CN107065620B - Modular display method and device of equipment control system and equipment - Google Patents

Abstract

The invention relates to a modular display interaction method of an equipment control system, which comprises the following steps: acquiring type information of equipment in an equipment system; generating interactive information corresponding to the type information one by one according to the type information; generating interactive interfaces corresponding to the type information one by one according to the type information; and mapping the interaction information on the corresponding interaction interface. According to the display interaction method of the equipment control system, the corresponding information is displayed in the template interface only by correspondingly developing the template interface of the type equipment according to the type information of the equipment in the equipment system. Repeated development can be avoided, the development efficiency is improved, and the problem of difficult maintenance is solved. The invention also relates to a device and equipment for the modular display interaction of the equipment control system.

Description

Modular display method and device of equipment control system and equipment

Technical Field

The invention relates to the field of software, in particular to a modular display method, a device and equipment of an equipment control system.

Background

At present, equipment systems, especially air conditioning systems, in a large number of large-scale places require a plurality of different types of equipment to be operated and matched together to achieve the best effect. For example, in a heating, ventilating and air conditioning system in a substation, the requirements for temperature, humidity and ventilation are strict, and therefore, a plurality of pieces of multi-split air conditioning equipment, fan equipment, louvers and the like are generally required to be matched with each other. Meanwhile, different areas in the substation require different conditions such as temperature and humidity, so that different devices need to be partitioned.

The display interaction method of the traditional equipment control system develops different display interaction methods according to different places, the different display interaction methods cannot be used universally, the efficiency is reduced, and the maintenance is difficult.

Disclosure of Invention

Based on this, it is necessary to provide a device control system modularized display interaction method, apparatus and device for solving the problem that different display interaction methods cannot be used in common.

A modular display interaction method of a device control system, wherein the method comprises:

acquiring equipment information of each equipment and type information of each equipment in an equipment control system;

acquiring a corresponding display interaction area according to the type information of each device;

generating interactive information of corresponding equipment according to the equipment information of each equipment and the type information of each equipment;

and displaying the interactive information of the corresponding equipment in the display area of each equipment.

According to the display interaction method of the equipment control system, the corresponding information is displayed in the template interface only by correspondingly developing the template interface of the type equipment according to the type information of the equipment in the equipment system. Repeated development can be avoided, the development efficiency is improved, and the problem of difficult maintenance is solved.

In one embodiment, the step of generating the interaction information corresponding to the type information one to one according to the type information includes:

acquiring a device group matched with the type information from all devices in the device control system according to the type information;

acquiring equipment information of the equipment in the equipment group;

and generating the interactive information according to the equipment information of the equipment in the equipment group.

In one embodiment, the interaction information includes debugging information and control information; the interactive interface comprises a debugging interface and a control interface;

the step of mapping the interactive information on the corresponding interactive interface comprises the following steps:

acquiring an interactive request;

if the interactive request is a setting request, mapping debugging information on the debugging interface;

and if the interactive request is a control request, mapping the control information on the control interface.

In an embodiment, if the interaction request is a setting request, mapping the debugging information on the debugging interface includes:

judging whether the debugging information is updated or not;

and if so, modifying and storing the equipment information corresponding to the debugging information according to the updated debugging information.

In one embodiment, wherein the device information includes region information;

modifying and storing the device information corresponding to the debugging information according to the updated debugging information includes:

dividing the equipment information into a plurality of subarea equipment information according to the area information;

dividing the storage area into a plurality of storage units according to the area information;

storing the plurality of partition device information in corresponding storage units.

In one embodiment, wherein the device information includes region information;

if the interactive request is a control request, mapping the control information on the control interface comprises the following steps:

acquiring first area information;

inquiring area information matched with the first area information in each debugging information;

if the matching is successful, setting the control information corresponding to the equipment information to be in a controllable state for acquiring the updating control information input by the user;

and if the matching fails, setting the control information corresponding to the equipment information to be in an uncontrollable state for prohibiting a user from inputting and updating the control information.

In one embodiment, wherein the device information includes region information;

the step of mapping the control information on the control interface comprises:

acquiring second area information;

generating a corresponding control sub-interface according to the second area information;

matching the second area information with area information in each piece of equipment information;

and if the matching is successful, displaying the control information in the equipment information in the corresponding control sub-interface.

In one embodiment, wherein the device information further includes a device subtype;

after the control information in the device information is displayed in the corresponding control sub-interface, the method further includes:

acquiring a corresponding interaction submodule according to the equipment subtype in the equipment information;

acquiring corresponding control information according to the equipment subtype in the equipment information;

and calling the control information to a corresponding interaction submodule for displaying.

A modular display interaction apparatus of a device control system, wherein the apparatus comprises:

the type acquisition module is used for acquiring the type information of the equipment in the equipment system;

the information generation module is used for generating interactive information which corresponds to the type information one by one according to the type information;

the interface generating module is used for generating interactive interfaces corresponding to the type information one by one according to the type information;

and the information mapping module is used for mapping the interactive information on the corresponding interactive interface.

