CN112381492A

CN112381492A - Temperature data processing method and device, electronic equipment and storage medium

Info

Publication number: CN112381492A
Application number: CN202110060231.1A
Authority: CN
Inventors: 肖中喜; 沈国斌
Original assignee: Lazas Network Technology Shanghai Co Ltd; Zhejiang Koubei Network Technology Co Ltd
Current assignee: Lazas Network Technology Shanghai Co Ltd; Zhejiang Koubei Network Technology Co Ltd
Priority date: 2021-01-15
Filing date: 2021-01-15
Publication date: 2021-02-19
Anticipated expiration: 2041-01-15
Also published as: CN112381492B

Abstract

The embodiment of the application provides a temperature data processing method, which is applied to a client corresponding to a distribution resource, and the method comprises the following steps: obtaining a first message which is sent by temperature measuring equipment and carries temperature data in a distribution box, wherein the temperature measuring equipment is used for measuring the temperature data in the distribution box; and sending a second message carrying the temperature data in the distribution box to a server for monitoring the temperature data in the distribution box. The client corresponding to the distribution resources in the embodiment of the application transmits the temperature data in the distribution box sent by the temperature measuring equipment to the server for monitoring the temperature data in the distribution box, so that the server can monitor the distribution temperature, and the quality of distribution objects in the distribution process is guaranteed.

Description

Temperature data processing method and device, electronic equipment and storage medium

Technical Field

The present application relates to the field of temperature monitoring, and in particular, to a temperature data processing method, a temperature data reporting method, and a temperature monitoring method. The application also relates to a temperature data processing device, a temperature data reporting device, a temperature monitoring device, an electronic device and a storage medium.

Background

With the improvement of living standard, the consumption idea of people is also upgraded. For example, in the take-out distribution industry, users no longer only seek the characteristics of high cost performance, instantaneity and the like of take-out provided by merchants, but also have higher quality requirements for take-out, such as: mouth feel, integrity, temperature, etc. of the take-away.

In current dispensing technology, there are many objects to be dispensed that require dispensing temperature. If the delivery temperature does not meet the temperature requirements of the delivery objects during the actual delivery process, the delivery objects may lose the quality they should have when they are delivered to the user.

Therefore, monitoring the delivery temperature is a need in the delivery field. However, how to monitor the dispensing temperature is a problem to be solved.

Disclosure of Invention

The embodiment of the application provides a temperature data processing method and device, electronic equipment and a storage medium, so as to realize monitoring of distribution temperature.

The embodiment of the application provides a temperature data processing method, which is applied to a client corresponding to a distribution resource, and the method comprises the following steps: obtaining a first message which is sent by temperature measuring equipment and carries temperature data in a distribution box, wherein the temperature measuring equipment is used for measuring the temperature data in the distribution box; and sending a second message carrying the temperature data in the distribution box to a server for monitoring the temperature data in the distribution box.

Optionally, the temperature measuring device is installed in the distribution box.

Optionally, the temperature data processing method further includes: responding to the distribution resource to start the triggering operation of the temperature measurement equipment for monitoring the temperature, and displaying a temperature monitoring page corresponding to the temperature measurement equipment, wherein the temperature monitoring page is used for providing entry information for binding the client and the temperature measurement equipment.

Optionally, the temperature data processing method further includes: and binding the identification information of the client corresponding to the distributed resources with the temperature measuring equipment, and sending the corresponding relation formed between the identification information of the client corresponding to the distributed resources and the temperature measuring equipment to a server.

Optionally, the binding the identification information of the client corresponding to the distributed resource with the temperature measurement device, and sending the correspondence between the identification information of the client corresponding to the distributed resource and the temperature measurement device to the server, includes: and in response to the detection of the input operation aiming at the identification information of the temperature measuring equipment, binding the identification information of the client corresponding to the distributed resources with the identification information of the temperature measuring equipment, and sending the corresponding relation between the identification information of the client corresponding to the distributed resources and the identification information of the temperature measuring equipment to a server.

Optionally, the binding the identification information of the client corresponding to the distributed resource with the temperature measurement device, and sending the correspondence formed between the client corresponding to the distributed resource and the temperature measurement device to the server, includes: opening an identification code scanning interface for scanning the identification code; obtaining identification information of the temperature measuring equipment by identifying the identification code of the temperature measuring equipment; and establishing a corresponding relation between the identification information of the client corresponding to the distributed resources and the identification information of the temperature measuring equipment, and sending the corresponding relation formed between the identification information of the client corresponding to the distributed resources and the temperature measuring equipment to a server.

Optionally, the binding the identification information of the client corresponding to the distributed resource with the temperature measurement device, and sending the correspondence between the identification information of the client corresponding to the distributed resource and the temperature measurement device to the server, includes: starting a Bluetooth scanning function of the client; obtaining identification information of equipment with a Bluetooth data transmission function started through a Bluetooth scanning function; obtaining the identification information of the temperature measuring equipment from the equipment information with the Bluetooth data transmission function started; and establishing a corresponding relation between the identification information of the client corresponding to the distributed resources and the identification information of the temperature measuring equipment, and sending the corresponding relation formed between the identification information of the client corresponding to the distributed resources and the temperature measuring equipment to a server.

Optionally, the obtaining of the first message carrying the temperature data in the distribution box sent by the temperature measurement device includes: and receiving a first message which is sent by the temperature measuring equipment through a Bluetooth communication link and carries temperature data in the distribution box.

Optionally, before the step of receiving the first message carrying the temperature data in the distribution box sent by the temperature measuring device through the bluetooth communication link, the method includes: and establishing Bluetooth communication connection with the temperature measuring equipment.

Optionally, the temperature data processing method further includes: carrying out deduplication processing on the temperature data in the distribution box obtained from the temperature measurement equipment to obtain the temperature data in the distribution box after the deduplication processing; the sending of the second message carrying the temperature data in the distribution box to the server for monitoring the temperature data in the distribution box includes: and sending a second message carrying the temperature data in the distribution box after the deduplication processing to a server side for monitoring the temperature data in the distribution box.

