CN111627191A

CN111627191A - Radiation air conditioner monitoring system and monitoring method

Info

Publication number: CN111627191A
Application number: CN202010103601.0A
Authority: CN
Inventors: 袁圆; 丁金磊
Original assignee: Nanjing Lvhui Energy Technology Co ltd
Current assignee: Nanjing Lvhui Energy Technology Co ltd
Priority date: 2020-02-20
Filing date: 2020-02-20
Publication date: 2020-09-04

Abstract

The invention provides a radiation air conditioner monitoring system and a monitoring method, wherein the system comprises a radiation air conditioner system, gateway equipment and an intelligent home system; the radiation air-conditioning system is in communication connection with the intelligent home system through gateway equipment; wherein: the radiation air-conditioning system automatically monitors the working state of the radiation air-conditioning system to acquire monitoring data; the main controller of the radiation air-conditioning system determines the warning information of the radiation air-conditioning system according to the monitoring data; and the radiation air-conditioning system sends out corresponding alarm prompts through the intelligent household system according to the warning information. The invention utilizes the interactive convenience of the intelligent home and the user, and the alarm information of the radiation air conditioner, such as the dew alarm, is linked with the intelligent home through the indoor networking. Therefore, the intelligent and friendly mode is realized, the family user can know the current equipment running condition in time and actively take effective actions.

Description

Radiation air conditioner monitoring system and monitoring method

Technical Field

The invention relates to the field of intelligent control of air conditioners, in particular to a radiation air conditioner monitoring system and a monitoring method.

Background

The household air conditioning system often needs various maintenance, such as replacement of an air filter, replacement of a water purification filter element, and the like, and in addition, once the system fails, the operation of the system is also affected, so that equipment failure needs to be timely reported and repaired, and the like. In the traditional mode, a user often has no knowledge about various maintenance or maintenance requirements of the equipment, and often waits until the equipment is in failure or the function is seriously damaged, so that the normal use of the user is affected. Furthermore, when the user wants to inform the property for maintenance, the user needs to call the property management center to arrange personnel, and then call the property management center to inform the user to reserve the time of going to the home. The whole process is very time and energy consuming, and the customer experience is poor.

Disclosure of Invention

The invention aims to provide a radiation air conditioner monitoring system and a monitoring method, which can realize linkage of alarm information of a radiation air conditioner system and intelligent voice equipment through indoor networking by using the convenience of interaction between the intelligent voice equipment and a user.

The technical scheme provided by the invention is as follows:

the invention provides a radiation air conditioner monitoring system, which comprises a radiation air conditioner system, gateway equipment and an intelligent home system, wherein the gateway equipment is connected with the radiation air conditioner system; the radiation air-conditioning system is in communication connection with the intelligent home system through the gateway equipment; wherein: the radiation air-conditioning system automatically monitors the working state of the radiation air-conditioning system to acquire monitoring data; the radiation air-conditioning system determines warning information of the radiation air-conditioning system according to the monitoring data; and the radiation air-conditioning system sends out corresponding alarm prompts through the intelligent household system according to the warning information.

Preferably, the smart home system includes: an intelligent home cloud platform and an intelligent home; the warning information is equipment fault information or maintenance information; the radiation air-conditioning system sends out corresponding warning suggestion through intelligent home systems specifically includes: the radiant air conditioning system sends a fault code or a maintenance code to the gateway device; after receiving a fault code or a maintenance code of the radiation air-conditioning system, the gateway equipment sends the fault code or the maintenance code to the intelligent home cloud platform; the intelligent home cloud platform is connected with the intelligent home, converts the fault code or the maintenance code into different prompt signals according to the attribute of the intelligent home, and sends the prompt signals to the intelligent home with the corresponding attribute; and the intelligent home sends out an alarm prompt according to the prompt signal.

Preferably, the smart home cloud platform specifically includes: the analysis module is used for identifying the attribute of the smart home connected with the analysis module; the voice signal conversion module is used for converting the fault code or the maintenance code into a voice prompt signal when the attribute including the voice equipment is analyzed by the analysis module; and/or a light signal conversion module, when the analysis module analyzes that the attribute comprises light display equipment, converting the fault code or the maintenance code into a light prompt signal; and/or, the image signal conversion module, when the said analysis module analyzes the said attribute includes the image display equipment, convert the said trouble code or maintenance code into the image prompt signal; and the signal sending module is used for sending the prompt signal to the smart home with the corresponding attribute, wherein the prompt signal is any one or more of the voice prompt signal obtained by the voice signal conversion module, the light prompt signal obtained by the light signal conversion module or the image prompt signal obtained by the image signal conversion module.

