CN111866081A - Cold chain system combining fixed point and mobile monitoring and control method thereof - Google Patents

Abstract

The invention provides a fixed-point and mobile monitoring combined cold chain system and a control method thereof, wherein the fixed-point and mobile monitoring combined cold chain system and the control method thereof respectively acquire first state information about a fixed-point heat retainer and second state information about a mobile heat retainer, and generate a corresponding alarm indication signal according to the first state information and the second state information, so that the respective working states of the fixed-point heat retainer or the mobile heat retainer are subjected to adaptive alarm operation, and the fixed-point heat retainer or the mobile heat retainer is timely and accurately monitored.

Description

Cold chain system combining fixed point and mobile monitoring and control method thereof

Technical Field

The invention relates to the technical field of cold chain systems, in particular to a cold chain system combining fixed point and mobile monitoring and a control method thereof.

Background

At present, a cold chain system in a hospital can only monitor a refrigerator or an ice chest with a fixed position in real time, and if medicines or reagents are transferred among different refrigerators or ice chests, the heat preservation state of the medicines or reagents cannot be monitored in time; in addition, in order to facilitate transportation of drugs or reagents, hospitals generally use portable movable incubators to realize corresponding transfer operations, and the portable movable incubators of this kind also lack corresponding working state monitoring, and once the portable movable incubators leave the hospital range, the drugs or reagents stored in the portable movable incubators cannot be effectively tracked and monitored; in addition, the cold chain system can only acquire and process corresponding monitoring data through a unique terminal server, and does not support information acquisition of multiple intelligent terminals. Therefore, the cold chain system in the prior art cannot monitor the working state of the fixed-point heat preservation equipment and the mobile heat preservation equipment at the same time and does not support the intelligent terminal-two-dimensional code information acquisition operation mode.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a fixed-point and mobile monitoring combined cold chain system and a control method thereof, wherein the fixed-point and mobile monitoring combined cold chain system and the control method thereof respectively acquire first state information about a fixed-point heat retainer and second state information about a mobile heat retainer and generate corresponding alarm indication signals according to the first state information and the second state information, so that the respective working states of the fixed-point heat retainer or the mobile heat retainer are subjected to adaptive alarm operation, and the fixed-point heat retainer or the mobile heat retainer is timely and accurately monitored. The cold chain system combining fixed point and mobile monitoring and the control method thereof also have the following advantages: firstly, the cold chain system and the control method thereof can automatically monitor and alarm the fixed-point heat retainer and the mobile heat retainer at the same time, so that the monitoring and alarming functions of medicine or reagent storage and transfer in a hospital can be perfected; secondly, the cold chain system and the control method thereof have the functions of monitoring and alarming the fixed-point heat preservation box and/or the movable heat preservation box in real time, can effectively ensure that the medicine or the reagent is stored in a proper temperature range, and carry out corresponding photoacoustic alarm reminding operation when the heat preservation temperature of the fixed-point heat preservation box and/or the movable heat preservation box does not accord with a preset reasonable temperature range; thirdly, the cold chain system and the control method thereof can also upload the storage records and/or the historical data of the heat preservation temperature of the fixed-point heat preservation box and/or the movable heat preservation box to the corresponding cloud server, so that the corresponding data query and tracing operation can be conveniently carried out on the cloud server, and the data traceability of the cold chain system is improved; fourthly, the cold chain system and the control method thereof can also facilitate different intelligent terminals to carry out data query and data processing in a two-dimensional code scanning query mode so as to improve the data sharing performance of the cold chain system; fifthly, the cold chain system and the control method thereof can also acquire the position information of the mobile heat retainer in real time, thereby effectively avoiding the condition that medicines or reagents leak.

The invention provides a cold chain system combining fixed point and mobile monitoring, which is characterized in that:

the cold chain system combining the fixed point and the mobile monitoring comprises a fixed point heat retainer, a mobile heat retainer, a fixed point heat retaining information acquisition module, a mobile heat retaining information acquisition module, a server module and an alarm module; wherein the content of the first and second substances,

the fixed-point heat preservation information acquisition module is used for acquiring first state information about the fixed-point heat preservation device;

the mobile heat preservation information acquisition module is used for acquiring second state information about the mobile heat preservation device;

the server module is used for generating an alarm indicating signal according to the first state information and/or the second state information;

the alarm module is used for carrying out adaptive alarm operation according to the alarm indication signal;

further, the fixed-point heat preservation information acquisition module comprises a first temperature acquisition sub-module and/or a fixed-point heat preservation object quantity determination sub-module; wherein the content of the first and second substances,

the first temperature acquisition submodule is used for acquiring real-time heat preservation temperature information of the fixed-point heat retainer as one of the first state information;

the fixed point heat preservation object quantity determining submodule is used for determining quantity information of heat preservation objects currently stored in the fixed point heat preservation device to serve as one of the first state information;

