CN112229045B - Intelligent temperature control method, device and system of matrix switching system - Google Patents

Abstract

The invention discloses an intelligent temperature control method, device and system of a matrix switching system, and belongs to the technical field of intelligent equipment. The method comprises the following steps: according to the invention, after the plurality of temperature adjusting devices are arranged at the corresponding setting positions, the temperature sensor acquires temperature data in real time; the matrix switching device generates temperature adjusting instructions corresponding to the temperature adjusting devices respectively according to the temperature data; the temperature can be reduced and increased and decreased according to the relevance among all rooms, the temperature increasing and decreasing efficiency is improved, the situation that rapid temperature decreasing or temperature increasing is achieved by increasing a temperature adjusting value is avoided, and electric energy is saved.

Description

Intelligent temperature control method, device and system of matrix switching system

Technical Field

The invention relates to the technical field of intelligent equipment, in particular to an intelligent temperature control method, device and system of a matrix switching system.

Background

With the popularization of temperature adjusting devices such as air conditioners, people are used to realize the indoor cooling and heating requirements by using the temperature adjusting devices;

most of the temperature adjusting devices provided by the prior art are installed in each room or are integrated central air conditioners, and people open the temperature adjusting devices of the corresponding rooms in the process of realizing temperature rise and temperature reduction.

However, because the correlation between each indoor room is strong, the heating and cooling effects of a single room are often influenced by other rooms, the method provided by the prior art only opens the temperature adjusting device of the single room, the heating and cooling efficiency can be reduced, and people can only realize rapid cooling or heating by increasing the temperature adjusting value, thereby further consuming electric energy.

Disclosure of Invention

In order to solve the problems in the prior art, embodiments of the present invention provide an intelligent temperature control method, apparatus, and system for a matrix switching system, which specifically include:

in a first aspect, an intelligent temperature control method for a matrix switching system is provided, where the method is applied to an intelligent temperature control system for a matrix switching system, and the system includes: the temperature control device comprises a matrix switching device, a plurality of temperature sensors and a plurality of temperature adjusting devices, wherein the temperature sensors are connected with the matrix switching device and used as input ends of the matrix switching device, and the temperature adjusting devices are connected with the matrix switching device and used as output ends of the matrix switching device; the method comprises the following steps:

when the plurality of temperature sensors are arranged indoors, the temperature sensors acquire indoor temperature data, and the temperature data is used for describing indoor local temperature within the detection range of the temperature sensors;

the matrix switching device generates and sends the setting positions corresponding to the temperature adjusting devices to the user side according to the temperature data;

after the plurality of temperature adjusting devices are arranged at the corresponding arrangement positions, the temperature sensor acquires the temperature data in real time;

the matrix switching device generates temperature adjusting instructions corresponding to the temperature adjusting devices respectively according to the temperature data;

and the temperature adjusting device adjusts the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device.

Optionally, the method further includes:

the matrix switching device acquires an adjustment request triggered by a user at the user side; the adjustment request comprises at least an adjustment region and an adjustment value;

the matrix switching device generates temperature adjusting instructions corresponding to the plurality of temperature adjusting devices respectively according to the adjusting request;

and the temperature adjusting device adjusts the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device.

Optionally, the system further includes a plurality of thermal infrared imagers, the plurality of thermal infrared imagers are connected to the matrix switching device and serve as input ends of the matrix switching device, and the method further includes:

the infrared thermal imager acquires the body surface temperature of an indoor user in real time;

the matrix switching device generates temperature adjusting instructions corresponding to the temperature adjusting devices respectively according to the temperature data and the body surface temperatures;

and the temperature adjusting device adjusts the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device.

Optionally, the generating, by the matrix switching device, temperature adjustment instructions respectively corresponding to the plurality of temperature adjustment devices according to the plurality of temperature data includes:

acquiring correlation parameters between indoor parts corresponding to the plurality of temperature sensors;

acquiring a temperature adjusting device in the indoor part;

and generating the temperature adjusting instruction according to the correlation parameter and the temperature adjusting device in the indoor local part.

In a second aspect, an intelligent temperature control system of a matrix switching system is provided, the system includes a matrix switching device, a plurality of temperature sensors and a plurality of temperature adjustment devices, the plurality of temperature sensors are connected with the matrix switching device and serve as input ends of the matrix switching device, and the plurality of temperature adjustment devices are connected with the matrix switching device and serve as output ends of the matrix switching device; wherein:

when the plurality of temperature sensors are arranged indoors, the temperature sensors are used for acquiring indoor temperature data, and the temperature data is used for describing indoor local temperature within the detection range of the temperature sensors;

the matrix switching device is used for generating and sending the setting positions corresponding to the temperature adjusting devices to the user side according to the temperature data;

after the plurality of temperature adjusting devices are arranged at the corresponding arrangement positions, the temperature sensor is used for acquiring the temperature data in real time;

the matrix switching device is used for generating temperature adjusting instructions corresponding to the temperature adjusting devices respectively according to the temperature data;

the temperature adjusting device is used for adjusting the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device.

