CN107559947B - Gas wall-mounted boiler control system and method - Google Patents

Abstract

The invention discloses a control system and a control method for a wall-mounted gas boiler, which are used for solving the problems that in the prior art, the wall-mounted gas boiler can only be simply controlled by a wall-mounted gas boiler controller according to temperature data, so that the effects of energy conservation and cost reduction are poor. The system comprises: the gas meter that server, terminal, at least one gas hanging stove and the same quantity, for every gas hanging stove configuration hanging stove controller, each hanging stove controller establishes communication connection with a gas meter respectively through close range wireless transmission mode, wherein: the system comprises a server and a plurality of wall-mounted gas meters, wherein the server is used for sending a first query request to each wall-mounted gas meter controller corresponding to each gas meter to be queried after receiving the first query request sent by a terminal, and the first query request carries first quantity query information, temperature query information and query time; receiving first query results fed back by each wall-mounted furnace controller; and preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to the terminal.

Description

Gas wall-mounted boiler control system and method

Technical Field

The invention relates to the technical field of wall-mounted boiler control, in particular to a gas wall-mounted boiler control system and method.

Background

The gas wall-mounted stove has a powerful household central heating function, can meet the heating requirements of multiple rooms, and is widely applied. Because the user who uses gas hanging stove heating consumes gas volume great, it is more to relate to amount of money, and energy-conservation falls to take one of more and more important user's demands, however, current hanging stove control system can only utilize hanging stove controller to carry out simple control to the hanging stove according to temperature data, sets up the operating temperature and the operating time of hanging stove. However, in the conventional wall-hanging stove control system, since the gas consumption of a user lacks data support, the energy-saving and cost-reducing data are not clear, and the wall-hanging stove is controlled in a manner of simply setting the working temperature and the working time of the wall-hanging stove according to the temperature data, so that the energy-saving and cost-reducing effects are poor.

Therefore, how to more reasonably control the wall-mounted gas boiler to improve the energy-saving and cost-reducing effects is one of the technical problems to be solved in the prior art.

Disclosure of Invention

The embodiment of the invention provides a control system and a control method for a wall-mounted gas stove, which are used for solving the problems that in the prior art, the wall-mounted gas stove can only be simply controlled by a wall-mounted gas stove controller according to temperature data, so that the effects of energy conservation and cost reduction are poor.

In a first aspect, an embodiment of the present invention provides a wall-mounted gas boiler control system, including:

server, terminal, at least one gas hanging stove and with the gas table of the same quantity of gas hanging stove to and for every gas hanging stove configuration a hanging stove controller, and every hanging stove controller establishes communication connection with a gas table respectively through close range wireless transmission mode, wherein:

the server is used for sending a first query request to each wall-mounted furnace controller corresponding to each gas meter to be queried after receiving the first query request sent by the terminal, wherein the first query request carries first quantity query information, temperature query information and query time; receiving a first query result fed back by each wall-mounted boiler controller, wherein the first query result comprises a usage value of each gas meter to be queried corresponding to the first usage query information, a temperature setting parameter value of each wall-mounted boiler controller corresponding to the query time, and indoor temperature information corresponding to the query time; preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to a terminal initiating the first query request;

the wall-mounted boiler controller is used for acquiring a corresponding usage value from a gas meter corresponding to the wall-mounted boiler controller according to the query time and the first usage query information after receiving a first query request sent by the server; acquiring a temperature setting parameter value of the wall-hanging furnace controller corresponding to the query time according to the query time and the temperature query information; acquiring indoor temperature information corresponding to the query time; feeding back the acquired gas meter usage value, the temperature setting parameter value of the wall-mounted furnace controller and the indoor temperature information to a server;

the terminal is used for sending a first query request to the server; and receiving the second query result sent by the server, setting parameters of a wall-mounted boiler controller corresponding to the terminal according to the second query result, and controlling the gas wall-mounted boiler.

In a possible implementation manner, in the gas wall-hanging stove control system provided by the embodiment of the present invention, the wall-hanging stove controller establishes a communication connection with the server through a general packet radio service GPRS manner or a cellular narrowband internet of things-based manner; and

the server is specifically configured to receive, when it is determined that the query time is a query time period, a first quantity value, corresponding to the first quantity query information, of each gas meter to be queried, fed back by each wall-mounted furnace controller corresponding to each gas meter to be queried, and a temperature setting parameter value, corresponding to each preset time point in the query time period, of each wall-mounted furnace controller; calculating the unit area gas usage amount of the gas users of the gas meters to be inquired in the inquiry time period according to the stored house area information of the gas users corresponding to the gas meters to be inquired and the first quantity values fed back by the wall-mounted furnace controllers; ranking the indoor average temperature and the unit area gas consumption in the query time period, which are contained in the received indoor temperature information corresponding to the query time fed back by each wall-mounted furnace controller, respectively to obtain a ranking list; sending the ranking list and temperature setting parameter values of the wall-mounted furnace controllers fed back by the wall-mounted furnace controllers connected with the gas meters to be inquired to the terminal as the second inquiry result;

the wall-mounted boiler controller is specifically configured to, after receiving a first query request sent by the server, obtain, according to the query time period and the first quantity query information, a first quantity value of the gas meter to be queried, which corresponds to the first quantity query information in the query time period, from the gas meter to be queried connected to the wall-mounted boiler controller; acquiring temperature setting parameter values of the wall-hanging furnace controller corresponding to each preset time point in the query time period; acquiring indoor temperature information corresponding to the query time period, wherein the indoor temperature information comprises an indoor average temperature in the query time period; feeding back the first quantity value, the temperature setting parameter value and the indoor average temperature obtained by each wall-hanging furnace controller to the server as a first query result;

the terminal is specifically used for receiving a second query result fed back by the server, setting parameters of the wall-hanging stove controller corresponding to the terminal according to the temperature setting parameter values of the wall-hanging stove controllers corresponding to the preset time points in the query time period in the ranking list according to the second query result, and controlling the gas wall-hanging stove.

In a possible implementation manner, in the gas wall-mounted boiler control system provided in the embodiment of the present invention, the server is further configured to send a second query request to a wall-mounted boiler controller corresponding to the gas meter to be queried, where the second query request carries second quantity query information and query time; receiving a third query result fed back by the wall-mounted furnace controller, and storing the query time and the third query result into a locally recorded usage report of the gas meter;

the wall-mounted boiler controller is used for acquiring a corresponding third query result from the gas meter according to the query time and the second quantity query information after receiving a second query request sent by the server; and feeding back an obtained third query result to the server, wherein the third query result carries a usage value corresponding to the second usage query information.

In a possible implementation manner, in the above gas wall-mounted boiler control system provided in an embodiment of the present invention, the terminal is further configured to send a second quantity query request to the server, where the second quantity query request carries identification information of a gas meter to be queried, third quantity query information of the gas meter, and a query time period; receiving a fourth query result fed back by the server;

the server is further configured to obtain a stored usage report of the gas meter corresponding to the identification information after receiving a second usage query request sent by the terminal, and determine whether a query result of the third usage query information meeting the query time period is stored in the usage report; if yes, feeding back the query result of the third quantity query information to the terminal; if the second quantity query request does not exist, forwarding the second quantity query request to a wall-mounted furnace controller corresponding to the gas meter; receiving a fourth query result sent by the wall-hanging furnace controller, and forwarding the fourth query result to the terminal;

the wall-mounted boiler controller is further configured to obtain a corresponding fourth query result from the gas meter corresponding to the wall-mounted boiler controller according to the query time period and the third quantity query information after receiving the second quantity query request; and feeding back the fourth query result to the server, wherein the fourth query result carries the usage value corresponding to the third usage query information.

In a possible implementation manner, in the control system for a wall-mounted gas boiler provided in an embodiment of the present invention, the terminal is further configured to send a third quantity query request to the server, where the third quantity query request carries identification information of a gas meter to be queried, fourth quantity query information of the gas meter, and a query time point; receiving a fifth query result fed back by the server;

the server is further used for forwarding a third quantity query request to the wall-mounted furnace controller corresponding to the gas meter after receiving the third quantity query request sent by the terminal; receiving a fifth query result sent by the wall-hanging furnace controller, and forwarding the fifth query result to the terminal;

the wall-mounted boiler controller is further configured to obtain a corresponding fifth query result from the gas meter corresponding to the wall-mounted boiler controller according to the query time point and the fourth usage query information after receiving the third usage query request; and feeding back the fifth query result to the server, wherein the fifth query result carries the usage value corresponding to the fourth usage query information.

In a possible implementation manner, in the control system of the wall-mounted gas boiler provided in the embodiment of the present invention, the terminal is further configured to send a payment request to the server, where the payment request carries identification information of the gas meter and a payment amount; receiving a payment result fed back by the server;

the server is further used for determining the pre-purchased quantity corresponding to the payment amount after receiving the payment request, and sending the pre-purchased quantity to a wall-mounted furnace controller corresponding to the gas meter according to the identification information of the gas meter; receiving a payment result fed back by the wall-mounted furnace controller and forwarding the payment result to the terminal;

the wall-mounted boiler controller is further used for updating the residual quantity of the gas meter according to the pre-purchased quantity and obtaining a payment result after receiving the pre-purchased quantity sent by the server; and feeding back the payment result to the server.

In a possible implementation manner, in the control system of the wall-mounted gas stove provided by the embodiment of the present invention, the terminal includes a user mobile terminal and/or a business hall terminal; and

the user mobile terminal is specifically used for sending a second quantity query request of the gas meter to be queried, which is in a binding relationship with the server, to the server; or a third quantity query request for the gas meter to be queried, which is used for establishing a binding relationship with the server, is sent to the server; or the payment request of the gas meter establishing the binding relationship with the server is sent to the server.

In a possible implementation manner, in the wall-mounted gas boiler control system provided in an embodiment of the present invention, the user mobile terminal is further configured to send a fourth quantity query request to a wall-mounted gas boiler controller of a gas meter for which a binding relationship is established, where the fourth quantity query request carries fifth quantity query information and query time of the gas meter to be queried; receiving a sixth query result fed back by the wall-hanging furnace controller;

the wall-mounted boiler controller is further used for acquiring a corresponding sixth query result from the gas meter according to the query time and the fifth usage query information after receiving a fourth usage query request sent by the user mobile terminal; and feeding back the sixth query result to the user mobile terminal, wherein the sixth query result carries a usage value corresponding to the fifth usage query information.

In a possible implementation manner, in the control system of the wall-mounted gas boiler according to the embodiment of the present invention, the user mobile terminal is specifically configured to establish a binding relationship with a gas meter according to the following method: acquiring identification information of a gas meter, and sending a binding relationship establishment request to the server, wherein the binding relationship establishment request carries a user name registered by a user in advance and the identification information of the gas meter; receiving an inquiry whether to confirm the establishment of the binding relationship sent by the server, and sending a response result of the inquiry whether to confirm the establishment of the binding relationship to the server;

the server is used for sending a query for confirming whether to establish the binding relationship to the user mobile terminal after receiving the binding relationship establishment request sent by the user mobile terminal; and receiving a response result fed back by the user mobile terminal whether to confirm the establishment of the binding relationship inquiry, establishing and storing the binding relationship between the user name and the identification information of the gas meter when the response result is confirmed to be established, and feeding back a result that the establishment of the binding relationship is successful to the user mobile terminal.

In a possible implementation manner, in the control system of the wall-mounted gas boiler, the user mobile terminal is specifically configured to obtain, for a gas meter to be bound, identification information of the gas meter by scanning an authentication graph code of the gas meter, where the authentication graph code includes a two-dimensional code or a barcode; or for the gas meter to be bound, receiving the code of the gas meter input by the user to obtain the identification information of the gas meter.

In a second aspect, an embodiment of the present invention provides a method for controlling a wall-mounted gas boiler, including:

after receiving a first query request sent by a terminal, sending the first query request to each wall-mounted furnace controller corresponding to each gas meter to be queried, wherein the first query request carries first quantity query information, temperature query information and query time;

receiving a first query result fed back by each wall-mounted furnace controller, wherein the first query result comprises a usage value of each to-be-queried gas meter corresponding to the first usage query information, a temperature setting parameter value of each wall-mounted furnace controller corresponding to the query time, and indoor temperature information corresponding to the query time, and the usage value of the to-be-queried gas meter is acquired from the gas meter by the wall-mounted furnace controller corresponding to the gas meter according to the query time and the first usage query information in a short-range wireless transmission mode;

and preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to a terminal initiating the first query request, so that the terminal sets parameters of a wall-mounted boiler controller corresponding to the terminal according to the second query result to control the gas wall-mounted boiler.

In a possible implementation manner, in the method for controlling a wall-hanging gas stove, when it is determined that the query time is the query time period, receiving a first query result fed back by each wall-hanging gas stove controller specifically includes:

receiving a first quantity value, corresponding to the first quantity query information, of each gas meter to be queried, fed back by each wall-mounted furnace controller corresponding to each gas meter to be queried in the query time period, and a temperature setting parameter value, corresponding to each preset time point in the query time period, of each wall-mounted furnace controller; and

preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to a terminal initiating the first query request, specifically comprising:

calculating the unit area gas usage amount of the gas users of the gas meters to be inquired in the inquiry time period according to the stored house area information of the gas users corresponding to the gas meters to be inquired and the first quantity values fed back by the wall-mounted furnace controllers;

ranking the indoor average temperature and the unit area gas consumption in the query time period, which are contained in the received indoor temperature information corresponding to the query time and fed back by each wall-hanging furnace controller, respectively to obtain a ranking list;

and sending the ranking list and the temperature setting parameter values of the wall-mounted furnace controllers fed back by the wall-mounted furnace controllers connected with the gas meters to be inquired to the terminal as the second inquiry result, so that the terminal sets the parameters of the wall-mounted furnace controllers corresponding to the terminal according to the second inquiry result and controls the gas wall-mounted furnace.

