CN111698135B - Air conditioner network control method and device, network interconnection equipment and storage medium - Google Patents

Abstract

The invention relates to the technical field of air conditioner networks, and provides an air conditioner network control method, an air conditioner network control device, network interconnection equipment and a storage medium, wherein the air conditioner network control method comprises the following steps: receiving event information to be processed sent by computer equipment, wherein the event information to be processed is used for triggering control operation aiming at an air conditioner; determining a target priority corresponding to the event information to be processed and a first target control instruction for the air conditioner; and sending the first target control instruction to the air conditioner according to the target priority so that the air conditioner executes the first target control instruction. Compared with the prior art, different priorities are set for different events, and corresponding control instructions are sent to the air conditioner according to the priorities of the events to be processed, so that the air conditioner is controlled in time.

Description

Air conditioner network control method and device, network interconnection equipment and storage medium

Technical Field

The invention relates to the technical field of air conditioner networks, in particular to an air conditioner network control method, an air conditioner network control device, network interconnection equipment and a storage medium.

Background

Air conditioners become necessary equipment of modern buildings, a large number of air conditioners are installed in large buildings such as hospitals, shopping malls and office buildings, in order to facilitate centralized management and control of multiple air conditioners in the same building, multiple air conditioners in the same building are generally combined into an air conditioning network, and then multiple air conditioners are managed and controlled through a control center.

How to effectively control an air conditioning network to efficiently manage air conditioners in the air conditioning network is a problem to be solved urgently at present.

Disclosure of Invention

The invention solves the problem that the existing air conditioner network control method adopts a first-come first-handle mode to all control instructions aiming at the air conditioner, thereby causing the problem that the air conditioner can not be controlled in time under a special scene.

In order to solve the above problems, the present invention provides an air conditioner network control method, which is applied to a network interconnection device in an air conditioner network, wherein the network interconnection device is in communication connection with both an air conditioner and a computer device, and the air conditioner network control method comprises: receiving event information to be processed sent by computer equipment, wherein the event information to be processed is used for triggering control operation aiming at an air conditioner; determining a target priority corresponding to the event information to be processed and a first target control instruction for the air conditioner; and sending the first target control instruction to the air conditioner according to the target priority so that the air conditioner executes the first target control instruction.

Compared with the prior art, the air conditioner network control method has the following advantages: when a special event occurs and needs to emergently control an air conditioner in an air conditioner network, computer equipment sends event information to be processed triggered based on the occurrence of the special event to network interconnection equipment, the network interconnection equipment determines a target priority corresponding to the event information to be processed and a first target control instruction for the air conditioner, the network interconnection equipment sends the first target control instruction to the air conditioner according to the target priority so that the air conditioner executes the first target control instruction, different priorities are set for different events, and the corresponding control instruction is sent to the air conditioner according to the priority of the event to be processed, so that the air conditioner is timely controlled.

Further, the event information to be processed includes an event type to be processed, the network interconnection device stores in advance an instruction mapping relationship, the instruction mapping relationship includes a preset event type, a priority corresponding to the preset event type, and a control instruction for the air conditioner, and the step of determining the target priority corresponding to the event information to be processed and the first target control instruction for the air conditioner includes:

taking a preset event type consistent with the type of the event to be processed in the instruction mapping relation as a target event type;

determining the priority corresponding to the target event type as the target priority;

and determining the control instruction corresponding to the target event type as a first target control instruction.

Further, the network interconnection device includes a first network interconnection device and a second network interconnection device which are communicatively connected to each other, and the air conditioner network control method further includes:

determining a network interconnection device communicatively connected with the air conditioner as the first network interconnection device;

determining a network interconnection device communicatively connected to the computer device as the second network interconnection device.

Further, the air conditioner network control method further includes:

receiving a second target control instruction sent by the computer equipment through the second network interconnection equipment and sending the second target control instruction to the first network interconnection equipment, wherein the second target control instruction comprises an identifier of a target air conditioner;

judging whether the first network interconnection equipment is in communication connection with the target air conditioner or not through the identifier, stored in advance, of the air conditioner in communication connection with the first network interconnection equipment;

and if the first network interconnection equipment is in communication connection with the target air conditioner, sending the second target control instruction to the target air conditioner according to the identifier of the target air conditioner so that the target air conditioner executes the second target control instruction.

Further, the network interconnection device further includes a third network interconnection device, the third network interconnection device is in communication connection with both the first network interconnection device and the second network interconnection device, and the step of receiving, by the second network interconnection device, a second target control instruction sent by the computer device and sending the second target control instruction to the first network interconnection device includes:

receiving a second target control instruction sent by the computer equipment through the second network interconnection equipment and sending the second target control instruction to the third network interconnection equipment;

and sending the second target control instruction to the first network interconnection device through the third network interconnection device.