The display interaction device of the equipment control system only needs to correspondingly develop the template interface of the type equipment according to the type information of the equipment in the equipment system, and display the corresponding information in the template interface. Repeated development can be avoided, the development efficiency is improved, and the problem of difficult maintenance is solved.

In one embodiment, wherein the information generating module comprises:

the equipment selection unit is used for acquiring an equipment group matched with the type information from all equipment in the equipment control system according to the type information;

an information acquisition unit, configured to acquire device information of devices in the device group;

and the interactive information generating unit is used for generating the interactive information according to the equipment information of the equipment in the equipment group.

In one embodiment, the interaction information includes debugging information and control information; the interactive interface comprises a debugging interface and a control interface;

the information mapping module comprises:

a request obtaining unit, configured to obtain an interaction request;

the debugging information mapping unit is used for mapping the debugging information on the debugging interface if the interaction request is a setting request;

and the control information mapping unit is used for mapping the control information on the control interface if the interactive request is a control request.

In one embodiment, wherein the apparatus further comprises:

the updating judgment module is used for judging whether the debugging information is updated or not;

and the information storage module is used for modifying and storing the equipment information corresponding to the debugging information according to the updated debugging information if the debugging information is updated.

In one embodiment, wherein the device information includes region information;

the information storage module includes:

an information partitioning unit configured to divide the device information into a plurality of partitioned device information according to the region information;

a storage partitioning unit for dividing the storage area into a plurality of storage units according to the area information;

an information storage unit for storing the plurality of partition device information in corresponding storage units.

In one embodiment, wherein the device information includes region information;

the control information unit includes:

an area information acquisition unit configured to acquire first area information;

the information matching unit is used for inquiring the area information matched with the first area information in each debugging information;

the information controllable unit is used for setting the control information corresponding to the equipment information into a controllable state if the matching is successful, and is used for acquiring the updated control information input by the user;

and the information uncontrollable unit is used for setting the control information corresponding to the equipment information to be in an uncontrollable state if the matching fails and forbidding a user to input and update the control information.

In one embodiment, wherein the device information includes region information;

the control information unit includes:

a second information acquisition unit configured to acquire second area information;

the interface generating unit is used for generating a corresponding control sub-interface according to the second area information;

the second information matching unit is used for matching the second area information with the area information in each piece of equipment information;

and the second display unit is used for displaying the control information in the equipment information in the corresponding control sub-interface if the matching is successful.

In one embodiment, wherein the device information further includes a device subtype;

the second display unit further includes:

the submodule acquisition unit is used for acquiring a corresponding interactive submodule according to the equipment subtype in the equipment information;

the sub-information acquisition unit is used for acquiring corresponding control information according to the equipment subtype in the equipment information;

and the sub-information display unit is used for calling the control information to the corresponding interaction sub-module for display.

A modular display interaction device of a device control system, the device comprising a processor, a memory, and computer instructions stored on the memory, wherein the computer instructions, when executed by the processor, implement the steps of:

acquiring type information of equipment in an equipment system;

generating interactive information corresponding to the type information one by one according to the type information;

generating interactive interfaces corresponding to the type information one by one according to the type information;

and mapping the interaction information on the corresponding interaction interface.

The computer instructions executed by the display interaction device of the device control system only need to correspondingly develop the template interface of the type device according to the type information of the device in the device system, and display the corresponding information in the template interface. Repeated development can be avoided, the development efficiency is improved, and the problem of difficult maintenance is solved.

In one embodiment, the step performed by the processor of generating interaction information corresponding to the type information one to one according to the type information includes:

acquiring a device group matched with the type information from all devices in the device control system according to the type information;

acquiring equipment information of the equipment in the equipment group;

and generating the interactive information according to the equipment information of the equipment in the equipment group.

In one embodiment, the interaction information includes debugging information and control information; the interactive interface comprises a debugging interface and a control interface;

the step of mapping the interaction information on the corresponding interaction interface executed by the processor comprises the following steps:

acquiring an interactive request;

if the interactive request is a setting request, mapping debugging information on the debugging interface;

and if the interactive request is a control request, mapping the control information on the control interface.

In an embodiment, if the interaction request is a setup request, the processor further performs the following steps after performing the step of mapping the debugging information on the debugging interface:

judging whether the debugging information is updated or not;

and if so, modifying and storing the equipment information corresponding to the debugging information according to the updated debugging information.

In one embodiment, wherein the device information includes region information;

the step of modifying and storing the device information corresponding to the debugging information according to the updated debugging information, which is executed by the processor, includes:

dividing the equipment information into a plurality of subarea equipment information according to the area information;

dividing the storage area into a plurality of storage units according to the area information;

storing the plurality of partition device information in corresponding storage units.

In one embodiment, wherein the device information includes region information;

the processor executes the following steps after the step of mapping the control information on the control interface if the interactive request is a control request:

acquiring first area information;

inquiring area information matched with the first area information in each debugging information;

if the matching is successful, setting the control information corresponding to the equipment information to be in a controllable state for acquiring the updating control information input by the user;

and if the matching fails, setting the control information corresponding to the equipment information to be in an uncontrollable state for prohibiting a user from inputting and updating the control information.

