CN113327004A - Heating plan system and method - Google Patents

Abstract

The application relates to a heating plan system and a heating plan method. The system comprises heating equipment and instruction updating equipment. And acquiring the customized data input by the user through the instruction updating equipment, and determining a heating plan according to the customized data. And after the instruction updating equipment acquires the heating plan, sending the heating plan to the heating equipment. And the heating equipment updates the local heating plan according to the heating plan and carries out heating according to the updated heating plan. The heating plan is acquired based on the customized data of the user, and the customized data can be used as a carrier for presenting the heating demand of the user, so that subsequent heating equipment can perform heating according to the heating demand of the user, and the customization of the heating plan can be realized, and various individual demands of people can be met.

Description

Heating plan system and method

Technical Field

The application relates to the technical field of heating equipment, in particular to a heating plan system and a heating plan method.

Background

The heating is the building environment control technology developed by human beings at the earliest, and since people know fire, heating modes such as heated brick beds, stoves, hot walls and the like are invented for resisting the threat of cold to survival, and the heating equipment is the earliest heating equipment and is applied to some times. With the improvement of living standard and the increasing trend of beautiful life, the low latitude areas have higher and higher call for heating in winter. Today, heating equipment has made great progress in terms of sanitation, automatic control of the equipment, human comfort, and effective utilization of energy. The individual gas heating equipment is the existing common heating equipment, a heating plan is mostly built in the individual gas heating equipment, the heating plan cannot be changed after the user signs, the user can only change the heating plan by changing the individual gas heating equipment, and the cost of the individual gas heating equipment is high, so that the cost for changing the heating plan is very high. Meanwhile, the procedure for replacing the individual gas heating equipment is complicated and difficult to operate, so that the replacement of the heating plan becomes extremely difficult, that is, the replacement of the heating plan lacks flexibility.

Disclosure of Invention

In view of the above, it is necessary to provide a heating plan system, a method, a device and a heating facility that can meet the requirement of a user for replacing a heating plan.

A heating plan system comprises heating equipment and instruction updating equipment;

the heating equipment is used for updating the heating plan sent by the equipment according to the instruction, updating the local heating plan and carrying out heating according to the updated heating plan;

and the instruction updating device is used for acquiring the customized data input by the user and determining the heating plan according to the customized data.

In one embodiment, the customization data is determined based on a heating on time period and a heating temperature, or the customization data is determined based on a heating plan selection identifier.

In one embodiment, the instruction updating device comprises a terminal and a server;

the terminal is used for acquiring the customized data input by the user and sending the customized data to the server;

and the server is used for analyzing and processing the customized data to obtain a heating plan, storing the heating plan into the plan database, generating a corresponding updating instruction according to the heating plan, adding the updating instruction into the instruction queue, and sending the heating plan to the heating equipment based on the instruction queue.

In one embodiment, the system further comprises: a device connector; the server is used for sending a heating plan to the equipment connector based on the instruction queue; and the equipment connector is used for receiving the heating plan and sending the heating plan to the heating equipment.

A heating plan method, the method comprising:

acquiring a heating plan sent by instruction updating equipment, wherein the heating plan is determined by acquiring customized data input by a user through the instruction updating equipment and determining according to the customized data;

and updating the local heating plan according to the heating plan, and carrying out heating according to the updated heating plan.

In one embodiment, the customization data is determined based on a heating on time period and a heating temperature, or the customization data is determined based on a heating plan selection identifier.

In one embodiment, the heating plan includes a heating start time period and a heating temperature; accordingly, heating is performed according to a heating plan, including:

judging whether the current time point is in a heating starting time period, if not, judging whether the heating machine is started, if so, judging whether the heating machine is off-line, if not, delaying for a first preset time period, and repeatedly executing the judging and delaying processes until the current time point is in the heating starting time period;

judging whether the current temperature of the heating machine exceeds the heating temperature, if so, judging whether the heating machine is started, if so, judging whether the heating machine is off-line, if not, delaying for a second preset time period, and repeatedly executing the judging and delaying processes until the current time point is within the heating starting time period and the current temperature of the heating machine does not exceed the heating temperature;

and judging whether the heating machine is started or not, if so, judging whether the target temperature of the heating machine is matched with the heating temperature, and if not, setting the target temperature of the heating machine according to the heating temperature.

In one embodiment, the heating plan is sent by the order update device based on an order queue.

A heating plan apparatus comprising:

the acquisition module is used for acquiring a heating plan sent by the instruction updating equipment, and the heating plan is determined by the instruction updating equipment according to the customization data acquired by the user;

and the updating module is used for updating the local heating plan according to the heating plan and carrying out heating according to the heating plan.

Heating equipment comprises a memory and a processor, wherein the memory stores a computer program, and the processor is characterized in that the processor executes the computer program to realize the following steps:

acquiring a heating plan sent by instruction updating equipment, wherein the heating plan is determined by acquiring customized data input by a user through the instruction updating equipment and determining according to the customized data;

and updating the local heating plan according to the heating plan, and carrying out heating according to the updated heating plan.