Further, the air conditioner network control method further includes:

receiving a query instruction sent by the computer equipment through the second network interconnection equipment and sending the query instruction to the first network interconnection equipment, wherein the query instruction comprises an identifier of an air conditioner to be queried;

judging whether the first network interconnection equipment is in communication connection with the air conditioner to be inquired or not according to the identifier, stored in advance, of the air conditioner in communication connection with the first network interconnection equipment;

and if the first network interconnection equipment is in communication connection with the air conditioner to be inquired, sending the inquiry instruction to the air conditioner to be inquired according to the identifier of the air conditioner to be inquired so as to acquire the running state of the air conditioner to be inquired.

Furthermore, the number of the first network interconnection devices is the same as that of the air conditioners, and the first network interconnection devices correspond to the air conditioners one to one.

The invention also provides an air conditioner network control device, which is applied to network interconnection equipment in an air conditioner network, wherein the network interconnection equipment is in communication connection with both an air conditioner and computer equipment, and the device comprises: the receiving module is used for receiving to-be-processed event information sent by the computer equipment, wherein the to-be-processed event information is used for triggering control operation aiming at the air conditioner; the determining module is used for determining a target priority corresponding to the to-be-processed event information and a first target control instruction aiming at the air conditioner; and the sending module is used for sending the first target control instruction to the air conditioner according to the target priority so as to enable the air conditioner to execute the first target control instruction.

The present invention also provides a network interconnection device, including:

one or more processors; a memory for storing one or more programs that, when executed by the one or more processors, cause the one or more processors to implement the air conditioning network control method as described above.

The present invention also provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the air conditioning network control method described above.

Drawings

Fig. 1 is a schematic view of an application scenario of the air conditioner network control method provided by the present invention.

Fig. 2 is a schematic view of another application scenario of the air conditioner network control method provided by the present invention.

Fig. 3 is a schematic view of another application scenario of the air conditioner network control method provided by the present invention.

Fig. 4 is a block diagram of a network interconnection device provided by the present invention.

Fig. 5 is a schematic flow chart of an air conditioner network control method according to the present invention.

Fig. 6 is a flowchart illustrating another air conditioner network control method according to the present invention.

Fig. 7 is a flowchart illustrating another air conditioner network control method according to the present invention.

Fig. 8 is a flowchart illustrating another air conditioner network control method according to the present invention.

Fig. 9 is a block diagram of an air conditioning network control device according to the present invention.

Description of reference numerals:

10-a network interconnect device; 11-a processor; 12-a memory; 13-a bus; 14-a communication interface; 20-an air conditioner; 30-a computer device; 100-air conditioner network control device; 110-an obtaining module; 120-a determination module; 130-a sending module; 140-a control module; 150-query module.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1, fig. 1 is a schematic view of an application scenario of the air conditioner network control method provided by the present invention, in fig. 1, a network interconnection device 10, an air conditioner 20, and a computer device 30 form an air conditioner network, and a communication interface between the network interconnection device 10 and the air conditioner 20 may be an RS-485 interface, a Homebus interface, or a CAN interface, etc. The communication interface between the network interconnection device 10 and the computer device 30 may be a modbus protocol interface, a bacnet protocol interface, a lonworks interface, an knx interface, a WIFI interface, a lora interface, or a 4G interface.

When an event needing to be processed occurs, the computer device 30 sends the information of the event to be processed to the network interconnection device 10, the network interconnection device 10 firstly determines a target priority corresponding to the information of the event to be processed and a first target control instruction for the air conditioner 20, then sends the first target control instruction to the air conditioner 20 according to the target priority, and the air conditioner 20 executes the first target control instruction, so that the air conditioner 20 is controlled in time.

The network interconnection device 10 is used to implement network connection between the air conditioner 20 and the computer device 30, and the network interconnection device 10 may be a gateway, a hub, a router, or the like.

The air conditioner 20 is referred to as a unit type air conditioner (including a household wall-mounted type, a cabinet type, a unit type air conditioner, and a wind panel), and a unit type air conditioner generally includes only one indoor unit.

The computer device 30 serves as a control center for centrally controlling the air conditioner 20, i.e., a user issues a control operation for the air conditioner 20 through the computer device 30. The computer device 30 may be a standalone host, server, or terminal device, or may be a host or server in a control system, or the like.