Alternatively to this, the first and second parts may,

the matrix switching device is also used for acquiring an adjusting request triggered by a user at the user side; the adjustment request comprises at least an adjustment region and an adjustment value;

the matrix switching device is also used for generating temperature adjusting instructions corresponding to the plurality of temperature adjusting devices respectively according to the adjusting request;

the temperature adjusting device is also used for adjusting the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device.

Optionally, the system further includes a plurality of thermal infrared imagers, the plurality of thermal infrared imagers are connected to the matrix switching device, and serve as the input end of the matrix switching device, where:

the infrared thermal imager is used for acquiring the body surface temperature of an indoor user in real time;

the matrix switching device is used for generating temperature adjusting instructions corresponding to the temperature adjusting devices respectively according to the temperature data and the body surface temperatures;

the temperature adjusting device is used for adjusting the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device.

Optionally, the matrix switching device is specifically configured to:

acquiring correlation parameters between indoor parts corresponding to the plurality of temperature sensors;

acquiring a temperature adjusting device in the indoor part;

and generating the temperature adjusting instruction according to the correlation parameter and the temperature adjusting device in the indoor local part.

In a third aspect, an intelligent temperature control device of a matrix switching system is provided, where the device is a matrix switching device, a plurality of temperature sensors are connected to the matrix switching device as input terminals of the matrix switching device, and a plurality of temperature adjustment devices are connected to the matrix switching device as output terminals of the matrix switching device; the device comprises:

the acquisition module is used for acquiring indoor temperature data sent by the temperature sensors after the temperature sensors are arranged indoors, and the temperature data is used for describing indoor local temperature in the detection range of the temperature sensors;

the processing module is used for generating and sending the setting positions corresponding to the temperature adjusting devices to the user side according to the temperature data;

the acquisition module is further used for acquiring the temperature data sent by the temperature sensor in real time after the plurality of temperature adjusting devices are arranged at the corresponding arrangement positions;

the processing module is further used for generating temperature adjusting instructions corresponding to the plurality of temperature adjusting devices according to the plurality of temperature data;

and the sending module is used for sending the plurality of temperature adjusting instructions to the corresponding temperature adjusting devices so that the temperature adjusting devices can adjust the temperature according to the corresponding temperature adjusting instructions.

Alternatively to this, the first and second parts may,

the acquisition module is further used for acquiring an adjustment request triggered by a user at the user side; the adjustment request comprises at least an adjustment region and an adjustment value;

the processing module is further used for generating temperature adjusting instructions corresponding to the plurality of temperature adjusting devices respectively according to the adjusting requests;

the sending module is further used for sending the plurality of temperature adjusting instructions to the corresponding temperature adjusting devices, so that the temperature adjusting devices can adjust the temperature according to the corresponding temperature adjusting instructions.

Optionally, a plurality of infrared thermal imagers are connected to the matrix switching device and used as input terminals of the matrix switching device,

the acquisition module is also used for acquiring an infrared thermal imager for acquiring the body surface temperature of the indoor user in real time;

the processing module is further used for generating temperature adjusting instructions corresponding to the plurality of temperature adjusting devices according to the plurality of temperature data and the plurality of body surface temperatures;

the sending module is further used for sending the plurality of temperature adjusting instructions to the corresponding temperature adjusting devices, so that the temperature adjusting devices can adjust the temperature according to the corresponding temperature adjusting instructions.

Optionally, the processing module is further specifically configured to:

acquiring correlation parameters between indoor parts corresponding to the plurality of temperature sensors;

acquiring a temperature adjusting device in the indoor part;

and generating the temperature adjusting instruction according to the correlation parameter and the temperature adjusting device in the indoor local part.

In a fourth aspect, an intelligent temperature control device of a matrix switching system is provided, where the device is a matrix switching device, the device includes a memory and a processor, the memory is used for storing a set of program codes, and the processor calls the program codes to perform the following operations:

when the plurality of temperature sensors are arranged indoors, indoor temperature data sent by the temperature sensors are obtained, and the temperature data are used for describing indoor local temperature in the detection range of the temperature sensors;

generating and sending the setting positions corresponding to the temperature adjusting devices to a user side according to the temperature data;

after the plurality of temperature adjusting devices are arranged at the corresponding arrangement positions, acquiring the temperature data sent by the temperature sensor in real time;

generating temperature adjustment instructions corresponding to the plurality of temperature adjustment devices respectively according to the plurality of temperature data;

and sending the plurality of temperature adjusting instructions to the corresponding temperature adjusting devices so that the temperature adjusting devices can adjust the temperature according to the corresponding temperature adjusting instructions.