In a possible implementation manner, in the method for controlling a wall-mounted gas boiler according to an embodiment of the present invention, the method further includes:

sending a second query request to a wall-mounted furnace controller corresponding to the gas meter to be queried, wherein the second query request carries second quantity query information and query time of the gas meter; and

and receiving a third query result fed back by the wall-mounted furnace controller, and storing the query time and the third query result into a locally recorded usage report of the gas meter, wherein the third query result carries a usage value corresponding to the second usage query information, and the third query result is obtained from the gas meter by the wall-mounted furnace controller in a short-range wireless transmission manner according to the query time and the second usage query information.

In a possible implementation manner, in the method for controlling a wall-mounted gas boiler according to an embodiment of the present invention, the method further includes:

receiving a second quantity query request sent by a terminal, wherein the second quantity query request carries identification information of a gas meter to be queried, third quantity query information of the gas meter and a query time period;

acquiring a consumption report of the gas meter corresponding to the stored identification information;

judging whether the usage report stores the query result of the third usage query information meeting the query time period;

if yes, feeding back the query result of the third quantity query information to the terminal;

if the second quantity query request does not exist, forwarding the second quantity query request to a wall-mounted furnace controller corresponding to the gas meter; and

and receiving a fourth query result sent by the wall-mounted furnace controller, and forwarding the fourth query result to the terminal, wherein the fourth query result carries a usage value corresponding to the third usage query information, and the fourth query result is obtained by the wall-mounted furnace controller from the gas meter corresponding to the wall-mounted furnace controller according to the query time period and the third usage query information.

In a possible implementation manner, in the method for controlling a wall-mounted gas boiler according to an embodiment of the present invention, the method further includes:

receiving a third quantity query request sent by a terminal, wherein the third quantity query request carries identification information of a gas meter to be queried, fourth quantity query information of the gas meter and a query time point; and are

Forwarding the third measurement query request to a wall-mounted furnace controller corresponding to the gas meter; and

and receiving a fifth query result sent by the wall-mounted furnace controller, and forwarding the fifth query result to the terminal, wherein the fifth query result is obtained by the wall-mounted furnace controller from the gas meter corresponding to the wall-mounted furnace controller according to the query time point and the fourth usage query information.

In a possible implementation manner, in the control method of a wall-mounted gas boiler according to an embodiment of the present invention, the control method further includes:

receiving a payment request sent by the terminal, wherein the payment request carries identification information of the gas meter and payment amount; and are combined

Determining a pre-purchased amount corresponding to the payment amount, and sending the pre-purchased amount to a wall-mounted furnace controller corresponding to the gas meter according to the identification information of the gas meter;

and receiving a payment result fed back by the wall-mounted furnace controller and forwarding the payment result to the terminal, wherein the payment result is obtained by updating the residual quantity of the gas meter according to the pre-purchased quantity by the wall-mounted furnace controller.

In a third aspect, an embodiment of the present invention provides a non-volatile computer storage medium, which stores computer-executable instructions for executing the method for controlling a wall-mounted gas stove provided in the embodiment of the present application.

In a fourth aspect, an embodiment of the present invention provides an electronic device, including:

at least one processor; and

a memory communicatively coupled to the at least one processor; wherein the content of the first and second substances,

the memory stores instructions executable by the at least one processor, and the instructions are executed by the at least one processor to enable the at least one processor to execute the gas wall-hanging stove control method provided by the embodiment of the application.

In a fifth aspect, the present invention provides a computer program product, which includes a computer program stored on a non-transitory computer readable storage medium, where the computer program includes program instructions, and when the program instructions are executed by a computer, the computer is caused to execute the gas wall hanging stove control method provided by the present invention.

The invention has the beneficial effects that:

in the wall-mounted gas boiler control system and method provided by the embodiment of the invention, the system comprises: server, terminal, at least one gas hanging stove and with the gas table of the same quantity of gas hanging stove to and for every gas hanging stove configuration a hanging stove controller, and every hanging stove controller establishes communication connection with a gas table respectively through close range wireless transmission mode, wherein: the server is used for sending a first query request to each wall-mounted furnace controller corresponding to each gas meter to be queried after receiving the first query request sent by the terminal, wherein the first query request carries first quantity query information, temperature query information and query time; receiving a first query result fed back by each wall-mounted boiler controller, wherein the first query result comprises a usage value of each gas meter to be queried corresponding to the first usage query information, a temperature setting parameter value of each wall-mounted boiler controller corresponding to the query time, and indoor temperature information corresponding to the query time; preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to a terminal initiating the first query request; the wall-mounted boiler controller is used for acquiring a corresponding usage value from a gas meter corresponding to the wall-mounted boiler controller according to the query time and the first usage query information after receiving a first query request sent by the server; acquiring a temperature setting parameter value of the wall-hanging furnace controller corresponding to the query time according to the query time and the temperature query information; acquiring indoor temperature information corresponding to the query time; feeding back the acquired usage value of the gas meter, the temperature setting parameter value of the wall-mounted furnace controller and the indoor temperature information to a server; the terminal is used for sending a first query request to the server; and receiving the second query result sent by the server, setting parameters of the wall-mounted boiler controller corresponding to the terminal according to the second query result, and controlling the gas wall-mounted boiler, so that a user can set the parameters of the wall-mounted boiler controller used by the user through the terminal according to the gas use conditions of other users in a selection range and the temperature parameter setting conditions of the wall-mounted boiler controller, and a better energy-saving and fee-reducing effect is achieved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of a wall-mounted gas boiler control system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a wall-hanging stove controller according to a first embodiment of the present invention;

fig. 3 is a schematic structural diagram of a wall-mounted gas boiler control system according to a second embodiment of the present invention;

fig. 4 is a schematic structural diagram of a wall-mounted gas boiler control system according to a third embodiment of the present invention;

fig. 5 is a schematic structural view of a wall-mounted gas boiler control system according to a fourth embodiment of the present invention;

fig. 6 is a schematic flow chart illustrating a control method of a wall-mounted gas boiler according to a fifth embodiment of the present invention;

fig. 7 is a second schematic flow chart of a wall-mounted gas boiler control method according to a fifth embodiment of the present invention;

fig. 8 is a third schematic flow chart illustrating a control method of a wall-mounted gas boiler according to a fifth embodiment of the present invention;

fig. 9 is a fourth schematic flowchart of a control method of a wall-mounted gas boiler according to a fifth embodiment of the present invention;

fig. 10 is a fifth flowchart illustrating a control method of a wall-mounted gas boiler according to a fifth embodiment of the present invention;

fig. 11 is a schematic structural view of a wall-mounted gas boiler control device according to a sixth embodiment of the present invention;

fig. 12 is a schematic hardware configuration diagram of an electronic device for implementing a wall-mounted gas boiler control method according to an eighth embodiment of the present invention.

Detailed Description

The embodiment of the invention provides a wall-mounted gas boiler control system and method, which are used for solving the problem that in the prior art, a wall-mounted gas boiler can only be simply controlled by a wall-mounted gas boiler controller according to temperature data, so that the energy-saving and cost-reducing effects are poor.

The implementation principle of the wall-mounted gas boiler control system provided by the embodiment of the invention is as follows:

the invention provides a gas wall-mounted boiler control system, which comprises: server, terminal, at least one gas hanging stove and with the gas table of the same quantity of gas hanging stove to and for every gas hanging stove configuration a hanging stove controller, and each hanging stove controller establishes communication connection with a gas table respectively through close range wireless transmission mode, wherein: the server is used for sending a first query request to each wall-mounted furnace controller corresponding to each gas meter to be queried after receiving the first query request sent by the terminal, wherein the first query request carries first quantity query information, temperature query information and query time; receiving a first query result fed back by each wall-mounted boiler controller, wherein the first query result comprises a usage value of each gas meter to be queried corresponding to the first usage query information, a temperature setting parameter value of each wall-mounted boiler controller corresponding to the query time, and indoor temperature information corresponding to the query time; preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to a terminal initiating the first query request; the wall-mounted boiler controller is used for acquiring a corresponding usage value from a gas meter corresponding to the wall-mounted boiler controller according to the query time and the first usage query information after receiving a first query request sent by the server; acquiring a temperature setting parameter value of the wall-mounted furnace controller corresponding to the query time according to the query time and the temperature query information; acquiring indoor temperature information corresponding to the query time; feeding back the acquired usage value of the gas meter, the temperature setting parameter value of the wall-mounted furnace controller and the indoor temperature information to a server; the terminal is used for sending a first query request to the server; and receiving the second query result sent by the server, setting parameters of the wall-mounted boiler controller corresponding to the terminal according to the second query result, and controlling the gas wall-mounted boiler, so that a user can set the parameters of the wall-mounted boiler controller used by the user through the terminal according to the gas use conditions of other users in a selection range and the temperature parameter setting conditions of the wall-mounted boiler controller, and a better energy-saving and fee-reducing effect is achieved.

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings of the specification, it being understood that the preferred embodiments described herein are merely for illustrating and explaining the present invention, and are not intended to limit the present invention, and that the embodiments and features of the embodiments in the present invention may be combined with each other without conflict.

Example one

As shown in fig. 1, a schematic structural diagram of a gas wall-mounted boiler control system according to an embodiment of the present invention includes a server 1, a terminal 5, at least one gas wall-mounted boiler 3, gas meters 4 that are the same in number as the gas wall-mounted boilers 3, and a wall-mounted boiler controller 2 configured for each gas wall-mounted boiler 3, where the gas wall-mounted boiler 3 is connected to the wall-mounted boiler controller 2 through a wired connection, and each wall-mounted boiler controller 2 is in communication connection with one gas meter 4 through a short-distance wireless transmission method, where:

the server 1 is configured to send a first query request to each wall-mounted furnace controller 2 corresponding to each gas meter 4 to be queried after receiving the first query request sent by the terminal, where the first query request carries first quantity query information, temperature query information, and query time; receiving a first query result fed back by each wall-mounted furnace controller 2, wherein the first query result includes a usage value of each gas meter 4 to be queried corresponding to the first usage query information, a temperature setting parameter value of each wall-mounted furnace controller 2 corresponding to the query time, and indoor temperature information corresponding to the query time; preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to a terminal 5 initiating the first query request;

the wall-mounted boiler controller 2 is configured to obtain a corresponding usage value from the gas meter 4 corresponding to the wall-mounted boiler controller 2 according to the query time and the first usage query information after receiving a first query request sent by the server 1; acquiring a temperature setting parameter value of the wall-hanging furnace controller 2 corresponding to the query time according to the query time and the temperature query information; acquiring indoor temperature information corresponding to the query time; feeding back the acquired usage value of the gas meter 4, the temperature setting parameter value of the wall-mounted boiler controller 2 and the indoor temperature information to the server 1;

the terminal 5 is configured to send a first query request to the server 1; and receiving the second query result sent by the server 1, setting parameters of the wall-mounted boiler controller 2 corresponding to the terminal 5 according to the second query result, and controlling the gas wall-mounted boiler 3.

In specific implementation, the hanging stove controller 2 establishes communication connection with the server 1 in a General Packet Radio Service (GPRS) mode or a cellular narrowband internet of things (iot-based) mode.

Preferably, the short-distance Wireless transmission mode may be, but not limited to, a bluetooth mode, a WIFI (Wireless Fidelity) mode, and the like.

If adopt the bluetooth mode, then all be provided with bluetooth communication module in requiring gas table and the hanging stove controller, because gas table, hanging stove controller and hanging stove are the one-to-one, and gas table, hanging stove controller and hanging stove all set up in each user family. In order to prevent a gas meter of a certain user from randomly sending a Bluetooth communication connection request to wall-mounted furnace controllers of other users when the Bluetooth communication module is arranged, the invention arranges a Bluetooth slave module in the gas meter when the Bluetooth communication module is arranged in the gas meter, namely the gas meter has only a broadcasting function and does not have a function of actively initiating the connection request, thereby preventing the establishment of Bluetooth communication connection with the wall-mounted furnace controllers of other users. In addition, a Bluetooth host module is arranged in a wall-mounted furnace controller installed by a user house, and can actively initiate communication establishment with the gas meter, so that communication connection between the wall-mounted furnace controller and the gas meter can be actively established.

If a WIFI mode is adopted, a WIFI module is required to be arranged in the gas meter and the wall-mounted furnace controller, and the gas meter and the wall-mounted furnace controller are communicated in the WIFI mode, so that a gas meter query result can be fed back to a server or a user terminal in real time. However, the WIFI network between the gas meter and the wall-mounted furnace controller is a wireless router in a connected user home, and once the user modifies the wireless password, and the password in the gas meter and the wall-mounted furnace controller is not modified in time, the problem that the consumption value of the gas meter cannot be fed back to the user or a server in time can be caused, and the problem cannot occur by adopting a Bluetooth mode.

In order to better understand the present invention, the present invention is described by taking the short-range wireless transmission mode as a bluetooth mode as an example.

In specific implementation, before the gas wall-mounted boiler control system provided by the invention is implemented, a gas meter company installs a gas meter and a wall-mounted boiler controller for each user household in advance, namely, the gas meter is installed on a pipeline, then the wall-mounted boiler controller is installed indoors, the wall-mounted boiler controller is connected with a gas wall-mounted boiler in a wired manner, and a user can set temperature parameters through the wall-mounted boiler controller to control heating of the gas wall-mounted boiler. The wall-mounted furnace controller and the gas meter are communicated by using Bluetooth, namely the gas meter and the wall-mounted furnace controller are both provided with the Bluetooth communication module, so that the wall-mounted furnace controller is only required to be installed within a preset distance range of Bluetooth communication. Preferably, in order to ensure that the communication effect is optimal, the closer the bluetooth communication distance is, the better, so the wall-mounted boiler controller can be installed at a position closer to the gas meter.

