step; each of the basic logical command sets includes a set value or a set range of at least one parameter of at least one device;

setting basic information of a current intelligent control scene, and respectively selecting corresponding basic logic command sets to form a condition command set and an execution command set of the intelligent control scene, so that when the current intelligent control scene is applied and parameters corresponding to all devices in the condition command set meet corresponding set values or set ranges, parameters corresponding to all devices in the execution command set are triggered to be executed according to the set values or the set ranges.

Further, the basic information includes a name of the intelligent control scenario.

Further, the smart control scenario is applied when the smart control scenario is eligible for its execution mode.

Further, the execution mode is an immediate execution mode, or an execution mode to a preset time, or an execution mode meeting a preset condition.

Preferably, the setting of the basic information of the intelligent control scene, the setting of the execution mode, the setting of the conditional command set and the setting of the execution command set are all located in the same interactive interface.

Further, when the conditional command set or the execution command set includes a plurality of basic logical command sets, the logical relationship between the plurality of basic logical command sets set by the user is also included

Further, the creating of the basic logical command set specifically includes:

if the equipment required by the current intelligent control scene does not exist, executing the step of adding the equipment, and continuing the next step, otherwise, directly executing the next step;

at least one desired device is selected and a set point or set range for at least one parameter of the device is set to form a basic logical command set.

Further, when a plurality of parameters of a type of equipment are contained in one basic logic command set, the logic relation among the plurality of parameters set by a user is also contained.

Further, the adding equipment step specifically includes:

presetting a device template and a parameter template corresponding to each type of device in the device template;

when a new device is accessed, acquiring related information of the device;

filling the content of the equipment template corresponding to the equipment according to the related information;

and classifying the equipment into the corresponding subsystem according to the filled equipment template, updating the equipment tree corresponding to the subsystem, and binding the corresponding parameter template with the corresponding equipment in the equipment tree.

Further, when a user creates a basic logic command set, the user selects the corresponding subsystem, the device tree of the subsystem is displayed for the user to select, and when the user selects the corresponding device in the device tree, the parameters in the parameter template bound by the device are provided for the user to set.

Further, the device template and the parameter template are associated by a device type and a communication protocol ID.

Further, the content of the device template includes at least one of a device address, a device ID, and a device type.

Further, the content of the parameter template comprises at least one of on-off, wind speed, mode, state, brightness and color.

The equipment control system provided by the invention comprises a plurality of pieces of equipment connected through a network controller module and a management system for controlling and managing the plurality of pieces of equipment, wherein a user can execute the setting method of the intelligent control scene in the technical scheme by operating the management system.

Further, the management system includes:

the logic configuration module is used for a user to set the basic logic command set, the conditional command set and the execution command set;

the storage module is used for storing a device template and a parameter template corresponding to the device;

and the detection module is used for judging whether an intelligent control scene is applied and whether the parameters corresponding to all the equipment in the condition command set of the intelligent control scene meet the corresponding set values or set ranges, and if so, issuing corresponding control instructions to the corresponding equipment through the network controller module according to the set values or set ranges of the parameters corresponding to all the equipment in the execution command set of the intelligent control scene.

The invention provides a minimum unit of a control command of an intelligent control scene, namely a basic logic command set, supports a user to quickly select equipment and configure the control command at one time, simplifies the operation process, and forms a corresponding modular shared logic warehouse by creating various basic logic command sets by the user, so that the corresponding basic logic command set can be directly multiplexed when needed, logic is quickly created, and the storage pressure is reduced. And various basic logic command sets can freely select and combine trigger conditions, so that the multi-scenario use requirements of users are met. The invention supports the functions of freely multiplexing and combining the conditional command and the execution command, does not need to repeatedly create the same command when creating a scene, realizes the quick customization of the linkage strategy and ensures that the control of system equipment is more flexible.