Preferably, the radiation air-conditioning system comprises an air-conditioning main controller and a plurality of air-conditioning system sensors, wherein the air-conditioning main controller is connected with each air-conditioning system sensor; the air conditioning system sensor acquires detection data of each device in the radiation air conditioning system; the air conditioner main controller is used for analyzing the detection data according to control logic and generating a fault code when analyzing and identifying that the radiation air conditioning system has a system fault, wherein the fault code comprises a fault equipment label and a fault condition code;

preferably, the method further comprises the following steps: the gateway equipment is connected with the intelligent home; the gateway equipment converts the fault code or the maintenance code into different prompt signals according to the attribute of the smart home and sends the prompt signals to the smart home with the corresponding attribute; and the intelligent home sends out an alarm prompt according to the prompt signal.

Preferably, the radiation air-conditioning monitoring system further includes: the intelligent home obtains a user instruction, identifies the user instruction, and stops alarming if the user instruction is to stop alarming; if the user instruction is an air conditioner control instruction, sending the user instruction to the intelligent home cloud platform; the intelligent home cloud platform transmits the user instruction to the radiation air-conditioning system through the gateway equipment; and the radiation air-conditioning system adjusts working parameters according to the user instruction.

The invention also provides a radiation air conditioner monitoring method, which comprises the following steps: the radiation air-conditioning system automatically monitors the working state of the radiation air-conditioning system to acquire monitoring data; the radiation air-conditioning system determines warning information of the radiation air-conditioning system according to the monitoring data; and the radiation air-conditioning system sends out corresponding alarm prompts through the intelligent household system according to the warning information.

Preferably, the warning information is equipment failure information or maintenance information; the radiation air-conditioning system sends out corresponding warning suggestion through intelligent home systems specifically includes: the radiant air conditioning system sends a fault code or a maintenance code to the gateway device; after receiving the fault code or the maintenance code of the radiation air-conditioning system, the gateway equipment sends the fault code or the maintenance code to the intelligent home cloud platform; the attribute of the smart home cloud platform smart home converts the fault code or the maintenance code into different prompt signals and sends the prompt signals to the smart home with corresponding attribute, wherein the prompt signals comprise any one or more of voice prompt signals, light prompt signals or image prompt signals; and the intelligent home sends out an alarm prompt according to the prompt signal.

Preferably, before the gateway device obtains a fault code or a maintenance code of the radiant air-conditioning system and sends the fault code or the maintenance code to the smart home cloud platform, the method further includes: the air conditioner main controller acquires detection data of an air conditioner system sensor, and the radiation air conditioner system comprises the air conditioner main controller and the air conditioner system sensor; when the air conditioner main controller analyzes the detection data according to control logic, and when the radiation air conditioner system is analyzed and identified to have system fault, the fault code is generated, wherein the fault code comprises a fault equipment label and a fault condition code; and when the radiation air-conditioning system is analyzed and identified to need maintenance, generating the maintenance code, wherein the maintenance code comprises a maintenance equipment label and a maintenance strategy code.

Preferably, the radiant air conditioner monitoring method further includes: the gateway equipment converts the fault code or the maintenance code into different prompt signals according to the attribute of the smart home and sends the prompt signals to the smart home with the corresponding attribute; and the intelligent home sends out an alarm prompt according to the prompt signal.

Preferably, the radiant air conditioner monitoring method further includes: the smart home acquires a user instruction and identifies the user instruction; if the user instruction is to stop alarming, the intelligent home stops alarming; if the user instruction is an air conditioner control instruction, the intelligent home sends the user instruction to the intelligent home cloud platform; the intelligent home cloud platform transmits the user instruction to the radiation air-conditioning system through the gateway equipment; and the radiation air-conditioning system adjusts working parameters according to the user instruction.

Preferably, the radiant air conditioner monitoring method further includes: the radiation air-conditioning system sends fault information or maintenance information of the radiation air-conditioner to the visual intercom system through the gateway equipment; the visual intercom system displays through an indoor visual intercom screen and informs a user of maintenance; the visual intercom system also carries out repair or notification maintenance on the property through the visual intercom switch and the visual intercom management host.