Optionally, the processor calls the program code, and is further configured to perform the following operations:

acquiring an adjustment request triggered by a user at the user side; the adjustment request comprises at least an adjustment region and an adjustment value;

generating temperature adjusting instructions corresponding to the plurality of temperature adjusting devices respectively according to the adjusting requests;

and sending the plurality of temperature adjusting instructions to the corresponding temperature adjusting devices so that the temperature adjusting devices can adjust the temperature according to the corresponding temperature adjusting instructions.

Optionally, the plurality of infrared thermal imagers are connected to the matrix switching device, and serve as input ends of the matrix switching device, and the processor calls the program code and is further configured to perform the following operations:

the method comprises the steps that an infrared thermal imager is obtained and used for obtaining the body surface temperature of an indoor user in real time;

generating temperature adjusting instructions respectively corresponding to the plurality of temperature adjusting devices according to the plurality of temperature data and the plurality of body surface temperatures;

and sending the plurality of temperature adjusting instructions to the corresponding temperature adjusting devices so that the temperature adjusting devices can adjust the temperature according to the corresponding temperature adjusting instructions.

Optionally, the processor calls the program code, and is further configured to perform the following operations:

acquiring correlation parameters between indoor parts corresponding to the plurality of temperature sensors;

acquiring a temperature adjusting device in the indoor part;

and generating the temperature adjusting instruction according to the correlation parameter and the temperature adjusting device in the indoor local part.

The embodiment of the invention provides an intelligent temperature control method, an intelligent temperature control device and an intelligent temperature control system of a matrix switching system, wherein the method is applied to the intelligent temperature control system of the matrix switching system, and the system comprises the following steps: the temperature control device comprises a matrix switching device, a plurality of temperature sensors and a plurality of temperature adjusting devices, wherein the temperature sensors are connected with the matrix switching device and used as the input end of the matrix switching device; the method comprises the following steps: when the plurality of temperature sensors are arranged indoors, the temperature sensors acquire indoor temperature data, and the temperature data is used for describing indoor local temperature in the detection range of the temperature sensors; the matrix switching device generates and sends the setting positions corresponding to the temperature adjusting devices to the user side according to the temperature data; after the plurality of temperature adjusting devices are arranged at the corresponding setting positions, the temperature sensor acquires temperature data in real time; the matrix switching device generates temperature adjusting instructions corresponding to the temperature adjusting devices respectively according to the temperature data; the temperature adjusting device adjusts the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device.

The technical scheme that this application provided reaches beneficial effect is:

after the plurality of temperature adjusting devices are arranged at the corresponding set positions, the temperature sensor acquires temperature data in real time; the matrix switching device generates temperature adjusting instructions corresponding to the temperature adjusting devices respectively according to the temperature data; the temperature can be reduced and increased and decreased according to the relevance among all rooms, the temperature increasing and decreasing efficiency is improved, the situation that rapid temperature decreasing or temperature increasing is achieved by increasing a temperature adjusting value is avoided, and electric energy is saved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a flowchart of an intelligent temperature control method of a matrix switching system according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an intelligent temperature control system of a matrix switching system according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an intelligent temperature control device of a matrix switching system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an intelligent temperature control device of a matrix switching system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

The invention provides an intelligent temperature control method of a matrix switching system, which is applied to an intelligent temperature control system of the matrix switching system, the intelligent temperature control system is mainly applied to temperature control in buildings and rooms, the matrix switching system can be a matrix switching device with multiple input ends and multiple output ends in practical application, and the matrix switching device can also comprise a processing unit which is used for responding to a temperature regulation request of a user end and data input by the multiple input ends, generating a temperature regulation instruction and outputting the temperature regulation instruction through the multiple output ends.

In practical applications, the intelligent temperature control system of the matrix switching system according to the embodiment of the present invention includes: the temperature control device comprises a matrix switching device, a plurality of temperature sensors and a plurality of temperature adjusting devices, wherein the temperature sensors are connected with the matrix switching device and used as input ends of the matrix switching device, and the temperature adjusting devices are connected with the matrix switching device and used as output ends of the matrix switching device.

The above system is merely exemplary, and the embodiment of the present invention does not limit the specific system.

The first embodiment is as follows:

an embodiment of the present invention provides an intelligent temperature control method for a matrix switching system, and as shown in fig. 1, the method includes:

101. after the plurality of temperature sensors are arranged indoors, the temperature sensors acquire indoor temperature data, and the temperature data is used for describing indoor local temperature in the detection range of the temperature sensors.