Further, the mobile heat preservation information acquisition module comprises at least one of a second temperature acquisition sub-module, a mobile heat preservation object number determination sub-module and a positioning sub-module; wherein the content of the first and second substances,

the second temperature acquisition submodule is used for acquiring real-time heat preservation temperature information of the mobile heat retainer as one of the second state information;

the mobile heat preservation object quantity determining submodule is used for determining quantity information of heat preservation objects currently stored in the mobile heat retainer to serve as one of the second state information;

the positioning submodule is used for acquiring real-time positioning information of the mobile heat retainer to serve as one of the second state information;

further, the server module comprises a temperature information processing submodule, a heat preservation object quantity information processing submodule, a positioning information processing submodule and an indication signal generating submodule; wherein the content of the first and second substances,

the temperature information processing submodule is used for carrying out heat preservation temperature judgment and identification processing on the real-time heat preservation temperature information of the fixed-point heat preservation device in the first state information and/or the real-time heat preservation temperature information of the mobile heat preservation device in the second state information;

The heat preservation object quantity information processing submodule is used for carrying out object quantity judgment and identification processing on the heat preservation object quantity information of the fixed-point heat retainer in the first state information and/or the heat preservation object quantity information of the movable heat retainer in the second state information;

the positioning information processing submodule is used for identifying the position area range of the positioning information of the mobile heat retainer in the second state information;

the indication signal generation submodule is used for generating the alarm indication signal according to the processing result of at least one of the heat preservation temperature judgment and identification processing, the object number judgment and identification processing and the position area range identification processing;

furthermore, the cold chain system combining the fixed-point monitoring and the mobile monitoring also comprises a two-dimensional code recognition module and a cloud storage module; wherein the content of the first and second substances,

the two-dimensional code identification module is respectively associated with the fixed-point heat retainer and the movable heat retainer in information;

the cloud storage module is used for storing the first state information and/or the second state information;

the two-dimension code recognition module is used for realizing data interaction between an external terminal and the cloud storage module through code scanning operation.

The invention also provides a control method of the cold chain system combining fixed point and mobile monitoring, which is characterized by comprising the following steps:

a step (S1) of acquiring first state information on the fixed-point warmer and/or second state information on the mobile warmer;

a step (S2) of identifying and judging the first state information and/or the second state information to obtain an alarm indication signal related to the running state of the fixed-point heat retainer and/or the mobile heat retainer;

a step (S3) of executing alarm operation in different modes according to the alarm indication signal;

further, in the step (S1), the acquiring of the first state information on the fixed-point warmer and/or the second state information on the mobile warmer specifically includes,

step (S101), acquiring real-time heat preservation temperature information of the fixed-point heat retainer and/or currently stored heat preservation object quantity information as the first state information;

step (S102), acquiring real-time heat preservation temperature information, currently stored heat preservation object quantity information and real-time positioning information of the mobile heat retainer as the second state information;

Step (S103), uploading the first state information and/or the second state information to a cloud for storage;

step (S104), acquiring heat preservation temperature change data and/or a heat preservation temperature change curve corresponding to the fixed-point heat preservation device and/or the mobile heat preservation device based on the first state information and/or the second state information stored in the cloud, or performing two-dimensional code scanning and extracting operation on the first state information and/or the second state information based on the first state information and/or the second state information stored in the cloud;

further, in the step (S2), the identifying and determining the first status information and/or the second status information to obtain the alarm indication signal related to the operation status of the fixed-point warmer and/or the mobile warmer specifically includes,

step (S201), the real-time heat preservation temperature information of the fixed-point heat retainer and a first preset heat preservation temperature range are subjected to identification matching processing, if the real-time heat preservation temperature information of the fixed-point heat retainer and the first preset heat preservation temperature range are matched, first judgment result information is generated, and if the real-time heat preservation temperature information of the fixed-point heat retainer and the first preset heat preservation temperature range are not matched, second judgment result information is;

step (S202), the number information of the heat preservation objects currently stored in the fixed-point heat preservation device and a first preset storage number range are subjected to identification matching processing, if the number information of the heat preservation objects currently stored in the fixed-point heat preservation device is matched with the first preset storage number range, third judgment result information is generated, and if the number information of the heat preservation objects currently stored in the fixed-point heat preservation device is not matched with the first preset storage number range;