Optionally, the obtaining of the first message carrying the temperature data in the distribution box sent by the temperature measurement device includes: acquiring a first message which is sent by the temperature measuring equipment through a point-to-point mode and carries temperature data in a distribution box; the method further comprises the following steps: obtaining a third message which is sent by the temperature measuring equipment in a broadcast mode and carries temperature data in the distribution box, wherein the temperature data in the distribution box carried by the third message is the same as the temperature data in the distribution box carried by the first message; the removing the duplicate of the temperature data in the distribution box obtained from the temperature measuring equipment to obtain the temperature data in the distribution box after the removing the duplicate comprises: and performing deduplication processing on the temperature data in the distribution box carried by the third message and the temperature data in the distribution box carried by the first message to obtain the temperature data in the distribution box after deduplication processing.

An embodiment of the present application further provides a temperature data processing apparatus, which is applied to a client corresponding to a distribution resource, and includes: the system comprises a first message obtaining unit, a first message sending unit and a second message sending unit, wherein the first message carrying temperature data in a distribution box is sent by temperature measuring equipment; and the second message sending unit is used for sending a second message carrying the temperature data in the distribution box to a server side used for monitoring the temperature data in the distribution box.

The embodiment of the application also provides a temperature data reporting method, which is applied to temperature measuring equipment for measuring temperature data in a distribution box, and the method comprises the following steps: obtaining temperature data in the distribution box; and sending a first message carrying the temperature data in the distribution box to a client corresponding to the distribution resource.

Optionally, the method for reporting temperature data further includes: obtaining time information of temperature data in the distribution box; acquiring time information actually corresponding to the temperature data in the distribution box according to the acquired time information and the temperature measurement time delay information; the first message further comprises time information actually corresponding to the temperature data in the distribution box.

Optionally, the obtaining temperature data in the distribution box includes: obtaining temperature data in the distribution box obtained through measurement; the method further comprises the following steps: obtaining measurement time information corresponding to the temperature data in the distribution box obtained through measurement; obtaining temperature data in the distribution box actually corresponding to the measurement time information according to the temperature measurement time delay information and the temperature data in the distribution box obtained through measurement; the temperature data in the distribution box carried by the first message is the temperature data in the distribution box actually corresponding to the measurement time information.

Optionally, the sending a first message carrying the temperature data in the distribution box to the client corresponding to the distribution resource includes: and sending a first message carrying the temperature data in the distribution box to a client corresponding to the distribution resource through a Bluetooth communication link.

Optionally, before the step of sending the first message carrying the temperature data in the distribution box to the client corresponding to the distribution resource through the bluetooth communication link, the method includes: and establishing Bluetooth communication connection with the client.

Optionally, the method for reporting temperature data further includes: obtaining the working mode information of the temperature measuring equipment; the obtaining temperature data within the distribution box includes: and obtaining temperature data in the distribution box according to the obtained working mode information of the temperature measuring equipment.

Optionally, the working mode information includes normal working mode information and low-power consumption working mode information, and the interval period duration of obtaining the temperature data in the distribution box according to the normal working mode information is shorter than the interval period duration of obtaining the temperature data in the distribution box according to the low-power consumption working mode information.

The embodiment of the present application further provides a temperature data reporting device, which is applied to a temperature measurement device for measuring temperature data in a distribution box, and includes: a temperature data obtaining unit for obtaining temperature data in the distribution box; and the first message sending unit is used for sending a first message carrying the temperature data in the distribution box to a client corresponding to the distribution resource.

The embodiment of the application further provides a temperature monitoring method, which is applied to a server side for monitoring temperature data in a distribution box, and the method comprises the following steps: acquiring a second message which is sent by a client corresponding to the distribution resource and carries the temperature data in the distribution box; and obtaining a temperature monitoring result aiming at the distribution box according to the temperature data in the distribution box.

Optionally, the obtaining a result of monitoring the temperature in the distribution box according to the temperature data in the distribution box includes: sending the temperature data in the distribution box to a client of a target entity object, wherein the target entity object is an entity object corresponding to the target object in the distribution box; and obtaining a temperature monitoring result which is returned by the client of the target entity object and aims at the inside of the distribution box.

Optionally, the temperature monitoring method further includes: acquiring time information corresponding to the temperature data in the distribution box; obtaining target order information corresponding to the time information and the distribution resources; acquiring identification information of the target entity object corresponding to the target order information; acquiring client identification information of the target entity object according to the identification information of the target entity object; the step of sending the temperature data in the distribution box to the client of the target entity object comprises the following steps: and sending the temperature data in the distribution box to the client of the target entity object according to the client identification information of the target entity object.

Optionally, the obtaining a result of monitoring the temperature in the distribution box according to the temperature data in the distribution box includes: obtaining distribution temperature requirement information for a target object in the distribution box; and obtaining a temperature monitoring result aiming at the distribution box according to the distribution temperature requirement information and the temperature data in the distribution box.

Optionally, the temperature monitoring method further includes: acquiring time information corresponding to the temperature data in the distribution box; obtaining target order information corresponding to the time information and the distribution resources; and acquiring the identification information of the target object corresponding to the target order information.

Optionally, the obtaining of the distribution temperature requirement information for the target object in the distribution box includes: and obtaining the distribution temperature requirement information provided by a client of a target entity object, wherein the target entity object is an entity object corresponding to the target object in the distribution box.

Optionally, the temperature monitoring method further includes: acquiring time information corresponding to the temperature data in the distribution box; obtaining target order information corresponding to the time information and the distribution resources; acquiring identification information of the target entity object corresponding to the target order information; acquiring client identification information of the target entity object according to the identification information of the target entity object; the obtaining of the delivery temperature requirement information provided by the client of the target entity object includes: sending a request message for requesting to obtain the distribution temperature requirement information to the client of the target entity object according to the client identification information of the target entity object; and obtaining the distribution temperature requirement information provided by the client of the target entity object for the request message.

Optionally, the temperature monitoring method further includes: and sending the temperature monitoring result to a client corresponding to the distribution resource, and/or sending the temperature monitoring result to a client corresponding to a management end of the distribution resource.

The embodiment of the application further provides a temperature monitoring device, which is applied to a server side for monitoring temperature data in a distribution box, and the method comprises the following steps: a second message obtaining unit, configured to obtain a second message that is sent by a client corresponding to a distribution resource and carries temperature data in the distribution box; and the temperature monitoring result obtaining unit is used for obtaining a temperature monitoring result aiming at the distribution box according to the temperature data in the distribution box.