In one embodiment, wherein the device information includes region information;

the step of mapping the control information on the control interface performed by the processor comprises:

acquiring second area information;

generating a corresponding control sub-interface according to the second area information;

matching the second area information with area information in each piece of equipment information;

and if the matching is successful, displaying the control information in the equipment information in the corresponding control sub-interface.

In one embodiment, wherein the device information further includes a device subtype;

the processor executes the following steps after the control information in the equipment information is displayed in the corresponding control sub-interface:

acquiring a corresponding interaction submodule according to the equipment subtype in the equipment information;

acquiring corresponding control information according to the equipment subtype in the equipment information;

and calling the control information to a corresponding interaction submodule for displaying.

Drawings

FIG. 1 is a flow diagram of a modular display interaction method in accordance with one embodiment;

FIG. 2 is a partial flow diagram of a modular display interaction method in accordance with one embodiment;

fig. 3 is a schematic effect diagram of a multi-split debugging interface according to an embodiment;

FIG. 4 is a schematic diagram illustrating an effect of a fan debugging interface according to an embodiment;

FIG. 5 is a partial flow diagram of a method for displaying interactions in accordance with an illustrative embodiment;

FIG. 6 is a schematic diagram illustrating a display interaction process of a control interface according to an embodiment;

FIG. 7 is a partial flow diagram of a method for displaying interactions in accordance with an illustrative embodiment;

FIG. 8 is a partial flow diagram of a modular display interaction method in accordance with an illustrative embodiment;

fig. 9 is a schematic structural diagram of a display interaction device according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail 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.

Referring to fig. 1, fig. 1 is a flowchart illustrating a modular display interaction method of an equipment control system according to an embodiment of the present invention.

The present embodiment is described below by taking a substation air conditioning system as an example, and it is understood that the present embodiment is not limited to the heating, ventilation and air conditioning system applied in the substation.

And S120, acquiring the type information of the equipment in the equipment system.

In particular, the equipment control system may be a substation heating, ventilating and air conditioning system, which may include at least one of a multi-split air conditioner, a fan, and a louver, each of which may include one or more equipment. Furthermore, a plurality of fans and a plurality of louvers can be uniformly controlled by one fan control cabinet, so that the functions of cooling, ventilating and the like can be realized only by the fans.

The obtaining may be obtaining information pre-stored in the storage device, or obtaining information input by the user through the input device. The storage device includes, but is not limited to, a local storage device and a cloud storage device. The input device includes, but is not limited to, a keyboard, a mouse, a touch screen, a scanner, and the like.

The devices may be grouped according to type. For example, in a substation air conditioning system, the type information may include a multi-connected unit, a fan unit, and a louver unit. It can be understood that the type information of the equipment control system can be flexibly set according to specific requirements.

And S140, generating interactive information corresponding to the type information one by one according to the type information.

And generating interactive information corresponding to the type information one to one according to the type information, specifically, if the acquired type information is a multi-connected unit, generating interactive information of the multi-connected unit, if the acquired type information is a fan unit, generating interactive information of the fan unit, and if the acquired type information is a louver unit, generating interactive information of the louver unit.

Specifically, the step S140 of generating the interaction information corresponding to the type information one to one according to the type information may include the following sub-steps:

and S142, acquiring a device group matched with the type information from all devices in the device control system according to the type information.

Specifically, in one device control system, a plurality of devices may be included, and each device may include one or more devices. For example, suppose that in a substation air conditioning system, 4 multi-split air conditioners may be included, 8 fan control cabinets, where each fan control cabinet may control 3 fans and 3 louvers. All equipment is configured into two zones, wherein each zone comprises 2 multi-split air lines and 4 fan control cabinets. And if the type information is the multi-split unit, selecting all multi-split equipment as the multi-split equipment group. And if the type information is the fan cabinet group, selecting all the fan cabinet equipment as the fan cabinet equipment group.

And S144, acquiring the equipment information of the equipment in the equipment group.

Specifically, the device information of all the devices in the device group obtained in step S142 is acquired. The device information corresponds to devices in the device control system one to one, and the device information is different among different devices. The device information may be pre-stored in the storage device and may be changed according to the user's input. The device information may include device number information, each device number information corresponds to a specific device, and the specific device may be selected by selecting the device number information, so as to implement control of the specific device by the control system.

And S146, generating the interaction information according to the equipment information of the equipment in the equipment group.

Specifically, according to specific requirements, part or all of the information is selected from the device information to be displayed. Further, the device information in the device group may be arranged in order or sub-classified by sub-category to display the device information more orderly. And S160, generating a corresponding interactive interface according to the type information of the equipment control system.

Specifically, when the type information acquired in step S120 is a multi-connected unit, an interactive interface of the multi-connected unit is acquired. And when the type information acquired in the step S120 is a fan group, acquiring an interactive interface of the fan group. When the type information acquired in step S120 is a louver group, an interactive interface of the louver group is acquired.