In addition, the low-power-consumption Bluetooth slave module is embedded in the gas meter, and broadcasting can be performed by taking the second level as a unit. Because the actual power consumption of the low-power consumption Bluetooth communication module is very small, only 4 dry batteries are needed for supplying power, such as a No. 5 battery or a No. 7 battery sold on the market.

In addition, as shown in fig. 2, which is a schematic structural diagram of a wall-mounted furnace controller according to an embodiment of the present invention, a wall-mounted furnace controller 2 according to the present invention includes a main control module 20, the main control module 20 obtains a usage value corresponding to first quantity query information from a gas meter 4 connected thereto according to the query time and the first quantity query information, and obtains a temperature setting parameter value of the wall-mounted furnace controller 2 corresponding to the query time and obtains indoor temperature information corresponding to the query time according to the query time and feeds the indoor temperature information back to the server 1, in addition, the wall-mounted furnace controller 2 further has a low power consumption bluetooth host module 21, and as shown in fig. 2, the main control module 20 can send a scan instruction to the bluetooth host module 21, so that the bluetooth host module 21 can actively scan a bluetooth slave module of the gas meter according to system requirements, thereby actively establishing communication connection with the gas meter 4. The bluetooth host module 21 may also complete functions such as disconnecting the communication connection with the gas meter 4.

In specific implementation, the bluetooth slave module in the gas meter 4 does not have the function of actively establishing communication connection, so that the wall-mounted furnace controller 2 is required to actively establish connection with the gas meter 4; when the wall-mounted furnace controller 2 establishes communication connection with the gas meter 4, in order to prevent the wall-mounted furnace controller 2 from being connected to the gas meters 4 of other users, an installer can manually input the MAC address of the gas meter 4 of the user into the wall-mounted furnace controller 2 in advance, so that when the wall-mounted furnace controller 2 actively establishes communication connection with the gas meter 4, the wall-mounted furnace controller can be connected to the gas meter 4 corresponding to the MAC address according to the MAC address of the gas meter 4 stored in the wall-mounted furnace controller 2, thereby preventing the wall-mounted furnace controller 2 from being connected to the gas meters 4 of other users, and effectively preventing the quantity value of the gas meters 4 of other users from being acquired.

In specific implementation, after the wall-mounted furnace controller 2 and the gas meter 4 are in communication connection, an installer can record corresponding relations among user basic information, the gas meter, the wall-mounted furnace controller and the gas wall-mounted furnace, the user basic information can be but is not limited to information including user names, contact ways, identification numbers, home addresses, house areas and the like, the home addresses are detailed home addresses, and can be accurate to house numbers, for example, xx units xx in xx units xx in xx city xx counties xx in xx provinces, and the reference table 1 shows that:

TABLE 1

The server 1 stores the corresponding relation between the users, the gas meters, the wall-mounted furnace controllers and the wall-mounted gas furnaces in the table 1, and after receiving a first query request sent by a terminal, the server 1 can send the first query request to each wall-mounted furnace controller 2 corresponding to each gas meter 4 to be queried according to the corresponding relation, wherein each gas user to be queried can be a user in a preset geographical range, the preset geographical range can be a geographical range selected by the user, such as a certain city, a certain area or a certain cell, for example, the selected geographical range is a beijing sunward area, and after receiving the first query request sent by the user through the terminal 5, the server 1 sends the first query request to each wall-mounted furnace controller 2 corresponding to each gas meter 4 in the beijing sunward area. The first query request carries first quantity query information, temperature query information and query time, wherein the first quantity query information may be, but is not limited to, historical quantity, quantity and remaining quantity of a preset time period, and the quantity of the preset time period may include monthly quantity, weekly quantity, daily quantity and the like.

Preferably, the first quantity query information has a certain association relationship with the query time, and if the first quantity query information is a historical quantity, the query time is a query time point, for example, a historical quantity obtained by querying 9 points and 10 time minutes is queried, that is, the historical quantity corresponds to the query time point; if the first quantity query information is the quantity of the preset time period, the query time is the query time period, and the quantity information corresponding to the query time period needs to be queried, for example, the quantity information of 7 months is queried, or the quantity information of 7.1-7.7 is queried, that is, the quantity information corresponds to the query time period when the quantity of the preset time period is queried.

In specific implementation, when it is determined that the query time is a query time period, after receiving the first query request sent by the server 1, each wall-mounted gas meter controller 2 acquires, according to the query time period and the first quantity query information, a first quantity value of the gas meter to be queried, which corresponds to the first quantity query information in the query time period, from the gas meter to be queried connected to the wall-mounted gas meter controller; acquiring temperature setting parameter values of the wall-mounted furnace controller corresponding to each preset time point in the query time period; acquiring indoor temperature information corresponding to the query time period, wherein the indoor temperature information comprises an indoor average temperature in the query time period; and feeding back the first quantity value, the temperature setting parameter value and the indoor average temperature obtained by each wall-mounted furnace controller to the server as a first query result.

Further, the server 1 receives a first quantity value, corresponding to the first quantity query information, of each gas meter to be queried, fed back by each wall-mounted furnace controller 2 corresponding to each gas meter to be queried 4 in the query time period, and a temperature setting parameter value, corresponding to each preset time point in the query time period, of each wall-mounted furnace controller 2; calculating the unit area gas usage amount of the gas users of the gas meters 4 to be inquired in the inquiry time period according to the stored house area information of the gas users corresponding to the gas meters 4 to be inquired and the first quantity values fed back by the wall-mounted furnace controllers 2; ranking the indoor average temperature and the unit area gas consumption in the query time period, which are contained in the received indoor temperature information corresponding to the query time fed back by each wall-hanging furnace controller 2, respectively to obtain a ranking list; and sending the ranking list and the temperature setting parameter values of the wall-mounted furnace controllers 2 fed back by the wall-mounted furnace controllers 2 connected with the gas meters 4 to be inquired to the terminal 5 as the second inquiry result.

Further, the terminal 5 receives a second query result fed back by the server, sets parameters of the wall-hanging stove controller corresponding to the terminal according to the temperature setting parameter values of the wall-hanging stove controllers corresponding to the preset time points in the query time period in the ranking list in the second query result, and controls the gas wall-hanging stove, namely, controls the gas wall-hanging stove 2 corresponding to the terminal.

Preferably, the server 1 is further configured to compare the ranking of the indoor average temperature fed back by each wall-hanging stove controller 2 in the query time period in the ranking list with the ranking of the unit area gas usage amount; for each wall-hanging stove controller 2, if the absolute value of the difference between the indoor average temperature ranking and the unit area gas usage ranking is greater than a preset threshold, it is determined that the heating system in which the wall-hanging stove controller 2 is located is abnormal.

Specifically, assuming that a user sets parameters of a wall-mounted boiler controller 2 corresponding to the user through a terminal 5 to control a gas wall-mounted boiler 3 used by the user, the user may send a first query request to a server through the terminal 5, and the server receives the first query request and then sends the first query request to wall-mounted boiler controllers corresponding to gas meters to be queried, where each gas user to be queried may be a user within a preset geographic range, and the preset geographic range is the same floor of a cell where the user is located, and the number of the gas users on the floor including the user is 10, which is represented by a to J, where, assuming that a is the user sending the first query request, a query time period carried in the first query request is 0 at a certain day, such as 8 months and 10 days: 00 to 24:00, and the preset time points are respectively 0: 00. 8: 00. 12: 00. 18:00 and 24:00, the wall-mounted furnace controllers 2 of the users a to J respectively acquire the gas meters of the users installed in the homes of the users respectively in the time of 8 months, 10 days 0:00 to 24:00 and feeding back the gas consumption values to the server 1, wherein the server 1 calculates the respective unit area gas consumption values of the users a to J in the query time period according to the gas consumption values fed back by the users and the stored house area information of the users a to J, and the specific unit area gas consumption values are shown in table 2:

the respective wall-hanging stove controllers 2 of the users A to J acquire the data of the users in the query time period of 8 months, 10 days and 0:00 to 24:00, and feeding back temperature setting parameter values of the wall-hanging stove controllers 2 corresponding to the preset time points in the query time period to the server 1, specifically, each user is at 0/8/10/day: 00 to 24:00 indoor average temperature as shown in table 3, at 8 months, 10 days 0:00 to 24: table 4 shows the temperature setting parameter values of the wall-hanging stove controllers 2 of the users corresponding to the preset time points in 00.

TABLE 3

TABLE 4

The server 1 receives the indoor average temperature of each user in the query time period and the temperature setting parameter value of each wall-mounted furnace controller 2 of each user corresponding to each preset time point in the query time period, which are fed back by each wall-mounted furnace controller 2, and ranks the calculated unit area gas usage amount of each user in the query time period and the indoor average temperature of each user, respectively, to obtain a ranking list, as shown in table 5:

TABLE 5

As can be seen from table 5, the absolute value of the difference between the unit area gas usage ranking and the indoor average temperature ranking of the user a in the query time period is 1, and the absolute values of the differences between the unit area gas usage ranking and the indoor average temperature ranking of the users B to J are respectively: 1. 0, 1, 5, and for each wall-mounted furnace controller 2, if the absolute value of the difference between the indoor average temperature ranking and the unit area gas usage ranking is greater than the preset threshold, it is determined that the heating system in which the wall-mounted furnace controller 2 is located is abnormal, and if the preset threshold is 3, it can be known that the absolute value of the difference between the unit area gas usage ranking and the indoor average temperature ranking of the user J is greater than the threshold 3, it can be determined that the heating system in which the wall-mounted furnace controller 2 is located is abnormal, and the server 1 can send abnormal information to the terminal 5 used by the user J, or can send abnormal information to the business hall terminal 5 to inform the user or the business hall, so that the user or business hall personnel can check the heating system of the user, and further eliminate the fault.

Further, the server 1 transmits the ranking list and the temperature setting parameter values of the wall-hanging stove controllers 2 of the users to the terminal 5 of the user a, and the user a controls the gas wall-hanging stove 2 corresponding to the user a through the terminal 5.

Specifically, if a user with an abnormal heating system is determined according to the ranking list, the temperature setting parameter value of the wall-mounted furnace controller 2 of the user is removed, and the temperature setting parameter value of the wall-mounted furnace controller 2 without the abnormal temperature is reserved; and controlling the gas wall-hanging stove 2 corresponding to the terminal 5 according to the reserved temperature setting parameter values of the wall-hanging stove controllers 2. Specifically, the user a can set the parameters of the wall-hanging stove controller corresponding to the temperature setting parameter value according to the temperature setting parameter value of each wall-hanging stove controller 2 except the user a through the terminal 5, and then control the gas wall-hanging stove of the user a. As can be seen from the above, when the heating system of the user J fails, the temperature setting parameter value of the wall-hanging stove controller 2 of the user J is removed, and the user a sets the wall-hanging stove controller 2 of the user J through the terminal 5 of the user a according to the temperature setting parameter values of the wall-hanging stove controllers 2 of the users B to I at each time point in the query time period in table 4. For example, the terminal of the user a may set the average value of the temperature setting parameter values at each time point of the wall-hanging furnace controllers 2 of the users B to I to the temperature parameter value at each time point of the wall-hanging furnace controller 2 corresponding to the terminal of the user a, specifically, as can be seen from table 4, the temperature parameter values at each time point of the users B to J are: the average value of the temperature setting parameter values of the wall-hanging furnace controllers 2 of 00 is: (24 +21+22 +27+25+ 19)/8 =22.125 ℃, and similarly, the user B-J is at the time point 8: 00. 12: 00. 18:00 and 24:00 the average value of the temperature setting parameter values of the wall-hanging furnace controllers 2 is as follows: 22 ℃, 21.375 ℃, 21 ℃ and 20.75 ℃, then user a, through his terminal 5, puts his corresponding fireplace controller 2 in time point 0: 00. 8: 00. 12: 00. 18:00 and 24: the temperature parameter values of 00 are set to 22.125 ℃, 22 ℃, 21.375 ℃, 21 ℃ and 20.75 ℃ respectively, thereby completing the control of the gas wall-hanging furnace 2 having the correspondence relationship with the terminal.