According to the heating plan system, the heating plan method, the heating plan device and the heating equipment, the customization data input by the user is obtained through the instruction updating equipment, and the heating plan is determined according to the customization data. And after the instruction updating equipment acquires the heating plan, sending the heating plan to the heating equipment. And the heating equipment updates the local heating plan according to the heating plan and carries out heating according to the updated heating plan. Since it is not necessary to replace the heating plan by replacing the heating equipment, a large cost due to the replacement of the heating equipment is not incurred. In addition, the heating plan can be updated according to the heating plan obtained by the command updating equipment instead of constantly and fixedly using the local heating plan, so that the heating plan can be replaced more easily, and the heating plan can be replaced more flexibly. In addition, the heating plan is acquired based on the customized data of the user, and the customized data can be used as a carrier for presenting the heating demand of the user, so that subsequent heating equipment can perform heating according to the heating demand of the user, and the customization of the heating plan can be realized, and various individual demands of people can be met.

Drawings

FIG. 1 is a diagram of an application environment in which a heating plan system is applied to interaction of heating equipment and command update equipment in one embodiment;

FIG. 2 is a diagram of an application environment of the heating plan system in an embodiment applied to the interaction among the heating equipment, the terminal and the server;

FIG. 3 is a diagram of an application environment of the heating plan system in another embodiment for interaction among heating equipment, terminals and servers;

FIG. 4 is a schematic flow chart illustrating a heating plan method according to an embodiment, in which heating equipment is used as an execution subject;

FIG. 5 is a block diagram showing a structure of a heating plan apparatus according to an embodiment;

FIG. 6 is an internal structure view of a heating apparatus according to an embodiment;

FIG. 7 is a diagram of an environment in which a heating plan system according to an embodiment may be used;

FIG. 8 is a schematic diagram of a package sample corresponding to a package design in the heating plan system in one embodiment;

FIG. 9 is a diagram illustrating a basic process flow of package processing tasks in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that, as used herein, the terms "first," "second," and the like may be used herein to describe various terms, but these terms are not limited by these terms unless otherwise specified. These terms are only used to distinguish one term from another. For example, the third preset threshold and the fourth preset threshold may be the same or different without departing from the scope of the present application.

The heating is the building environment control technology developed by human beings at the earliest, and since people know fire, heating modes such as heated brick beds, stoves, hot walls and the like are invented for resisting the threat of cold to survival, and the heating equipment is the earliest heating equipment and is applied to some times. With the improvement of living standard and the increasing trend of beautiful life, the low latitude areas have higher and higher call for heating in winter. Today, heating equipment has made great progress in terms of sanitation, automatic control of the equipment, human comfort, and effective utilization of energy. The individual gas heating equipment is the existing common heating equipment, a heating plan is mostly built in the individual gas heating equipment, the heating plan cannot be changed after the user signs, the user can only change the heating plan by changing the individual gas heating equipment, and the cost of the individual gas heating equipment is high, so that the cost for changing the heating plan is very high. Meanwhile, the procedure for replacing the individual gas heating equipment is complicated and difficult to operate, so that the replacement of the heating plan becomes extremely difficult, that is, the replacement of the heating plan lacks flexibility.

The heating plan system provided by the embodiment of the invention can be applied to application environments of interaction of heating equipment and instruction updating equipment and interaction of the heating equipment, a terminal and a server. Wherein, the heating equipment communicates with the terminal and the server through the network. The network may be a wireless network or a wired network, and the embodiment of the present invention is not limited in this respect. The terminal can be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers and portable wearable devices, and the server can be implemented by an independent server or a server cluster formed by a plurality of servers.

Before describing the specific implementation of the embodiment of the present invention, a description will be given of a main application scenario of the embodiment of the present invention. The heating plan system in the embodiment of the invention is mainly applied to a scene that a user changes the heating plan. Specifically, when the user wants to change the call and the flow package of the mobile phone, the user makes a call to the operator to request to change the package. And after receiving the request of the user, the operator updates the call and the flow package of the mobile phone of the user according to the request of the user.

Similarly, in a heating equipment application scenario, a user also needs to change a heating plan, that is, when using a heating equipment, the user needs to change the heating plan according to the need, for example, the original heating plan is charged according to needs, how much the user pays for the heating plan, and the user settles the monthly fee or settles the annual fee, but now the user wants to change a package to be not opened for the weekend, and the opening time on the opening date is 7: 00-18: 00. it should be noted that the heating plan for replacing the set meal for the weekend without opening is only one of the heating plans, and the heating plan is not limited to this one, and the user can freely select and set the heating plan according to the needs of the user.