As a specific implementation manner, one network interconnection device 10 may be directly connected with one air conditioner 20 in a communication manner, so that the data transmission control logic between the network interconnection device 10 and the air conditioner 20 is simpler, and thus, the network interconnection device 10 has smaller volume, less material required for manufacturing, lower chip cost and fewer components, and the reliability of the network interconnection device 10 is higher due to the reduction of the control logic of the network interconnection device 10.

In order to improve the expandability of the air conditioning network and improve the communication efficiency between the computer device 30 and the air conditioner 20, the present invention provides another application scenario diagram of the air conditioning network control method based on fig. 1, please refer to fig. 2, and fig. 2 is another application scenario diagram of the air conditioning network control method provided by the present invention. In fig. 2, the network interconnection devices 10 are organized in 2 layers, and the network interconnection device 10 directly communicatively connected to the air conditioner 20 is referred to as a first network interconnection device, and the network interconnection device 10 directly communicatively connected to the computer device 30 is referred to as a second network interconnection device.

When an event needing to be processed occurs, the computer device 30 sends the event information to be processed to the second network interconnection device, the second network interconnection device firstly determines a target priority corresponding to the event information to be processed and a first target control instruction for the air conditioner 20, then sends the first target control instruction to the first network interconnection device according to the target priority, the first network interconnection device transparently transmits the first target control instruction to the air conditioner 20, and the air conditioner 20 executes the first target control instruction, so that the air conditioner 20 is controlled in time.

Comparing the extensibility of the air-conditioning network in the application scenario of fig. 1 and the application scenario of fig. 2, according to the networking mode of the application scenario of fig. 1, assuming that one network interconnection device 10 can be connected to 1 air conditioner 20, at most 1 air conditioner 20 can be added every time one network interconnection device 10 is added, and according to the networking mode of the application scenario of fig. 2, assuming that one second network interconnection device can be connected to at most 3 first network interconnection devices, and one first network interconnection device can be connected to at most 1 air conditioner, one second network interconnection device is added, and at most 1 × 3 to 3 air conditioners 20 can be added, so that it can be seen that the networking mode of fig. 2 can greatly increase the number of the accessed air conditioners 20.

To illustrate the communication efficiency between the computer device 30 and the air conditioners 20 in the application scenario of fig. 1 and the application scenario of fig. 2, taking the data transmission time between the two as an example, in the manner of fig. 1, the number of the air conditioners 20 is a, the data transmission time of each air conditioner 20 is t1, the maximum time required for querying a certain air conditioner is a t1, in the manner of fig. 2, the number of first network interconnection devices to which a second network interconnection device can be connected is B, the data transmission time of each network interconnection device is t2, the maximum time required for querying a certain network interconnection device is B t2, and in the manner of fig. 2, the number of the air conditioners 20 is M, the M air conditioners 20 are equally divided into N shares, each share corresponds to a second network interconnection device, and the time required for the data to travel from the air conditioner 20 to the first network interconnection device is: m × t1/N, the time required for data to travel from the first network interconnect device to the second network interconnect device is: n × t2, the total required time is M × t1/N + N × t2, and if t1 is t2, (M × t1/N + N × t2) < M × t1 is satisfied as long as M > N × N/(N-1) is satisfied, so that the response is faster after the classification, and the real-time performance is improved (i.e., the transmission bandwidth is increased by changing the phase, and the fast transmission demand of data is satisfied).

It should be noted that fig. 2 is an exemplary diagram of the network interconnection device 10 organized according to 2 layers, and in fact, according to actual needs, the network interconnection device 10 may also be organized according to more than 2 layers, for example, an application scenario schematic diagram of the air conditioner network control method provided by the present invention shown in fig. 3 is shown, in fig. 3, a third network interconnection device exists between the first network interconnection device and the second network interconnection device, and the third network interconnection device is responsible for data transmission between the second network interconnection device and the first network interconnection device.

The multi-level networking mode provided by the invention not only realizes the centralized management of the air conditioners 20, but also greatly improves the access quantity of the air conditioners, has higher communication efficiency, and flexibly solves and meets the control requirement of a large-scale air conditioner network.

Referring to fig. 4, fig. 4 is a block schematic diagram of a network interconnection device 10 provided by the present invention, where the network interconnection device 10 may be the network interconnection device 10 in fig. 1, or may be a first network interconnection device and a second network interconnection device in fig. 2 and 3, or a third network interconnection device in fig. 3, the network interconnection device 10 includes a processor 11, a memory 12, a bus 13 and a communication interface 14, and the processor 11, the memory 12 and the communication interface 14 are connected through the bus 13.