Preferably, the terminal 5 of the user a can also set conditions by itself, the server 1 feeds back a temperature setting parameter value of the wall-hanging stove controller 2 meeting the conditions to the terminal 5 of the user a according to the set conditions, for example, the user a sets the conditions that the temperature in the room is not lower than 19 ℃ at any time in the query time period, and selects a comfort mode, the server 1 sends the temperature setting parameter of the wall-hanging stove controller 2 with the highest ranking of the gas usage amount per unit area of the user meeting the conditions to the terminal 5, and the user a sets the wall-hanging stove controller corresponding to the user a according to the received temperature setting parameter of the wall-hanging stove controller 2 through the terminal 5, so as to control the gas wall-hanging stove with the corresponding relationship to the terminal. Specifically, as can be seen from table 5, among the five users, the user G with the highest ranking of the unit area gas usage is the temperature setting parameter of the wall-hanging stove controller 2 meeting the above condition, the server 1 sends the temperature setting parameter of the wall-hanging stove controller 2 of the user G at each preset time point to the terminal 5 of the user a, and the terminal 5 sets the temperature of the corresponding wall-hanging stove controller at the preset time point to the above value. Preferably, the user a may also select the energy saving mode, and then the server 1 sends the temperature setting parameter of the wall-hanging stove controller 2 with the lowest ranking of the gas usage amount per unit area of the user meeting the above conditions to the terminal 5, and the user a sets the wall-hanging stove controller 2 corresponding to the user a through the terminal 5 according to the received temperature setting parameter of the wall-hanging stove controller 2, so as to control the gas wall-hanging stove with the corresponding relationship in the terminal. Specifically, since the lowest ranking of the gas usage amount per unit area among the five users is the user D, the server 1 sends the temperature setting parameters of the wall-hanging stove controller 2 of the user D at each preset time point to the terminal 5 of the user a, and the terminal 5 sets the temperature of the corresponding wall-hanging stove controller at the preset time point to the values. Preferably, the user can also select a comprehensive mode, that is, a comfortable and energy-saving balanced mode, the server 1 sends the temperature setting parameters of the wall-hanging stove controllers 2 between the lowest ranking and the highest ranking of the gas usage amount per unit area of the user, which meet the above conditions, to the terminal 5, and the user a sets the wall-hanging stove controller 2 corresponding to the user a according to the received temperature setting parameters of the wall-hanging stove controller 2, so as to control the gas wall-hanging stove with the corresponding relationship at the terminal. Specifically, since the users B and E are located between the lowest ranking and the highest ranking of the gas usage amount per unit area among the five users, the server 1 sends the temperature setting parameters of the wall-hanging stove controllers 2 of the users B and E at each preset time point to the terminal 5 of the user a, the terminal 5 may set the temperature setting of the corresponding wall-hanging stove controller at the preset time point to any one of the temperature setting parameter values of the wall-hanging stove controllers 2 of the users B and E, or take the average value of the temperature setting parameter values of the wall-hanging stove controllers 2 of the users B and E at each preset time point, which is not limited herein.

In specific implementation, the terminal of the user a may also select the temperature setting parameter of each wall-hanging stove controller 2 sent by the server 1 according to actual needs to set the temperature parameter of the wall-hanging stove controller 2 of the user a, which is not limited herein.

Preferably, in order to ensure that the wall-mounted furnace controller 2 can maintain long-term online connection with the server 1, the wall-mounted furnace controller 2 further includes a GPRS communication module 22, and the main control module 20 in the wall-mounted furnace controller 2 can send the usage information of the gas meter 4 acquired by the bluetooth host module 21 to the server 1 through the GRPS communication module 22. In addition, the main control module 20 can also utilize the GPRS communication module 21 to regularly send a heartbeat packet to the server 1, where the heartbeat packet is used to indicate the state of the wall-hanging stove controller 2, that is, to inform the server 1 that the wall-hanging stove controller 2 is still online, so as to avoid that the server 1 is disconnected from the wall-hanging stove controller 2 due to long-time non-execution of data packet sending or receiving. For example, the wall-hanging stove controller 2 may agree with the server 1 in advance on the timing of sending the heartbeat packet, such as sending the heartbeat packet every 3 seconds, which is a very small packet, or an empty packet including only a header. When receiving the heartbeat packet, the server 1 does not perform any processing on the heartbeat packet, and only needs to feed back a response message for confirming the reception of the heartbeat packet to the wall-hanging furnace controller 2. Of course, if the wall-hanging stove controller 2 is transmitting data to the server 1 when the 3 second time arrives, the heartbeat packet may be transmitted or may not be transmitted at this time. The server 1 may periodically poll the wall-mounted furnace controller 2 to transmit the heartbeat packet, thereby maintaining the connection with the wall-mounted furnace controller 2.

In addition, when the server 1 does not receive the heartbeat packet sent by the wall-mounted furnace controller 2 within the preset time, it is determined that the wall-mounted furnace controller 2 may be disconnected, the server 1 may send the heartbeat packet to the wall-mounted furnace controller 2 or wait for the next heartbeat packet to be received in the next period, if the feedback result of the wall-mounted furnace controller 2 is not received, it is determined that the wall-mounted furnace controller 2 is disconnected, and then disconnection processing is performed, if the disconnection is performed, data of the gas meter 4 corresponding to the wall-mounted furnace controller 2 is cleaned, or connection between the disconnection and the wall-mounted furnace controller 2 is reestablished, and the like.

Preferably, the wall-hanging stove controller 2 is provided with a plurality of power interfaces 23, and the power interfaces 23 include two-hole interfaces and/or three-hole interfaces, which can be specifically referred to as shown in fig. 2.

During specific implementation, can be with hanging stove controller 2 embedded to the wall in, can realize hanging stove controller 2 normal circular telegram on receiving hanging stove controller 2 with live wire and zero line in the family wall lead wire, power source on this basis hanging stove controller 2 also can normally supply power, preferably, hanging stove controller 2 is 220V mains operated, and it is convenient to obtain the power, and the user can insert domestic appliance for the domestic appliance power supply on the power source that hanging stove controller 2 provided, power source can be two hole interfaces or three hole interfaces, can also set up a two holes and three hole combination interfaces even, and it is shown with reference to fig. 2.

Further, the wall-mounted boiler controller 2 is further provided with a liquid crystal display screen 24 and a user operation interface 25, where the liquid crystal display screen 24 is used for displaying the usage information of the gas meter 4, and as shown in fig. 2, reference may be made.

During specific implementation, the wall-mounted furnace controller 2 can display the usage information of the gas meter 4 on the liquid crystal display screen 24, wherein the usage information can be historical usage, usage in the same month, usage in the same day, surplus and the like. Temperature information, temperature setting parameters, and the like may also be displayed on the liquid crystal display screen 24.

In addition, the user operation interface 25 may be composed of keys, for example, an installer may input the MAC address of the gas meter 4 into the wall-mounted boiler controller 2 through the keys, or a user may query the usage information, the temperature information, and the temperature setting parameter information through the keys.

In specific implementation, a user presses a key once, which is equivalent to sending a switching instruction to the main control module 20, and the main control module 20 displays corresponding information on the liquid crystal display 24 when receiving the switching instruction.

Preferably, the server 1 may further obtain current outdoor temperature information and predicted outdoor temperature information from the weather station, if the outdoor temperature is low at present or for a period of time in the future and the current temperature parameter setting information of the user may not be optimal, such as the current temperature of the user is set to 25 ℃, and the outdoor temperature is-10 ℃, if the room temperature needs to be heated to the current setting temperature and maintain the temperature, 2 gas is consumed per hour, if the user sets the temperature to 22 ℃, the consumed gas is reduced to 1.5 gas consumed per hour, and the server 1 pushes the calculation information to the user for the user to set the temperature parameter of the wall-hanging oven controller as a reference.

Preferably, the terminal in the embodiment of the present invention may also be a business hall terminal, and when the terminal initiating the query request is the business hall terminal, the gas operation company may monitor the gas usage situation of the gas user according to the query result returned by the server, for example, whether the gas user has a gas stealing behavior, if the wall-hanging stove of a certain gas user works normally and the gas usage amount is abnormal, the user may have a gas stealing behavior; the gas consumption is large in winter, the gas application units are in short supply, the business hall terminal can obtain the gas consumption and the residual amount of the user in real time, and the gas application company can timely and reasonably allocate gas resources according to the information to ensure the gas source supply.

The embodiment of the invention provides a wall-mounted gas boiler control system, which comprises: server, terminal, at least one gas hanging stove and with the gas table of the same quantity of gas hanging stove to and for every gas hanging stove configuration a hanging stove controller, and every hanging stove controller establishes communication connection with a gas table respectively through close range wireless transmission mode, wherein: the server is used for sending a first query request to each wall-mounted furnace controller corresponding to each gas meter to be queried after receiving the first query request sent by the terminal, wherein the first query request carries first quantity query information, temperature query information and query time; receiving a first query result fed back by each wall-mounted boiler controller, wherein the first query result comprises a usage value of each gas meter to be queried corresponding to the first usage query information, a temperature setting parameter value of each wall-mounted boiler controller corresponding to the query time, and indoor temperature information corresponding to the query time; preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to a terminal initiating the first query request; the wall-mounted boiler controller is used for acquiring a corresponding usage value from a gas meter corresponding to the wall-mounted boiler controller according to the query time and the first usage query information after receiving a first query request sent by the server; acquiring a temperature setting parameter value of the wall-hanging furnace controller corresponding to the query time according to the query time and the temperature query information; acquiring indoor temperature information corresponding to the query time; feeding back the acquired gas meter usage value, the temperature setting parameter value of the wall-mounted furnace controller and the indoor temperature information to a server; the terminal is used for sending a first query request to the server; and receiving the second query result sent by the server, setting parameters of a wall-mounted furnace controller corresponding to the terminal according to the second query result, and controlling the wall-mounted gas furnace, so that a user can set the parameters of the wall-mounted furnace controller used by the user according to the gas use condition of other users in a selection range and the temperature parameter setting condition of the wall-mounted furnace controller through the terminal, better energy-saving and cost-reducing effects are achieved, a gas operation company can monitor the gas use condition of the gas user in real time, monitor whether the user has gas stealing behavior, and can allocate gas resources reasonably in time by acquiring the gas use amount and the residual amount of the user in real time, guarantee gas source supply and provide supply efficiency.

Example two

As shown in fig. 3, a schematic structural diagram of a gas wall-mounted boiler control system according to a second embodiment of the present invention includes a server, at least one gas wall-mounted boiler, and gas meters in the same number as the gas wall-mounted boilers, and a wall-mounted boiler controller is configured for each gas wall-mounted boiler, and each wall-mounted boiler controller is in communication connection with one gas meter through a short-distance wireless transmission method, where:

the server 1 is configured to send a second query request to the wall-mounted furnace controller 2 of the gas meter 4 to be queried, where the second query request carries second quantity query information and query time; receiving a third query result fed back by the wall-mounted furnace controller 2, and storing the query time and the third query result in a locally recorded usage report of the gas meter 3;

the wall-mounted boiler controller 2 is configured to obtain a corresponding third query result from the gas meter 4 according to the query time and the second amount query information after receiving a second query request sent by the server 1; and feeding back an obtained third query result to the server 1, wherein the third query result carries a usage value corresponding to the second usage query information.

When the wall-mounted boiler is specifically implemented, the wall-mounted boiler controller is in communication connection with the server in a General Packet Radio Service (GPRS) mode or a cellular narrowband internet of things-based mode.

Preferably, the short-range Wireless transmission mode may be, but not limited to, a bluetooth mode, a WIFI (Wireless Fidelity ) mode, and the like.

If adopt the bluetooth mode, then all be provided with bluetooth communication module in requiring gas table and the hanging stove controller, because gas table and hanging stove controller are the one-to-one, and gas table and hanging stove controller all set up in each user family. In order to prevent a gas meter of a certain user from randomly sending a Bluetooth communication connection request to controllers of other users when the Bluetooth communication module is arranged, the invention arranges a Bluetooth slave module in the gas meter when the Bluetooth communication module is arranged in the gas meter, namely the gas meter has only a broadcasting function and does not have a function of actively initiating the connection request, thereby preventing the Bluetooth communication connection from being established with the controllers of other users. In addition, a Bluetooth host module is arranged in a wall-mounted furnace controller installed by a user house, and can actively initiate communication establishment with the gas meter, so that communication connection between the wall-mounted furnace controller and the gas meter can be actively established.

If a WIFI mode is adopted, a WIFI module is required to be arranged in the gas meter and the wall-mounted furnace controller, and the gas meter and the wall-mounted furnace controller are communicated in the WIFI mode, so that a gas meter query result can be fed back to a server or a user terminal in real time. However, the WIFI network between the gas meter and the wall-mounted furnace controller is a wireless router in a connected user home, the user can change the wireless password, once the user changes the wireless password, the password in the gas meter and the wall-mounted furnace controller is not timely changed, the problem that the consumption value of the gas meter cannot be timely fed back to the user or a server can be caused, and the problem cannot occur in a Bluetooth mode.

In order to better understand the present invention, the present invention is described by taking the short-range wireless transmission method as an example of a bluetooth method.

In specific implementation, before the gas wall-mounted boiler control system provided by the invention is implemented, a gas meter company installs a gas meter and a wall-mounted boiler controller for each user household in advance, namely, the gas meter is installed on a pipeline, then the wall-mounted boiler controller is installed indoors, and the wall-mounted boiler controller is connected with the gas wall-mounted boiler in a wired manner. Because the wall-mounted furnace controller and the gas meter provided by the invention communicate by using Bluetooth, namely the gas meter and the wall-mounted furnace controller are both provided with the Bluetooth communication modules, the wall-mounted furnace controller can be installed only within a preset distance range of Bluetooth communication. Preferably, in order to ensure that the communication effect is optimal, the closer the bluetooth communication distance is, the better, so the wall-mounted boiler controller can be installed at a position closer to the gas meter.

In addition, a low-power-consumption Bluetooth slave module is embedded in the gas meter, and broadcasting can be performed by taking the second level as a unit. Because the actual power consumption of the low-power consumption Bluetooth communication module is very small, only 4 dry batteries are needed for supplying power, such as a No. 5 battery or a No. 7 battery sold in the market.

In addition, as shown in fig. 2, the wall-mounted boiler controller 2 provided by the present invention includes a main control module 20, the main control module 20 obtains a usage value corresponding to the second quantity query information from the gas meter 4 according to the query time or time and the second quantity query information, and feeds the usage value back to the server 1, and in addition, the wall-mounted boiler controller 2 further includes a low power consumption bluetooth host module 21, and referring to fig. 2, the main control module 20 can send a scanning instruction to the bluetooth host module 21, so that the bluetooth host module 21 can actively scan the bluetooth slave module of the gas meter 4 according to the system requirements, thereby actively establishing communication connection with the gas meter 4. Preferably, the bluetooth host module 21 may further complete functions of disconnecting the communication connection between the first query result of the gas meter 4 and the gas meter 4, and the like.