With reference to the content of the foregoing embodiments, in an embodiment, as shown in fig. 1, a heating plan system is provided, which is described by taking an example that the system is applied to the interaction between the heating equipment and the command updating equipment in fig. 1, and the system specifically includes heating equipment 101 and command updating equipment 102, where:

the heating equipment 101 is used for updating the heating plan sent by the equipment 102 according to the instruction, updating the local heating plan and carrying out heating according to the updated heating plan;

and the instruction updating device 102 is used for acquiring the customization data input by the user and determining the heating plan according to the customization data.

The heating plan mentioned in the above system may include a setting of heating time and/or a setting of heating temperature, which is not particularly limited in this embodiment of the present invention. In order to achieve the details provided by the heating plan described above, accordingly, the heating plant 101 may have networking capability such that the order update plant 102 may send the heating plan to the heating plant 101 through a network connection. In addition, the heating equipment 101 may also execute a command for turning on and off the heating equipment, a command for setting temperature, equipment state information, and a timing reporting command for temperature, so as to meet the setting requirements of heating time and heating temperature in the heating plan. In addition, the instruction update device 102 may acquire the heating plan before transmitting the heating plan to the heating device 101, as may be input by the user.

The command update device 102 mentioned in the above system may include an input interface and a display interface. Accordingly, the user may input the customization data in the display interface through the input interface, so that the command update device 102 may obtain the content input by the user and determine the heating plan according to the content input by the user. The input interface may be a touch screen input interface or an external input device.

As can be seen from the above, the instruction update apparatus 102 may be a terminal or a server. Specifically, when the instruction updating device 102 is a terminal, the terminal may transmit a heating plan to the heating device 101. The terminal may implement communication with the heating device 101 in a wired network or wireless network, and the wireless network may be WIFI or near field communication, which is not specifically limited in this embodiment of the present invention. When the command update device 102 is a server, the server may implement communication with the heating device 101 by using a wired network. If the heating plan is obtained based on the customization data, the command update device 102 may include an input interface and a display interface regardless of whether it is a terminal or a server, and the customization data input by the user may be obtained based on the input interface and the display interface.

It should be noted that, the process of determining the heating plan according to the customized data may be to convert the data format of the customized data to obtain the heating plan. Specifically, the user may fill in the customization data by instructing the updating device 102 to fill in the form, and then the instructing updating device 102 may obtain the filled-in customization data. The customized data may not be convenient for the subsequent heating equipment 101 to recognize and process, and based on this, the customized data may be converted into a data format that can be recognized and processed by the heating equipment 101, that is, the heating plan.

In the heating plan system provided by the embodiment of the invention, the instruction updating device 102 acquires the customized data input by the user, and determines the heating plan according to the customized data. After acquiring the heating plan, the instruction update device 102 transmits the heating plan to the heating device 101. The heating apparatus 101 updates the local heating plan according to the heating plan, and performs heating according to the updated heating plan. Since there is no need to change the heating plan by changing the heating equipment 101, there is no large cost incurred by changing the heating equipment 101. In addition, since the heating plan is updated according to the heating plan acquired by the command updating device 102, instead of constantly using the local heating plan, it is easier to change the heating plan, and the heating plan is more flexible.

Furthermore, the heating plan is obtained based on the customized data of the user, and the customized data can be used as a carrier for presenting the heating demand of the user, so that the subsequent heating equipment 101 can perform heating according to the heating demand of the user, and the customization of the heating plan can be realized, so that various individual demands of people can be met.

In combination with the above embodiments, in one embodiment, the customized data is determined based on the heating on time period and the heating temperature, or the customized data is determined based on the heating plan selection identifier.

In this case, the command update facility 102 may transmit the selection command determined by the heating plan selection flag to the heating facility 101, instead of directly transmitting the heating plan itself as in the above-described embodiment, and the heating facility 101 may select one heating plan from the plurality of heating plans stored locally after receiving the selection command, update the local heating plan based on the selected heating plan, and subsequently perform heating according to the selected heating plan.

In the heating plan system provided by the embodiment of the invention, the instruction updating device 102 acquires the customized data input by the user, and acquires the heating plan according to the customized data. After acquiring the heating plan, the instruction update device 102 transmits the heating plan to the heating device 101. The heating apparatus 101 updates the local heating plan according to the heating plan, and performs heating according to the updated heating plan. Since there is no need to change the heating plan by changing the heating equipment 101, there is no large cost incurred by changing the heating equipment 101. In addition, since the heating plan is updated according to the heating plan acquired by the command updating device 102, instead of constantly using the local heating plan, it is easier to change the heating plan, and the heating plan is more flexible.

Furthermore, the heating plan is determined based on the customized data of the user, and the customized data can be used as a carrier for presenting the heating demand of the user, so that the subsequent heating equipment 101 can perform heating according to the heating demand of the user, and the customization of the heating plan can be realized, so as to meet various individual demands of people.