Drawings

The invention is described in detail below with reference to examples and figures, in which:

FIG. 1 is a system architecture diagram of the present invention;

FIG. 2 is a setting flow chart of the present invention;

FIG. 3 is a schematic view of an interactive interface of the adding apparatus of the present invention;

FIG. 4 is a schematic diagram of an interactive interface for creating a basic logical command set according to the present invention;

FIG. 5 is a schematic diagram of an interactive interface for creating an intelligent control scenario according to the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Thus, a feature indicated in this specification will serve to explain one of the features of one embodiment of the invention, and does not imply that every embodiment of the invention must have the stated feature. Further, it should be noted that this specification describes many features. Although some features may be combined to show a possible system design, these features may also be used in other combinations not explicitly described. Thus, the combinations illustrated are not intended to be limiting unless otherwise specified.

The principles of the present invention will be described in detail below with reference to the accompanying drawings and embodiments.

As shown in fig. 1, the present invention provides a corresponding device control system including a plurality of devices, a network controller module connecting the devices, and a management system managing the devices.

The management system provides corresponding interactive interfaces, which are displayed through terminals (such as mobile phones, computers, etc.) used by the user, and particularly, the terminals used by the user are represented through a display module in fig. 1.

The management system specifically comprises a detection module, a logic configuration module and a storage module.

The storage module is used for storing a device template and a parameter template corresponding to the device.

The logic configuration module is used for configuring the logic relations among the parameters of the equipment and between the equipment, and the logic configuration module can be used for configuring three logic command sets, namely a basic logic command set and a conditional command set and an execution command set which are further composed of the basic logic command set. Each parameter of the device may be configured in a different underlying logical command set. In addition, the logic configuration module can also be used for a user to set an execution module of the intelligent control scene, and the specific execution module includes but is not limited to an immediate execution mode, an execution mode reaching preset time and an execution mode meeting preset conditions.

The detection module judges whether an intelligent control scene is applied according to an execution module for executing the control scene, if the intelligent control scene is applied, the detection module continuously judges whether the parameters corresponding to all the devices in the condition command set of the intelligent control scene meet the corresponding set values or set ranges, if so, the detection module issues the corresponding control instructions to the corresponding devices through the network controller module to be executed according to the set values or set ranges of the parameters corresponding to all the devices in the execution command set of the intelligent control scene, and therefore linkage, intelligence and automation control of the devices are achieved.

The detection module establishes connection with a network controller in real time to acquire the state and parameter change of field equipment in real time, and acquires relevant information of a currently applied intelligent control scene, including equipment ID, equipment position and set triggering parameters, by traversing a database; and comparing the state with the state and the parameter of the field device acquired in real time, judging whether the trigger condition set by the trigger device is met, and when the trigger condition is met, issuing an execution command to the network controller module and sending the execution command to the corresponding field device for execution through the network controller module.

As shown in fig. 2 to 5, the present invention can implement a setting method of an intelligent control scenario with higher efficiency by using the device control system.

When devices are initially managed, devices connected to the network controller module need to be added to the device control system. The method comprises the steps of acquiring relevant information of all devices with different communication protocols connected on site by a network controller module through a device template and a parameter template corresponding to preset devices, and filling the content of the device template corresponding to the devices according to the relevant information of the devices, wherein the content of the device template comprises at least one of a device address, a device ID and a device type, and in a preferred real-time example, the content of the device template comprises the device address, the device ID and the device type. The content of the parameter template is mainly parameters which can be set by the equipment, the content of the parameter template is different according to different equipment, the parameters of the parameter templates of the equipment with the same model are consistent, but the specific set values of the parameters are different according to different settings of subsequent users, such as air-conditioning equipment and lighting equipment, and the parameter template corresponding to the air-conditioning equipment comprises parameters such as startup and shutdown, wind speed and modes; the parameter template corresponding to the lighting equipment comprises parameters such as state, brightness and color. The filled device template and the parameter template associated with the device template are stored in a storage module, and the concrete implementation mode is that the filled device template and the parameter template are stored in a corresponding database. The subsequent network controller is accessed to other equipment, and the equipment template and the parameter template which are not filled in and are of the same type of equipment can be copied, so that the setting efficiency is improved.