Step (S203), the real-time heat preservation temperature information of the mobile heat preservation device is subjected to identification matching processing with a second preset heat preservation temperature range, if the real-time heat preservation temperature information of the mobile heat preservation device is matched with the second preset heat preservation temperature range, fifth judgment result information is generated, and if the real-time heat preservation temperature information of the mobile heat preservation device is not matched with the second preset heat preservation temperature range, sixth judgment result information is generated;

step (S204), the number information of the heat preservation objects currently stored in the mobile heat preservation device and a second preset storage number range are subjected to identification matching processing, if the number information of the heat preservation objects currently stored in the mobile heat preservation device is matched with the second preset storage number range, seventh judgment result information is generated, and if the number information of the heat preservation objects currently stored in the mobile heat preservation device is not matched with the second preset storage number range, eighth judgment result information is generated;

step (S205), the real-time positioning information of the mobile heat retainer is identified and matched with a preset mobile area range, if the real-time positioning information of the mobile heat retainer is matched with the preset mobile area range, ninth judgment result information is generated, and if the real-time positioning information of the mobile heat retainer is not matched with the preset mobile area range, tenth judgment result information is generated;

further, in the step (S2), the identifying and determining the first status information and/or the second status information to obtain the alarm indication signal related to the operation status of the fixed-point warmer and/or the mobile warmer further includes,

a step (S206) of generating a normal indication signal regarding an operation state of the fixed-point warmer or the mobile warmer as the alarm indication signal according to the first determination result information, the third determination result information, the fifth determination result information, the seventh determination result information, or the ninth determination result information;

A step (S207) of generating an indication signal indicating that the operation state of the fixed-point warmer or the mobile warmer is abnormal, as the alarm indication signal, according to the second determination result information, the fourth determination result information, the sixth determination result information, the eighth determination result information, or the tenth determination result information;

further, in the step (S3), adaptively performing the alarming operation in different modes according to the alarming indication signal specifically includes,

step (S301), according to the running state normal indication signal, indicating the fixed point heat retainer and/or the movable heat retainer to maintain the current working state unchanged;

and (S302) according to the running state abnormal indication signal, performing alarm operation in an acoustic and/or optical mode on the current working state of the fixed point heat retainer and/or the movable heat retainer.

Compared with the prior art, the cold chain system combining the fixed-point monitoring and the mobile monitoring and the control method thereof respectively obtain the first state information about the fixed-point heat retainer and the second state information about the mobile heat retainer, and generate the corresponding alarm indication signal according to the first state information and the second state information, so that the respective working states of the fixed-point heat retainer or the mobile heat retainer are subjected to adaptive alarm operation, and the fixed-point heat retainer or the mobile heat retainer is timely and accurately monitored. The cold chain system combining fixed point and mobile monitoring and the control method thereof also have the following advantages: firstly, the cold chain system and the control method thereof can automatically monitor and alarm the fixed-point heat retainer and the mobile heat retainer at the same time, so that the monitoring and alarming functions of medicine or reagent storage and transfer in a hospital can be perfected; secondly, the cold chain system and the control method thereof have the functions of monitoring and alarming the fixed-point heat preservation box and/or the movable heat preservation box in real time, can effectively ensure that the medicine or the reagent is stored in a proper temperature range, and carry out corresponding photoacoustic alarm reminding operation when the heat preservation temperature of the fixed-point heat preservation box and/or the movable heat preservation box does not accord with a preset reasonable temperature range; thirdly, the cold chain system and the control method thereof can also upload the storage records and/or the historical data of the heat preservation temperature of the fixed-point heat preservation box and/or the movable heat preservation box to the corresponding cloud server, so that the corresponding data query and tracing operation can be conveniently carried out on the cloud server, and the data traceability of the cold chain system is improved; fourthly, the cold chain system and the control method thereof can also facilitate different intelligent terminals to carry out data query and data processing in a two-dimensional code scanning query mode so as to improve the data sharing performance of the cold chain system; fifthly, the cold chain system and the control method thereof can also acquire the position information of the mobile heat retainer in real time, thereby effectively avoiding the condition that medicines or reagents leak.

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

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a cold chain system combining fixed-point and mobile monitoring provided by the present invention.