And S180, mapping the interactive information on the corresponding interactive interface.

Specifically, the interactive information of the multi-connected unit is mapped on an interactive interface of the multi-connected unit, the interactive information of the fan unit is mapped on the interactive interface of the fan unit, and the interactive information of the louver unit is mapped on the interactive interface of the louver unit. The mapping means displaying the interactive information on a corresponding interactive interface and supporting the user to modify the corresponding interactive information.

The display interaction device of the equipment control system only needs to correspondingly develop the template interface of the type equipment according to the type information of the equipment in the equipment system, and display the corresponding information in the template interface. Repeated development can be avoided, the development efficiency is improved, and the problem of difficult maintenance is solved.

Referring to fig. 2, fig. 2 is a partial flowchart of a modular display interaction method according to an embodiment of the present invention.

The equipment information comprises debugging information and control information; the interactive interface comprises a debugging interface and a control interface. The step of displaying the interaction information on the corresponding interaction interface comprises the following steps:

s220, the interactive request is obtained.

Specifically, the interaction request may be a request input by a user through an input device, or may be preset information. The interactive information comprises a setting request and a control request. When a user needs to initially set a device or change debugging information, a setting request may be initiated. When a user needs to control a device, a control request may be initiated.

S240, if the interactive information is a setting request, mapping the debugging information on the debugging interface.

Specifically, if the interaction information obtained in step S220 is a setting request, the debugging information is mapped on the debugging interface. The setting request can be initiated by a user according to the on-site condition, and the setting request can be initiated when the whole equipment system is divided into regions and debugged according to the on-site condition.

The debugging information may include information that needs to be set by a user in the device information. For example, in a substation air conditioning system, the commissioning information may include zone information, equipment subtype information, slave station communication address information, and operating parameters. It is understood that different debug information may be selected and set for different devices according to specific requirements. For example, in a substation air conditioning system, the commissioning information of the multi-split devices may include zone information. The debugging information of the fan can comprise area information, fan subtype, fan control cabinet number and slave station communication address information.

And S260, if the interactive information is a control request, mapping the control information on the control interface.

Specifically, if the interaction information obtained in step S220 is a control request, the control information is mapped on the control interface. The control request may be a request initiated by a user in controlling the device system, where the user needs to control the operation mode of a specific device.

The control information may include control information in device information, for example, in an air conditioning system of a substation, the control information of the multi-split air conditioner may include manual/automatic mode information, temperature control information, and switching control information, the control information of the fan may include manual/automatic mode information, switching information, and failure information, and the control information of the louver may include manual/automatic mode information, switching information, and failure information. The control system can modify the control information according to the user instruction and send the control information of the user to the corresponding equipment through the communication protocol, thereby realizing the control of the equipment.

Referring to fig. 2, in one embodiment, if the interaction request in step S240 is a setting request, the step of mapping the debugging information on the debugging interface includes:

s280, judging whether the debugging information is updated.

Specifically, in the debugging interface, the user can update the debugging information. For example, in a substation air conditioning system, a multi-connected unit and a fan unit may be included, and accordingly, when a user initiates a setting request, there will be a multi-connected unit debugging interface and a fan debugging interface, where the multi-connected unit interface displays debugging information of the multi-connected unit and the fan debugging interface displays debugging information of the fan unit.

And S290, if yes, modifying and storing the equipment information corresponding to the debugging information according to the updated debugging information.

Specifically, if it is determined in S280 that the value of the debug information is changed, the device information corresponding to the debug information is modified and stored according to the updated debug information.

Furthermore, the equipment information can be classified according to specific requirements, the equipment information of different categories can be independently stored, and power failure memory is supported. For example, if the device information includes the region information, the device information may be reclassified according to the region information, and the device information of different regions may be independently stored, and power-down memory may be supported.

Referring to fig. 3, fig. 3 is a schematic diagram illustrating an effect of a multiple online debugging interface. The multi-online debugging interface 300 includes multi-online debugging information 310, 320, and 330, where the multi-online debugging information includes multi-online area information and a multi-online device name. The user can update the value of the multi-split air conditioner area information according to the requirement, and therefore different areas can be divided for the multi-split air conditioner.

Referring to fig. 4, fig. 4 is a schematic diagram illustrating an effect of a fan debugging interface. The fan debugging interface 400 includes fan debugging information 410, fan debugging information 420 and fan debugging information 430, where the fan debugging information 410, the fan debugging information 420 and the fan debugging information 430 all include fan region information, fan subtype information, fan operating parameters, and slave station communication address information. The user can change the information according to specific requirements. In a system of equipment with a fan control cabinet, the fan zone information is used to distinguish between fan control cabinet equipment in different zones. The fan type is used for distinguishing different types of fan control cabinet equipment and can be generally divided into a double-speed fan control cabinet and a variable-frequency fan control cabinet. The fan operation parameters are used for public debugging parameters, generally have default values, and can not be set if a user has no special requirements. And the slave station communication address information is used for distinguishing different fan control cabinets.