And the equipment control system classifies the equipment into the corresponding subsystem according to the filled equipment template, updates the equipment tree corresponding to the subsystem and binds the filled parameter template with the corresponding equipment in the equipment tree. And classifying parameters of different communication protocols by taking the communication protocol type as an identifier, then configuring different types of equipment templates and parameter templates corresponding to the equipment by taking the equipment type as a judgment condition through an analysis algorithm of cluster classification, and associating the equipment templates and the parameter templates through the equipment type and the communication protocol ID.

As shown in fig. 3, in the device control system, the subsystems include at least four subsystems, such as a heating, ventilating, air conditioning, lighting system, door control system, and background music system. And when the heating, ventilation and air conditioning subsystem is selected, the equipment under the subsystem is displayed in the form of an equipment tree, the first level is a building where the equipment is located, the second level is a floor where the equipment is located, and the third level carries out sequencing display according to the equipment ID.

After the equipment is added to the equipment control system, a user can set a basic logic command set, if the equipment required by the current intelligent control scene does not exist, the step of adding the equipment is executed through the method for adding the equipment, and then the basic logic command set is set, otherwise, the basic logic command set can be created and set by directly selecting the equipment on a corresponding interactive interface, and each basic logic command set comprises a set value or a set range of at least one parameter of at least one equipment.

When creating the basic logical command set, the user first selects at least one device through the interactive interface shown in fig. 3, the user first selects the corresponding subsystem, the device tree of the subsystem is displayed for selection by the user, the user may select multiple devices with one key, selecting the corresponding device in the device tree, the selected device will be displayed in the interactive interface of fig. 4 that creates the basic logical command set, and the selected devices are still categorized by subsystem in the interactive interface that creates the underlying logical command set, and the device tree is used for displaying, the user selects the corresponding device in the device tree in the interactive interface of the basic logic command set, the right side provides parameters for the user to select according to the parameter template bound by the device, and the user can set the set value or set range of the parameters for the selected parameters to form a corresponding basic logic command set. Because the parameters in the parameter templates of the devices with the same model are completely the same, a plurality of devices with the same model can be selected on the interactive interface, and the batch control of the devices can be realized only by setting the set values or the set ranges of the parameters of the devices once on the right side, so that the setting efficiency is saved. When a basic logic command set contains a plurality of parameters of a type of equipment, the basic logic command set also contains a logic relation among the plurality of parameters set by a user, namely a logic AND or logic OR relation among the set parameters, and relevant settings for storing the basic logic command set are stored in a shared warehouse for subsequent calling. In specific application, a user can use the basic logic command set as a minimum batch control unit, for example, to control one parameter or related settings of multiple parameters of devices of the same type in the same space region, so that parameter setting of different devices can be completed at one time, and subsequent unified linkage control of the space region and devices of the same type is facilitated.

After the basic logic command set is created, a user can create an intelligent control scene, if the basic logic command set required by the current intelligent control scene does not exist, the related basic logic command set is created according to the steps, then the intelligent control scene is created, and if the basic logic command set does not exist, the intelligent control scene can be directly created.

Fig. 5 shows a specific interactive interface for creating an intelligent control scenario, in which basic information of the intelligent control scenario, an execution mode of the intelligent control scenario, and a condition command set execution command set of the intelligent control scenario need to be set, and setting of the basic information, setting of the execution mode, setting of the condition command set, and setting of the execution command set are all located in the same interactive interface, so as to facilitate setting by a user.

In this embodiment, the basic information of the smart control scenario is specifically the name of the smart control scenario, and the execution mode is an immediate execution module or a time execution mode (i.e., an execution mode to a preset time). In other embodiments, the execution mode of the intelligent control scenario may also be eliminated.