The memory 12 is used to store a program, such as the air conditioning network control device 100 described above. The air conditioning network control apparatus 100 includes at least one software function module that may be stored in the memory 12 in the form of software or firmware (firmware) or solidified in an Operating System (OS) of the network interconnection device 10. After receiving the execution instruction, the processor 11 executes the program to implement the air conditioner network control method disclosed in the following embodiment.

The processor 11 may be an integrated circuit chip having signal processing capabilities. In implementation, the steps of the air conditioner network control method may be implemented by an integrated logic circuit of hardware in the processor 11 or instructions in the form of software. The Processor 11 may be a general-purpose Processor, and includes a Central Processing Unit (CPU), a Network Processor (NP), and the like; but may also be a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components.

The network interconnection device 10 communicates with other network interconnection devices, or with the air conditioner 20, or with the computer device 30 through the communication interface 14. It should be noted that each network interconnection device 10 may have a plurality of communication interfaces 14, and the network interconnection device 10 communicates with other network interconnection devices, or with the air conditioner 20, or with the computer device 30 through different communication interfaces 14.

Based on the application scenarios shown in fig. 1 to fig. 3, an embodiment of the present invention provides an air conditioner network control method, please refer to fig. 5, where fig. 5 is a schematic flow diagram of the air conditioner network control method provided in the present invention, and the method includes the following steps:

step S101, receiving information of events to be processed sent by the computer equipment, wherein the information of the events to be processed is used for triggering control operation aiming at the air conditioner.

In the embodiment, the event information to be processed may be sent to the computer device 30 when the abnormality signal detection device detects an abnormality, for example, the computer device 30 is in communication connection with the fire alarm detection device, and when the fire alarm detection device detects an abnormality, the event information to be processed is sent to the computer device 30 so as to perform corresponding handling processing for the air conditioner 20, for example, the air conditioner 20 is timely turned off, a fan of the air conditioner 20 is ensured to be rapidly turned off, and a fire situation, a smoke, and the like are prevented from being accelerated to spread by means of air flow, especially to a place where the central air conditioner is provided with an air duct.

In this embodiment, the to-be-processed event information may also be generated based on an event triggered by the user through the computer device 30 according to actual needs, for example, in order to meet the needs of a fire drill, the to-be-processed event information is generated after the user triggers a fire alarm event through the computer device 30.

And step S102, determining a target priority corresponding to the information of the event to be processed and a first target control instruction aiming at the air conditioner.

In this embodiment, different pending events may correspond to different priorities according to different degrees of urgency, so that the air conditioner is controlled accordingly in time when handling a pending event with a high degree of urgency, for example, for an emergency such as a fire, the air conditioner 20 needs to be turned off at the first time corresponding to the highest priority, thereby avoiding spreading and aggravating an accident. For a conventional non-emergency event, corresponding to a lower priority, the control instructions are sequentially executed according to a sequence generated by the control instructions, where the target priority is a priority corresponding to information of an event to be processed, the first target control instruction is a control instruction that needs to be executed on the air conditioner 20 to the event to be processed, for example, if the event to be processed is a fire alarm event, the target priority is the highest, and the first target control instruction is: a shut down command to shut down the air conditioner 20.

As a specific embodiment, the to-be-processed event information may include a to-be-processed event type, and the network interconnection device 10 stores in advance an instruction mapping relationship, where the instruction mapping relationship includes a preset event type, a priority corresponding to the preset event type, and a control instruction for the air conditioner, and for example, the instruction mapping relationship is shown in table 1:

TABLE 1

The method for determining the target priority and the first target control instruction may be:

firstly, a preset event type consistent with a to-be-processed event type in the instruction mapping relation is taken as a target event type.

And secondly, determining the priority corresponding to the target event type as a target priority.

And finally, determining the control instruction corresponding to the target event type as a first target control instruction.

It should be noted that, in response to the event to be processed, a specified air conditioner 20 may be controlled, a group of air conditioners 20 may also be controlled, or all air conditioners 20 in the air conditioning network may be controlled, and accordingly, the instruction mapping relationship may further include an identifier of the air conditioner 20 whose event type needs to be controlled, so as to achieve the purpose of controlling one or more air conditioners 20.

And step S103, sending the first target control instruction to the air conditioner according to the target priority so that the air conditioner executes the first target control instruction.

In this embodiment, the specific manner of determining the target priority and the first target control command and sending the first target control command to the air conditioner is slightly different according to the specific application scenarios shown in fig. 1 to 3.

In the application scenario of fig. 1, the network interconnection device 10 determines a target priority and a first target control instruction and sends the first target control instruction to the air conditioner according to the target priority.

In the application scenario of fig. 2, the second network interconnection device determines the target priority and the first target control instruction, sends the first target control instruction to the first network interconnection device according to the target priority, and then sends the first target control instruction to the air conditioner 20 according to the target priority by the first network interconnection device.