When a user updates debugging information on a fan debugging interface, the fan is divided into different areas according to the field condition, the debugging information of the areas is configured for some areas, and after one area is configured, the debugging information of the next area is configured until the debugging information of all the areas is set. If the fan control cabinet exists in one area, fan type information is set according to the type of the fan control cabinet, and slave station communication address information is set according to the slave station communication address of the fan control cabinet. If one area is not provided with the fan cabinet, the user can set the fan type information to be zero and set the communication address of the slave station to be 0.

In a specific embodiment, the step of storing updated debugging information further includes:

the device information includes area information;

modifying and storing the device information corresponding to the debugging information according to the updated debugging information includes: dividing the equipment information into a plurality of subarea equipment information according to the area information; dividing the equipment information into a plurality of subarea equipment information according to the area information; storing the plurality of partition device information in corresponding storage units.

Specifically, after the setting of the fan debugging interface is completed, the updated debugging information is stored. The method includes the steps that firstly, equipment information is classified according to area information of the fan and divided into subarea equipment information, namely, the subarea 1 equipment information, the subarea 2 equipment information and the like. And then dividing the storage area into different storage units according to the fan area information, namely dividing the storage area into an area 1 storage unit, an area 2 storage unit and the like. And finally, storing the partition device information in corresponding storage units, namely storing the area 1 device information in an area 1 storage unit and storing the area 2 device information in an area 2 storage unit.

The debugging information is independently stored according to different set values of the area information, so that fans in different areas are simultaneously accessed to one set of upper computer monitoring system, different fans are distinguished through slave station communication addresses, and the monitoring in different areas is independent and not interfered with each other.

Referring to fig. 5, fig. 5 is a partial flowchart of a display interaction method according to an embodiment. Referring to fig. 6, fig. 6 is a schematic view illustrating a display interaction process of a control interface according to an embodiment. Wherein 610 is a schematic diagram of an effect of the interactive interface after the step S180 is completed, and 630 is a schematic diagram of an effect of the interactive interface after the process provided by the present embodiment is completed. The specific process is as follows:

the device information includes area information; mapping the control information on the control interface comprises, after:

s520, acquiring first area information.

Specifically, the first area information may be preset information or information input by a user through an input device. The input device in fig. 6 is a touch screen, and it is understood that the input device may also include, but is not limited to, a keyboard, a mouse, and the like.

And S540, inquiring the area information matched with the first area information in each piece of equipment information.

Specifically, in one substation air conditioning system, assuming that the type information is a multi-connected unit, in step S260, control information of the multi-connected unit is displayed on a control interface of the multi-connected unit. Since each device is provided with device information, the device information may include area information. The area information in the device information may be prestored in the storage device, or may be set in the debugging interface by the user according to specific requirements and stored in the device information of the corresponding device. If the first area information is area 1, area information matching area 1 is inquired among the device information of the respective devices using area 1.

And S560, if the matching is successful, setting the control information in the control interface to be in a controllable state for acquiring the updating control information input by the user.

Specifically, if the first area information is area 1, the successful matching means that the area information of the multi-split air-conditioning system is also area 1. If the matching is successful, the control information is set to be in a controllable state, the controllable state can be marked by high brightness, and when the control information is set to be in the controllable state, a user can realize the control of the equipment in a mode of updating the control information.

And S580, if the matching fails, setting the control information in the control interface to be in an uncontrollable state, and prohibiting a user from inputting and updating the control information.

Specifically, if the second information input is area 1 and the area information in the device information is area 2, the matching fails. If the matching fails, the control information is set to an uncontrollable state, which may be marked with gray, and when the control information is set to the uncontrollable state, the user is prohibited from inputting control information for updating the device.

Referring to fig. 7, fig. 7 is a partial flowchart of a method for displaying interaction according to an embodiment. The step of mapping the control information on the control interface in fig. 7 includes:

s720, acquiring second area information.

Specifically, the acquisition may be preset information or information input by a user through an input device.

And S740, generating a corresponding control sub-interface according to the second area information.

Specifically, in a substation air conditioning system, assuming that the type information is a fan group, in step S260, control information of the fan group is displayed on a control interface of the fan group. Since each device is provided with device information, the device information may include area information. The area information in the device information may be prestored in the storage device, or may be set in the debugging interface by the user according to specific requirements and stored in the debugging information. If the second area information is area 1, a control sub-interface corresponding to area 1 is generated.

S760, matching the second area information with the area information in each piece of device information.

Specifically, if the second area information is area 1, area 1 is matched with the device information of each device as matching information. The device information includes debug information and control information, and the debug information includes region information. The area information may be set in the debugging interface by the user according to specific requirements and stored in the debugging information.

And S780, if the matching is successful, displaying the control information in the equipment information in the corresponding control sub-interface.

Specifically, if the second area information is area 1, the successful matching means that the area information of a certain device is also area 1. If the matching is successful, the control information of the device is displayed in the control sub-interface of the area 1 generated in the step S740. The user can realize the control of the equipment in the control sub-interface by updating the control information.