An embodiment of the present application further provides a temperature data processing system, including: the system comprises temperature measuring equipment, a client side and a server side corresponding to distribution resources; the temperature measuring equipment is used for obtaining temperature data in a distribution box and sending a first message carrying the temperature data in the distribution box to a client corresponding to the distribution resource, wherein the temperature measuring equipment is used for measuring the temperature data in the distribution box; the client corresponding to the distribution resource is used for receiving a first message which is sent by the temperature measuring equipment and carries temperature data in a distribution box, obtaining a second message which carries the temperature data in the distribution box according to the first message, and sending the second message which carries the temperature data in the distribution box to a server for monitoring the temperature data in the distribution box; the server is configured to receive a second message carrying the temperature data in the distribution box sent by the client corresponding to the distribution resource, and obtain a temperature monitoring result for the distribution box according to the temperature data in the distribution box.

Optionally, the obtaining the temperature data in the distribution box and sending the first message carrying the temperature data in the distribution box to the client corresponding to the distribution resource includes: obtaining temperature data in the distribution box obtained through measurement; obtaining measurement time information corresponding to the temperature data in the distribution box obtained through measurement; obtaining temperature data in the distribution box actually corresponding to the measurement time information according to the temperature measurement time delay information and the temperature data in the distribution box obtained through measurement; and obtaining and sending the first message carrying the temperature data in the distribution box to a client corresponding to the distribution resource, wherein the temperature data in the distribution box carried by the first message is the temperature data in the distribution box actually corresponding to the measurement time information.

Optionally, the sending the first message carrying the temperature data in the distribution box to the client corresponding to the distribution resource includes: and sending a first message carrying the temperature data in the distribution box to a client corresponding to the distribution resource through a Bluetooth communication link.

Optionally, the temperature data processing system further includes: carrying out deduplication processing on the received temperature data which is sent by the temperature measuring equipment and carries the temperature data in the distribution box, and obtaining the temperature data in the distribution box after deduplication processing; the sending the second message carrying the temperature data in the distribution box to a server for monitoring the temperature data in the distribution box includes: and sending a second message carrying the temperature data in the distribution box after the deduplication processing to a server side for monitoring the temperature data in the distribution box.

An embodiment of the present application further provides an electronic device, where the electronic device is a client corresponding to a distribution resource, or a temperature measurement device for measuring temperature data in a distribution box, or a server for monitoring temperature data in the distribution box, and the electronic device includes: a processor; and a memory for storing a computer program which, when powered on and run by the processor, performs any of the methods described above.

The embodiment of the present application further provides a storage medium, where the storage medium is applied to a client corresponding to a distribution resource, or applied to a temperature measurement device for measuring temperature data in a distribution box, or applied to a server for monitoring temperature data in a distribution box, and the storage medium stores a computer program, and the computer program is run by a processor to execute any one of the methods described above.

Compared with the prior art, the method has the following advantages:

Drawings

Fig. 1 is a schematic view of an application scenario for processing temperature data in the embodiment of the present application.

Fig. 2 is a flowchart of a temperature data processing method provided in the first embodiment of the present application.

Fig. 3 is a flowchart of a temperature data processing apparatus provided in a second embodiment of the present application.

Fig. 4 is a flowchart of a temperature data reporting method in a third embodiment of the present application.

Fig. 5 is a flowchart of a temperature data reporting apparatus according to a fourth embodiment of the present application.

Fig. 6 is a flowchart of a temperature monitoring method provided in a fifth embodiment of the present application.

Fig. 7 is a flowchart of a temperature monitoring device provided in a sixth embodiment of the present application.

Fig. 8 is a schematic diagram of an electronic device provided in a seventh embodiment of the present application.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of implementation in many different ways than those herein set forth and of similar import by those skilled in the art without departing from the spirit of this application and is therefore not limited to the specific implementations disclosed below.

In order to more clearly show the temperature data processing method provided by the embodiment of the present application, an application scenario of the temperature data processing method provided by the embodiment of the present application is first introduced. In practical application, the temperature data processing method provided by the application is used for processing the temperature data in the rider distribution box, wherein the distribution resources can be understood as riders, and the clients corresponding to the distribution resources can be understood as APPs on the rider terminals. As shown in fig. 1, the specific implementation is as follows: firstly, temperature measuring equipment arranged in a distribution box sends temperature data in the distribution box to an APP on a rider terminal; then, the APP on the rider terminal sends the received temperature data in the distribution box to the server; finally, the server can perform real-time monitoring according to the obtained temperature data so as to find out damaged temperature measuring equipment in time, and therefore the takeout quality can be better guaranteed to meet the consumption requirements of users.

The following embodiments are explained by taking the above scenario as an example, but are not limited to the above scenario.

First embodiment

The first embodiment of the present application provides a temperature data processing method, the execution subject of which is APP on the rider terminal, as shown in fig. 2. The method provided by the present embodiment is described in detail below with reference to fig. 2. The following description refers to embodiments for the purpose of illustrating the principles of the methods, and is not intended to be limiting in actual use.

Step S201, obtaining a first message carrying temperature data in a distribution box sent by a temperature measurement device, where the temperature measurement device is a device for measuring temperature data in the distribution box.

The purpose of this step is to obtain temperature data in the distribution box sent by the thermometric equipment.

The temperature measuring equipment can be arranged in the distribution box or outside the distribution box, and the temperature in the distribution box is obtained by communicating the connecting body with the inside of the distribution box, so that the temperature measuring equipment is not limited to the above and is only required to detect the temperature in the distribution box.

Before the APP on the rider terminal receives temperature data, the APP is necessarily required to be opened by a rider, and in order to enable the temperature measuring equipment to have a problem, the corresponding distribution order merchant can be found in time, and identification information of the APP on the rider terminal is related to the rider (such as personal information, affiliated company information (namely information of take-out merchants) and the like).

Then, the APP on the rider terminal needs to receive temperature data sent by the temperature measuring equipment in the distribution box, and therefore the APP on the rider terminal and the APP need to be bound. The method specifically comprises the following steps: responding to the distribution resource to start the triggering operation of the temperature measurement equipment for monitoring the temperature, and displaying a temperature monitoring page corresponding to the temperature measurement equipment, wherein the temperature monitoring page is used for providing entry information for binding the client and the temperature measurement equipment. Namely, according to the operation that the rider clicks the start-up temperature monitoring on the APP page, the APP can display corresponding entry information, and the entry information is used for binding the client and the temperature measuring equipment.