In specific implementation, the bluetooth slave module in the gas meter 4 does not have the function of actively establishing communication connection, so that the wall-mounted furnace controller 2 is required to actively establish connection with the gas meter 4; when the wall-mounted furnace controller 2 establishes communication connection with the gas meter 4, in order to prevent the wall-mounted furnace controller 2 from being connected to the gas meters 4 of other users, an installer may manually input the MAC address of the gas meter 4 of the user into the wall-mounted furnace controller 2 in advance, so that when the wall-mounted furnace controller 2 actively establishes communication connection with the gas meter 4, the wall-mounted furnace controller may be connected to the gas meter 4 corresponding to the MAC address according to the MAC address of the gas meter 4 stored in the wall-mounted furnace controller 2, thereby preventing the wall-mounted furnace controller 2 from being connected to the gas meters 4 of other users, and effectively preventing acquisition of usage values of the gas meters 4 of other users.

In specific implementation, after the wall-mounted furnace controller 2 and the gas meter 4 are in communication connection, an installer can record corresponding relations among user basic information, the gas meter, the wall-mounted furnace controller and the gas wall-mounted furnace, the user basic information can be but is not limited to information including user names, contact ways, identification numbers, home addresses and the like, the home addresses are home detailed addresses and can be accurate to house numbers, for example, xx units xx rooms in xx district xx of xx city xx prefecture in xx province, and the reference table 6 shows that:

TABLE 6

The server 1 stores the corresponding relations of the users, the gas meters, the wall-mounted boiler controllers and the wall-mounted gas boilers in the table 1, then the server 1 can send second query requests to controllers corresponding to the gas meters 4 for measuring the gas usage amount of the wall-mounted gas boilers of the users according to the corresponding relations, for the gas meters 4 of any user, the server 1 can send the second query requests to the wall-mounted boiler controllers 2 of the gas meters 4 at regular time, and second usage query information carried in the second query requests can be but is not limited to historical usage amount, usage amount and surplus of a preset time period, wherein the usage amount of the preset time period can include month usage amount, week usage amount, daily usage amount and the like.

Preferably, the second quantity query information has a certain association relationship with the query time, and if the second quantity query information is a historical quantity, the query time is a query time point, for example, a historical quantity of 9-point 10-time-sharing is queried, that is, the historical quantity corresponds to the query time point; if the second usage query information is usage of a preset time period, querying the query time period required to be queried, for example, querying the usage information of 7 months, or querying the usage information of 7.1 to 7.7, that is, for querying the usage of the preset time period, corresponding to the query time period.

In specific implementation, the query time includes a query time point and a query time period, when the server 1 queries the second quantity query information of the gas meter 4 to be queried, the query time may be selected first, and if the selected query time is the query time point, the second quantity query information is historical quantity or residual quantity, and the like; if the server 1 selects the query time period, the second amount query information may be a weekly amount, a monthly amount, a daily amount, or the like.

In addition, after receiving a second query request, the wall-mounted boiler controller 2 acquires a third query result corresponding to the second quantity query information from the data stored in the gas meter 4 according to the second quantity query information, and feeds the third query result back to the server 1, wherein the third query result carries a usage value corresponding to the second quantity query information. The query is actively initiated by the server 1, and the purpose of the query is to obtain a usage report of the user so as to directly feed back the usage report to the user after receiving a query request of the user, thereby realizing a function of actively acquiring the usage information of the gas meter 4 by the server 1. Therefore, after receiving the second query result, the server 1 stores the usage value corresponding to the second usage query information in the third query result into the locally recorded usage report of the gas meter 4. That is to say, the server 1 maintains a usage report for each gas meter managed by the server, the usage value of the gas meter 4 corresponding to the second usage query information is recorded in the report, and if the second usage query information is historical usage, the historical usage value is stored in the report; if the second quantity query information is a residual quantity, the report may further store the residual quantity value, and the format of the report may refer to table 7:

TABLE 7

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Specifically, if the query time is a query time period, the second usage query information may be daily usage, weekly usage, monthly usage, and the like, and accordingly, a usage report may also be obtained, and a specific format may be shown in table 7, which is not described in detail herein.

Specifically, the gas meter 4 is provided with a memory, and the memory can store the usage information of the gas meter 4 in different areas, such as a first area for storing the remaining amount, a second area for storing the historical usage information, a third area for storing the current usage information, and the like. When the user uses gas once, the gas meter can count the gas consumption of the user, and then the information recorded in the three subareas is updated. Based on this, the wall-hanging stove controller 2 can obtain the corresponding usage information from the corresponding partition, and then feed the usage information carried in the third query result back to the server 1. Therefore, the server 1 can actively acquire the consumption information of the gas meter, the real-time performance of inquiring the consumption information of the gas meter is improved, the condition that the consumption information is reported by the gas meter of the internet of things according to the preset time in the prior art is effectively avoided, and the problem that the reporting frequency of the gas meter of the internet of things is low in the prior art is solved; in addition, the gas meter related to the invention does not need to be designed with more functions, only has the functions of counting the usage information of the gas meter and storing the usage information in the memory of the gas meter, and simultaneously has the function of establishing communication connection with the controller, and the controller only needs to acquire the usage information in a Bluetooth mode without more complicated design, so that the production cost of the gas meter can be effectively reduced.

Preferably, in order to ensure that the wall-mounted furnace controller 2 can maintain long-term online connection with the server 1, the wall-mounted furnace controller 2 further includes a GPRS communication module 22, and the main control module 20 in the wall-mounted furnace controller 2 can send the usage information of the gas meter 4 acquired by the bluetooth host module 21 to the server 1 through the GRPS communication module 22. In addition, the main control module 20 can also utilize the GPRS communication module 21 to periodically send a heartbeat packet to the server 1, where the heartbeat packet is used to indicate the state of the wall-hanging stove controller 2, that is, inform the server 1 that the wall-hanging stove controller 2 is still online, so as to avoid that the server 1 is disconnected from the wall-hanging stove controller 2 due to long-time non-execution of data packet sending or receiving. For example, the wall-hanging stove controller 2 may agree with the server 1 in advance about the time to send the heartbeat packet, such as sending the heartbeat packet every 3 seconds, which is a very small packet, or an empty packet containing only a header. When receiving the heartbeat packet, the server 1 does not perform any processing on the heartbeat packet, and only needs to feed back a response message for confirming the reception of the heartbeat packet to the wall-hanging furnace controller 2. Of course, if the wall-hanging stove controller 2 is transmitting data to the server 1 when the 3 second time arrives, the heartbeat packet may be transmitted or may not be transmitted at this time. In addition, the server 1 may periodically poll the wall-hanging stove controller 2 to send a heartbeat packet, thereby maintaining the connection with the wall-hanging stove controller 2.

In addition, when the server 1 does not receive the heartbeat packet sent by the wall-mounted furnace controller 2 within the preset time, it is determined that the wall-mounted furnace controller 2 may be disconnected, the server 1 may send the heartbeat packet to the wall-mounted furnace controller 2 or wait for the next heartbeat packet to be received in the next period, if the feedback result of the wall-mounted furnace controller 2 is not received, it is determined that the wall-mounted furnace controller 2 is disconnected, and then disconnection processing is performed, if the disconnection is performed, data of the gas meter 4 corresponding to the wall-mounted furnace controller 2 is cleaned, or connection between the disconnection and the wall-mounted furnace controller 2 is reestablished, and the like.

Preferably, the wall-hanging stove controller 2 is provided with a plurality of power interfaces 23, and the power interfaces 23 include two-hole interfaces and/or three-hole interfaces, which can be specifically referred to as shown in fig. 2.

During specific implementation, can be with hanging stove controller 2 embedded to the wall in, can realize hanging stove controller 2 normal circular telegram on receiving hanging stove controller 2 with live wire and zero line in the family wall lead wire, power source on this basis hanging stove controller 2 also can normally supply power, preferably, hanging stove controller 2 is 220V mains operated, and it is convenient to obtain the power, and the user can insert domestic appliance for the domestic appliance power supply on the power source that hanging stove controller 2 provided, power source can be two hole interfaces or three hole interfaces, can also set up a two holes and three hole combination interfaces even, and it is shown with reference to fig. 2.

Further, the wall-mounted boiler controller 2 is further provided with a liquid crystal display screen 24 and a user operation interface 25, where the liquid crystal display screen 24 is used for displaying the usage information of the gas meter 4, and as shown in fig. 2, reference may be made.

When the gas meter is specifically implemented, the wall-mounted furnace controller 2 can display the usage information of the gas meter 4 on the liquid crystal display screen 24, and the usage information can be historical usage, current-month usage, current usage, surplus and the like.

In addition, the user operation interface 25 may be composed of keys, for example, an installer may input the MAC address of the gas meter 4 into the wall-mounted furnace controller 2 through the keys, or a user may query the usage information through the keys, for example, the liquid crystal display 24 displays the remaining amount of the gas meter 4 currently, the user may drive the liquid crystal display 24 to display the usage information of the month by pressing the key once, and drive the liquid crystal display to display the usage information of the day and the like by pressing the key once again.

In specific implementation, the user presses a key once, which is equivalent to sending a switching instruction to the main control module 20, and the main control module 20 displays corresponding information on the liquid crystal display 24 when receiving the switching instruction.

The controller provided by the invention not only can acquire the consumption information of the gas meter 4 in real time, but also can supply power to household appliances, thereby greatly improving the utilization rate of the wall-mounted boiler controller.

Preferably, the system further includes a terminal 5, and the system diagram is the same as fig. 1, where:

the terminal 5 is configured to send a second quantity query request to the server 1, where the second quantity query request carries identification information of the gas meter 4 to be queried, third quantity query information of the gas meter 4, and a query time period; receiving a fourth query result fed back by the server 1;

the server 1 is further configured to obtain a usage report of the gas meter 4 corresponding to the stored identification information of the gas meter 4 after receiving a second usage query request sent by the terminal 5, and determine whether a query result of the third usage query information meeting the query time period is stored in the usage report; if yes, feeding back the query result of the third quantity query information to the terminal 5; if the second quantity query request does not exist, forwarding the second quantity query request to a wall-mounted furnace controller 2 corresponding to the gas meter 4; and receiving a fourth query result sent by the wall-hanging furnace controller 2, and forwarding the fourth query result to the terminal 5.

Preferably, the server 1 may further store the fourth query result in the usage report of the gas meter 4.

The wall-mounted boiler controller 2 is further configured to obtain a corresponding fourth query result from the gas meter 4 corresponding to the wall-mounted boiler controller 2 according to the query time period and the third quantity query information after receiving the second quantity query request; and feeding back the fourth query result to the server 1, where the fourth query result carries a usage value corresponding to the third usage query information.

It should be noted that, if the terminal 5 queries the usage information of the gas meter 4 at the current time point, the usage information value at the query time point does not necessarily exist in the usage report of the server 1, and therefore, the terminal 5 can query, from the usage report, usage information that can only be in some query time periods before the time point, such as weekly usage and monthly usage of the previous month.

In specific implementation, after the terminal 5 receives a usage query request for the gas meter 4 initiated by a user, the terminal 5 may send a second usage query request to the server 1 through a WIFI (Wireless Fidelity) network or a mobile communication network, and the server 1 first searches, according to the identification information of the gas meter 4 in the second usage query request, whether a query result of third usage query information meeting the query time period exists in a usage report corresponding to the gas meter 4, and if the query result exists, directly feeds back the query result to the terminal 5; and the inquiry request is prevented from being sent to the controller 2 of the gas meter 4 again, so that the waste of resources is avoided.

If the second quantity query request does not exist, the server 1 forwards the second quantity query request to the wall-mounted furnace controller 2 corresponding to the identification information according to the corresponding relationship between the locally stored user, the gas meter, the wall-mounted furnace controller and the gas wall-mounted furnace, and after receiving the second quantity query request, the wall-mounted furnace controller 2 obtains a corresponding fourth query result from a storage in the gas meter 4 according to the query time period and the third quantity query information and feeds the fourth query result back to the server 1. After receiving the fourth query result, the server 1 feeds the fourth query result back to the terminal 5, so that the user can obtain the usage value of the gas meter 4 in real time through the terminal 5, and can also store the usage value related to the third usage query information in the fourth query result into the gas meter 4, thereby facilitating the user to directly feed back to the user terminal after initiating the request again next time.

Preferably, the terminal 5 is further configured to send a third quantity query request to the server 1, where the third quantity query request carries identification information of the gas meter 4 to be queried, fourth quantity query information of the gas meter 4, and a query time point; receiving a fifth query result fed back by the server 1;

the server 1 is further configured to forward a third measurement query request to the wall-mounted furnace controller 2 corresponding to the gas meter 4 after receiving the third measurement query request sent by the terminal 5; receiving a fifth query result sent by the wall-hanging furnace controller 2, and forwarding the fifth query result to the terminal 5;

the wall-mounted boiler controller 2 is further configured to obtain a corresponding fifth query result from the gas meter 4 corresponding to the wall-mounted boiler controller according to the query time point and the fourth usage query information after receiving the third usage query request; and feeding back the fifth query result to the server 1, where the fifth query result carries a usage value corresponding to the fourth usage query information.

For example, the terminal 5 queries the historical usage amount at the current time point, the server 1 cannot be obtained before receiving the request, the query time point of the server 1 is different from the query time point sent by the terminal 5, because the terminal 5 sends the real-time query request, the server 1 can forward the query time point and the fourth usage amount query information to the hanging stove controller 2 only after receiving the request according to the query time point and the third usage amount query information, and then the hanging stove controller 2 obtains the query time point and the usage amount value corresponding to the fourth usage amount query information.