In connection with the foregoing description of the embodiments, in one embodiment, as shown in FIG. 2, a heating plan system is provided. The instruction update apparatus 102 includes a terminal 1021 and a server 1022. The system is applied to the example of the interaction among the heating equipment 101, the terminal 1021 and the server 1022 in fig. 2, wherein:

a terminal 1021, configured to obtain customization data input by a user, and send the customization data to the server 1022;

the server 1022 is configured to analyze the customized data to obtain a heating plan, store the obtained heating plan in the plan database, generate a corresponding update instruction according to the heating plan, add the update instruction to the instruction queue, and send the heating plan to the heating equipment 101 based on the instruction queue.

The content of the customized data and the manner of obtaining the customized data may refer to the content in the above embodiments, and are not described herein again. After receiving the customized data, the server 1022 may perform parsing processing on the customized data, where the parsing processing process may be a process of converting a data format, and reference may be specifically made to the contents of the foregoing embodiments, and details are not described here again. It should be noted that the instruction queue is introduced at the server side to improve the reliability and the timely response of the communication interaction between the server 1022 and the heating equipment 101. Specifically, the server 1022 may buffer and process the uplink and downlink commands of the heating equipment 101 by introducing the command queue. In addition, due to various reasons such as network signal difference, the issuing of the instruction cannot reach the heating equipment side necessarily, that is, the equipment communication cannot be reached all the time, so that the instruction queue can also provide the function of instruction retransmission based on the above problems. Specifically, the instruction queue may continuously retransmit the instruction to the heating device 101 according to a certain rule by using a failure retransmission mechanism until the instruction is successfully delivered to the heating device 101 or the user manually cancels the issue of the instruction. The server 1022 may improve the fault tolerance and reliability of communication with the heating plant 101 by sending the heating plan to the heating plant 101 through the command queue.

The customization data can be input by the user through the APP when the user inputs the customization data on the terminal 1021. The APP provides various related functions of the heating equipment 101, including remote control of the heating equipment 101, checking states and the like, and meanwhile, the on-line change of a heating plan is supported for a user, so that the user can realize the change of the heating plan without going out of home, and the APP is very convenient.

In addition, since the server side needs to manage the heating plan used by the heating equipment 101, that is, which heating plan the heating equipment 101 actually uses needs to be set and retained on the server side, if the heating plan of the heating equipment 101 is changed, the setting and retaining process can be implemented by the relevant staff member on the server side through a Web page. Specifically, the relevant staff may decouple the heating plan before the change from the heating equipment 101, and bind the heating plan after the change to the heating equipment 101, thereby completing the setting and the retention of the heating plan. The setting and retaining processes can provide functions of adding and modifying the heating plan with extremely low cost for related workers.

In the heating plan system provided by the embodiment of the present invention, the terminal 1021 acquires the customized data input by the user, and transmits the customized data to the server 1022. The server 1022 analyzes and processes the customized data to obtain a heating plan, stores the heating plan in the plan database, generates a corresponding update instruction according to the heating plan, adds the update instruction to the instruction queue, and sends the heating plan to the heating equipment 101 based on the instruction queue. The heating equipment 101 updates the heating plan sent by the equipment 102 according to the instruction, updates the local heating plan, and performs heating according to the updated heating plan.

First, since there is no need to replace the heating plan by replacing the heating equipment 101, there is no large cost incurred by replacing the heating equipment 101.

Secondly, since the heating plan can be updated according to the heating plan obtained by the server 1022, instead of constantly using the local heating plan, it is easier to change the heating plan, and the heating plan is more flexible.

In the second time, the heating plan is determined based on the customized data of the user, and the customized data can be used as a carrier for presenting the heating demand of the user, so that the subsequent heating equipment 101 can perform heating according to the heating demand of the user, and the customization of the heating plan can be realized, so as to meet various individual demands of people.

Thirdly, by means of the interaction among the terminal 1021, the server 1022 and the heating equipment 101, the processing logic of the heating equipment 101 can be greatly reduced, so that the operation reliability and the later maintainability of the heating equipment 101 can be improved.

Finally, since the transmission of the heating plan to the heating equipment 101 is managed and realized by the server 1022, the user does not need to manage the heating equipment 101 by himself or herself, and can be completely handed over to the server 1022 for automatic management, which brings great convenience to the life of the user. Meanwhile, the heating plan change of the heating equipment operator does not depend on the heating equipment 101 any more, and can be completed only by changing the terminal 1021 and the server 1022, so that the possibility of later expansion is unlimited.

In connection with the above-described embodiments, in one embodiment, as shown in fig. 3, there is provided a heating plan system, further including: a device connector 103; a server 1022 for transmitting a heating plan to the appliance connector 103 based on the instruction queue; and an equipment connector 103 for receiving the heating plan and transmitting the heating plan to the heating equipment 101.