In order to enable a server to conveniently know temperature measuring equipment where a delivery object is located and a rider (or a company corresponding to the rider) who delivers the delivery object, the corresponding relationship between identification information of a client and the temperature measuring equipment needs to be obtained according to the binding relationship between the client corresponding to the rider and the temperature measuring equipment, and the method specifically comprises the following steps: inputting the identification information of the temperature measuring equipment at the entrance message to further obtain the corresponding relation between the identification information of the client and the temperature measuring equipment; or the rider scans the identification information of the temperature measuring equipment by using a terminal code scanning function, so as to obtain the corresponding relation between the identification information of the client and the temperature measuring equipment; or, scan through the bluetooth function in the APP on the rider terminal, select above-mentioned temperature measuring equipment from the equipment that scans to connect, and then obtain the corresponding relation of the identification information of above-mentioned customer end and above-mentioned temperature measuring equipment.

In order to obtain the temperature data in the distribution box sent by the temperature measuring equipment, the temperature measuring equipment and the APP on the rider terminal must be connected in any mode, such as cellular data, WiFi and Bluetooth, without limitation.

Preferably, the temperature measuring equipment adopts the bluetooth mode to be connected with the APP on the rider terminal in this application embodiment, and the concrete mode is as follows: the Bluetooth communication connection between the APP on the rider terminal and the temperature measuring equipment is established, and then the APP on the rider terminal receives a first message which is sent by the temperature measuring equipment and carries temperature data in a distribution box. However, since there is a broadcast or one-to-many connection in bluetooth, the first message obtaining method includes: acquiring a first message which is sent by the temperature measuring equipment through a point-to-point mode and carries temperature data in a distribution box; and obtaining a third message which is sent by the temperature measuring equipment in a broadcast mode and carries the temperature data in the distribution box, wherein the temperature data in the distribution box carried by the third message is the same as the temperature data in the distribution box carried by the first message. Therefore, the APP on the rider terminal receives repeated temperature data, and therefore, the temperature data in the distribution box obtained from the temperature measuring equipment is subjected to deduplication processing, and then the temperature data in the distribution box after the deduplication processing is obtained. The method specifically comprises the following steps: and performing deduplication processing on the temperature data in the distribution box carried by the third message and the temperature data in the distribution box carried by the first message to obtain the temperature data in the distribution box after deduplication processing.

Step S202, sending a second message carrying the temperature data in the distribution box to a server side for monitoring the temperature data in the distribution box.

The step is used for sending the obtained temperature data after the duplication removal to a server side.

Second embodiment

The first embodiment described above provides a temperature data processing method, and correspondingly, the second embodiment of the present application also provides a temperature data processing apparatus, as shown in fig. 3. Since the device embodiments are substantially similar to the method embodiments and therefore are described relatively simply, reference may be made to the corresponding description of the method embodiments provided above for details of relevant technical features, and the following description of the device embodiments is merely illustrative.

A second embodiment of the present application provides a temperature data processing apparatus, applied to a client corresponding to a distribution resource, including: a first message obtaining unit 301, configured to obtain a first message that carries temperature data in a distribution box and is sent by a temperature measurement device, where the temperature measurement device is a device for measuring the temperature data in the distribution box; a second message sending unit 302, configured to send a second message carrying the temperature data in the distribution box to a server configured to monitor the temperature data in the distribution box.

Optionally, the device further includes a temperature monitoring page display unit, configured to respond to the distribution resource to start a triggering operation of the temperature measurement device for monitoring the temperature, and display a temperature monitoring page corresponding to the temperature measurement device, where the temperature monitoring page is used to provide entry information for binding the client and the temperature measurement device.

Optionally, the apparatus further includes a correspondence obtaining unit, configured to bind the identification information of the client corresponding to the distributed resource with the temperature measurement device, and send a correspondence formed between the identification information of the client corresponding to the distributed resource and the temperature measurement device to a server.

Optionally, the binding the identification information of the client corresponding to the distributed resource with the temperature measurement device, and sending the correspondence between the identification information of the client corresponding to the distributed resource and the temperature measurement device to the server, includes: and in response to the input operation aiming at the identification information of the temperature measuring equipment, binding the identification information of the client corresponding to the distributed resources with the identification information of the temperature measuring equipment, and sending the corresponding relation formed between the identification information of the client corresponding to the distributed resources and the identification information of the temperature measuring equipment to a server.

Optionally, the binding the identification information of the client corresponding to the distributed resource with the temperature measurement device, and sending the correspondence between the identification information of the client corresponding to the distributed resource and the temperature measurement device to the server, includes: opening an identification code scanning interface for scanning the identification code; obtaining identification information of the temperature measuring equipment by identifying the identification code of the temperature measuring equipment; and establishing a corresponding relation between the identification information of the client corresponding to the distributed resources and the identification information of the temperature measuring equipment, and sending the corresponding relation formed between the identification information of the client corresponding to the distributed resources and the temperature measuring equipment to a server.

Optionally, the binding the identification information of the client corresponding to the distributed resource with the temperature measurement device, and sending the correspondence between the identification information of the client corresponding to the distributed resource and the temperature measurement device to the server includes: starting a Bluetooth scanning function of the client; obtaining identification information of equipment with a Bluetooth data transmission function started through a Bluetooth scanning function; obtaining the identification information of the temperature measuring equipment from the equipment information with the Bluetooth data transmission function started; and establishing a corresponding relation between the identification information of the client corresponding to the distributed resources and the identification information of the temperature measuring equipment, and sending the corresponding relation formed between the identification information of the client corresponding to the distributed resources and the temperature measuring equipment to a server.

Optionally, the apparatus further includes a deduplication unit, configured to perform deduplication processing on the temperature data in the distribution box obtained from the temperature measurement device, so as to obtain the temperature data in the distribution box after deduplication processing; the sending of the second message carrying the temperature data in the distribution box to the server for monitoring the temperature data in the distribution box includes: and sending a second message carrying the temperature data in the distribution box after the deduplication processing to a server side for monitoring the temperature data in the distribution box.

Third embodiment

A third embodiment of the present application provides a method for reporting temperature data, where an execution main body of the method is a temperature measuring device that measures temperature data in a distribution box, as shown in fig. 4. The method provided by the present embodiment is described in detail below with reference to fig. 4. The following description refers to embodiments for the purpose of illustrating the principles of the methods, and is not intended to be limiting in actual use.

Step S401, obtaining temperature data in the distribution box.

The step is used for obtaining temperature data of the temperature measuring equipment in the measuring and distributing box.