Specifically, in practical applications, the plurality of temperature sensors are arranged indoors, so that the plurality of temperature sensors can be installed already, and after the temperature sensors are installed, the temperature sensors are in communication connection with the matrix switching device, and the communication connection can be wired connection or wireless connection;

after the temperature sensor confirms that the connection with the matrix switching device is completed, indoor local temperature in a detection range is acquired in real time within a preset time period, and the indoor local temperature is sent to the matrix switching device.

102. And the matrix switching device generates and sends the setting positions corresponding to the temperature adjusting devices to the user side according to the temperature data.

Specifically, an indoor layout is preset on the matrix switching device, and after the plurality of temperature sensors are installed indoors, the positions of the plurality of temperature sensors in the indoor are acquired.

The process of presetting the layout in the room may be:

the matrix switching device sends a first input request to a user side, wherein the first input request is used for indicating an indoor layout;

the client displays a first input interface to a user, wherein the first input interface also comprises an importing sub-interface;

the user imports the indoor drawing in the import sub-interface, and the client displays the editing sub-interface after the import of the indoor drawing is successful;

the user edits the names of all rooms on the editing sub-interface;

the indoor drawings including the names of the rooms are indoor layout drawings.

The process of acquiring the positions of the plurality of temperature sensors in the room may be:

after the plurality of temperature sensors are arranged indoors, the matrix switching device sends a first input request to a user side, wherein the first input request is used for indicating the positions of the plurality of temperature sensors indoors;

the client displays a second input interface to the user, wherein the second input interface comprises an indoor layout;

and the user inputs the positions of the sensors in the room through gestures such as clicking on the second input interface.

For any one of the temperature sensors, the matrix switching device generates and sends the setting positions corresponding to the temperature adjusting devices to the user side according to the temperature data, specifically:

the matrix switching device calculates the temperature change rate of the temperature data in a preset time period; in order to more fully reflect the real change of the indoor temperature at each time of the day, the length of the preset time period may be one day.

If the temperature data is larger than the first threshold value, a temperature adjusting device is arranged at the position where the temperature sensor is located;

otherwise, not setting a temperature adjusting device;

sending the position of the temperature adjusting device to a user side;

the user side displays a third input interface, and the third input interface comprises an indoor layout and positions of the plurality of temperature adjusting devices on the indoor layout, so that a user can set the plurality of temperature adjusting devices indoors according to the positions of the plurality of temperature adjusting devices on the indoor layout.

103. After the plurality of temperature adjusting devices are arranged at the corresponding setting positions, the temperature sensor acquires temperature data in real time.

Specifically, the acquiring process is the same as the temperature data acquiring process described in steps 101 to 102, and is not described herein again.

104. The matrix switching device generates temperature adjustment commands corresponding to the plurality of temperature adjustment devices, respectively, based on the plurality of temperature data.

The process of step 104 may be implemented by:

201. and acquiring correlation parameters among indoor parts corresponding to the plurality of temperature sensors.

Specifically, the pre-operation times are set, and the pre-operation times respectively correspond to the seasons and the time periods of each day, and exemplarily, the corresponding manner may be:

the morning prerun time, the noon prerun time, the afternoon prerun time and the night prerun time are set in winter, and the spring, summer and autumn correspond to each other in the same manner as in winter.

In the pre-operation time, controlling any one of a plurality of temperature adjusting devices to be started, and increasing the temperature according to a preset temperature increase value;

acquiring temperature data acquired by the temperature sensor in real time in the pre-operation time;

acquiring temperature data sent by a plurality of temperature sensors;

calculating the temperature change rate of the temperature data in a preset time period;

obtaining all temperature sensors with temperature change rate larger than a preset value;

setting the correlation parameter of the indoor local part where the temperature sensor is positioned as a first numerical value;

the above operation is continued for the next thermostat.

In the pre-operation time, controlling any one of a plurality of temperature adjusting devices to be started, and increasing the temperature according to a preset temperature increase value;

acquiring temperature data acquired by the temperature sensor in real time in the pre-operation time;

acquiring temperature data sent by a plurality of temperature sensors;

calculating the temperature change rate of the temperature data in a preset time period;

obtaining all temperature sensors with temperature change rate larger than a preset value;

setting the indoor local correlation parameter of the temperature sensor as a second numerical value;

the above operation is continued for the next thermostat.

Change in season or

202. A temperature regulating device within the indoor portion is obtained.

Specifically, the temperature adjustment devices provided in the plurality of indoor parts are determined, and the determination process may be determined by a positional relationship between the temperature sensors and the installation positions of the temperature adjustment devices, and the specific determination manner is not limited by the embodiment of the present invention.

203. And generating a temperature adjusting instruction according to the correlation parameter and the temperature adjusting device in the indoor local part.