The device connector 103 may be configured to analyze the interactive data between the server 1022 and the terminal 1021 according to a preset protocol, for example, the server 1022 sends a data packet of which the heating plan is a specific preset protocol, such as an MQTT (Message queue Telemetry Transport) protocol, and the heating device side cannot analyze the data packet of the protocol. In this case, the server 1022 and the heating facility 101 need to be bridged by the facility connector 103 to resolve the data packet of the special protocol into a data packet that can be recognized by the heating facility 101 and includes a heating plan. In addition, the device connector 103 may be a router or a switch, which is not particularly limited in this embodiment of the present invention.

According to the heating plan system provided by the embodiment of the invention, the equipment connector 103 is added between the server 1022 and the heating equipment 101 in the interaction process, and the equipment connector 103 analyzes the interaction data between the server 1022 and the heating equipment 101 according to the preset protocol. Since the heating equipment 101 itself does not need to be compatible with a plurality of protocols, it is only necessary to be able to communicate with the equipment connector 103 through some protocols, even if the server 1022 updates different protocols to transmit heating plans in the future, it is only necessary that the equipment connector 103 can keep compatible with the protocols updated by the server 1022, and it is not necessary to update the protocols again on the heating equipment side, so that the coupling between the server 1022 and the heating equipment 101 can be reduced. Meanwhile, when the protocol is updated, the server 1022 does not need to update the protocol again on the heating equipment side, so that the service processing logic on the heating equipment side can be reduced, and the complexity of service development of the heating equipment 101 can be reduced. Accordingly, the stability of the operation of the heating apparatus 101 is also improved.

In combination with the content of the above embodiments, in an embodiment, referring to fig. 4, a heating planning method is provided, which is described by taking an execution subject of the method as a heating device as an example, and includes the following steps:

401. acquiring a heating plan sent by instruction updating equipment, wherein the heating plan is determined by acquiring customized data input by a user through the instruction updating equipment and determining according to the customized data;

402. and updating the local heating plan according to the heating plan, and carrying out heating according to the updated heating plan.

The execution process and the related noun explanation of the above steps 401 and 402 can refer to the content of the related embodiment of the heating plan system, which is not described herein again.

According to the heating plan method provided by the embodiment of the invention, the heating plan is obtained, and the obtained heating plan is sent to the heating equipment, so that the heating equipment updates the local heating plan according to the heating plan, and performs heating according to the updated heating plan. Since it is not necessary to replace the heating plan by replacing the heating equipment, a large cost due to the replacement of the heating equipment is not incurred. In addition, the heating plan can be updated according to the heating plan obtained by the command updating equipment instead of constantly and fixedly using the local heating plan, so that the heating plan can be replaced more easily, and the heating plan can be replaced more flexibly. The heating plan is obtained according to the customized data input by the user, and the heating plan is sent to the heating equipment, so that the heating equipment updates the local heating plan according to the heating plan, and performs heating according to the updated heating plan. The heating plan is determined based on the customized data input by the user, and the customized data can be used as a carrier for presenting the heating demand of the user, so that subsequent heating equipment can perform heating according to the heating demand of the user, and the customization of the heating plan can be realized, and various individual demands of people can be met.

In combination with the above embodiments, in one embodiment, the customized data is determined based on the heating on time period and the heating temperature, or the customized data is determined based on the heating plan selection identifier.

The execution process and the explanation of the related terms of the above steps can refer to the contents of the related embodiments of the heating plan system, and are not described herein again.

According to the heating plan method provided by the embodiment of the invention, the heating plan is obtained, and the obtained heating plan is sent to the heating equipment, so that the heating equipment updates the local heating plan according to the heating plan, and performs heating according to the updated heating plan. Since it is not necessary to replace the heating plan by replacing the heating equipment, a large cost due to the replacement of the heating equipment is not incurred. In addition, the heating plan can be updated according to the heating plan obtained by the command updating equipment instead of constantly and fixedly using the local heating plan, so that the heating plan can be replaced more easily, and the heating plan can be replaced more flexibly. The heating plan is determined according to the customization data, which is determined based on the heating starting time period and the heating temperature, or the customization data is determined based on the heating plan selection identifier, and the heating plan is sent to the heating equipment, so that the heating equipment updates the local heating plan according to the heating plan and carries out heating according to the updated heating plan. The heating plan is acquired based on the customized data of the user, and the customized data can be used as a carrier for presenting the heating demand of the user, so that subsequent heating equipment can perform heating according to the heating demand of the user, and the customization of the heating plan can be realized, and various individual demands of people can be met.

With reference to the above embodiments, in one embodiment, the heating plan includes a heating start time period and a heating temperature; accordingly, heating is performed according to a heating plan, including:

judging whether the current time point is in a heating starting time period, if not, judging whether the heating machine is started, if so, judging whether the heating machine is off-line, if not, delaying for a first preset time period, and repeatedly executing the judging and delaying processes until the current time point is in the heating starting time period;

judging whether the current temperature of the heating machine exceeds the heating temperature, if so, judging whether the heating machine is started, if so, judging whether the heating machine is off-line, if not, delaying for a second preset time period, and repeatedly executing the judging and delaying processes until the current time point is within the heating starting time period and the current temperature of the heating machine does not exceed the heating temperature;

and judging whether the heating machine is started or not, if so, judging whether the target temperature of the heating machine is matched with the heating temperature, and if not, setting the target temperature of the heating machine according to the heating temperature.