When the distribution box has sudden temperature change, the temperature measuring equipment cannot timely sense the temperature change in the distribution box, namely, the delay phenomenon. Therefore, a calculation method is introduced into the temperature measuring equipment, and the temperature value corresponding to the historical time in the distribution box is corrected by using the algorithm according to the compensation network preset in different scenes, so that the corrected temperature value is formed and is used as the temperature data corresponding to the actual time in the distribution box.

The method specifically comprises the following steps: the temperature measuring device includes: the temperature measurement module can be a wireless temperature tag, a Bluetooth thermometer and the like and is used for measuring temperature information in the distribution box; the equipment main control module is used for acquiring real-time temperature values output by the temperature measurement module in the distribution box in the distribution process by a user, setting compensation networks of different scenes aiming at scene factors related to temperature change, correcting the temperature values corresponding to historical time by using the compensation networks of different scenes to form corrected temperature values, further taking the corrected temperature values as temperature information corresponding to actual time in the distribution box, and transmitting the temperature information corresponding to the actual time in the distribution box to a client corresponding to distribution resources; the temperature control module is used for obtaining a control instruction sent by a client corresponding to the distribution resource so as to adjust the temperature in the distribution box, wherein the control instruction is used for judging whether the client corresponding to the distribution resource is in a preset temperature value range or not based on a temperature value range preset for different objects distributed in the distribution box or not, and generating a control instruction for adjusting the temperature in the distribution box based on a temperature difference formed by the temperature information and the temperature value range if the temperature information in the distribution box is not in the preset temperature value range.

For different scene factors, the temperature values corresponding to the historical time can be corrected in different manners. The scene factors related to temperature change in the distribution process can include placement scene factors with frequent temperature change and environment scene factors with slow temperature change, the scene factors with frequent temperature change are mainly influenced by the relative position relationship between the temperature measuring equipment and the distribution objects in the distribution box, the temperature measuring equipment can output actual temperature values to generate different hysteresis effects due to the different relative position relationship between the temperature measuring equipment and the distribution objects in the distribution resources, in a normal condition, a probe in the temperature measuring equipment is placed into the distribution box through a hole to monitor temperature values corresponding to historical time, the position relationship between the probe of the temperature measuring equipment and the distribution objects is possibly changed along with a distribution path, the probe of the temperature measuring equipment is influenced by heat conduction, and in the condition that the distribution objects are not close to the probe of the temperature measuring equipment, if the temperature measuring equipment needs to accurately acquire the time needed by the temperature values corresponding to the stable historical time in the distribution resources The time required by the temperature measuring equipment to accurately obtain the temperature value corresponding to the stable historical time in the distribution resource is relatively short under the condition that the distribution object is attached to one side of the probe of the temperature measuring equipment, and the time required by the temperature measuring equipment to accurately obtain the temperature value corresponding to the stable historical time in the distribution resource is shortest under the condition that the distribution object is attached to the double layers of the probe of the temperature measuring equipment, so that the temperature values required to be compensated aiming at different relative position relations between the temperature measuring equipment and the distribution object are different, and a compensation network aiming at different placement scenes is required to be arranged; the environmental scene factors with slow temperature change are mainly influenced by the abrasion of the shell of the temperature measuring equipment and the humidity in the temperature measuring equipment, because different abrasion degrees of the shell of the temperature measuring equipment and the humidity change in the temperature measuring equipment can lead the temperature measuring equipment to output actual temperature values to generate different hysteresis effects, under the normal condition, the higher the humidity in the distribution resources is, the longer the time required by the temperature measuring equipment to accurately acquire stable real-time temperature in the distribution resources is, the different temperature values required to be compensated for different humidity in the distribution resources are different, the abrasion condition of the shell of the temperature measuring equipment can also influence the accuracy of acquiring the real-time temperature values, the more serious the abrasion degree is, the longer the time required by the temperature measuring equipment to accurately acquire the stable real-time temperature in the distribution resources is, and the different temperature values required to be compensated for different abrasion degrees of the shell of the temperature measuring, compensation networks for different environmental scenarios need to be set up.

The above-mentioned setting is directed against the compensation network of different scenes of putting, includes: the method comprises the steps of collecting historical temperature values output when objects in distribution resources and temperature measuring equipment form different relative position relations, forming a first-order system model by the historical temperature values output when the objects and the temperature measuring equipment form different relative position relations, calculating thermal time constants corresponding to physical models when the objects and the temperature measuring equipment form different relative position relations, enabling the thermal time constants to reflect temperature lag conditions generated by different scenes, and setting compensation networks for different scenes by taking the historical temperature values output when the objects and the temperature measuring equipment form different relative position relations as compensation coefficients.

The above compensation network for different environment scenes includes: the real-time temperature values output by the temperature measuring equipment in the preset time period and the corrected temperature values are cached, the temperature change conditions in the distribution resources under different environmental scenes are recorded, and the time periods of sudden change of the temperature values are inquired, so that the temperature change characteristics formed in the distribution resources under different environmental scenes are collected. For the time period in which the temperature value is suddenly changed, the temperature change characteristic may be that the temperature is too high after correction, or may be that the temperature value is too low after correction, and specifically, the temperature change characteristic may be determined based on the positive and negative values corresponding to the temperature difference value generated by the sudden change of temperature. For two different situations of temperature change characteristic increase or temperature change characteristic decrease, the corresponding weights of the compensation networks in different environmental scenes need to be adjusted correspondingly, for temperature characteristic change, the weights corresponding to the compensation networks in the scene causing temperature increase can be adjusted correspondingly to be low in order to avoid excessive temperature increase, and for temperature characteristic change, the weights corresponding to the compensation networks in the scene causing temperature decrease can be adjusted correspondingly to be high in order to avoid excessive temperature decrease.

Another scheme for obtaining the temperature corresponding to the actual time in the distribution box is to obtain temperature data corresponding to the actual time in the distribution box according to the temperature data corresponding to the historical time in the distribution box. Therefore, to obtain the actual temperature in the distribution box, it is necessary to know the correspondence between the temperature in the distribution box measured by the temperature measuring device and the time.