According to the radiation air conditioner monitoring system and the monitoring method provided by the invention, the alarm information of the radiation air conditioner is linked with the intelligent home through indoor networking by utilizing the interactive convenience between the intelligent home and the user.

Drawings

The foregoing features, technical features, advantages and implementations of a radiant air conditioning monitoring system and method will be further described in the following detailed description of preferred embodiments in a clearly understandable manner, in conjunction with the accompanying drawings.

FIG. 1 is a schematic diagram of the configuration of one embodiment of a radiant air conditioning monitoring system of the present invention;

FIG. 2 is a schematic diagram of another embodiment of a radiant air conditioning monitoring system of the present invention;

FIG. 3 is a schematic diagram of another embodiment of a radiant air conditioning monitoring system of the present invention;

FIG. 4 is a flow chart of one embodiment of a radiant air conditioner monitoring method of the present invention;

fig. 5 is a flowchart of another embodiment of a radiant air conditioner monitoring method of the present invention.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the present application. However, it will be apparent to one skilled in the art that the present application may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present application with unnecessary detail.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

For the sake of simplicity, the drawings only schematically show the parts relevant to the present invention, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically depicted, or only one of them is labeled. In this document, "one" means not only "only one" but also a case of "more than one".

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

In particular implementations, the terminal devices described in embodiments of the present application include, but are not limited to, other portable devices such as mobile phones, laptop computers, family computers, or tablet computers having touch sensitive surfaces (e.g., touch screen displays and/or touch pads). It should also be understood that in some embodiments the terminal device is not a portable communication device, but is a desktop computer having a touch-sensitive surface (e.g., a touch screen display and/or touchpad).

In the discussion that follows, a terminal device that includes a display and a touch-sensitive surface is described. However, it should be understood that the terminal device may include one or more other physical user interface devices such as a physical keyboard, mouse, and/or joystick.

The terminal device supports various applications, such as one or more of the following: a drawing application, a presentation application, a network creation application, a word processing application, a disc burning application, a spreadsheet application, a gaming application, a telephone application, a video conferencing application, an email application, an instant messaging application, an exercise support application, a photo management application, a digital camera application, a digital video camera application, a Web browsing application, a digital music player application, and/or a digital video player application.

Various applications that may be executed on the terminal device may use at least one common physical user interface device, such as a touch-sensitive surface. One or more functions of the touch-sensitive surface and corresponding information displayed on the terminal can be adjusted and/or changed between applications and/or within respective applications. In this way, a common physical architecture (e.g., touch-sensitive surface) of the terminal can support various applications with user interfaces that are intuitive and transparent to the user.

In addition, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not intended to indicate or imply relative importance.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

In an embodiment of the present invention, as shown in fig. 1, the radiation air-conditioning monitoring system includes a radiation air-conditioning system 100, a gateway device 200, and an intelligent home system 500; the radiation air-conditioning system 100 is in communication connection with the smart home system 500 through the gateway device 200; wherein:

the radiation air-conditioning system 100 automatically monitors the working state of the radiation air-conditioning system and acquires monitoring data;

the main controller of the radiation air-conditioning system 100 determines the warning information of the radiation air-conditioning system 100 according to the monitoring data;

and the radiation air-conditioning system 100 sends out a corresponding alarm prompt through the intelligent household system 500 according to the warning information.

The embodiment utilizes the interactive convenience of the smart home and the user, and radiates the alarm information of the air conditioner through indoor networking. The warning information includes risk warning (e.g., dew condensation warning), equipment failure, maintenance, and the like. Through linkage with the smart home, the method and the system enable a home user to learn the current equipment running condition in an intelligent and friendly manner and actively take effective actions. For example, the action of condensation of the radiation system caused by active stop can be avoided, and the risk of condensation and human discomfort caused by the action can be avoided. Or the filter element of the fresh air fan of the air conditioner is actively replaced, and the indoor air quality is timely improved.