The execution process and the explanation of the related terms of the above steps can refer to the contents of the related embodiments of the heating plan system, and are not described herein again.

It should be noted that the execution subject for performing heating according to the heating plan may be a heating device or an instruction updating device, and this is not particularly limited in the embodiment of the present invention. In addition, whether the heating machine is started or not is judged in the steps, and if the heating machine is started, a shutdown instruction is issued. In addition, the target temperature mentioned in the above step refers to a system temperature set inside the heating machine, and the target temperature may refer to a temperature range or a specific temperature, which is not specifically limited in the embodiment of the present invention.

According to the heating plan method provided by the embodiment of the invention, the heating equipment carries out heating processing logic according to the heating plan, so that the heating equipment can be started in the heating time period specified by the heating plan, and the temperature of the heating equipment is heated to the temperature specified by the heating plan, thereby meeting the heating requirement of a user.

In conjunction with the above embodiments, in one embodiment, the heating plan is sent by the order update device based on an order queue.

The heating plan method provided by the embodiment of the invention introduces the instruction queue at the instruction updating equipment side, so as to improve the reliability and the timely response of communication interaction between the instruction updating equipment and the heating equipment. Specifically, the instruction updating device can cache and process the uplink and downlink instructions of the heating device by introducing the instruction queue. In addition, due to various reasons such as network signal difference, the issuing of the instruction cannot reach the heating equipment side necessarily, that is, the equipment communication cannot be reached all the time, so that the instruction queue can also provide the function of instruction retransmission based on the above problems. Specifically, the instruction queue may continuously retransmit the instruction to the heating device according to a certain rule by using a failure retransmission mechanism until the instruction is successfully delivered to the heating device or the user manually cancels the issuance of the instruction. The command updating device sends the heating plan to the heating device through the command queue, so that the fault tolerance rate and the reliability of communication with the heating device are improved.

In connection with the above-described embodiments, in one embodiment, as shown in fig. 5, there is provided a heating plan apparatus including:

an obtaining module 501, configured to obtain a heating plan sent by an instruction updating device, where the heating plan is determined by the instruction updating device obtaining customized data input by a user and according to the customized data;

and the updating module 502 is configured to update the local heating plan according to the heating plan, and perform heating according to the heating plan.

For specific limitations of the heating planning device, reference may be made to the above limitations of the heating planning method, which are not described herein again. All or part of the modules in the heating planning device can be realized by software, hardware and the combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a heating apparatus is provided, which may be a terminal, and the internal structure thereof may be as shown in fig. 6. The heating equipment comprises a processor, a memory, a communication interface, a display screen and an input device which are connected through a system bus. Wherein the processor of the heating device is used for providing calculation and control capability. The memory of the heating equipment comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The communication interface of the heating equipment is used for carrying out wired or wireless communication with an external terminal, and the wireless communication can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program is executed by a processor to implement a heating plan method. The display screen of the heating equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the heating equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the heating equipment, an external keyboard, a touch pad or a mouse and the like.

It will be understood by those skilled in the art that the configuration shown in fig. 6 is a block diagram of only a portion of the configuration associated with the present application and does not constitute a limitation on the heating apparatus to which the present application is applied, and that a particular heating apparatus may include more or less components than those shown in the drawings, or some components may be combined, or have a different arrangement of components.

In one embodiment, there is provided a heating apparatus comprising a memory and a processor, the memory having a computer program stored therein, the processor implementing the following steps when executing the computer program:

acquiring a heating plan sent by instruction updating equipment, wherein the heating plan is determined by acquiring customized data input by a user through the instruction updating equipment and determining according to the customized data;

and updating the local heating plan according to the heating plan, and carrying out heating according to the updated heating plan.

With reference to the content of the foregoing embodiments, for convenience of understanding, as shown in fig. 7, functions implemented by the foregoing system will now be explained by taking a heating plan system including heating devices, device connectors, device instruction queues, package processing tasks, package databases, and clients as an example. The device instruction queue, package processing task, and package database are integrated in a cloud, where the cloud corresponds to the server in the above embodiment, and the client corresponds to the terminal in the above system embodiment. Wherein:

heating equipment refers to equipment installed in a user room for heating, such as a natural gas-fired wall-hanging stove. In order to realize the interaction with the cloud, the heating device has networking capability, and meanwhile, a communication protocol accessed to the cloud needs to be realized, and the communication protocol may be an MQTT (Message Queuing Telemetry Transport) protocol. In addition, the heating equipment in the embodiment of the invention can be provided with a command for switching on and switching off, a command for setting temperature, equipment state information and a timing reporting command for temperature.