In the application scenario of fig. 3, the second network interconnection device determines the target priority and the first target control instruction and sends the first target control instruction to the third network interconnection device according to the target priority, the third network interconnection device transmits the first target control instruction to the first network interconnection device according to the target priority, and then the first network interconnection device sends the first target control instruction to the air conditioner 20 according to the target priority.

It should be noted that, when the third network interconnection devices are organized in multiple layers, each layer of the third network interconnection devices transmits the first target control instruction to the third network interconnection device of the next layer of the layer according to the target priority.

According to the air conditioner network control method provided by the embodiment of the invention, different priorities are set for different events, and the corresponding control instruction is sent to the air conditioner according to the priority of the event to be processed, so that the air conditioner is controlled in time.

Based on the application scenarios shown in fig. 2 and fig. 3, the present invention further provides an air conditioner network control method, which is used for making the network interconnection device 10 determine whether itself is a first network interconnection device or a second network interconnection device, please refer to fig. 2. Referring to fig. 6, fig. 6 is a schematic flow chart of another air conditioner network control method provided by the present invention, which includes the following steps:

in step S201, a network interconnection device communicatively connected to the air conditioner is determined as a first network interconnection device.

In step S202, the network interconnection device communicatively connected to the computer device is determined as the second network interconnection device.

In this embodiment, as a specific implementation manner, the network interconnection device 10 generally includes a plurality of communication interfaces 14, and the communication with the computer device 30 or the air conditioner 20 is realized through different communication interfaces 14, so the network interconnection device 10 can scan its own communication interface 14, determine itself as a first network interconnection device if it detects that there is a communication interface 14 communicating with the air conditioner 20, and determine itself as a second network interconnection device if it detects that there is a communication interface 14 communicating with the computer device 30.

In the application scenario of fig. 3, the network interconnection device 10 may further scan its communication interface 14 to determine whether it is a third network interconnection device, and if there is neither the communication interface 14 for communicating with the air conditioner 20 nor the communication interface 14 for communicating with the computer device 30, it is determined that it is the third network interconnection device.

According to the air conditioner network control method provided by the embodiment of the invention, the first network interconnection device and the second network interconnection device can be provided in the form of a universal product, namely the product models can be completely the same, and the network interconnection device 10 can judge whether the network interconnection device is the first network interconnection device or the second network interconnection device according to self-adaption, so that the variety of engineering accessories can be reduced, the risk of using mistakes is avoided, and the installation and debugging efficiency is improved.

In the present embodiment, in order to control the air conditioners 20 in the air conditioning network more flexibly, a user may issue a control instruction to a designated air conditioner 20 through the computer device 30.

For the application scenario of fig. 1, the computer device 30 first sends the control instruction to the network interconnection device 10, and then the network interconnection device 10 sends the control instruction to the air conditioner 20, it should be noted that when the user issues the control instruction through the computer device 30, the control instruction may correspond to a default priority, and the network interconnection device 10 sends the control instruction to the air conditioner 20 according to the default priority.

Referring to fig. 7 for an application scenario of fig. 2, fig. 7 is a schematic flowchart of another air conditioner network control method provided by the present invention, where the method includes the following steps:

step S301, receiving a second target control instruction sent by the computer equipment through the second network interconnection equipment and sending the second target control instruction to the first network interconnection equipment, wherein the second target control instruction comprises an identifier of the target air conditioner.

In this embodiment, the target air conditioner is the air conditioner 20 that needs to execute the second target control instruction, the identifier of the air conditioner 20 is used to uniquely represent the air conditioner, and the identifier of the air conditioner 20 may be an IP address of the air conditioner in an air conditioning network, or a character string formed by letters, numbers, symbols, or a combination of letters, numbers, and symbols.

In the present embodiment, the target air conditioner may include one air conditioner 20 or a plurality of air conditioners 20 or all air conditioners 20 in the air conditioning network.

In this embodiment, according to actual control needs, the second target control instruction may further include control of operation modes of the air conditioner, such as start-stop control, cooling, heating, dust removal, sterilization, and control of temperature and wind speed.

In this embodiment, for the application scenario of fig. 3, a specific implementation manner of this step may be:

first, a second target control instruction sent by the computer device is received by the second network interconnection device and sent to the third network interconnection device.

Secondly, the second target control instruction is sent to the first network interconnection device through the third network interconnection device.