The specific implementation scheme is as follows: and acquiring the corresponding relation between the time data and the temperature data in the distribution box, and then calculating the current actual temperature and the actual corresponding time in the distribution box according to the delay time of the temperature measuring equipment. The temperature measured by the temperature measuring device may be a periodically monitored temperature or a continuously monitored temperature, which is not limited to this, and the temperature measurement is performed in a period of 5 minutes for example. The temperature measuring equipment collects the temperature and the time every 5 minutes, and the corresponding relation between the temperature and the time in the distribution box measured by the temperature measuring equipment is shown in the table 1:

temperature of

-5℃

5℃

-5℃

Time of day

9:10

9:15

9:20

9:25

9:30

9:35

9:40

If the temperature in the distribution box suddenly changes, the temperature measuring equipment in the distribution box can not sense the temperature change after ten minutes, namely, a ten-minute delay condition exists. For example, 5 ℃ corresponding to 9:30 is actually the status information of the distribution box 9:20, that is, the temperature of the distribution box is suddenly increased by 10 ℃ at 9:20, and the temperature is not changed at 9: 30.

Step S402, sending a first message carrying the temperature data in the distribution box to a client corresponding to the distribution resource.

This step is used for sending the above-mentioned temperature data that obtains to the APP on the rider terminal.

In order to send the temperature data in the distribution box sent by the temperature measuring equipment to the APP on the rider terminal, the temperature measuring equipment and the APP on the rider terminal must be connected, and the connection mode can be any mode, such as honeycomb data, WiFi, Bluetooth and the like, and is not limited.

Preferably, the temperature measurement equipment in this application embodiment adopts the bluetooth mode with APP on the rider terminal to be connected, promptly, the temperature measurement equipment passes through bluetooth communication link and sends the temperature message to APP on the rider terminal. In order to make the bluetooth transmission process more efficient and reasonable, can obtain the temperature data in the distribution box according to the mode information of temperature measurement equipment. The working mode of the temperature measuring equipment comprises normal working mode information and low-power-consumption working mode information, and the interval cycle duration of the temperature data in the distribution box obtained according to the normal working mode information is shorter than the interval cycle duration of the temperature data in the distribution box obtained according to the low-power-consumption working mode information.

Fourth embodiment

The third embodiment provides a method for reporting temperature data, and correspondingly, a fourth embodiment of the present application further provides a device for reporting temperature data, as shown in fig. 5. Since the device embodiments are substantially similar to the method embodiments and therefore are described relatively simply, reference may be made to the corresponding description of the method embodiments provided above for details of relevant technical features, and the following description of the device embodiments is merely illustrative.

A fourth embodiment of the present application provides a temperature data reporting device, which is applied to a temperature measurement device for measuring temperature data in a distribution box, and includes: a temperature data obtaining unit 501, configured to obtain temperature data in the distribution box; a first message sending unit 502, configured to send a first message carrying the temperature data in the distribution box to a client corresponding to the distribution resource.

Optionally, the method further includes a time information obtaining unit: obtaining time information of temperature data in the distribution box; acquiring time information actually corresponding to the temperature data in the distribution box according to the acquired time information and the temperature measurement time delay information; the first message further comprises time information actually corresponding to the temperature data in the distribution box.

Optionally, the obtaining temperature data in the distribution box includes: obtaining temperature data in the distribution box obtained through measurement; the apparatus is further configured to: obtaining measurement time information corresponding to the temperature data in the distribution box obtained through measurement; obtaining temperature data in the distribution box actually corresponding to the measurement time information according to the temperature measurement time delay information and the temperature data in the distribution box obtained through measurement; the temperature data in the distribution box carried by the first message is the temperature data in the distribution box actually corresponding to the measurement time information.

Optionally, the temperature measuring device further comprises a working mode obtaining unit, configured to obtain working mode information of the temperature measuring device; the obtaining temperature data within the distribution box includes: and obtaining temperature data in the distribution box according to the obtained working mode information of the temperature measuring equipment.

Fifth embodiment

A fifth embodiment of the present application provides a temperature monitoring method, in which an execution main body of the method is a service end for monitoring temperature data in a distribution box, as shown in fig. 6. The method provided by the present embodiment is described in detail below with reference to fig. 6. The following description refers to embodiments for the purpose of illustrating the principles of the methods, and is not intended to be limiting in actual use.

Step S601, obtaining a second message carrying the temperature data in the distribution box sent by the client corresponding to the distribution resource.

The step is used for obtaining the temperature data in the distribution box sent by the client corresponding to the distribution resource.

Step S602, obtaining a monitoring result for the temperature in the distribution box according to the temperature data in the distribution box.

The step is used for obtaining a temperature control result in the distribution box according to temperature data in the distribution box, and mainly comprises the following two aspects: how to obtain the monitoring results and the use of the monitoring results.

First, how to obtain the monitoring result. The method comprises the following steps: and the server sends the temperature data in the distribution box to a merchant corresponding to the takeout order, and the merchant judges according to the temperature data and the temperature data required by the order and returns the result to the server. The second method comprises the following steps: and finally, the service end sends the temperature data in the distribution box to the merchant corresponding to the takeout order, the merchant judges according to the temperature data and the temperature data of the order requirement, and returns the result to the service end. The third method comprises the following steps: the service obtains the required temperature of the takeaway orders in the distribution box provided by the takeaway merchant, and judges the required temperature through the temperature data in the distribution box sent by the rider, so that the temperature monitoring result in the distribution box is obtained. The method four comprises the following steps: and determining the takeout order information determined by the time according to the time information in the distribution box so as to obtain the required temperature of the takeout order, and finally judging according to the required temperature and the temperature data in the distribution box sent by the rider so as to obtain the temperature monitoring result in the distribution box. The method five comprises the following steps: determining takeout order information determined by the time according to the time information in the distribution box, further determining information of a merchant corresponding to the order, further requesting the merchant to inquire the required temperature corresponding to the takeout order, and finally judging according to the required temperature of the takeout order provided by the merchant and the temperature data in the distribution box sent by the rider, thereby obtaining the temperature monitoring result in the distribution box. The above methods are only schematic and may be combined by themselves, as long as the result of monitoring the temperature in the distribution box is obtained.

Second, the use of temperature monitoring results within the distribution box. The temperature monitoring result can be sent to APP corresponding to the rider or a management company corresponding to the rider so as to timely know information such as the running state of the temperature measuring equipment and whether the temperature measuring equipment needs to be replaced.

Sixth embodiment

The fifth embodiment provides a temperature monitoring method, and correspondingly, the sixth embodiment of the present application further provides a temperature monitoring device, as shown in fig. 7. Since the device embodiments are substantially similar to the method embodiments and therefore are described relatively simply, reference may be made to the corresponding description of the method embodiments provided above for details of relevant technical features, and the following description of the device embodiments is merely illustrative.