Referring to fig. 8, fig. 8 is a partial flowchart of a modular display interaction method according to an embodiment.

After the control information in the device information is displayed in the corresponding control sub-interface, the method further includes:

and S820, acquiring a corresponding interaction submodule according to the equipment subtype in the equipment information.

Since the control device may include therein device subtypes that are further subdivided on a packet basis. For example, in a substation air conditioning system, the fan group equipment can be further subdivided according to fan subtype information, and can be further classified into a variable frequency fan control cabinet and a double speed fan control cabinet. The fan subtype information can be set by a debugging interface.

In the air conditioning system of the transformer substation, as the standard development is adopted, the same communication protocol can be adopted for the double-speed fan control cabinet and the variable-frequency fan control cabinet as well as the upper computer. Therefore, in order to meet the special requirement, one interaction submodule can be developed according to the different fan subtype information, and the different interaction submodules can be directly called to be displayed during displaying. For convenience of description, it is assumed that each area has at most 4 fan control cabinets, namely, a fan control cabinet a, a fan control cabinet B, a fan control cabinet C and a fan control cabinet D. For the A-type fan control cabinet, an A-type variable-frequency fan control cabinet module and an A-type double-speed fan control cabinet module are provided, the two modules use the same display area, namely the same area of the control information designated registers of the two modules, and LW5051-LW5120 can be designated to be used for storing the control information of the two types of modules on the assumption that the control information of one fan control cabinet needs 70 data segments.

Specifically, after a step S780 is executed, the fan control cabinets in the area 1 are all displayed in the control sub-interface of the area 1, and the fan type information in the fan control cabinet device information can be further extracted and determined. And different types of modules can be called for display interaction according to different fan types.

And S840, acquiring corresponding control information according to the device subtype in the device information.

Specifically, the corresponding control information is obtained according to the device subtype in the device information.

And S860, calling the control information to the corresponding interaction submodule to display.

Specifically, for example, in a substation air conditioning system, if the device subtype in the fan device is a variable frequency fan control cabinet, the variable frequency fan control cabinet module No. a is called for display. And if the subtype of the equipment in the fan equipment is a double-speed fan control cabinet, calling the A number double-speed fan control cabinet module for displaying.

Referring to fig. 9, fig. 9 is a schematic structural diagram of a display interaction device according to an embodiment of the disclosure. The device comprises:

a 901 type obtaining module, configured to obtain type information of a device in the device system;

903 information generating module, configured to generate, according to the type information, interactive information corresponding to the type information one to one;

the 905 interface generating module is used for generating interactive interfaces corresponding to the type information one by one according to the type information;

907 an information mapping module for mapping the interactive information on the corresponding interactive interface.

The display interaction device of the equipment control system only needs to correspondingly develop the template interface of the type equipment according to the type information of the equipment in the equipment system, and display the corresponding information in the template interface. Repeated development can be avoided, the development efficiency is improved, and the problem of difficult maintenance is solved.

As a specific implementation manner, the information generating module includes:

the equipment selection unit is used for acquiring an equipment group matched with the type information from all equipment in the equipment control system according to the type information;

an information acquisition unit, configured to acquire device information of devices in the device group;

and the interactive information generating unit is used for generating the interactive information according to the equipment information of all the equipment in the equipment group.

As a specific implementation manner, the interaction information includes debugging information and control information; the interactive interface comprises a debugging interface and a control interface;

the information mapping module comprises:

a request obtaining unit, configured to obtain an interaction request;

the debugging information mapping unit is used for mapping the debugging information on the debugging interface if the interaction request is a setting request;

and the control information mapping unit is used for mapping the control information on the control interface if the interactive request is a control request.

As a specific embodiment, wherein, the apparatus further comprises:

the updating judgment module is used for judging whether the debugging information is updated or not;

and the information storage module is used for modifying and storing the equipment information corresponding to the debugging information according to the updated debugging information if the debugging information is updated.

As a specific embodiment, wherein the device information includes area information;

the information storage module includes:

an information partitioning unit configured to divide the device information into a plurality of partitioned device information according to the region information;

a storage partitioning unit for dividing the storage area into a plurality of storage units according to the area information;

an information storage unit for storing the plurality of partition device information in corresponding storage units.

As a specific embodiment, wherein the device information includes area information;

the control information unit includes:

an area information acquisition unit configured to acquire first area information;

the information matching unit is used for inquiring the area information matched with the first area information in each debugging information;

the information controllable unit is used for setting the control information corresponding to the equipment information into a controllable state if the matching is successful, and is used for acquiring the updated control information input by the user;

and the information uncontrollable unit is used for setting the control information corresponding to the equipment information to be in an uncontrollable state if the matching fails and forbidding a user to input and update the control information.

As a specific embodiment, wherein the device information includes area information;

the control information unit includes:

a second information acquisition unit configured to acquire second area information;

the interface generating unit is used for generating a corresponding control sub-interface according to the second area information;

the second information matching unit is used for matching the second area information with the area information in each piece of equipment information;

and the second display unit is used for displaying the control information in the equipment information in the corresponding control sub-interface if the matching is successful.