The equipment connector is a component which is provided by the cloud and is connected with the heating equipment in a butt joint mode, and analysis of a protocol between the heating equipment and the cloud and command interaction of uplink and downlink are achieved.

The package database is a database which is provided by the cloud and used for storing package data, and the cloud can appoint packages for each heating device by acquiring the package data in the package database and take effect immediately. It should be noted that the package data stored in the package database corresponds to the heating plan in the system embodiment.

Specifically, to maximize the degree of customization of a package, the package design may be as shown in the following table:

a package sample corresponding to the package design scheme may be as shown in fig. 8, which is not specifically limited in this embodiment of the present invention.

As can be seen from the above package design details, the package can be customized by time period. The time period can be divided into days, hours or minutes. For example, taking the division unit as a day as an example, the set of meal can meet the requirement of the user for customized heating on weekdays, weekends, holidays or spring holidays. Because the package can be customized according to the time period, and the heating temperature of each time period can also be customized, the package design is very flexible. Meanwhile, the time period and the heating temperature are combined in different customization modes, and the individual requirements under various scenes can be met.

Referring to fig. 9, the basic processing flow of the package processing task is as follows:

after the heating equipment is connected to the cloud, if a package configured with the heating equipment exists in the package database, the corresponding package processing task starts to be started and enters a cloud processing flow of the package.

The cloud processing flow specifically comprises the following steps: firstly, whether the current time point is in the heating time period of a package is judged, if so, the process flow in the heating time period is started, otherwise, the process flow in the non-heating time period is started.

And if the heating machine is started in the non-heating time period, checking whether the heating machine is started or not, and if the heating machine is started, issuing a shutdown instruction to ensure that the heating machine is closed in the non-heating time period.

If in the heating time quantum, then judge earlier whether the heating temperature of heating machine has exceeded the appointed temperature of package, if exceed then close the heating machine and let the temperature drop to the appointed temperature of package, guarantee that the actual temperature of heating accords with the setting of package. Therefore, when the heating temperature of the heating machine exceeds the set temperature, the heating machine is closed and the temperature is reduced to the set temperature specified by the set meal, because the heating machine generally cannot automatically check the temperature and perform corresponding temperature regulation actions, and the state of the heating equipment in the heating time period specified by the whole set meal needs to be controlled by the set meal processing task at the cloud side. And if the temperature of the heating machine is not too high, entering a normal heating machine starting process, namely issuing a corresponding starting instruction and a temperature setting instruction.

The connection points of the heating equipment command and the package processing task flow are as follows, and the heating equipment command can be used in the following steps:

1) and (3) a power-on and power-off instruction: issuing a starting instruction, and issuing a shutdown instruction flow;

2) temperature setting instruction: issuing a temperature setting instruction flow;

3) reporting a state temperature instruction: and detecting whether the heating machine is started or shut down or not, and detecting the temperature flow of the heating machine.

Through the task processing logic, the heating equipment can be started in the specified heating time period of the package, the temperature of the heating equipment is heated to the specified temperature of the package, and if the temperature is in the non-package time period, the heating machine is closed. And finally, completing the cloud processing flow of the whole heating package.

Because the service processing of the heating equipment side is very simple, the package information does not need to be concerned, and only the instructions of startup and shutdown, the temperature setting and the timed reporting of the equipment state information and the temperature are needed, thereby greatly reducing the service processing logic of the heating equipment side and further reducing the complexity of the service development of the heating equipment side. Accordingly, the working stability of the heating equipment is improved.

The equipment instruction queue is introduced into the cloud end, so that the reliability and the timely response of communication interaction between the cloud end and the heating equipment are improved. Specifically, the cloud end can cache and process uplink and downlink instructions of the heating equipment by introducing the equipment instruction queue. In addition, due to various reasons such as network signal difference, the issuing of the instruction cannot reach the heating equipment side necessarily, that is, the equipment communication cannot be reached all the time, so that the equipment instruction queue can also provide the function of instruction retransmission based on the above problems. Specifically, the device instruction queue may continuously retransmit the instruction to the heating device according to a certain rule by using a failure retransmission mechanism until the heating device is successfully delivered or the user manually cancels the issuance of the instruction. The cloud sends the package to the heating equipment through the equipment instruction queue, and fault tolerance rate and reliability of communication with the heating equipment can be improved.

As shown in fig. 7, the client may include a WEB page and an APP, which is not specifically limited in this embodiment of the present invention.

When the user inputs package data on the client, the package data can be input through the APP. The APP provides various related functions of the heating equipment, the state and the like are checked through remote control of the heating equipment, meanwhile, the user is supported to carry out online change of the package, the user can not go out of home to realize the change of the package, and the heating equipment is very convenient to use.