Specifically, a temperature adjustment value is obtained, wherein the temperature adjustment value can be a temperature increase value or a temperature decrease value, and the temperature adjustment value can be preset;

when the average temperature monitored by the plurality of temperature sensors in real time is smaller than a first temperature threshold value, setting a temperature regulation value as a temperature rise value;

acquiring a room with a temperature to be adjusted;

determining all indoor parts with correlation parameters of the indoor parts as first parameters according to the indoor parts contained in the room;

determining the temperature regulating devices in all indoor parts;

a temperature adjustment command is generated for the temperature adjustment devices in the room and the temperature adjustment devices in all the indoor parts to increase the temperature according to the temperature increase value.

When the average temperature monitored by the plurality of temperature sensors in real time is greater than a second temperature threshold value, setting a temperature regulation value as a temperature drop value;

acquiring a room with a temperature to be adjusted;

determining all indoor parts with correlation parameters of the indoor parts as second parameters according to the indoor parts contained in the room;

determining the temperature regulating devices in all indoor parts;

and generating a temperature regulating instruction for reducing the temperature of the temperature regulating devices in the room and the temperature regulating devices in all the indoor parts according to the temperature drop value.

105. The temperature adjusting device adjusts the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device.

Specifically, the temperature adjusting device is started according to the temperature adjusting instruction, and is cooled according to the temperature drop value or is heated according to the temperature rise value.

Optionally, after step 103, the method further includes:

301. the matrix switching device acquires an adjusting request triggered by a user at a user side; the adjustment request includes at least an adjustment region and an adjustment value.

Specifically, the adjustment area may be a room indicated by the user, and the user may input the adjustment area by inputting a name of the room at the user end;

and acquiring the adjustment value input by the user at the input end.

302. The matrix switching device generates temperature adjustment commands corresponding to the plurality of temperature adjustment devices, respectively, according to the adjustment request.

Specifically, according to a plurality of indoor parts contained in the room, all the indoor parts with the plurality of indoor part correlation parameters as first parameters are determined;

determining the temperature regulating devices in all indoor parts;

and generating a temperature regulating instruction for heating or cooling the temperature regulating device in the room and the temperature regulating devices in all the indoor parts according to the regulating value.

303. The temperature adjusting device adjusts the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device.

Specifically, the process is the same as the process described in step 105, and is not described here again.

Optionally, the system further includes a plurality of thermal infrared imagers, the plurality of thermal infrared imagers are connected to the matrix switching device, and serve as input terminals of the matrix switching device, and after step 103, the method further includes:

401. the infrared thermal imager acquires the body surface temperature of an indoor user in real time.

Specifically, the acquisition process may be obtained through parameters monitored by an infrared thermal imager, and the specific acquisition mode is not limited in the embodiment of the present invention.

402. The matrix switching device generates temperature adjusting instructions corresponding to the plurality of temperature adjusting devices respectively according to the plurality of temperature data and the plurality of body surface temperatures.

Specifically, if the body surface temperature is lower than a first body surface temperature threshold value, a first rising value is generated;

if the body surface temperature is higher than the second body surface temperature threshold value, generating a first drop value;

determining all indoor parts with correlation parameters of the indoor parts as first parameters according to the indoor parts contained in the room where the user is located;

determining the temperature regulating devices in all indoor parts;

and generating a temperature adjusting instruction for increasing the temperature of the temperature adjusting device in the room and the temperature adjusting devices in all the indoor parts according to the first increasing value or decreasing the temperature according to the first decreasing value.

403. The temperature adjusting device adjusts the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device.

Specifically, the process is the same as the process described in step 105, and is not described here again.

Example two

Referring to fig. 2, an embodiment of the present invention provides an intelligent temperature control system of a matrix switching system, the system includes a matrix switching device 21, a plurality of temperature sensors 22 and a plurality of temperature adjustment devices 23, the plurality of temperature sensors 22 are connected to the matrix switching device 21 and serve as input terminals of the matrix switching device 21, and the plurality of temperature adjustment devices 23 are connected to the matrix switching device 21 and serve as output terminals of the matrix switching device 21; wherein:

after the plurality of temperature sensors 22 are disposed indoors, the temperature sensors 22 are configured to obtain indoor temperature data, where the indoor temperature data is used to describe an indoor local temperature within a detection range of the temperature sensors 22;

the matrix switching device 21 is configured to generate and send setting positions corresponding to the plurality of temperature adjusting devices 23 to the user terminal 24 according to the plurality of temperature data;

after the plurality of temperature adjusting devices 23 are arranged at the corresponding arrangement positions, the temperature sensor 22 is used for acquiring temperature data in real time;

the matrix switching device 21 is configured to generate temperature adjustment instructions corresponding to the plurality of temperature adjustment devices 23, respectively, based on the plurality of temperature data;

the temperature adjusting device 23 adjusts the temperature in accordance with a temperature adjustment command corresponding thereto.