As a specific implementation, the device information further includes a device subtype;

the second display unit further includes:

the submodule acquisition unit is used for acquiring a corresponding interactive submodule according to the equipment subtype in the equipment information;

the sub-information acquisition unit is used for acquiring corresponding control information according to the equipment subtype in the equipment information;

and the sub-information display unit is used for calling the control information to the corresponding interaction sub-module for display.

A modular display interaction device of a device control system, the device comprising a processor, a memory, and computer instructions stored on the memory, wherein the computer instructions, when executed by the processor, implement the steps of:

acquiring type information of equipment in an equipment system;

generating interactive information corresponding to the type information one by one according to the type information;

generating interactive interfaces corresponding to the type information one by one according to the type information;

and mapping the interaction information on the corresponding interaction interface.

The computer instructions executed by the display interaction device of the device control system only need to correspondingly develop the template interface of the type device according to the type information of the device in the device system, and display the corresponding information in the template interface. Repeated development can be avoided, the development efficiency is improved, and the problem of difficult maintenance is solved.

As a specific implementation manner, the step performed by the processor of generating the interaction information corresponding to the type information in a one-to-one manner according to the type information includes:

acquiring a device group matched with the type information from all devices in the device control system according to the type information;

acquiring equipment information of the equipment in the equipment group;

and generating the interactive information according to the equipment information of the equipment in the equipment group.

As a specific implementation manner, the interaction information includes debugging information and control information; the interactive interface comprises a debugging interface and a control interface;

the step of mapping the interaction information on the corresponding interaction interface executed by the processor comprises the following steps:

acquiring an interactive request;

if the interactive request is a setting request, mapping debugging information on the debugging interface;

and if the interactive request is a control request, mapping the control information on the control interface.

As a specific implementation manner, if the interaction request is a setting request, the processor further performs the following steps after performing the step of mapping the debugging information on the debugging interface:

judging whether the debugging information is updated or not;

and if so, modifying and storing the equipment information corresponding to the debugging information according to the updated debugging information.

As a specific embodiment, wherein the device information includes area information;

the step of modifying and storing the device information corresponding to the debugging information according to the updated debugging information, which is executed by the processor, includes:

dividing the equipment information into a plurality of subarea equipment information according to the area information;

dividing the storage area into a plurality of storage units according to the area information;

storing the plurality of partition device information in corresponding storage units.

As a specific embodiment, wherein the device information includes area information;

the processor executes the following steps after the step of mapping the control information on the control interface if the interactive request is a control request:

acquiring first area information;

inquiring area information matched with the first area information in each debugging information;

if the matching is successful, setting the control information corresponding to the equipment information to be in a controllable state for acquiring the updating control information input by the user;

and if the matching fails, setting the control information corresponding to the equipment information to be in an uncontrollable state for prohibiting a user from inputting and updating the control information.

As a specific embodiment, wherein the device information includes area information;

the step of mapping the control information on the control interface performed by the processor comprises:

acquiring second area information;

generating a corresponding control sub-interface according to the second area information;

matching the second area information with area information in each piece of equipment information;

and if the matching is successful, displaying the control information in the equipment information in the corresponding control sub-interface.

As a specific implementation, the device information further includes a device subtype;

the processor executes the following steps after the control information in the equipment information is displayed in the corresponding control sub-interface:

acquiring a corresponding interaction submodule according to the equipment subtype in the equipment information;

acquiring corresponding control information according to the equipment subtype in the equipment information;

and calling the control information to a corresponding interaction submodule for displaying.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

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

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

Claims (15)

1. A modular display interaction method for a device control system, the method comprising:

acquiring type information of equipment in an equipment system;

generating interactive information corresponding to the type information one by one according to the type information;

generating interactive interfaces corresponding to the type information one by one according to the type information;

mapping the interactive information on a corresponding interactive interface, wherein the mapping means that the interactive information is displayed on the corresponding interactive interface;

the interactive request comprises a control request, the interactive information comprises control information, and the interactive interface comprises a control interface;

the step of mapping the interactive information on the corresponding interactive interface comprises the following steps:

acquiring the control request, and mapping the control information on the control interface;

wherein the device information includes area information;

the step of mapping the control information on the control interface comprises:

acquiring second area information;

generating a corresponding control sub-interface according to the second area information;

matching the second area information with area information in each piece of equipment information;

and if the matching is successful, displaying the control information in the equipment information in the corresponding control sub-interface.

2. The method according to claim 1, wherein the step of generating the interactive information corresponding to the type information one by one according to the type information comprises:

acquiring a device group matched with the type information from all devices in the device control system according to the type information;

acquiring equipment information of the equipment in the equipment group;

and generating the interactive information according to the equipment information of the equipment in the equipment group.

3. The display interaction method of claim 2, wherein the interaction request comprises a setup request; the interaction information comprises debugging information; the interactive interface comprises a debugging interface;

the step of mapping the interactive information on the corresponding interactive interface comprises the following steps:

and acquiring the setting request, and mapping the debugging information on the debugging interface.