Preferably, the terminal 5 is further configured to send a payment request to the server 1, where the payment request carries the identification information of the gas meter 4 and the payment amount; receiving a payment result fed back by the server 1;

the server 1 is further configured to determine a pre-purchased amount corresponding to the payment amount after receiving the payment request, and send the pre-purchased amount to the wall-mounted furnace controller 2 corresponding to the gas meter 4 according to the identification information of the gas meter 4; receiving a payment result fed back by the wall-hanging furnace controller 2 and forwarding the payment result to the terminal 5;

the wall-mounted boiler controller 2 is further configured to update the remaining amount of the gas meter 4 according to the pre-purchased amount and obtain a payment result after receiving the pre-purchased amount sent by the server 1; and feeds the payment result back to the server 1.

During specific implementation, the user can also recharge and pay for the gas meter 4 through the terminal 5, namely: after the terminal 5 receives a payment request of a user, the server 1 determines the gas meter 4 needing payment according to the identification information of the gas meter 4 carried in the payment request after receiving the payment request sent by the terminal 5, and then determines the pre-purchase amount corresponding to the payment amount according to the payment amount in the payment request and the consumption unit price; then feeding back the pre-purchased amount to a wall-mounted furnace controller 2 corresponding to the gas meter 4, updating the residual amount of the gas meter 4 by using the pre-purchased amount after the wall-mounted furnace controller 2 receives the pre-purchased amount, and obtaining an updated payment result if the updating is successful; otherwise, the payment result of updating failure is obtained. In addition, on the basis of successful updating, the wall-hanging stove controller 2 can drive the built-in liquid crystal display screen 24 to display the updated residual quantity; or the wall-mounted furnace controller 2 may drive the display screen on the gas meter 4 to display the updated remaining amount.

In addition, the hanging stove controller 2 feeds back the payment result to the server 1, and the server 1 feeds back the payment result to the terminal 5.

Further, the terminal 5 includes a user mobile terminal 5 and/or a business hall terminal 5;

specifically, if the terminal 5 is a user mobile terminal, the system provided in the first embodiment of the present invention has a binding relationship between the user mobile terminal 5 and the gas meter 4, that is, each user installs one gas meter 4 and one wall-mounted furnace controller 2 at home, and then the user mobile terminal 5 of the user queries and pays the gas meter 4, for example, the user mobile terminal 5 may be a smart phone. In addition, the terminal 5 can also be a business hall terminal 5, that is, a user can go to a business hall to inquire the usage information of the gas meter 4 or charge and pay for the gas meter 4, which will be described in detail later.

The embodiment of the invention provides a wall-mounted gas boiler control system, which comprises: server, terminal, at least one gas hanging stove and with the gas table of the same quantity of gas hanging stove to and for every gas hanging stove configuration a hanging stove controller, and every hanging stove controller establishes communication connection with a gas table respectively through close range wireless transmission mode, wherein: the server is used for sending a second query request to the wall-mounted furnace controller corresponding to the gas meter to be queried, wherein the second query request carries second quantity query information and query time; receiving a third query result fed back by the wall-mounted furnace controller, and storing the query time and the third query result into a locally recorded usage report of the gas meter; the wall-mounted boiler controller is used for acquiring a corresponding third query result from the gas meter according to the query time and the second quantity query information after receiving a second query request sent by the server; and feeding back an obtained third query result to the server, wherein the third query result carries a usage value corresponding to the second usage query information. By adopting the system provided by the embodiment of the invention, the server can actively acquire the consumption information of the gas meter, and meanwhile, the real-time property of inquiring the consumption information of the gas meter is also improved.

EXAMPLE III

The third embodiment of the present invention introduces the execution process of the terminal as the mobile terminal of the user in detail on the basis of the second embodiment, and when the terminal is the mobile terminal of the user, the mobile terminal of each user is used for managing the gas meter for measuring the usage amount of the gas wall-hanging furnace of the user. For convenience of description, in a third embodiment of the present invention, a system provided in the third embodiment of the present invention includes a gas meter, a wall-mounted stove controller, a wall-mounted stove, and a user mobile terminal as an example, and reference is made to fig. 4:

in specific implementation, if the terminal is the user mobile terminal 5, the method further comprises the step of

The user mobile terminal 5 is specifically configured to send a second quantity query request of the gas meter 4 to be queried, which establishes a binding relationship with the server 1; or a third measurement query request for sending the gas meter 4 to be queried, which establishes a binding relationship with the server 1, to the server; or the payment request of the gas meter 4 establishing the binding relationship with the server 1 is sent to the server 1.

In specific implementation, since the user mobile terminal 5 may only send one request to the server 1 at the same time, when sending the request to the server 1, only the second quantity query request, or only the third quantity query request, or only the payment request may be sent.

Of course, with later improvements to the APP in the user mobile terminal 5, it may be possible to implement sending the second and third volume query requests, etc. simultaneously.

In specific implementation, the user mobile terminal 5 may be a smart phone or an iPad, which is described by taking the smart phone as an example, for a gas meter in a home of the user, the user may use the smart phone to establish a binding relationship with the gas meter in advance, and then send a second quantity query request to the server 1, where the execution process of the server 1 may refer to the execution process of the server 1 in the second embodiment, and repeated details are not repeated. Therefore, the user can remotely inquire the usage value of the gas meter 4 through the server 1 when not at home. It should be noted that the query request is sent based on development software of the gas meter, a gas company designs a query payment APP for facilitating a user to query usage information of the gas meter at home or to implement a payment function at home, and then the user installs the APP on a smart phone, and based on the APP, the user can send the usage query request to the server 1.

Preferably, the user mobile terminal 5 is further configured to send a fourth quantity query request to the wall-mounted furnace controller 2 of the gas meter 4 for which the binding relationship is established, where the fourth quantity query request carries fifth quantity query information and query time of the gas meter 4 to be queried; receiving a sixth query result fed back by the wall-hanging furnace controller 2;

the wall-mounted boiler controller 2 is further configured to obtain a corresponding sixth query result from the gas meter 4 according to the query time and the fifth usage query information after receiving a fourth usage query request sent by the user mobile terminal 5; and feeding back the sixth query result to the user mobile terminal 5, where the sixth query result carries a usage value corresponding to the fifth usage query information.

In specific implementation, when a user holds the user mobile terminal 5 at home, the user mobile terminal 5 does not need to inquire the usage value of the gas meter 4 through the server 1, but only needs to send a fourth usage inquiry request to the wall-mounted boiler controller 2 through a short-range wireless transmission mode or a GPRS mode, after receiving the request, the wall-mounted boiler controller 2 obtains the usage value corresponding to the fifth usage inquiry information from the gas meter 4 according to the fifth usage inquiry information and inquiry time, and if the inquired usage is historical usage, the obtained sixth inquiry result is the historical usage value; if the usage of the current month is inquired, the sixth inquiry result is the usage of the current month.

Preferably, the fifth usage query message may be the same as or different from the second usage query message.

Preferably, the user mobile terminal 5 is specifically configured to establish a binding relationship with the gas meter 4 according to the following method: acquiring identification information of a gas meter 4, and sending a binding relationship establishment request to the server 1, wherein the binding relationship establishment request carries a user name registered by a user in advance and the identification information of the gas meter 4; receiving a query of whether to confirm establishment of the binding relationship sent by the server 1, and sending a response result of the query of whether to confirm establishment of the binding relationship to the server 1;

the server 1 is configured to send an inquiry about whether to confirm establishment of the binding relationship to the user mobile terminal 5 after receiving the binding relationship establishment request sent by the user mobile terminal 5; and receiving a response result of the inquiry about whether to confirm the establishment of the binding relationship fed back by the user mobile terminal 5, establishing and storing the binding relationship between the user name and the identification information of the gas meter 4 when the response result is confirmed to be the establishment, and feeding back a result of successful establishment of the binding relationship to the user mobile terminal 5.

Preferably, the user mobile terminal 5 is specifically configured to obtain, for the gas meter 4 to be bound, identification information of the gas meter 4 by scanning an authentication graphic code of the gas meter 4; or for the gas meter 4 to be bound, receiving the code of the gas meter 4 input by the user to obtain the identification information of the gas meter 4.

Preferably, the authentication graphic code comprises a two-dimensional code or a bar code.

In specific implementation, when the user uses the inquiry payment APP, the user name and the password are firstly used for real-name registration, and then the binding relationship with the gas meter 4 is established, which is approximately: the method comprises the steps that an authentication graphic code of the gas meter 4, such as a two-dimensional code or a bar code, is pasted on the outer surface of the gas meter 4, a user can scan the authentication graphic code through an inquiry payment APP, then identification information of the gas meter 4 is obtained, based on the identification information, the identification information and a registered user name are carried in a binding relationship establishing request by the user and sent to a server 1, after the server 1 receives the binding relationship establishing request, in order to determine whether the user needs to establish the binding relationship between the user name and the gas meter 4, a query of whether the establishment of the binding relationship is confirmed is fed back to a user mobile terminal 4, a response result is fed back to the server 1 after the user mobile terminal 5 receives the request, if the response result is the confirmation establishment, the binding relationship between the user name and the identification information of the gas meter 4 is established by the server 1, and the user name of the user is added in the corresponding relationship between pre-stored basic user information, the gas meter 4, a wall-hanging furnace controller and a wall-hanging furnace. And after the binding relationship is successfully established, feeding back a result of successful establishment of the binding relationship to the user mobile terminal 5.

Preferably, a user may have multiple houses, each house is provided with the gas meter and the wall-mounted boiler controller provided by the invention, so that the user can establish the binding relationship between the user and multiple gas meters by using the same user name, and the multiple binding relationships can be distinguished if the identification information of the gas meters is different. The binding relationship establishing method is the same as the above, and repeated parts are not described again.

When a user establishes a binding relationship with a plurality of gas meters by using the same user name, the user can select a gas meter to be inquired or paid on the inquiry and payment APP when inquiring the consumption information of the gas meters or charging and paying the gas meters, and then the control request or the payment request of the gas wall-mounted boiler can be fed back to the server 1 by clicking to confirm the inquiry or payment.

Preferably, the communication process between the user mobile terminal 5 and the Server 1 provided by the embodiment of the present invention conforms to a C/S (Client/Server) architecture mode, and the user may further perform at least one of the following operations by querying a payment APP: fault reporting and login management, etc.

According to the gas wall-mounted furnace control system provided by the third embodiment of the invention, based on the query payment APP, after the user mobile terminal establishes the binding relationship with the gas meter by using the pre-registered user name, the query of the gas meter usage information or the charging payment of the gas meter can be realized at home, so that the condition that the user goes to a business hall to query the usage information of the gas meter or completes the charging of the gas meter is avoided, and the convenience of the user is improved.

Example four

A fourth embodiment of the present invention is to describe in detail an execution process of a terminal being a business hall terminal based on the second embodiment, and refer to fig. 5:

when terminal 5 is business office terminal 5, explains for the example that business office terminal is the sales counter terminal, and the user needs to go to the business office and accomplish the inquiry of gas table and collect fee the operation, because the inquiry in embodiment three is collected fee APP and may have the renewal scheduling problem, for prevent to add money when APP takes place the problem and collect fee and the emergence of the condition such as inquiry work can't be accomplished, it is very necessary at business office terminal 5. When a user executes usage information query at a business hall counter, the user informs business hall staff of querying the identifier of the usage information, such as reporting the name of the user, the home address, the identifier of the gas meter or sending the IC card of the gas meter to the business hall staff, and the identifier of the gas meter is taken as an example for explanation, the business hall staff can send a usage query or payment request to the server 1 according to the identifier of the gas meter, and the operation executed by the server 1 after receiving the usage query or payment request can refer to the relevant execution process of the server 1 in the first embodiment, and repeated steps are repeated.

Preferably, the communication process between the office terminal 5 and the Server 1 provided by the fourth embodiment of the present invention follows a Browser/Server (B/S) architecture mode, that is, the office terminal 5 establishes a communication connection with the Server 1 through a Browser mode.

Preferably, the business hall terminal 5, in addition to being capable of executing the inquiry usage information or the payment function related in the second embodiment of the present invention, may further be capable of executing at least one of the following operations: and processing feedback information reported by users, generating a usage report and login management by using the gas meter usage information of each user, and the like.

Preferably, the business hall terminal 5 may be a system management terminal in addition to a counter terminal, and the system management terminal may perform operations such as maintaining the counter terminal, storing data, managing a user, and maintaining data.

According to the gas wall-mounted boiler control system provided by the fourth embodiment of the invention, the business hall terminal can feed back corresponding information to the user according to the needs of the user, and the real-time property of the user for inquiring the consumption information of the gas meter can be improved.

EXAMPLE five

Based on the same inventive concept, a fifth embodiment of the present invention further provides a method for controlling a wall-mounted gas boiler, as shown in fig. 6, which is a schematic flow chart of the method for controlling a wall-mounted gas boiler provided in the fifth embodiment of the present invention, and the method may include the following steps:

and S41, after receiving the first query request sent by the terminal, sending the first query request to each wall-mounted boiler controller corresponding to each gas meter to be queried.

The first query request carries first quantity query information, temperature query information and query time.

And S42, receiving first query results fed back by each wall-hanging stove controller.

The first query result comprises the usage value of each gas meter to be queried corresponding to the first usage query information, the temperature setting parameter value of each wall-mounted furnace controller corresponding to the query time, and the indoor temperature information corresponding to the query time, and the usage value of the gas meter to be queried is acquired from the gas meter by the wall-mounted furnace controller corresponding to the gas meter according to the query time and the first usage query information in a short-range wireless transmission mode.