The basic logic control command sets created by the user before are provided for the user to select in a list form, the user respectively selects the corresponding basic logic command sets to form the conditional command set and the execution command set of the intelligent control scene, and when the conditional command set comprises a plurality of basic logic command sets, the user also needs to set the logic relationship among the plurality of basic logic command sets, namely, the logic and is either the logic or, and the same is true for the execution command sets.

When the intelligent control scene meets the condition of the execution mode of the intelligent control scene, for example, a preset time is up, the intelligent control scene is applied, although the intelligent control scene is applied, the intelligent control scene does not represent that the condition command set in the intelligent control scene can be met, the devices in the execution command set can act, the detection module can monitor whether the condition command set in the intelligent control scene is met, and when the parameters corresponding to all the devices in the condition command set in the intelligent control scene meet the set value or the set range set by the user, the parameters corresponding to all the devices in the execution command set in the intelligent control scene can be triggered to be executed according to the set value or the set range.

For example, in an intelligent control scene, specific setting contents can be expressed as 8:30 office entrance guard opening every day, office opening air conditioner and illumination, then the execution mode of the intelligent control scene is a conditional execution mode, when 8 am is reached every day, the intelligent control scene is applied, a corresponding conditional command set is empty, selected devices in the execution command set are provided with the office entrance guard, the air conditioner and the illumination device, parameters corresponding to the devices are switching parameters, and setting values of the parameters are all on.

For example, in another intelligent control scenario, the specific name of the intelligent control scenario is "research and development building six-building laboratory 1 fire-fighting linkage", when the detection module monitors that the state of a combustible gas detector in the research and development building six-building laboratory 1 changes in real time and the smoke sensor is in an alarm state, a control command is issued to start the exhaust fan 1 and the exhaust fan 2 of the laboratory 1, the laboratory 1 is started to illuminate the down lamp 1 and the down lamp 2, the six-building corridor lamp is started, and the six-building entrance guard is closed.

According to the invention, when the number of the devices in the building is large and a plurality of scenes are similar, the scenes can be quickly created by multiplexing the related templates and the basic logic command sets of the devices. For example, if the air conditioner and the lighting of the whole building need to be controlled to be turned on under certain conditions, all the air conditioners and lighting devices are selected, the command is set to be turned on, and the turning on of the air conditioner and the turning on of the lighting are respectively placed in two basic logic command sets. For example, under another condition, the air conditioner of the whole building needs to be turned on, and the lighting needs to be turned off. At this time, only the basic logic command set of the lighting on needs to be copied, and the set value of the corresponding parameter is changed to be off. And when the set value or the set range of the parameter is set, the plurality of devices are the same set value, if the devices are all started, the setting is only needed once, and the devices directly perform the check on the device tree, so that the operation is simple.

The invention realizes the rapid scene creation by using the combination of the basic logic command set. And selecting the action to be executed when the intelligent control scene trigger condition is set. At this time, if the air conditioner and the lighting need to be turned on, only two basic logic command sets of the air conditioner and the lighting need to be selected, and the equipment does not need to be selected again for setting. And if the other scene is an air conditioner on scene and a lighting off scene, selecting the basic logic command set combination of the air conditioner on scene and the lighting off scene to quickly create the scene to be realized. When a user needs to add an action on the created command set, only one row of parameters needs to be added and set, and then the logic AND or the logic or the relation between the parameters and other parameters is set, so that the basic control command set can be flexibly adjusted and combined to be quickly adapted to various use scenes.