In addition, the packages used by the heating equipment need to be managed by the cloud, that is, which packages need to be set and retained by the heating equipment in the cloud actually, and if the packages of the heating equipment are changed, the setting and retaining processes can be realized by related workers through Web pages in the cloud. Specifically, related staff can decouple the set meal before change from the heating equipment and bind the set meal after change with the heating equipment, so that the set meal is set and retained. The setting and retaining processes can provide functions of adding and modifying packages with extremely low cost for related workers.

The heating plan system provided by the embodiment of the invention adopts a cloud processing mode of heating packages. The package is sent to the cloud end through the client end, the cloud end sends the package to the heating device, the heating device updates the local package according to the package, and heating is carried out according to the updated package. Because the set meal does not need to be replaced by replacing the heating equipment, huge cost caused by replacement of the heating equipment is avoided. In addition, the package can be updated by the cloud instead of being constantly and fixedly used for local packages, so that the package can be replaced more easily, and the package replacement is more flexible. In addition, through the interactive mode of client, high in the clouds and heating equipment three, because greatly reduce the processing logic of heating equipment to can improve the reliability and the later stage maintainability of heating equipment operation itself. Because the package is sent to the heating equipment by cloud management and is realized, a user does not need to manage the heating equipment, and the package can be completely handed to the cloud for automatic management, so that great convenience is brought to the life of the user. Meanwhile, a heating equipment operator does not depend on heating equipment any more, and only the client and the cloud end are needed to change the set meal, so that the change is completed, and infinite possibility is brought to later expansion.

It should be understood that, although the steps in the flowcharts of fig. 4, 5 and 8 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 4, 5 and 8 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the steps or stages is not necessarily sequential, but may be performed alternately or alternately with other steps or at least some of the other steps.

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

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

Claims (10)

1. A heating plan system is characterized by comprising heating equipment and instruction updating equipment;

the heating equipment is used for updating the heating plan sent by the equipment according to the instruction, updating the local heating plan and carrying out heating according to the heating plan;

and the instruction updating device is used for acquiring the customized data input by the user and determining the heating plan according to the customized data.

2. The system of claim 1, wherein the customization data is determined based on a heating on time period and a heating temperature, or wherein the customization data is determined based on a heating plan selection indicator.

3. The system according to claim 1 or 2, wherein the instruction update device comprises a terminal and a server;

the terminal is used for acquiring the customization data input by the user and sending the customization data to the server;

the server is used for analyzing the customized data to obtain the heating plan, storing the heating plan into a plan database, generating a corresponding updating instruction according to the heating plan, adding the updating instruction to an instruction queue, and sending the heating plan to the heating equipment based on the instruction queue.

4. The system of claim 3, further comprising: a device connector; the server is used for sending the heating plan to the equipment connector based on the instruction queue; the equipment connector is used for receiving the heating plan and sending the heating plan to the heating equipment.

5. A heating plan method, comprising:

the method comprises the steps that a heating plan sent by an instruction updating device is obtained, wherein the heating plan is determined according to customization data input by a user and obtained by the instruction updating device;

and updating a local heating plan according to the heating plan, and carrying out heating according to the heating plan.

6. The method of claim 5, wherein the customization data is determined based on a heating on time period and a heating temperature, or wherein the customization data is determined based on a heating plan selection indicator.

7. The method of claim 6, wherein the heating plan includes the heating on time period and a heating temperature; accordingly, the performing heating according to the heating plan includes:

judging whether the current time point is in the heating starting time period, if the current time point is not in the heating starting time period, judging whether the heating machine is started, if the heating machine is shut down, judging whether the heating machine is off-line, if the heating machine is not off-line, delaying a first preset time period, and repeatedly executing the judging and delaying processes until the current time point is in the heating starting time period;

judging whether the current temperature of the heating machine exceeds the heating temperature, if so, judging whether the heating machine is started, if so, judging whether the heating machine is off-line, if not, delaying a second preset time length, and repeatedly executing the judging and delaying processes until the current time point is within the heating starting time period and the current temperature of the heating machine does not exceed the heating temperature;

judging whether the heating machine is started, if so, judging whether the target temperature of the heating machine is matched with the heating temperature, and if not, setting the target temperature of the heating machine according to the heating temperature.

8. The method according to any one of claims 5 to 7, wherein the heating plan is sent by the order update device based on an order queue.

9. A heating plan apparatus, comprising:

the system comprises an acquisition module, a storage module and a control module, wherein the acquisition module is used for acquiring a heating plan sent by instruction updating equipment, and the heating plan is determined by acquiring custom data input by a user by the instruction updating equipment according to the custom data;

and the updating module is used for updating a local heating plan according to the heating plan and carrying out heating according to the heating plan.

10. Heating installation comprising a memory and a processor, the memory storing a computer program, characterized in that the processor, when executing the computer program, carries out the steps of the method according to any one of claims 5 to 8.

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