S43, preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to the terminal initiating the first query request.

And enabling the terminal to set parameters of the wall-mounted boiler controller corresponding to the terminal according to the second query result, and controlling the gas wall-mounted boiler.

Preferably, when it is determined that the query time is the query time period, receiving a first query result fed back by each wall-hanging stove controller specifically includes:

receiving a first quantity value, corresponding to the first quantity query information, of each gas meter to be queried, fed back by each wall-mounted furnace controller corresponding to each gas meter to be queried in the query time period, and a temperature setting parameter value, corresponding to each preset time point in the query time period, of each wall-mounted furnace controller; and

preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to a terminal initiating the first query request, specifically comprising:

calculating the unit area gas usage amount of the gas users of the gas meters to be inquired in the inquiry time period according to the stored house area information of the gas users corresponding to the gas meters to be inquired and the first quantity values fed back by the wall-mounted furnace controllers;

ranking the indoor average temperature and the unit area gas consumption in the query time period, which are contained in the received indoor temperature information corresponding to the query time and fed back by each wall-hanging furnace controller, respectively to obtain a ranking list;

and sending the temperature setting parameter values of the wall-mounted furnace controllers fed back by the ranking list and the wall-mounted furnace controllers connected with the gas meters to be inquired to the terminal as a second inquiry result, so that the terminal sets parameters of the wall-mounted furnace controllers corresponding to the terminal according to the second inquiry result and controls the wall-mounted gas furnace.

In specific implementation, the implementation of steps S41 to S43 may refer to the execution process of the server in the first embodiment, and repeated steps are described in detail.

Preferably, the method further comprises the implementation procedure shown in fig. 7:

and S51, sending a second query request to a wall-mounted furnace controller corresponding to the gas meter to be queried.

And the second query request carries second quantity query information and query time of the gas meter.

And S52, receiving a third query result fed back by the wall-mounted furnace controller, and storing the query time and the third query result into a locally recorded usage report of the gas meter.

And the third query result carries a usage value corresponding to the second quantity query information, and is acquired from the gas meter by the wall-mounted furnace controller in a short-range wireless transmission mode according to the query time and the second quantity query information.

In specific implementation, the implementation of step S51 and step S52 may refer to the execution process of the server in the second embodiment, and the repeated steps are described in detail.

Preferably, the method further comprises the implementation procedure shown in fig. 8:

and S61, receiving a second quantity inquiry request sent by the terminal.

Preferably, the second quantity query request carries identification information of the gas meter to be queried, third quantity query information of the gas meter, and a query time period.

S62, acquiring the usage report of the gas meter corresponding to the stored identification information of the gas meter.

S63, judging whether the report form stores the query result of the third volume query information meeting the query time period; if so, executing step S64; otherwise, step S65 is executed.

And S64, feeding back the query result of the third measurement query information to the terminal.

And S65, forwarding the second quantity query request to a wall-mounted furnace controller corresponding to the gas meter.

And S66, receiving a fourth query result sent by the wall-mounted furnace controller, and forwarding the fourth query result to the terminal.

And S67, storing the fourth query result into the usage report of the gas meter.

Preferably, the fourth query result may be stored in the usage report of the gas meter, and when the user initiates the same second usage query request again, in order to improve user experience and save resource waste of the server and the controller, the query result may be directly obtained from the usage report of the gas meter and fed back to the user terminal, so that the feedback speed is greatly improved.

Specifically, the fourth query result carries a usage value corresponding to the third quantity query information, and the fourth query result is obtained by the wall-hanging stove controller from the gas meter corresponding to the wall-hanging stove controller according to the query time period and the third quantity query information.

In specific implementation, the implementation of steps S61 to S67 may refer to the processing procedure of the server for the second quantity query request sent by the terminal in the second embodiment, and repeated steps are described in detail.

Preferably, the method further includes a process shown in fig. 9, which includes the following steps:

and S71, receiving a third volume inquiry request sent by the terminal.

The third quantity query request carries identification information of the gas meter to be queried, fourth quantity query information of the gas meter and a query time point.

And S72, forwarding the third quantity query request to a wall-mounted furnace controller corresponding to the gas meter.

And S73, receiving a fifth query result sent by the wall-hanging furnace controller, and forwarding the fifth query result to the terminal.

And the fifth query result is obtained by the wall-mounted boiler controller from the gas meter corresponding to the wall-mounted boiler controller according to the query time point and the fourth usage query information.

In specific implementation, the implementation of steps S71 to S73 may refer to the processing procedure of the third usage query request sent by the server for the terminal in the second embodiment, and repeated steps are described in detail.

Preferably, the method further comprises the steps shown in fig. 10:

s81, receiving a payment request sent by the terminal, wherein the payment request carries identification information of the gas meter and payment amount.

And S82, determining the pre-purchased amount corresponding to the payment amount, and sending the pre-purchased amount to a wall-mounted furnace controller corresponding to the gas meter according to the identification information of the gas meter.

And S83, receiving the payment result fed back by the wall-mounted furnace controller and forwarding the payment result to the terminal.

Preferably, the payment result is obtained by updating the residual quantity of the gas meter according to the pre-purchased quantity by the wall-hanging stove controller.

In specific implementation, the implementation of steps S81 to S83 may refer to the processing procedure of the payment request sent by the server to the terminal in the second embodiment, and repeated steps are described in detail.

EXAMPLE six

As shown in fig. 11, a schematic structural diagram of a wall-mounted gas boiler control device according to a sixth embodiment of the present invention may include: a first sending unit 91, a first receiving unit 92 and a processing unit 93, wherein:

the first sending unit 91 is configured to send a first query request to each wall-mounted furnace controller corresponding to each gas meter to be queried after receiving the first query request sent by the terminal, where the first query request carries first quantity query information, temperature query information, and query time;

a first receiving unit 92, configured to receive a first query result fed back by each wall-mounted furnace controller, where the first query result includes a usage value of each to-be-queried gas meter corresponding to the first usage query information, a temperature setting parameter value of each wall-mounted furnace controller corresponding to the query time, and indoor temperature information corresponding to the query time, and the usage value of the to-be-queried gas meter is obtained from the gas meter by the wall-mounted furnace controller corresponding to the gas meter according to the query time and the first usage query information in a short-range wireless transmission manner;

and the processing unit 93 is configured to preprocess the first query result according to a preset algorithm, obtain a second query result, and send the second query result to the terminal initiating the first query request, so that the terminal sets parameters of a wall-hanging furnace controller corresponding to the terminal according to the second query result, and controls the gas wall-hanging furnace.

Preferably, the first receiving unit 92 is specifically configured to receive, when it is determined that the query time is a query time period, a first quantity value, corresponding to the first quantity query information, of each gas meter to be queried in the query time period, fed back by each wall-mounted furnace controller corresponding to each gas meter to be queried, and a temperature setting parameter value, corresponding to each preset time point in the query time period, of each wall-mounted furnace controller;

the processing unit 93 is specifically configured to calculate a unit area gas usage amount of the gas user of each to-be-queried gas meter in the query time period according to the stored building area information of the gas user corresponding to each to-be-queried gas meter and each first quantity value fed back by each wall-mounted furnace controller;

ranking the indoor average temperature and the unit area gas consumption in the query time period, which are contained in the received indoor temperature information corresponding to the query time fed back by each wall-mounted furnace controller, respectively to obtain a ranking list;

and sending the ranking list and the temperature setting parameter values of the wall-mounted furnace controllers fed back by the wall-mounted furnace controllers connected with the gas meters to be inquired to the terminal as the second inquiry result, so that the terminal sets the parameters of the wall-mounted furnace controllers corresponding to the terminal according to the second inquiry result and controls the gas wall-mounted furnace.

Optionally, the apparatus may further include:

the second sending unit is used for sending a second query request to a wall-mounted furnace controller corresponding to the gas meter to be queried, wherein the second query request carries second quantity query information and query time of the gas meter;

and the second receiving unit is used for receiving a third query result fed back by the wall-mounted furnace controller, and storing the query time and the third query result into a locally recorded usage report of the gas meter, wherein the third query result carries a usage value corresponding to the second usage query information, and the third query result is obtained from the gas meter by the wall-mounted furnace controller in a short-range wireless transmission manner according to the query time and the second usage query information.

Optionally, the apparatus may further include:

a third receiving unit, configured to receive a second quantity query request sent by a terminal, where the second quantity query request carries identification information of a gas meter to be queried, third quantity query information of the gas meter, and a query time period;

the acquisition unit is used for acquiring the usage report of the gas meter corresponding to the stored identification information;

the judging unit is used for judging whether the usage report contains the query result of the third usage query information meeting the query time period;

the feedback unit is used for feeding back the query result of the third quantity query information to the terminal when the judgment result of the judgment unit is yes;

the first forwarding unit is used for forwarding the second quantity query request to a wall-mounted furnace controller corresponding to the gas meter when the judgment result of the judging unit is negative;

and the fourth receiving unit is used for receiving a fourth query result sent by the wall-mounted furnace controller and forwarding the fourth query result to the terminal, wherein the fourth query result carries a usage value corresponding to the third usage query information, and the fourth query result is obtained by the wall-mounted furnace controller from the gas meter corresponding to the wall-mounted furnace controller according to the query time period and the third usage query information.

Optionally, the apparatus may further include:

and the fifth receiving unit is used for receiving a third quantity query request sent by the terminal, wherein the third quantity query request carries identification information of the gas meter to be queried, fourth quantity query information of the gas meter and a query time point.

The second forwarding unit is used for forwarding the third measurement query request to a wall-mounted furnace controller corresponding to the gas meter;

and a sixth receiving unit, configured to receive a fifth query result sent by the wall-mounted furnace controller, and forward the fifth query result to the terminal, where the fifth query result is obtained by the wall-mounted furnace controller from a gas meter corresponding to the wall-mounted furnace controller according to the query time point and the fourth usage query information.

Optionally, the apparatus may further include:

a seventh receiving unit, configured to receive a payment request sent by the terminal, where the payment request carries identification information of the gas meter and a payment amount;

the determining unit is used for determining the pre-purchased amount corresponding to the payment amount and sending the pre-purchased amount to a wall-mounted furnace controller corresponding to the gas meter according to the identification information of the gas meter;

and the eighth receiving unit is used for receiving a payment result fed back by the wall-mounted furnace controller and forwarding the payment result to the terminal, wherein the payment result is obtained by updating the residual quantity of the gas meter according to the pre-purchased quantity by the wall-mounted furnace controller.

EXAMPLE seven

The seventh embodiment of the application provides a nonvolatile computer storage medium, where the computer storage medium stores computer-executable instructions, and the computer-executable instructions can execute the gas wall-hanging stove control method in any of the above method embodiments.

Example eight

Fig. 12 is a schematic diagram of a hardware structure of an electronic device for implementing a wall-mounted gas boiler control method according to an eighth embodiment of the present invention, and as shown in fig. 12, the electronic device includes:

one or more processors 110 and a memory 120, with one processor 110 being an example in fig. 12.

The electronic device performing the gas wall-hanging stove control method may further include: an input device 130 and an output device 140.

The processor 110, the memory 120, the input device 130, and the output device 140 may be connected by a bus or other means, and fig. 12 illustrates an example of connection by a bus.

The memory 120 is a non-volatile computer-readable storage medium, and can be used to store non-volatile software programs, non-volatile computer-executable programs, and modules, such as program instructions/modules/units (for example, the first sending unit 91, the first receiving unit 92, and the processing unit 93 shown in fig. 11) corresponding to the gas wall-hanging stove control method in the embodiment of the present application. The processor 110 executes various functional applications and data processing of the server or the intelligent terminal by running the nonvolatile software program, instructions and modules/units stored in the memory 120, that is, the wall-hanging gas stove control method provided by the fifth embodiment of the method is implemented.

The memory 120 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to use of the gas wall-hanging stove control device, and the like. Further, the memory 120 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some embodiments, the memory 120 optionally includes memory remotely located from the processor 110, which may be connected to a gas wall-mounted stove control over a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The input device 130 may receive input numeric or character information and generate key signal inputs related to user settings and function control of the gas wall-hanging stove control device. The output device 140 may include a display device such as a display screen.

The one or more modules are stored in the memory 120, and when executed by the one or more processors 110, perform the gas wall-hanging stove control method of any of the method embodiments five described above.

The product can execute the method provided by the fifth embodiment of the application, and has corresponding functional modules and beneficial effects of the execution method. For details of the technique not described in detail in this embodiment, reference may be made to the method provided in the fifth embodiment of the present application.

The electronic device of the embodiments of the present application exists in various forms, including but not limited to:

(1) A mobile communication device: such devices are characterized by mobile communications capabilities and are primarily targeted at providing voice, data communications. Such terminals include smart phones (e.g., iphones), multimedia phones, functional phones, and low-end phones, among others.

(2) Ultra mobile personal computer device: the equipment belongs to the category of personal computers, has calculation and processing functions and generally has the characteristic of mobile internet access. Such terminals include: PDA, MID, and UMPC devices, etc., such as ipads.

(3) A portable entertainment device: such devices can display and play multimedia content. Such devices include audio and video players (e.g., ipods), handheld game consoles, electronic books, as well as smart toys and portable car navigation devices.

(4) A server: the device for providing the computing service comprises a processor, a hard disk, a memory, a system bus and the like, and the server is similar to a general computer architecture, but has higher requirements on processing capacity, stability, reliability, safety, expandability, manageability and the like because high-reliability service needs to be provided.

(5) And other electronic devices with data interaction functions.