Alternatively to this, the first and second parts may,

the matrix switching device 21 is further configured to obtain an adjustment request triggered by a user at the user end 24; the adjustment request comprises at least an adjustment region and an adjustment value;

the matrix switching device 21 is further configured to generate temperature adjustment instructions corresponding to the plurality of temperature adjustment devices 23, respectively, according to the adjustment request;

the temperature adjusting device 23 is also configured to perform temperature adjustment according to a temperature adjustment instruction corresponding thereto.

Optionally, the system further includes a plurality of thermal infrared imagers, which are connected to the matrix switching device 21 and serve as input terminals of the matrix switching device 21, wherein:

the infrared thermal imager is used for acquiring the body surface temperature of an indoor user in real time;

the matrix switching device 21 is configured to generate temperature adjustment instructions corresponding to the plurality of temperature adjustment devices 23, respectively, according to the plurality of temperature data and the plurality of body surface temperatures;

the temperature adjusting device 23 adjusts the temperature in accordance with a temperature adjustment command corresponding thereto.

Optionally, the matrix switching device 21 is specifically configured to:

acquiring correlation parameters between indoor parts corresponding to the plurality of temperature sensors 22;

acquiring a temperature adjusting device in an indoor local part;

a temperature adjustment command is generated based on the correlation parameter and the temperature adjustment device 23 in the indoor area.

EXAMPLE III

Referring to fig. 3, an embodiment of the present invention provides an intelligent temperature control device 3 of a matrix switching system, where the device 3 is the matrix switching device 3 described in the above embodiment, where a plurality of temperature sensors are connected to the matrix switching device 3 as an input end of the matrix switching device 3, and a plurality of temperature adjustment devices are connected to the matrix switching device 3 as an output end of the matrix switching device 3; the device includes:

the acquiring module 31 is configured to acquire indoor temperature data sent by the temperature sensors after the plurality of temperature sensors are disposed indoors, where the temperature data is used to describe indoor local temperatures within a detection range of the temperature sensors;

the processing module 32 is configured to generate and send setting positions corresponding to the plurality of temperature adjustment devices to the user side according to the plurality of temperature data;

the obtaining module 31 is further configured to obtain temperature data sent by the temperature sensor in real time after the plurality of temperature adjusting devices are set at the corresponding set positions;

the processing module 32 is further configured to generate temperature adjustment instructions corresponding to the plurality of temperature adjustment devices according to the plurality of temperature data;

and a sending module 33, configured to send the multiple temperature adjustment instructions to the corresponding temperature adjustment devices, so that the temperature adjustment devices perform temperature adjustment according to the corresponding temperature adjustment instructions.

Alternatively to this, the first and second parts may,

the obtaining module 31 is further configured to obtain an adjustment request triggered by a user at a user side; the adjustment request comprises at least an adjustment region and an adjustment value;

the processing module 32 is further configured to generate temperature adjustment instructions corresponding to the plurality of temperature adjustment devices according to the adjustment request;

the sending module 33 is further configured to send the plurality of temperature adjustment instructions to the corresponding temperature adjustment devices, so that the temperature adjustment devices perform temperature adjustment according to the temperature adjustment instructions corresponding thereto.

Optionally, a plurality of infrared thermal imagers are connected with the matrix switching device and used as the input end of the matrix switching device,

the obtaining module 31 is further configured to obtain an infrared thermal imager for obtaining a body surface temperature of an indoor user in real time;

the processing module 32 is further configured to generate temperature adjustment instructions corresponding to the plurality of temperature adjustment devices according to the plurality of temperature data and the plurality of body surface temperatures;

the sending module 33 is further configured to send the plurality of temperature adjustment instructions to the corresponding temperature adjustment devices, so that the temperature adjustment devices perform temperature adjustment according to the temperature adjustment instructions corresponding thereto.

Optionally, the processing module 32 is further specifically configured to:

acquiring correlation parameters between indoor parts corresponding to a plurality of temperature sensors;

acquiring a temperature adjusting device in an indoor local part;

and generating a temperature adjusting instruction according to the correlation parameter and the temperature adjusting device in the indoor local part.

Example four

Referring to fig. 4, an embodiment of the present invention provides an intelligent temperature control device 4 of a matrix switching system, where the device is a matrix switching device 4, the device 4 includes a memory 41 and a processor 42, the memory 41 is used for storing a set of program codes, and the processor 42 calls the program codes to perform the following operations:

when the plurality of temperature sensors are arranged indoors, indoor temperature data sent by the temperature sensors are obtained, and the temperature data are used for describing indoor local temperature in the detection range of the temperature sensors;

generating and sending the setting positions corresponding to the temperature adjusting devices to the user side according to the temperature data;

after the plurality of temperature adjusting devices are arranged at the corresponding setting positions, acquiring temperature data sent by the temperature sensor in real time;

generating temperature adjustment instructions corresponding to the plurality of temperature adjustment devices respectively according to the plurality of temperature data;

and sending the plurality of temperature adjusting instructions to the corresponding temperature adjusting devices so that the temperature adjusting devices can adjust the temperature according to the corresponding temperature adjusting instructions.