It should be noted that, when the third network interconnection device includes multiple layers, a layer where the third network interconnection device directly connected to the second network interconnection device in communication is located may be used as a first layer, a layer where the third network interconnection device directly connected to the first network interconnection device in communication is located may be used as a last layer, and the third network interconnection device of each layer is a third network interconnection device that transmits the second target control instruction to a next layer of the layer until the third network interconnection device finally reaches the first network interconnection device.

Step S302, whether the first network interconnection device is in communication connection with the target air conditioner is judged through the pre-stored identifier of the air conditioner in communication connection with the first network interconnection device.

In this embodiment, the first network interconnection device locally stores the identifier of the air conditioner 20 communicatively connected thereto, and by comparing the locally stored identifier of the air conditioner 20 with the identifier of the target air conditioner, it is possible to determine whether the first network interconnection device is communicatively connected to the target air conditioner.

Step S303, if the first network interconnection device is in communication connection with the target air conditioner, sending a second target control instruction to the target air conditioner according to the identifier of the target air conditioner, so that the target air conditioner executes the second target control instruction.

In this embodiment, if the identifier of the air conditioner 20 locally stored in the first network interconnection device is not consistent with the identifier of the target air conditioner, that is, the first network interconnection device is not in communication connection with the target air conditioner, at this time, the first network interconnection device ignores the received second target control instruction.

According to the air conditioner network control method provided by the embodiment of the invention, the control command for controlling the air conditioner 20 is issued by the computer equipment 30, so that the air conditioner 20 in the air conditioner network is flexibly controlled, the method can be applied to various application scenes, and the practicability of the air conditioner network control method is enhanced.

In this embodiment, in order to enable a user to know an operation state of an air conditioner in an air conditioning network in time, an embodiment of the present invention further provides a schematic flow chart of another air conditioning network control method, please refer to fig. 8, where fig. 8 is a schematic flow chart of another air conditioning network control method provided by the present invention, and the method includes the following steps:

step S401, receiving a query instruction sent by the computer equipment through the second network interconnection equipment and sending the query instruction to the first network interconnection equipment, wherein the query instruction comprises an identifier of the air conditioner to be queried.

In this embodiment, when the user issues the query instruction through the computer device 30, the query instruction may correspond to a default priority, and the network interconnection device 10 sends the query instruction to the air conditioner 20 according to the default priority.

It should be noted that the default priority of the control instruction issued by the user through the computer device 30 may be the same as or different from the default priority of the query instruction, for example, when the response speed requirement of the query instruction is not high, in order to avoid the query instruction from affecting the transmission of the control instruction, the default priority of the query instruction may be set to be lower than the default priority of the control instruction.

It should be further noted that, the processing manner of this step for the application scenario of fig. 3 and the presence of multiple layers in the third network interconnection device is similar to step S301, and is not described herein again.

Step S402, judging whether the first network interconnection equipment is in communication connection with the air conditioner to be inquired or not according to the identifier of the air conditioner which is stored in advance by the first network interconnection equipment and is in communication connection with the first network interconnection equipment.

In this embodiment, the processing manner of this step is similar to that of step S302, and is not described here again.

Step S403, if the first network interconnection device is in communication connection with the air conditioner to be queried, sending a query instruction to the air conditioner to be queried according to the identifier of the air conditioner to be queried, so as to obtain the operating state of the air conditioner to be queried.

In this embodiment, the processing manner of this step is similar to that of step S403, and is not described here again.

In the present embodiment, the operation state of the air conditioner 20 may include: the air conditioner comprises a starting and stopping state of the air conditioner, states of operation modes such as refrigeration, heating, dust removal and sterilization, a currently set temperature, a currently set wind speed and the like.

In this embodiment, for the scenario shown in fig. 2, after acquiring the operating state of the air conditioner to be queried, the first network interconnection device sends the acquired data of the operating state to the second network interconnection device, and sends the data of the operating state to the computer device 30 through the second network interconnection device, and finally presents the data of the operating state to the user through the computer device 30, or the computer device 30 sends a control instruction to the air conditioner 20 again according to the received data of the operating state, so as to adjust the air conditioner 20 to the required operating state in time. The processing for the scenario of fig. 3 is similar to the processing for the scenario of fig. 2, except that after the first network interconnection device acquires the operating state of the air conditioner to be queried, the obtained data of the operating state is first sent to the third network interconnection device, and the third network device transmits the data of the operating state to the second network interconnection device, and finally reaches the computer device 30.

The air conditioner network control method provided by the embodiment of the invention can enable a user to more conveniently and more timely inquire the running state of the air conditioner 20 in the air conditioner network, so that the user can correspondingly adjust the control of the air conditioner 20 according to the running state of the air conditioner 20 in time, the automatic control of the air conditioner is pertinently realized, and the purposes of comfort, energy saving and the like are achieved.