In another embodiment of the system of the present invention, as shown in fig. 2, the radiation air-conditioning monitoring system of the present embodiment includes a radiation air-conditioning system 100, a gateway device 200, an intelligent home cloud platform 300, and an intelligent home 400; the warning information is equipment fault information or maintenance information; the radiation air-conditioning system sends out corresponding warning suggestion through intelligent home systems specifically includes:

the radiant air conditioning system 100 transmits a fault code or a maintenance code to the gateway apparatus 200;

after receiving the fault code or the maintenance code of the radiant air-conditioning system 100, the gateway device 200 sends the fault code or the maintenance code to the smart home cloud platform 300;

the smart home cloud platform 300 is connected to the smart home 400, converts the fault code or the maintenance code into different prompt signals according to the attribute of the smart home 400, and sends the prompt signals to the smart home 400 with the corresponding attribute;

and the smart home 400 sends out an alarm prompt according to the prompt signal.

Wherein, intelligent house cloud platform specifically includes:

the analysis module is used for identifying the attribute of the smart home connected with the analysis module;

the voice signal conversion module is used for converting the fault code or the maintenance code into a voice prompt signal when the attribute including the voice equipment is analyzed by the analysis module; and/or the presence of a gas in the gas,

the light signal conversion module is used for converting the fault code or the maintenance code into a light prompt signal when the attribute analyzed by the analysis module comprises light display equipment; and/or the presence of a gas in the gas,

the image signal conversion module is used for converting the fault code or the maintenance code into an image prompt signal when the attribute including the image display equipment is analyzed by the analysis module;

and the signal sending module is used for sending the prompt signal to the smart home with the corresponding attribute, wherein the prompt signal is any one or more of the voice prompt signal obtained by the voice signal conversion module, the light prompt signal obtained by the light signal conversion module or the image prompt signal obtained by the image signal conversion module.

Specifically, in this embodiment, a radiation air conditioner monitoring system includes radiation air conditioner system, gateway device, smart home cloud platform and smart home, and the communication mode of gateway device and other equipment includes but is not limited to MODBUS, ZIGBEE, BACNET, etc.

The radiation air-conditioning system comprises a radiation air-conditioning main control board and a radiation air conditioner, wherein the radiation air-conditioning main control board acquires, analyzes and controls the radiation air conditioner, and the radiation air conditioner comprises but is not limited to a hydraulic module, a fresh air fan and other equipment.

The radiation air-conditioning system is connected with the gateway equipment, the radiation air-conditioning system sends a fault code or a maintenance code of the radiation air-conditioning system to the gateway equipment, the fault code comprises a fault equipment mark number and a fault condition, and other terminals can read a specific fault type of the air-conditioning equipment through the fault code. For example, the fault code 0123 indicates that a filter of a fresh air blower is clogged, the fault code 0456 indicates that an air conditioner is frosted, and the like. The fault code comprises but is not limited to information that each part in a radiation air conditioner in the radiation air conditioning system needs to be repaired due to faults or abnormal parameters and the like; the maintenance code includes, but is not limited to, the replacement of various components of the radiant air conditioning system due to the service life thereof.

The intelligent home cloud platform is connected with the gateway equipment, when the gateway equipment receives a fault code or a maintenance code sent by the radiation air-conditioning system, the fault code or the maintenance code is sent to the intelligent home cloud platform, the intelligent home cloud platform converts the fault code or the maintenance code into different prompt signals according to the attribute of the intelligent home connected with the intelligent home cloud platform, and the prompt signals comprise any one or more of voice prompt signals, light prompt signals or image prompt signals.

When the attribute of the smart home comprises voice equipment such as a smart sound box, the smart home cloud platform translates the fault code or the maintenance code into a voice prompt signal which can be understood by the voice equipment according to a preset contrast mapping table. When the attribute of the smart home comprises a light display device, such as a smart desk lamp, the smart home cloud platform translates the fault code or the maintenance code into a light prompt signal which can be understood by the light display device according to a preset contrast mapping table. When the attribute of the smart home comprises an image display device, such as a smart television, the smart home cloud platform translates the fault code or the maintenance code into an image prompt signal which can be understood by the image display device according to a preset contrast mapping table.

Taking a fault code as an example, a preset fault comparison mapping table is a correspondence table of the fault code, a corresponding fault equipment label and a fault condition, the fault code can be composed of two parts, including an equipment label and a fault condition code, and a fault object and a fault reason can be quickly determined by combining the two parts; similarly, the preset maintenance comparison mapping table is a corresponding table of the maintenance codes, the corresponding maintenance equipment labels and the maintenance conditions, and the maintenance codes include the maintenance equipment labels and the maintenance strategy codes.