The invention can provide the user to select the basic logic command set no matter the conditional command set or the execution command set, does not need the user to encode again, and the user can freely select and combine the basic logic command set from the shared logic warehouse, thereby realizing the basic logic command set and/or being more convenient for the user to set.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (15)

1. A setting method of an intelligent control scene is characterized by comprising the following steps:

if the basic logic command set required by the current intelligent control scene does not exist, establishing the basic logic command set and continuing the next step, otherwise, directly executing the next step; each of the basic logical command sets includes a set value or a set range of at least one parameter of at least one device;

setting basic information of a current intelligent control scene, and respectively selecting corresponding basic logic command sets to form a condition command set and an execution command set of the intelligent control scene, so that when the current intelligent control scene is applied and parameters corresponding to all devices in the condition command set meet corresponding set values or set ranges, parameters corresponding to all devices in the execution command set are triggered to be executed according to the set values or the set ranges.

2. The setting method of an intelligent control scenario according to claim 1, wherein the basic information includes a name of the intelligent control scenario.

3. The setting method of an intelligent control scenario according to claim 1, wherein the intelligent control scenario is applied when the intelligent control scenario meets a condition of its execution mode.

4. The setting method of intelligent control scene according to claim 3, wherein the execution mode is an immediate execution mode, or an execution mode to a preset time, or an execution mode meeting a preset condition.

5. The method for setting the intelligent control scene according to claim 3, wherein the setting of the basic information of the intelligent control scene, the setting of the execution mode, the setting of the conditional command set and the setting of the execution command set are all located in the same interactive interface.

6. The method for setting up an intelligent control scenario according to claim 1, wherein when the conditional command set or the execution command set includes a plurality of basic logical command sets, the method further includes setting up a logical relationship between the plurality of basic logical command sets by a user.

7. The setting method of an intelligent control scenario according to any one of claims 1 to 6, wherein the creating of the basic logical command set specifically includes:

if the equipment required by the current intelligent control scene does not exist, executing the step of adding the equipment, and continuing the next step, otherwise, directly executing the next step;

at least one desired device is selected and a set point or set range for at least one parameter of the device is set to form a basic logical command set.

8. The method for setting an intelligent control scenario according to claim 7, wherein when a plurality of parameters of a model of equipment are included in a basic logical command set, the method further includes a logical relationship between the plurality of parameters set by the user.

9. The setting method of an intelligent control scenario according to claim 7, wherein the adding device step specifically includes:

presetting a device template and a parameter template corresponding to each type of device in the device template;

when a new device is accessed, acquiring related information of the device;

filling the content of the equipment template corresponding to the equipment according to the related information;

and classifying the equipment into the corresponding subsystem according to the filled equipment template, updating the equipment tree corresponding to the subsystem, and binding the corresponding parameter template with the corresponding equipment in the equipment tree.

10. The setting method of intelligent control scenario according to claim 9, wherein when a user creates a basic logic command set, the user selects the corresponding subsystem, then displays the device tree of the subsystem for the user to select, and when the user selects the corresponding device in the device tree, then provides the parameters in the parameter template bound to the device for the user to set.

11. The setting method of intelligent control scenario according to claim 9, wherein the device template and the parameter template are associated by device type and communication protocol ID.

12. The setting method of intelligent control scenario according to claim 9, wherein the content of the device template includes at least one of device address, device ID, and device type.

13. The setting method of intelligent control scene according to claim 9, wherein the content of the parameter template includes at least one of on/off, wind speed, mode, status, brightness, and color.

14. An equipment control system comprising a plurality of equipments connected via a network controller module, and a management system for controlling and managing the plurality of equipments, wherein a user operates the management system to execute the setting method of the intelligent control scenario according to any one of claims 1 to 13.

15. The appliance control system of claim 14, wherein the management system comprises:

the logic configuration module is used for a user to set the basic logic command set, the conditional command set and the execution command set;

the storage module is used for storing a device template and a parameter template corresponding to the device;

and the detection module is used for judging whether an intelligent control scene is applied and whether the parameters corresponding to all the equipment in the condition command set of the intelligent control scene meet the corresponding set values or set ranges, and if so, issuing corresponding control instructions to the corresponding equipment through the network controller module according to the set values or set ranges of the parameters corresponding to all the equipment in the execution command set of the intelligent control scene.

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