In order to execute the corresponding steps in the above embodiments and various possible embodiments, an implementation manner of the air conditioning network control device is given below. Referring to fig. 9, fig. 9 is a functional block diagram of an air conditioning network control device 100 according to the present invention. It should be noted that the basic principle and the technical effects of the air conditioning network control device 100 according to the embodiment of the present invention are the same as those of the foregoing method embodiment, and for a brief description, reference may be made to the corresponding contents of the foregoing method embodiment for a part not mentioned in the present embodiment. The air conditioning network control device 100 is applied to network interconnection equipment in an air conditioning network, and the air conditioning network control device 100 is described below with reference to fig. 5 to 8, where the air conditioning network control device 100 includes: an acquisition module 110, a determination module 120, a sending module 130, a control module 140, and a query module 150.

The acquiring module 110 is configured to receive to-be-processed event information sent by a computer device, where the to-be-processed event information is used to trigger a control operation for an air conditioner.

Optionally, the to-be-processed event information includes a to-be-processed event type, the network interconnection device stores in advance an instruction mapping relationship, the instruction mapping relationship includes a preset event type, a priority corresponding to the preset event type, and a control instruction for the air conditioner, and the obtaining module 110 is specifically configured to: taking a preset event type consistent with the type of the event to be processed in the instruction mapping relation as a target event type; determining the priority corresponding to the target event type as a target priority; and determining the control instruction corresponding to the target event type as a first target control instruction.

And a determining module 120, configured to determine a target priority corresponding to the event information to be processed and a first target control instruction for the air conditioner.

Optionally, the network interconnection device includes a first network interconnection device and a second network interconnection device communicatively connected to each other, and the determining module 120 is further configured to: determining a network interconnection device in communication connection with the air conditioner as a first network interconnection device; and determining the network interconnection device which is in communication connection with the computer device as a second network interconnection device.

The sending module 130 sends the first target control instruction to the air conditioner according to the target priority, so that the air conditioner executes the first target control instruction.

A control module 140 for: receiving a second target control instruction sent by the computer equipment through second network interconnection equipment and sending the second target control instruction to the first network interconnection equipment, wherein the second target control instruction comprises an identifier of a target air conditioner; judging whether the first network interconnection equipment is in communication connection with a target air conditioner or not through an identifier, stored in advance, of the air conditioner in communication connection with the first network interconnection equipment; and if the first network interconnection equipment is in communication connection with the target air conditioner, sending a second target control instruction to the target air conditioner according to the identifier of the target air conditioner so that the target air conditioner executes the second target control instruction.

Optionally, the network interconnection device further includes a third network interconnection device, where the third network interconnection device is in communication connection with both the first network interconnection device and the second network interconnection device, and when the control module 140 receives the second target control instruction sent by the computer device through the second network interconnection device and sends the second target control instruction to the first network interconnection device, the control module is specifically configured to: receiving a second target control instruction sent by the computer equipment through second network interconnection equipment and sending the second target control instruction to third network interconnection equipment; and sending the second target control instruction to the first network interconnection device through the third network interconnection device.

A query module 150 for: receiving a query instruction sent by computer equipment through second network interconnection equipment and sending the query instruction to first network interconnection equipment, wherein the query instruction comprises an identifier of an air conditioner to be queried; judging whether the first network interconnection equipment is in communication connection with the air conditioner to be inquired or not through the identifier, stored in advance, of the air conditioner in communication connection with the first network interconnection equipment; and if the first network interconnection equipment is in communication connection with the air conditioner to be inquired, sending the inquiry instruction to the air conditioner to be inquired according to the identifier of the air conditioner to be inquired so as to acquire the running state of the air conditioner to be inquired.

In summary, the present invention provides an air conditioner network control method, an air conditioner network control apparatus, a network interconnection device, and a storage medium, where the air conditioner network control method is applied to a network interconnection device in an air conditioner network, and the network interconnection device is in communication connection with both an air conditioner and a computer device, and the air conditioner network control method includes: receiving event information to be processed sent by computer equipment, wherein the event information to be processed is used for triggering control operation aiming at an air conditioner; determining a target priority corresponding to the event information to be processed and a first target control instruction for the air conditioner; and sending the first target control instruction to the air conditioner according to the target priority so that the air conditioner executes the first target control instruction. Compared with the prior art, different priorities are set for different events, and corresponding control instructions are sent to the air conditioner according to the priorities of the events to be processed, so that the air conditioner is controlled in time.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (9)