The intelligent home cloud platform sends the prompt signals to the intelligent homes with corresponding attributes respectively, the intelligent homes prompt users to indicate that the air conditioning system is radiated to have a fault or maintenance prompt, and the fault prompt signals can contain corresponding air conditioning equipment labels and fault conditions.

After the smart home receives the prompt signal, the content of the alarm prompt is broadcasted according to a mode preset by a user, the two modes are mainly divided into two modes, one mode is directly broadcasted to be similar to the type of the alarm of the air conditioning system, only the abnormity of the air conditioning system is prompted, and the fault equipment and the fault reason are not specifically prompted. The other is to specifically prompt the fault equipment and the fault reason according to the voice instruction, for example, the prompt content is "the filter of the fresh air machine is blocked", and the like.

Because the intelligent home is of many types, if all the intelligent homes remind the user at the same time, the user experience is possibly influenced due to the fact that the smart homes are too noisy. However, if the user is prompted only through a single smart home, but the user is not located near the smart home at that time, the user may not receive the prompt information in time, so that the information is missed, and the prompt function is not played.

Therefore, the position of the user can be detected firstly, if the user is in a living room, the user can be reminded through the intelligent sound box, and if the user is in a bedroom, the user can be reminded through the intelligent desk lamp. The intelligent home with the reminding function closest to the position of the user is selected to remind the user, and the user is ensured to receive reminding information.

And different intelligent homes can select a proper mode to remind according to the characteristics of the intelligent home and the position of the intelligent home, for example, the reminding mode of the intelligent desk lamp in a bedroom can be set to be softer than that of an intelligent sound box in a living room, and the tone and frequency can be reduced.

The invention utilizes the interactive convenience of the intelligent voice equipment and the user, and the alarm information of the radiation air conditioner, such as the dew alarm, is linked with the intelligent home through the indoor networking. Therefore, the intelligent and friendly mode is realized, the family user can know the current equipment running condition in time and actively take effective actions.

Preferably, in another embodiment of the present invention, the radiation air conditioning system includes an air conditioning master controller and a plurality of air conditioning system sensors, and the air conditioning master controller is connected to each air conditioning system sensor; the air conditioning system sensor acquires detection data of each device in the radiation air conditioning system; the air conditioner main controller is used for analyzing the detection data according to control logic and generating a fault code when analyzing and identifying that the radiation air conditioning system has a system fault, wherein the fault code comprises a fault equipment label and a fault condition code;

specifically, the radiation air conditioning system includes an air conditioning master controller and a plurality of air conditioning system sensors, and the air conditioning system sensors can sense working parameters and state information of each air conditioning device in the radiation air conditioning system, for example, pressure difference detected by a pressure difference sensor in the fresh air machine. And then, sending the detected related data to an air conditioner main controller for statistical analysis.

The air conditioner main controller analyzes the detection data according to the control logic, judges whether the detection data are abnormal or not, generates a fault code or a maintenance code if the detection data are abnormal, wherein the fault code comprises a fault equipment label and a fault condition code, and the maintenance code comprises a maintenance equipment label and a maintenance strategy code.

The control logic is a standard for the abnormality of each equipment index of the air conditioner, and is generally a normal threshold value or a normal state of each parameter. For example, if the pressure difference detected by the pressure difference sensor in the fresh air machine exceeds a normal threshold, the controller will determine that the filter is clogged and needs to be replaced.

The radiation air-conditioning system is provided with the air-conditioning main controller, the detection data of each air-conditioning system sensor is obtained, analysis is carried out according to the control logic, the processing speed is high, and users can be informed in time through the gateway equipment when abnormality occurs.

Preferably, in a further embodiment of the present invention, further comprising: the intelligent home obtains a user instruction, identifies the user instruction, and stops alarming if the user instruction is to stop alarming; if the user instruction is an air conditioner control instruction, sending the user instruction to the intelligent home cloud platform;

the intelligent home cloud platform transmits the user instruction to the radiation air-conditioning system through the gateway equipment;

and the radiation air-conditioning system adjusts working parameters according to the user instruction.

Specifically, when the user acquires the alarm information or performs corresponding processing, for example, it indicates that the user has acquired related information and needs to stop prompting at the smart home, or the user determines that the abnormal state of the air conditioning system is acceptable, or notifies a maintenance person to perform maintenance. The smart home obtains the user instruction, wherein the obtained user instruction and the smart home for performing the alarm prompt may be the same or different. The form of the user instruction is also different according to the attribute of the smart home, for example, when the smart home is a voice device of a smart sound box, the user instruction may be voice information.