A sixth embodiment of the present application provides a temperature monitoring apparatus, which is applied to a server side for monitoring temperature data in a distribution box, and the method includes: a second message obtaining unit 701, configured to obtain a second message that is sent by a client corresponding to a distribution resource and carries temperature data in the distribution box; a temperature monitoring result obtaining unit 702, configured to obtain a temperature monitoring result for the inside of the distribution box according to the temperature data in the distribution box.

Optionally, the obtaining a monitoring result for the temperature in the distribution box according to the temperature data in the distribution box further includes: acquiring time information corresponding to the temperature data in the distribution box; obtaining target order information corresponding to the time information and the distribution resources; acquiring identification information of the target entity object corresponding to the target order information; acquiring client identification information of the target entity object according to the identification information of the target entity object; the step of sending the temperature data in the distribution box to the client of the target entity object comprises the following steps: and sending the temperature data in the distribution box to the client of the target entity object according to the client identification information of the target entity object.

Optionally, the obtaining a monitoring result for the temperature in the distribution box according to the temperature data in the distribution box further includes: acquiring time information corresponding to the temperature data in the distribution box; obtaining target order information corresponding to the time information and the distribution resources; and acquiring the identification information of the target object corresponding to the target order information.

Optionally, the obtaining of the distribution temperature requirement information for the target object in the distribution box further includes: acquiring time information corresponding to the temperature data in the distribution box; obtaining target order information corresponding to the time information and the distribution resources; acquiring identification information of the target entity object corresponding to the target order information; acquiring client identification information of the target entity object according to the identification information of the target entity object; the obtaining of the delivery temperature requirement information provided by the client of the target entity object includes: sending a request message for requesting to obtain the distribution temperature requirement information to the client of the target entity object according to the client identification information of the target entity object; and obtaining the distribution temperature requirement information provided by the client of the target entity object for the request message.

Optionally, the system further includes a temperature monitoring result sending unit, configured to send the temperature monitoring result to a client corresponding to the distribution resource, and/or send the temperature monitoring result to a client corresponding to a management end of the distribution resource.

Seventh embodiment

A seventh embodiment of the present application provides a temperature data processing system, as shown in fig. 1. This embodiment corresponds to the first, third and fifth embodiments of the present application, that is, this embodiment integrates the three embodiments, so that the description is relatively simple, and for the relevant points, reference may be made to the partial description of the above method embodiments provided in the present application. The seventh embodiment described below is merely illustrative.

An embodiment of the present application further provides a temperature data processing system, including: the system comprises temperature measuring equipment 101, a client 102 and a server 103 corresponding to distributed resources; the temperature measuring device 101 is configured to obtain temperature data in the distribution box, and send a first message carrying the temperature data in the distribution box to the client 102 corresponding to the distribution resource, where the temperature measuring device is a device for measuring the temperature data in the distribution box; the client 102 corresponding to the distribution resource is configured to receive a first message which is sent by the temperature measurement device 101 and carries temperature data in a distribution box, obtain a second message which carries the temperature data in the distribution box according to the first message, and send the second message which carries the temperature data in the distribution box to the server 103 which is configured to monitor the temperature data in the distribution box. The server 103 is configured to receive a second message that is sent by the client 102 corresponding to the distribution resource and carries the temperature data in the distribution box, and obtain a temperature monitoring result for the distribution box according to the temperature data in the distribution box.

Eighth embodiment

Corresponding to the above method embodiments provided by the present application, an eighth embodiment of the present application further provides an electronic device. Since the eighth embodiment is substantially similar to the above method embodiment provided in this application, the description is relatively simple, and for the relevant points, reference may be made to part of the description of the above method embodiment provided in this application. The eighth embodiment described below is merely illustrative.

Please refer to fig. 8, which is a schematic diagram of an electronic device provided in an embodiment of the present application.

The electronic device includes: a processor 801; and a memory 802 for storing a computer program that when powered on and run by the processor performs any of the methods.

It should be noted that, for the detailed description of the electronic device provided in the eighth embodiment of the present application, reference may be made to the related description of the foregoing method embodiment provided in the present application, and details are not repeated here.

Ninth embodiment

Corresponding to the above method embodiments provided by the present application, a ninth embodiment of the present application further provides a storage medium. Since the ninth embodiment is substantially similar to the above method embodiment provided in this application, the description is relatively simple, and the relevant points can be referred to the partial description of the above method embodiment provided in this application. The eighth embodiment described below is merely illustrative.

The storage medium stores a computer program that is executed by a processor to perform the methods provided in the above-described embodiments of the present application.

It should be noted that, for the detailed description of the storage medium provided in the eighth embodiment of the present application, reference may be made to the description of the foregoing method embodiment provided in the present application, and details are not repeated here.

Although the present application has been described with reference to the preferred embodiments, it is not intended to limit the present application, and those skilled in the art can make variations and modifications without departing from the spirit and scope of the present application, therefore, the scope of the present application should be determined by the claims that follow.

In a typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include forms of volatile memory in a computer readable medium, Random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of a computer-readable medium.

1. Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, computer readable media does not include non-transitory computer readable media (transient media), such as modulated data signals and carrier waves.

2. As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application 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.

Claims

1. A temperature data processing method is applied to a client corresponding to a distribution resource, and the method comprises the following steps:

obtaining a first message which is sent by temperature measuring equipment and carries temperature data in a distribution box, wherein the temperature measuring equipment is used for measuring the temperature data in the distribution box;

and sending a second message carrying the temperature data in the distribution box to a server for monitoring the temperature data in the distribution box.

2. The method of claim 1, further comprising: responding to the distribution resource to start the triggering operation of the temperature measurement equipment for monitoring the temperature, and displaying a temperature monitoring page corresponding to the temperature measurement equipment, wherein the temperature monitoring page is used for providing entry information for binding the client and the temperature measurement equipment.

3. The method of claim 1, further comprising: and binding the identification information of the client corresponding to the distributed resources with the temperature measuring equipment, and sending the corresponding relation formed between the identification information of the client corresponding to the distributed resources and the temperature measuring equipment to a server.

4. The method of claim 1, wherein obtaining the first message carrying the temperature data in the distribution box sent by the temperature measurement device comprises: and receiving a first message which is sent by the temperature measuring equipment through a Bluetooth communication link and carries temperature data in the distribution box.