1. An air conditioning network control method is applied to a network interconnection device (10) in an air conditioning network, wherein the network interconnection device (10) is in communication connection with both an air conditioner (20) and a computer device (30), and the method comprises the following steps:

receiving event information to be processed sent by the computer device (30), wherein the event information to be processed is used for triggering control operation for the air conditioner (20), the event information to be processed comprises an event type to be processed, the network interconnection device (10) is stored with an instruction mapping relation in advance, and the instruction mapping relation comprises a preset event type, a priority corresponding to the preset event type and a control instruction for the air conditioner (20);

determining a target priority corresponding to the event information to be processed and a first target control instruction for the air conditioner (20);

sending the first target control instruction to the air conditioner (20) according to the target priority so as to enable the air conditioner (20) to execute the first target control instruction;

the determining of the target priority corresponding to the to-be-processed event information and the first target control instruction for the air conditioner (20) includes:

taking a preset event type consistent with the type of the event to be processed in the instruction mapping relation as a target event type;

determining the priority corresponding to the target event type as the target priority;

and determining the control instruction corresponding to the target event type as a first target control instruction.

2. The air conditioning network control method according to claim 1, wherein the network interconnection device (10) includes a first network interconnection device and a second network interconnection device communicatively connected to each other, the method further comprising:

determining a network interconnection device (10) communicatively connected with the air conditioner (20) as the first network interconnection device;

determining a network interconnect device (10) communicatively connected to the computer device (30) as the second network interconnect device.

3. The air conditioning network control method according to claim 2, characterized by further comprising:

receiving a second target control instruction sent by the computer equipment (30) through the second network interconnection equipment and sending the second target control instruction to the first network interconnection equipment, wherein the second target control instruction comprises an identification of a target air conditioner;

judging whether the first network interconnection equipment is in communication connection with the target air conditioner or not through the pre-stored identification of the air conditioner (20) in communication connection with the first network interconnection equipment;

and if the first network interconnection equipment is in communication connection with the target air conditioner, sending the second target control instruction to the target air conditioner according to the identifier of the target air conditioner so that the target air conditioner executes the second target control instruction.

4. The air conditioning network control method according to claim 3, wherein the network interconnection device (10) further comprises a third network interconnection device, the third network interconnection device is in communication connection with both the first network interconnection device and the second network interconnection device, and the step of receiving a second target control instruction sent by the computer device (30) through the second network interconnection device and sending the second target control instruction to the first network interconnection device comprises:

receiving, by the second network interconnection device, a second target control instruction sent by the computer device (30) and sending the second target control instruction to the third network interconnection device;

and sending the second target control instruction to the first network interconnection device through the third network interconnection device.

5. The air conditioning network control method according to claim 2, characterized by further comprising:

receiving a query instruction sent by the computer equipment (30) through the second network interconnection equipment and sending the query instruction to the first network interconnection equipment, wherein the query instruction comprises an identifier of an air conditioner to be queried;

judging whether the first network interconnection equipment is in communication connection with the air conditioner to be inquired or not through the pre-stored identification of the air conditioner (20) in communication connection with the first network interconnection equipment;

and if the first network interconnection equipment is in communication connection with the air conditioner to be inquired, sending the inquiry instruction to the air conditioner to be inquired according to the identifier of the air conditioner to be inquired so as to acquire the running state of the air conditioner to be inquired.

6. The air conditioner network control method according to any one of claims 2-5, wherein the number of the first network interconnection devices is the same as the number of the air conditioners (20), and the first network interconnection devices correspond to the air conditioners (20) one to one.

7. An air conditioning network control device, characterized in that, applied to a network interconnection device (10) in an air conditioning network, the network interconnection device (10) is connected with an air conditioner (20) and a computer device (30) in a communication way, the device comprises:

a receiving module (110) for receiving the information of the event to be processed sent by the computer equipment (30), wherein the information of the event to be processed is used for triggering the control operation of the air conditioner (20);

a determination module (120) for determining a target priority corresponding to the event information to be processed and a first target control instruction for the air conditioner (20);

a sending module (130) for sending the first target control instruction to the air conditioner (20) according to the target priority, so that the air conditioner (20) executes the first target control instruction;

the determining module (120) is specifically configured to: taking a preset event type consistent with the type of the event to be processed in the instruction mapping relation as a target event type; determining the priority corresponding to the target event type as the target priority; and determining the control instruction corresponding to the target event type as a first target control instruction.

8. A network interconnect device, characterized in that the network interconnect device comprises:

one or more processors (11);

memory (12) for storing one or more programs which, when executed by the one or more processors (11), cause the one or more processors to implement the air conditioning network control method according to any one of claims 1-6.

9. A computer-readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor (11), implements the air conditioning network control method according to any one of claims 1-6.

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