The intelligent home recognizes the acquired user instruction, if the user instruction is to stop alarming, the intelligent home stops alarming, but the gateway equipment and the radiation air-conditioning system record the failure and do not process the failure, if the user instruction is that the failure processing is finished, the data of the radiation air-conditioning system are acquired again, and if the failure is eliminated, the gateway equipment and the radiation air-conditioning system eliminate the failure record.

And finally, if the user instruction is an air conditioner control instruction, namely the working parameters of the radiation air-conditioning system are adjusted, the intelligent home transmits the user voice information to the radiation air-conditioning system so that the radiation air-conditioning system can adjust the working parameters.

The intelligent home system comprises a radiation air-conditioning system, a local area network, a gateway device and an intelligent home cloud platform, wherein the intelligent home system has two modes of transmitting a user instruction to the radiation air-conditioning system, one mode is directly transmitted through the gateway device through the local area network, and the other mode is transmitted through the intelligent home cloud platform and the gateway device.

In the invention, a user can also issue an instruction to control the alarm prompts of all the smart homes and control the radiation air-conditioning system to adjust the working parameters through any one smart home, so that the method is convenient and quick.

Preferably, in another embodiment of the present invention, the system further includes a voice service cloud platform and an intelligent voice device, where the intelligent voice device is one of intelligent homes, such as an intelligent sound box;

the gateway equipment is connected with the radiation air-conditioning system and the intelligent home cloud platform, acquires a fault code or a maintenance code of the radiation air-conditioning system, and sends the fault code or the maintenance code to the intelligent home cloud platform;

the intelligent home cloud platform is connected with the voice service cloud platform, generates a voice signal according to the fault code or the maintenance code, and sends the voice signal to the voice service cloud platform;

the voice service cloud platform is connected with the intelligent voice equipment, generates a voice instruction according to the voice signal and sends the voice instruction to the intelligent voice equipment;

and the intelligent voice equipment identifies the voice command and sends out alarm voice.

Specifically, the intelligent home cloud platform communicates with the voice service cloud platform at the cloud end, translates the fault code or the maintenance code into a voice signal which can be understood by the voice service cloud platform according to a preset contrast mapping table, and sends the voice signal to the voice service cloud platform.

The preset mapping table is a correspondence table of the fault code, the corresponding fault equipment label and the fault condition, the fault code can be composed of two parts including an equipment label and a fault condition code, and the fault object and the fault reason can be quickly determined by combining the two parts.

The voice service cloud platform is connected with intelligent voice equipment, and the intelligent voice equipment comprises but is not limited to equipment with voice devices such as intelligent sound boxes, intelligent televisions, smart phones and tablets, and can prompt users in a voice mode.

The voice service cloud platform is specially arranged for the intelligent voice equipment and used for converting voice signals sent by the intelligent home cloud platform into voice instructions which can be recognized by the intelligent voice equipment and sending the voice instructions to the intelligent voice equipment. The voice command is generated according to the previous fault code or maintenance code and the voice signal, so that the corresponding equipment label and the fault condition are contained in the voice command. And then the intelligent voice equipment performs voice alarm according to the voice instruction.

Another embodiment of the present invention is an optimized embodiment of the above embodiment, as shown in fig. 3, compared with the above embodiment, the main improvement of this embodiment is that the gateway device 200 is connected to the smart home 400;

the gateway device 200 converts the fault code or the maintenance code into different prompt signals according to the attribute of the smart home 400, and sends the prompt signals to the smart home 400 with the corresponding attribute;

Specifically, in this embodiment, a radiation air conditioner monitoring system, including radiation air conditioning system, gateway equipment and intelligent house, gateway equipment is connected with radiation air conditioning system, intelligent house respectively, and the communication mode of gateway equipment and other equipment includes but not limited to MODBUS, ZIGBEE, BACNET etc..

The radiation air-conditioning system is connected with the gateway equipment, the radiation air-conditioning system sends a fault code or a maintenance code of the radiation air-conditioning system to the gateway equipment, wherein the fault code or the maintenance code comprises a fault equipment label and a fault condition, and other terminals can read a specific fault type of the air-conditioning equipment through the fault code or the maintenance code.