Optionally, the processor 42 calls program code for performing the following operations:

acquiring an adjustment request triggered by a user at a user side; the adjustment request comprises at least an adjustment region and an adjustment value;

generating temperature adjusting instructions corresponding to the plurality of temperature adjusting devices respectively according to the adjusting requests;

and sending the plurality of temperature adjusting instructions to the corresponding temperature adjusting devices so that the temperature adjusting devices can adjust the temperature according to the corresponding temperature adjusting instructions.

Optionally, the multiple infrared thermal imagers are connected to the matrix switching device, and serve as input terminals of the matrix switching device, and the processor 42 calls the program code to execute the following operations:

the method comprises the steps that an infrared thermal imager is obtained and used for obtaining the body surface temperature of an indoor user in real time;

generating temperature adjusting instructions respectively corresponding to the plurality of temperature adjusting devices according to the plurality of temperature data and the plurality of body surface temperatures;

and sending the plurality of temperature adjusting instructions to the corresponding temperature adjusting devices so that the temperature adjusting devices can adjust the temperature according to the corresponding temperature adjusting instructions.

Optionally, the processor 42 calls program code for performing the following operations:

acquiring correlation parameters between indoor parts corresponding to a plurality of temperature sensors;

acquiring a temperature adjusting device in an indoor local part;

and generating a temperature adjusting instruction according to the correlation parameter and the temperature adjusting device in the indoor local part.

All the above-mentioned optional technical solutions can be combined arbitrarily to form the optional embodiments of the present invention, and are not described herein again.

The embodiment of the invention provides an intelligent temperature control method, device and system of a matrix switching system, wherein after a plurality of temperature adjusting devices are arranged at corresponding set positions, a temperature sensor acquires temperature data in real time; the matrix switching device generates temperature adjusting instructions corresponding to the temperature adjusting devices respectively according to the temperature data; the temperature can be reduced and increased and decreased according to the relevance among all rooms, the temperature increasing and decreasing efficiency is improved, the situation that rapid temperature decreasing or temperature increasing is achieved by increasing a temperature adjusting value is avoided, and electric energy is saved.

It should be noted that: in the above-mentioned embodiment, when the intelligent temperature control device and system of the matrix switching system are implemented, the division of the above-mentioned functional modules is merely used as an example, and in practical applications, the above-mentioned function distribution can be completed by different functional modules according to needs, that is, the internal structures of the system and the device are divided into different functional modules, so as to complete all or part of the above-mentioned functions. In addition, the intelligent temperature control method, the intelligent temperature control device and the intelligent temperature control system provided by the embodiment belong to the same concept, and specific implementation processes thereof are described in the method embodiment and are not described herein again.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (1)

1. An intelligent temperature control method for a matrix switching system, the method being applied to an intelligent temperature control system for a matrix switching system, the system comprising: the temperature control device comprises a matrix switching device, a plurality of temperature sensors and a plurality of temperature adjusting devices, wherein the temperature sensors are connected with the matrix switching device and used as input ends of the matrix switching device, and the temperature adjusting devices are connected with the matrix switching device and used as output ends of the matrix switching device; the method comprises the following steps:

when the plurality of temperature sensors are arranged indoors, the temperature sensors acquire indoor temperature data, and the temperature data is used for describing indoor local temperature within the detection range of the temperature sensors;

the matrix switching device generates and sends the setting positions corresponding to the temperature adjusting devices to the user side according to the temperature data;

after the plurality of temperature adjusting devices are arranged at the corresponding arrangement positions, the temperature sensor acquires the temperature data in real time;

the matrix switching device generates temperature adjusting instructions corresponding to the temperature adjusting devices respectively according to the temperature data;

the temperature adjusting device adjusts the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device;

wherein the matrix switching device generating the temperature adjustment commands respectively corresponding to the plurality of temperature adjustment devices according to the plurality of temperature data includes:

acquiring correlation parameters between indoor parts corresponding to the plurality of temperature sensors;

acquiring a temperature adjusting device in the indoor part;

generating the temperature adjusting instruction according to the correlation parameter and a temperature adjusting device in the indoor part;

the acquiring of the correlation parameters between the indoor parts corresponding to the plurality of temperature sensors includes:

in the pre-operation time, controlling any one of the temperature adjusting devices to be started, and increasing the temperature according to a preset temperature increase value;

acquiring temperature data acquired by the temperature sensor in real time in the pre-operation time;

acquiring temperature data sent by the plurality of temperature sensors;