5. The method of claim 1, further comprising: carrying out deduplication processing on the temperature data in the distribution box obtained from the temperature measurement equipment to obtain the temperature data in the distribution box after the deduplication processing;

the sending of the second message carrying the temperature data in the distribution box to the server for monitoring the temperature data in the distribution box includes: and sending a second message carrying the temperature data in the distribution box after the deduplication processing to a server side for monitoring the temperature data in the distribution box.

6. The method of claim 1, wherein obtaining the first message carrying the temperature data in the distribution box sent by the temperature measurement device comprises: acquiring a first message which is sent by the temperature measuring equipment through a point-to-point mode and carries temperature data in a distribution box;

the method further comprises the following steps: obtaining a third message which is sent by the temperature measuring equipment in a broadcast mode and carries temperature data in the distribution box, wherein the temperature data in the distribution box carried by the third message is the same as the temperature data in the distribution box carried by the first message;

the removing the duplicate of the temperature data in the distribution box obtained from the temperature measuring equipment to obtain the temperature data in the distribution box after the removing the duplicate comprises: and performing deduplication processing on the temperature data in the distribution box carried by the third message and the temperature data in the distribution box carried by the first message to obtain the temperature data in the distribution box after deduplication processing.

7. The temperature data processing device is applied to a client corresponding to a distribution resource, and comprises the following components:

the system comprises a first message obtaining unit, a first message sending unit and a second message sending unit, wherein the first message carrying temperature data in a distribution box is sent by temperature measuring equipment;

and the second message sending unit is used for sending a second message carrying the temperature data in the distribution box to a server side used for monitoring the temperature data in the distribution box.

8. A temperature data reporting method is characterized by being applied to temperature measuring equipment for measuring temperature data in a distribution box, and the method comprises the following steps:

obtaining temperature data in the distribution box;

and sending a first message carrying the temperature data in the distribution box to a client corresponding to the distribution resource.

9. The method of claim 8, further comprising:

obtaining time information of temperature data in the distribution box;

acquiring time information actually corresponding to the temperature data in the distribution box according to the acquired time information and the temperature measurement time delay information;

the first message further comprises time information actually corresponding to the temperature data in the distribution box.

10. The method of claim 8, wherein said obtaining temperature data within said distribution box comprises: obtaining temperature data in the distribution box obtained through measurement;

the method further comprises the following steps:

obtaining measurement time information corresponding to the temperature data in the distribution box obtained through measurement;

obtaining temperature data in the distribution box actually corresponding to the measurement time information according to the temperature measurement time delay information and the temperature data in the distribution box obtained through measurement;

the temperature data in the distribution box carried by the first message is the temperature data in the distribution box actually corresponding to the measurement time information.

11. The utility model provides a temperature data reports device which characterized in that is applied to the temperature measurement equipment who measures the temperature data in the delivery case, includes:

a temperature data obtaining unit for obtaining temperature data in the distribution box;

and the first message sending unit is used for sending a first message carrying the temperature data in the distribution box to a client corresponding to the distribution resource.

12. A temperature monitoring method is applied to a server side for monitoring temperature data in a distribution box, and comprises the following steps:

acquiring a second message which is sent by a client corresponding to the distribution resource and carries the temperature data in the distribution box;

and obtaining a temperature monitoring result aiming at the distribution box according to the temperature data in the distribution box.

13. The method of claim 12, wherein obtaining temperature monitoring results for the distribution box based on the temperature data within the distribution box comprises:

sending the temperature data in the distribution box to a client of a target entity object, wherein the target entity object is an entity object corresponding to the target object in the distribution box;

and obtaining a temperature monitoring result which is returned by the client of the target entity object and aims at the inside of the distribution box.

14. The method of claim 12, wherein obtaining temperature monitoring results for the distribution box based on the temperature data within the distribution box comprises:

obtaining distribution temperature requirement information for a target object in the distribution box;

and obtaining a temperature monitoring result aiming at the distribution box according to the distribution temperature requirement information and the temperature data in the distribution box.

15. The method of claim 14, further comprising:

acquiring time information corresponding to the temperature data in the distribution box;

obtaining target order information corresponding to the time information and the distribution resources;

and acquiring the identification information of the target object corresponding to the target order information.

16. The method of claim 12, further comprising: and sending the temperature monitoring result to a client corresponding to the distribution resource, and/or sending the temperature monitoring result to a client corresponding to a management end of the distribution resource.

17. A temperature monitoring device is applied to a server side for monitoring temperature data in a distribution box, and the method comprises the following steps:

a second message obtaining unit, configured to obtain a second message that is sent by a client corresponding to a distribution resource and carries temperature data in the distribution box;

and the temperature monitoring result obtaining unit is used for obtaining a temperature monitoring result aiming at the distribution box according to the temperature data in the distribution box.

18. A temperature data processing system, comprising: the system comprises temperature measuring equipment, a client side and a server side corresponding to distribution resources;

the temperature measuring equipment is used for obtaining temperature data in a distribution box and sending a first message carrying the temperature data in the distribution box to a client corresponding to the distribution resource, wherein the temperature measuring equipment is used for measuring the temperature data in the distribution box;

the client corresponding to the distribution resource is used for receiving a first message which is sent by the temperature measuring equipment and carries temperature data in a distribution box, obtaining a second message which carries the temperature data in the distribution box according to the first message, and sending the second message which carries the temperature data in the distribution box to a server for monitoring the temperature data in the distribution box;

the server is configured to receive a second message carrying the temperature data in the distribution box sent by the client corresponding to the distribution resource, and obtain a temperature monitoring result for the distribution box according to the temperature data in the distribution box.

19. An electronic device, wherein the electronic device is a client corresponding to a distribution resource, or a temperature measuring device for measuring temperature data in a distribution box, or a server for monitoring temperature data in the distribution box, and the electronic device includes:

a processor; and

a memory for storing a computer program which, when the apparatus is powered on and the computer program is run by the processor, performs the method of any one of claims 1 to 6, 8 to 10, 12 to 16.

20. A storage medium applied to a client side corresponding to a distribution resource, or applied to a temperature measuring device for measuring temperature data in a distribution box, or applied to a server side for monitoring temperature data in a distribution box, the storage medium storing a computer program executed by a processor for executing the method of any one of claims 1 to 6, 8 to 10, and 12 to 16.