Example nine

An embodiment ninth of the present application provides a computer program product, wherein the computer program product includes a computer program stored on a non-transitory computer readable storage medium, the computer program including program instructions, wherein when the program instructions are executed by a computer, the computer is caused to execute the gas wall hanging stove control method according to any one of the above method embodiments of the present application.

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

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

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

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

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (15)

1. The utility model provides a gas hanging stove control system which characterized in that includes: server, terminal, at least one gas hanging stove and with the gas table of the same quantity of gas hanging stove to and for every gas hanging stove configuration a hanging stove controller, and every hanging stove controller establishes communication connection with a gas table respectively through close range wireless transmission mode, wherein:

the server is used for sending a first query request to each wall-mounted furnace controller corresponding to each gas meter to be queried after receiving the first query request sent by the terminal, wherein the first query request carries first quantity query information, temperature query information and query time; receiving a first query result fed back by each wall-mounted boiler controller, wherein the first query result comprises a usage value of each gas meter to be queried corresponding to the first usage query information, a temperature setting parameter value of each wall-mounted boiler controller corresponding to the query time, and indoor temperature information corresponding to the query time; preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to a terminal initiating the first query request;

the wall-mounted boiler controller is used for acquiring a corresponding usage value from a gas meter corresponding to the wall-mounted boiler controller according to the query time and the first usage query information after receiving a first query request sent by the server; acquiring a temperature setting parameter value of the wall-hanging furnace controller corresponding to the query time according to the query time and the temperature query information; acquiring indoor temperature information corresponding to the query time; feeding back the acquired gas meter usage value, the temperature setting parameter value of the wall-mounted furnace controller and the indoor temperature information to a server;

the terminal is used for sending a first query request to the server; receiving the second query result sent by the server, setting parameters of a wall-mounted boiler controller corresponding to the terminal according to the second query result, and controlling the gas wall-mounted boiler;

the server is specifically configured to receive, when it is determined that the query time is a query time period, a first quantity value, corresponding to the first quantity query information, of each gas meter to be queried, fed back by each wall-mounted furnace controller corresponding to each gas meter to be queried, and a temperature setting parameter value, corresponding to each preset time point in the query time period, of each wall-mounted furnace controller; calculating the unit area gas usage amount of the gas users of the gas meters to be inquired in the inquiry time period according to the stored house area information of the gas users corresponding to the gas meters to be inquired and the first quantity values fed back by the wall-mounted furnace controllers; ranking the indoor average temperature and the unit area gas consumption in the query time period, which are contained in the received indoor temperature information corresponding to the query time and fed back by each wall-hanging furnace controller, respectively to obtain a ranking list; and sending the ranking list and the temperature setting parameter values of the wall-mounted furnace controllers fed back by the wall-mounted furnace controllers connected with the gas meters to be inquired to the terminal as the second inquiry result.

2. The system of claim 1, wherein the fireplace controller establishes a communication connection with the server through General Packet Radio Service (GPRS) or based on a cellular narrowband internet of things (IOT) manner;

the wall-mounted boiler controller is specifically configured to, after receiving a first query request sent by the server, obtain, according to the query time period and the first quantity query information, a first quantity value of the gas meter to be queried, which corresponds to the first quantity query information in the query time period, from the gas meter to be queried connected to the wall-mounted boiler controller; acquiring temperature setting parameter values of the wall-mounted furnace controller corresponding to each preset time point in the query time period; acquiring indoor temperature information corresponding to the query time period, wherein the indoor temperature information comprises an indoor average temperature in the query time period; feeding back the first quantity value, the temperature setting parameter value and the indoor average temperature obtained by each wall-hanging furnace controller to the server as a first query result;

the terminal is specifically used for receiving a second query result fed back by the server, setting parameters of the wall-hanging stove controller corresponding to the terminal according to the temperature setting parameter values of the wall-hanging stove controllers corresponding to the preset time points in the query time period in the ranking list according to the second query result, and controlling the gas wall-hanging stove.

3. The system of claim 1,

the server is further used for sending a second query request to the wall-mounted furnace controller corresponding to the gas meter to be queried, wherein the second query request carries second quantity query information and query time; receiving a third query result fed back by the wall-mounted furnace controller, and storing the query time and the third query result into a locally recorded usage report of the gas meter;

the wall-mounted boiler controller is used for acquiring a corresponding third query result from the gas meter according to the query time and the second quantity query information after receiving a second query request sent by the server; and feeding back an obtained third query result to the server, wherein the third query result carries a usage value corresponding to the second usage query information.

4. The system of claim 3,

the terminal is further used for sending a second quantity query request to the server, wherein the second quantity query request carries identification information of the gas meter to be queried, third quantity query information of the gas meter and a query time period; receiving a fourth query result fed back by the server;

the server is further configured to obtain a usage report of the gas meter corresponding to the stored identification information after receiving a second usage query request sent by the terminal, and determine whether a query result of the third usage query information meeting the query time period is stored in the usage report; if yes, feeding back the query result of the third quantity query information to the terminal; if the second quantity query request does not exist, forwarding the second quantity query request to a wall-mounted furnace controller corresponding to the gas meter; receiving a fourth query result sent by the wall-hanging furnace controller, and forwarding the fourth query result to the terminal;

the wall-mounted boiler controller is further configured to obtain a corresponding fourth query result from the gas meter corresponding to the wall-mounted boiler controller according to the query time period and the third quantity query information after receiving the second quantity query request; and feeding back the fourth query result to the server, wherein the fourth query result carries the usage value corresponding to the third usage query information.

5. The system of claim 3,

the terminal is further used for sending a third quantity query request to the server, wherein the third quantity query request carries identification information of the gas meter to be queried, fourth quantity query information of the gas meter and a query time point; receiving a fifth query result fed back by the server;

the server is further used for forwarding a third quantity query request to the wall-mounted furnace controller corresponding to the gas meter after receiving the third quantity query request sent by the terminal; receiving a fifth query result sent by the wall-hanging furnace controller, and forwarding the fifth query result to the terminal;

the wall-mounted boiler controller is further configured to obtain a corresponding fifth query result from the gas meter corresponding to the wall-mounted boiler controller according to the query time point and the fourth usage query information after receiving the third usage query request; and feeding back the fifth query result to the server, wherein the fifth query result carries a usage value corresponding to the fourth usage query information.

6. The system of claim 4 or 5,

the terminal is further used for sending a payment request to the server, wherein the payment request carries the identification information of the gas meter and the payment amount; receiving a payment result fed back by the server;

the server is further used for determining the pre-purchased quantity corresponding to the payment amount after receiving the payment request, and sending the pre-purchased quantity to a wall-mounted furnace controller corresponding to the gas meter according to the identification information of the gas meter; receiving a payment result fed back by the wall-hanging furnace controller and forwarding the payment result to the terminal;

the wall-mounted boiler controller is further used for updating the residual quantity of the gas meter according to the pre-purchased quantity and obtaining a payment result after receiving the pre-purchased quantity sent by the server; and feeding back the payment result to the server.

7. The system of claim 6, wherein the terminal comprises a user mobile terminal and/or a business hall terminal; and

the user mobile terminal is specifically used for sending a second quantity query request of the gas meter to be queried, which establishes a binding relationship with the server; or a third measurement query request for the gas meter to be queried, which is used for establishing a binding relationship with the server, is sent to the server; or the payment request of the gas meter establishing the binding relationship with the server is sent to the server.

8. The system of claim 7,

the user mobile terminal is further used for sending a fourth quantity query request to a wall-mounted furnace controller of the gas meter establishing the binding relationship, wherein the fourth quantity query request carries fifth quantity query information and query time of the gas meter to be queried; receiving a sixth query result fed back by the wall-hanging furnace controller;

the wall-mounted boiler controller is further used for acquiring a corresponding sixth query result from the gas meter according to the query time and the fifth usage query information after receiving a fourth usage query request sent by the user mobile terminal; and feeding back the sixth query result to the user mobile terminal, wherein the sixth query result carries the usage value corresponding to the fifth usage query information.

9. The system of claim 8,

the user mobile terminal is specifically used for establishing a binding relationship with the gas meter according to the following method: acquiring identification information of a gas meter, and sending a binding relationship establishment request to the server, wherein the binding relationship establishment request carries a user name registered by a user in advance and the identification information of the gas meter; receiving an inquiry whether to confirm the establishment of the binding relationship sent by the server, and sending a response result of the inquiry whether to confirm the establishment of the binding relationship to the server;

the server is used for sending a query for confirming whether to establish the binding relationship to the user mobile terminal after receiving the binding relationship establishment request sent by the user mobile terminal; and receiving a response result fed back by the user mobile terminal whether to confirm the establishment of the binding relationship inquiry, establishing and storing the binding relationship between the user name and the identification information of the gas meter when the response result is confirmed to be established, and feeding back a result that the establishment of the binding relationship is successful to the user mobile terminal.

10. The system of claim 9,

the user mobile terminal is specifically used for acquiring identification information of a gas meter to be bound by scanning an authentication graphic code of the gas meter, wherein the authentication graphic code comprises a two-dimensional code or a bar code; or receiving the code of the gas meter input by the user to obtain the identification information of the gas meter aiming at the gas meter to be established with the binding relationship.

11. A control method of a wall-mounted gas stove is characterized by comprising the following steps:

after receiving a first query request sent by a terminal, sending the first query request to each wall-mounted furnace controller corresponding to each gas meter to be queried, wherein the first query request carries first quantity query information, temperature query information and query time;

receiving a first query result fed back by each wall-mounted furnace controller, wherein the first query result comprises a usage value of each to-be-queried gas meter corresponding to the first usage query information, a temperature setting parameter value of each wall-mounted furnace controller corresponding to the query time, and indoor temperature information corresponding to the query time, and the usage value of the to-be-queried gas meter is acquired from the gas meter by the wall-mounted furnace controller corresponding to the gas meter according to the query time and the first usage query information in a short-range wireless transmission mode; when the query time is determined to be the query time period, receiving a first query result fed back by each wall-hanging stove controller, specifically including: receiving a first quantity value, corresponding to the first quantity query information, of each gas meter to be queried, fed back by each wall-mounted furnace controller corresponding to each gas meter to be queried in the query time period, and a temperature setting parameter value, corresponding to each preset time point in the query time period, of each wall-mounted furnace controller;

preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to a terminal initiating the first query request, so that the terminal sets parameters of a wall-mounted boiler controller corresponding to the terminal according to the second query result to control the gas wall-mounted boiler;

preprocessing the first query result according to a preset algorithm to obtain a second query result, and sending the second query result to a terminal initiating the first query request, specifically comprising: calculating the unit area gas usage amount of the gas users of the gas meters to be inquired in the inquiry time period according to the stored house area information of the gas users corresponding to the gas meters to be inquired and the first quantity values fed back by the wall-mounted furnace controllers; ranking the indoor average temperature and the unit area gas consumption in the query time period, which are contained in the received indoor temperature information corresponding to the query time and fed back by each wall-hanging furnace controller, respectively to obtain a ranking list; and sending the ranking list and the temperature setting parameter values of the wall-mounted furnace controllers fed back by the wall-mounted furnace controllers connected with the gas meters to be inquired to the terminal as the second inquiry result, so that the terminal sets the parameters of the wall-mounted furnace controllers corresponding to the terminal according to the second inquiry result and controls the gas wall-mounted furnace.

12. The method of claim 11, further comprising:

sending a second query request to a wall-mounted furnace controller corresponding to the gas meter to be queried, wherein the second query request carries second quantity query information and query time of the gas meter; and

and receiving a third query result fed back by the wall-mounted furnace controller, and storing the query time and the third query result into a locally recorded usage report of the gas meter, wherein the third query result carries a usage value corresponding to the second usage query information, and the third query result is obtained from the gas meter by the wall-mounted furnace controller in a short-range wireless transmission manner according to the query time and the second usage query information.

13. The method of claim 12, further comprising:

receiving a second quantity query request sent by a terminal, wherein the second quantity query request carries identification information of a gas meter to be queried, third quantity query information of the gas meter and a query time period;

acquiring a usage report of the gas meter corresponding to the stored identification information;

judging whether the usage report stores the query result of the third usage query information meeting the query time period;

if yes, feeding back the query result of the third quantity query information to the terminal;

if the second quantity query request does not exist, forwarding the second quantity query request to a wall-mounted furnace controller corresponding to the gas meter; and

receiving a fourth query result sent by the wall-mounted furnace controller, and forwarding the fourth query result to the terminal, wherein the fourth query result carries a usage value corresponding to the third usage query information, and the fourth query result is obtained by the wall-mounted furnace controller from the gas meter corresponding to the wall-mounted furnace controller according to the query time period and the third usage query information.

14. The method of claim 12, further comprising:

receiving a third quantity query request sent by a terminal, wherein the third quantity query request carries identification information of a gas meter to be queried, fourth quantity query information of the gas meter and a query time point; and are

Forwarding the third quantity query request to a wall-mounted furnace controller corresponding to the gas meter; and

and receiving a fifth query result sent by the wall-mounted furnace controller, and forwarding the fifth query result to the terminal, wherein the fifth query result is obtained by the wall-mounted furnace controller from the gas meter corresponding to the wall-mounted furnace controller according to the query time point and the fourth usage query information.

15. The method of claim 13 or 14, further comprising:

receiving a payment request sent by the terminal, wherein the payment request carries identification information of the gas meter and payment amount; and are

Determining a pre-purchased amount corresponding to the payment amount, and sending the pre-purchased amount to a wall-mounted furnace controller corresponding to the gas meter according to the identification information of the gas meter;

and receiving a payment result fed back by the wall-mounted furnace controller and forwarding the payment result to the terminal, wherein the payment result is obtained by updating the residual quantity of the gas meter according to the pre-purchased quantity by the wall-mounted furnace controller.

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