calculating the temperature change rate of the temperature data in a preset time period;

obtaining all temperature sensors with temperature change rate larger than a preset value;

setting the correlation parameter of the indoor local part where the temperature sensor is positioned as a first numerical value;

the matrix switching device acquires an adjustment request triggered by a user at the user side; the adjustment request comprises at least an adjustment region and an adjustment value;

the matrix switching device generates temperature adjusting instructions corresponding to the plurality of temperature adjusting devices respectively according to the adjusting request;

the temperature adjusting device adjusts the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device;

the system further comprises a plurality of infrared thermal imagers, the plurality of infrared thermal imagers are connected with the matrix switching device and used as input ends of the matrix switching device, and the method further comprises the following steps:

the infrared thermal imager acquires the body surface temperature of an indoor user in real time;

the matrix switching device generates temperature adjusting instructions corresponding to the temperature adjusting devices respectively according to the temperature data and the body surface temperatures;

the temperature adjusting device adjusts the temperature according to the temperature adjusting instruction corresponding to the temperature adjusting device;

the system is applied to an intelligent temperature control device of a matrix switching system, the device is a matrix switching device, a plurality of temperature sensors are connected with the matrix switching device and used as the input end of the matrix switching device, and a plurality of temperature adjusting devices are connected with the matrix switching device and used as the output end of the matrix switching device; the device comprises:

the acquisition module is used for acquiring indoor temperature data sent by the temperature sensors after the temperature sensors are arranged indoors, and the temperature data is used for describing indoor local temperature in the detection range of the temperature sensors;

the processing module is used for generating and sending the setting positions corresponding to the temperature adjusting devices to the user side according to the temperature data;

the acquisition module is further used for acquiring the temperature data sent by the temperature sensor in real time after the plurality of temperature adjusting devices are arranged at the corresponding arrangement positions;

the processing module is further used for generating temperature adjusting instructions corresponding to the plurality of temperature adjusting devices according to the plurality of temperature data;

the sending module is used for sending the plurality of temperature adjusting instructions to the corresponding temperature adjusting devices so that the temperature adjusting devices can adjust the temperature according to the corresponding temperature adjusting instructions;

wherein the processing module is specifically configured to:

acquiring correlation parameters between indoor parts corresponding to the plurality of temperature sensors;

acquiring a temperature adjusting device in the indoor part;

generating the temperature adjusting instruction according to the correlation parameter and a temperature adjusting device in the indoor part;

the acquiring of the correlation parameters between the indoor parts corresponding to the plurality of temperature sensors includes:

in the pre-operation time, controlling any one of the temperature adjusting devices to be started, and increasing the temperature according to a preset temperature increase value;

acquiring temperature data acquired by the temperature sensor in real time in the pre-operation time;

acquiring temperature data sent by the plurality of temperature sensors;

calculating the temperature change rate of the temperature data in a preset time period;

obtaining all temperature sensors with temperature change rate larger than a preset value;

setting the correlation parameter of the indoor local part where the temperature sensor is positioned as a first numerical value;

the apparatus includes a memory for storing a set of program code and a processor that invokes the program code to perform the operations of:

when the plurality of temperature sensors are arranged indoors, indoor temperature data sent by the temperature sensors are obtained, and the temperature data are used for describing indoor local temperature in the detection range of the temperature sensors;

generating and sending the setting positions corresponding to the temperature adjusting devices to a user side according to the temperature data;

after the plurality of temperature adjusting devices are arranged at the corresponding arrangement positions, acquiring the temperature data sent by the temperature sensor in real time;

generating temperature adjustment instructions corresponding to the plurality of temperature adjustment devices respectively according to the plurality of temperature data;

sending the plurality of temperature adjusting instructions to corresponding temperature adjusting devices so that the temperature adjusting devices can adjust the temperature according to the corresponding temperature adjusting instructions;

wherein the matrix switching device generating the temperature adjustment commands respectively corresponding to the plurality of temperature adjustment devices according to the plurality of temperature data includes:

acquiring correlation parameters between indoor parts corresponding to the plurality of temperature sensors;

acquiring a temperature adjusting device in the indoor part;

generating the temperature adjusting instruction according to the correlation parameter and a temperature adjusting device in the indoor part;

the acquiring of the correlation parameters between the indoor parts corresponding to the plurality of temperature sensors includes:

in the pre-operation time, controlling any one of the temperature adjusting devices to be started, and increasing the temperature according to a preset temperature increase value;

acquiring temperature data acquired by the temperature sensor in real time in the pre-operation time;

acquiring temperature data sent by the plurality of temperature sensors;

calculating the temperature change rate of the temperature data in a preset time period;

obtaining all temperature sensors with temperature change rate larger than a preset value;

and setting the indoor local correlation parameter of the temperature sensor as a first numerical value.

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