The gateway device may also be directly connected to the smart home in the home of the user, for example, both are in the same lan, and in addition, other communication methods may be used for connection, and the lan is only exemplified. The smart home includes, but is not limited to, smart speakers, smart televisions, smart desk lamps, and the like. The gateway equipment can directly convert the fault codes or the maintenance codes into different prompt signals according to the attributes of the smart home and then directly send the prompt signals to the smart home, and the mode of converting the fault codes or the maintenance codes by the gateway equipment is the same as the mode of converting the fault codes or the maintenance codes by the cloud platform of the smart home. In addition, the smart home can also transmit user instruction information to the radiation air-conditioning system directly through the gateway equipment.

According to the intelligent household fault information processing method and device, when the external Internet is connected smoothly, fault information can be transmitted to the intelligent household through the intelligent household cloud platform to be subjected to alarm prompting, meanwhile, when the external Internet is connected not smoothly, the fault information can be transmitted to the intelligent household directly through the gateway equipment to be subjected to alarm prompting, and the two modes are parallel, so that prompt messages cannot be omitted for users.

In an embodiment of the present invention, as shown in fig. 4, a radiation air conditioner monitoring method includes:

the radiation air-conditioning system automatically monitors the working state of the radiation air-conditioning system to acquire monitoring data;

the radiation air-conditioning system determines warning information of the radiation air-conditioning system according to the monitoring data;

and the radiation air-conditioning system sends out corresponding alarm prompts through the intelligent household system according to the warning information.

Another embodiment of the method of the present invention, as shown in fig. 5, comprises:

the air conditioner main controller acquires detection data of an air conditioner system sensor, and the radiation air conditioner system comprises the air conditioner main controller and the air conditioner system sensor;

when the air conditioner main controller analyzes the detection data according to control logic, and when the radiation air conditioner system is analyzed and identified to have system fault, the fault code is generated, wherein the fault code comprises a fault equipment label and a fault condition code; when the radiation air-conditioning system is analyzed and identified to need maintenance, generating the maintenance code, wherein the maintenance code comprises a maintenance equipment label and a maintenance strategy code;

after acquiring a fault code or a maintenance code of the radiation air-conditioning system, the gateway equipment sends the fault code or the maintenance code to the intelligent home cloud platform;

the attribute of the smart home cloud platform smart home converts the fault code or the maintenance code into different prompt signals and sends the prompt signals to the smart home with corresponding attribute, wherein the prompt signals comprise any one or more of voice prompt signals, light prompt signals or image prompt signals;

and the intelligent home sends out an alarm prompt according to the prompt signal.

Further comprising:

the gateway equipment converts the fault code or the maintenance code into different prompt signals according to the attribute of the smart home and sends the prompt signals to the smart home with the corresponding attribute;

Further comprising:

the smart home acquires a user instruction and identifies the user instruction;

if the user instruction is to stop alarming, the intelligent home stops alarming;

if the user instruction is an air conditioner control instruction, the intelligent home sends the user instruction to the intelligent home cloud platform;

The specific operation modes of the steps in this embodiment have been described in detail in the corresponding system embodiments, and therefore are not described in detail.

In another embodiment of the method, the radiation air-conditioning system is networked with the intelligent home system and the visual intercom system through the gateway.

S1 first step: the air conditioner main controller receives the detection data of the air conditioner system sensor and makes a maintenance decision according to the control logic. For example, when the pressure difference detected by a pressure difference sensor in the fresh air machine exceeds a normal threshold value, the controller judges that the filter is blocked and needs to be replaced;

s2 second step: the air conditioner main controller is communicated with the local gateway, and the communication modes include but are not limited to MODBUS, ZIGBEE, BACNET and the like.

S3 third step: and after receiving the maintenance signal, the local gateway displays the maintenance signal on an indoor screen of the video intercom. The local gateway may also communicate with the indoor smart home device, for example, by way of a smart speaker, to notify the user in voice.

Step S4, fourth: after the visible intercom receives the information of the maintenance, the visible intercom informs the property management department through the outdoor machine. And the property management department performs information processing and personnel arrangement and pushes a notice to the visual talkback of the user through the visual talkback system.

Step S5, fifth step: the visual intercom sends the information back to the gateway, and after the gateway receives the notification, the gateway notifies the customer of the maintenance information of property arrangement through the intelligent home, such as an intelligent sound box.