4. The display interaction method of claim 3, wherein the step of mapping the debugging information on the debugging interface after the step of obtaining the setting request comprises:

judging whether the debugging information is updated or not;

and if so, modifying and storing the equipment information corresponding to the debugging information according to the updated debugging information.

5. The display interaction method of claim 4, wherein the device information comprises region information;

modifying and storing the device information corresponding to the debugging information according to the updated debugging information includes:

dividing the equipment information into a plurality of subarea equipment information according to the area information;

dividing the storage area into a plurality of storage units according to the area information;

storing the plurality of partition device information in a corresponding plurality of storage units.

6. The display interaction method of claim 1, wherein the device information comprises region information;

obtaining the control request, and mapping the control information on the control interface comprises:

acquiring first area information;

inquiring area information matched with the first area information in each piece of equipment information;

if the matching is successful, setting the control information corresponding to the equipment information to be in a controllable state for acquiring the updating control information input by the user;

and if the matching fails, setting the control information corresponding to the equipment information to be in an uncontrollable state for prohibiting a user from inputting and updating the control information.

7. The display interaction method of claim 1, wherein the device information further comprises a device subtype;

after the control information in the device information is displayed in the corresponding control sub-interface, the method further includes:

acquiring a corresponding interaction submodule according to the equipment subtype in the equipment information;

acquiring corresponding control information according to the equipment subtype in the equipment information;

and calling the control information to a corresponding interaction submodule for displaying.

8. A modular display interaction apparatus for a device control system, the apparatus comprising:

the type acquisition module is used for acquiring the type information of the equipment in the equipment system;

the information generation module is used for generating interactive information which corresponds to the type information one by one according to the type information;

the interface generating module is used for generating interactive interfaces corresponding to the type information one by one according to the type information;

the information mapping module is used for mapping the interactive information on the corresponding interactive interface, and the mapping means that the interactive information is displayed on the corresponding interactive interface;

the interactive request comprises a control request, the interactive information comprises control information, and the interactive interface comprises a control interface;

the information mapping module comprises:

a request acquisition unit configured to acquire the control request;

the control information mapping unit is used for mapping the control information on the control interface;

wherein the device information includes area information;

the control information mapping unit includes:

a second information acquisition unit configured to acquire second area information;

the interface generating unit is used for generating a corresponding control sub-interface according to the second area information;

the second information matching unit is used for matching the second area information with the area information in each piece of equipment information;

and the second display unit is used for displaying the control information in the equipment information in the corresponding control sub-interface if the matching is successful.

9. The display interaction device of claim 8, wherein the information generation module comprises:

the equipment selection unit is used for acquiring an equipment group matched with the type information from all equipment in the equipment control system according to the type information;

an information acquisition unit, configured to acquire device information of devices in the device group;

and the interactive information generating unit is used for generating the interactive information according to the equipment information of the equipment in the equipment group.

10. The display interaction device of claim 8, wherein the interaction request comprises a setup request; the interaction information comprises debugging information; the interactive interface comprises a debugging interface;

the information mapping module comprises:

a request acquisition unit configured to acquire the setting request;

and the debugging information mapping unit is used for mapping the debugging information on the debugging interface.

11. The display interaction apparatus of claim 10, wherein the apparatus further comprises:

the updating judgment module is used for judging whether the debugging information is updated or not;

and the information storage module is used for modifying and storing the equipment information corresponding to the debugging information according to the updated debugging information if the debugging information is updated.

12. The display interaction apparatus of claim 11, wherein the device information comprises region information;

the information storage module includes:

an information partitioning unit configured to divide the device information into a plurality of partitioned device information according to the region information;

a storage partitioning unit for dividing the storage area into a plurality of storage units according to the area information;

an information storage unit configured to store the plurality of partition device information in a corresponding plurality of storage units.

13. The display interaction apparatus of claim 10, wherein the device information comprises region information;

the control information unit includes:

an area information acquisition unit configured to acquire first area information;

the information matching unit is used for inquiring the area information matched with the first area information in each debugging information;

the information controllable unit is used for setting the control information corresponding to the equipment information into a controllable state if the matching is successful, and is used for acquiring the updated control information input by the user;

and the information uncontrollable unit is used for setting the control information corresponding to the equipment information to be in an uncontrollable state if the matching fails and forbidding a user to input and update the control information.

14. The display interaction apparatus of claim 8, wherein the device information further comprises a device subtype;

the second display unit further includes:

the submodule acquisition unit is used for acquiring a corresponding interactive submodule according to the equipment subtype in the equipment information;

the sub-information acquisition unit is used for acquiring corresponding control information according to the equipment subtype in the equipment information;

and the sub-information display unit is used for calling the control information to the corresponding interaction sub-module for display.

15. A modular display interaction device of a device control system, the device comprising a processor, a memory, and computer instructions stored on the memory, wherein the computer instructions, when executed by the processor, implement the steps of the method of any one of claims 1-7.

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