The intelligent home system makes full use of a flexible and convenient man-machine interaction mode of the intelligent home, and realizes a convenient and timely maintenance interaction process by jointly networking the air conditioning system, the intelligent home system and the visual intercom system. Not only gives better maintenance experience for customers, but also greatly saves the communication time between property and users and realizes the maintenance during feedforward. That is, when the air conditioning system is still in normal use and the use experience of the customer is not affected, the property and the customer can know the maintenance requirement in advance.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A radiation air conditioner monitoring system is characterized by comprising a radiation air conditioner system, gateway equipment and an intelligent home system; the radiation air-conditioning system is in communication connection with the intelligent home system through the gateway equipment; wherein:

2. A radiant air conditioning monitoring system as claimed in claim 1, wherein the smart home system comprises: an intelligent home cloud platform and an intelligent home; the warning information is equipment fault information or maintenance information; the radiation air-conditioning system sends out corresponding warning suggestion through intelligent home systems specifically includes:

the radiant air conditioning system sends a fault code or a maintenance code to the gateway device;

after receiving a fault code or a maintenance code of the radiation air-conditioning system, the gateway equipment sends the fault code or the maintenance code to the intelligent home cloud platform;

the intelligent home cloud platform is connected with the intelligent home, converts the fault code or the maintenance code into different prompt signals according to the attribute of the intelligent home, and sends the prompt signals to the intelligent home with the corresponding attribute;

3. The radiant air-conditioning monitoring system of claim 2, wherein the smart home cloud platform specifically comprises:

4. The radiant air-conditioning monitoring system as claimed in claim 1, wherein the radiant air-conditioning system comprises an air-conditioning main controller and a plurality of air-conditioning system sensors, and the air-conditioning main controller is connected with each air-conditioning system sensor;

the air conditioning system sensor acquires detection data of each device in the radiation air conditioning system;

the air conditioner main controller is used for analyzing the detection data according to control logic and generating a fault code when analyzing and identifying that the radiation air conditioning system has a system fault, wherein the fault code comprises a fault equipment label and a fault condition code; and when the radiation air-conditioning system is analyzed and identified to need maintenance, generating the maintenance code, wherein the maintenance code comprises a maintenance equipment label and a maintenance strategy code.

5. The radiant air conditioning monitoring system of claim 2 further comprising: the gateway equipment is connected with the intelligent home;

6. The radiant air conditioning monitoring system of claim 2 further comprising:

the intelligent home obtains a user instruction, identifies the user instruction, and stops alarming if the user instruction is to stop alarming; if the user instruction is an air conditioner control instruction, sending the user instruction to the intelligent home cloud platform;

7. A radiant air conditioner monitoring method is characterized by comprising the following steps:

8. The radiant air conditioner monitoring method as claimed in claim 7, wherein the warning message is a device failure message or a maintenance message; the radiation air-conditioning system sends out corresponding warning suggestion through intelligent home systems specifically includes:

after receiving the fault code or the maintenance code of the radiation air-conditioning system, the gateway equipment sends the fault code or the maintenance code to the intelligent home cloud platform;

9. The radiant air conditioner monitoring method according to claim 7, wherein before the gateway device obtains a fault code or a maintenance code of the radiant air conditioner system and sends the fault code or the maintenance code to the smart home cloud platform, the method further comprises:

when the air conditioner main controller analyzes the detection data according to control logic, and when the radiation air conditioner system is analyzed and identified to have system fault, the fault code is generated, wherein the fault code comprises a fault equipment label and a fault condition code; and when the radiation air-conditioning system is analyzed and identified to need maintenance, generating the maintenance code, wherein the maintenance code comprises a maintenance equipment label and a maintenance strategy code.

10. The radiant air conditioner monitoring method as claimed in claim 7, further comprising:

11. The radiant air conditioner monitoring method as claimed in claim 7, further comprising:

the smart home acquires a user instruction and identifies the user instruction;

12. A radiant air conditioner monitoring method as claimed in any one of claims 7 to 11, further comprising:

the radiation air-conditioning system sends fault information or maintenance information of the radiation air-conditioner to the visual intercom system through the gateway equipment;

the visual intercom system displays through an indoor visual intercom screen and informs a user of maintenance;

the visual intercom system also carries out repair or notification maintenance on the property through the visual intercom switch and the visual intercom management host.