Fig. 2 is a schematic flow chart of a control method of a cold chain system combining fixed-point monitoring and mobile monitoring according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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.

Fig. 1 is a schematic structural diagram of a cold chain system combining fixed-point monitoring and mobile monitoring according to an embodiment of the present invention.

The cold chain system combining the fixed point and the mobile monitoring comprises a fixed point heat retainer, a mobile heat retainer, a fixed point heat retaining information acquisition module, a mobile heat retaining information acquisition module, a server module and an alarm module; wherein the content of the first and second substances,

the fixed-point heat preservation information acquisition module is used for acquiring first state information about the fixed-point heat preservation device;

the mobile heat preservation information acquisition module is used for acquiring second state information about the mobile heat preservation device;

the server module is used for generating an alarm indicating signal according to the first state information and/or the second state information;

the alarm module is used for carrying out adaptive alarm operation according to the alarm indication signal.

Preferably, the fixed-point heat preservation information acquisition module comprises a first temperature acquisition submodule and/or a fixed-point heat preservation object number determination submodule;

preferably, the first temperature collecting sub-module is configured to collect real-time insulation temperature information about the fixed-point incubator as one of the first status information;

preferably, the fixed-point insulation object number determination submodule is configured to determine number information of insulation objects currently stored in the fixed-point insulator as one of the first state information;

preferably, the mobile heat preservation information acquisition module comprises at least one of a second temperature acquisition sub-module, a mobile heat preservation object number determination sub-module and a positioning sub-module;

preferably, the second temperature collecting sub-module is configured to collect real-time insulation temperature information about the mobile incubator as one of the second state information;

preferably, the mobile thermal insulation object number determination submodule is configured to determine number information of thermal insulation objects currently stored in the mobile thermal insulator, as one of the second state information;

preferably, the positioning sub-module is configured to obtain real-time positioning information of the mobile thermal insulator, and use the real-time positioning information as one of the second status information;

Preferably, the server module comprises a temperature information processing submodule, a heat preservation object quantity information processing submodule, a positioning information processing submodule and an indication signal generating submodule;

preferably, the temperature information processing sub-module is configured to perform heat preservation temperature determination and identification processing on the real-time heat preservation temperature information of the fixed-point heat preservation device in the first state information and/or the real-time heat preservation temperature information of the mobile heat preservation device in the second state information;

preferably, the heat-preservation object quantity information processing sub-module is configured to perform object quantity judgment and identification processing on the heat-preservation object quantity information of the fixed-point heat retainer in the first state information and/or the heat-preservation object quantity information of the movable heat retainer in the second state information;

preferably, the positioning information processing sub-module is configured to perform location area range identification processing on the positioning information of the mobile thermal insulator in the second state information;

preferably, the indication signal generation submodule is configured to generate the alarm indication signal according to a processing result of at least one of the heat preservation temperature determination and identification processing, the object number determination and identification processing, and the location area range identification processing;

Preferably, the cold chain system combining the fixed-point monitoring and the mobile monitoring further comprises a two-dimensional code recognition module and a cloud storage module;

preferably, the two-dimensional code identification module is respectively associated with the fixed-point heat retainer and the movable heat retainer in information;

preferably, the cloud storage module is configured to store the first state information and/or the second state information;

preferably, the two-dimensional code recognition module is used for realizing data interaction between an external terminal and the cloud storage module through code scanning operation.

In practical application, the cold chain system combining the fixed point and the mobile monitoring can adopt a single chip microcomputer STM32 to realize the corresponding circuit control function, and can also conveniently construct a CPU control circuit, a temperature monitoring circuit, a photoelectric alarm circuit, a positioning circuit, a wireless communication circuit and an equipment power circuit; in addition, the cold chain system can also adopt an SX1278LORA long-distance wireless module and a cloud server module to realize corresponding long-distance wireless communication and cloud service functions, and the SX1278LORA long-distance wireless module has the advantages of small volume, low power consumption and the like; in addition, the cold chain system can also adopt an Ariiyun server or Sqlite to realize a cloud server database so as to conveniently develop temperature data and positioning data stored and uploaded on the database.

Fig. 2 is a schematic flow chart of a control method of a cold chain system combining fixed-point monitoring and mobile monitoring according to an embodiment of the present invention. The control method comprises the following steps:

a step (S1) of acquiring first state information on the fixed-point warmer and/or second state information on the mobile warmer.

Preferably, at this step (S1), the acquiring of the first state information on the fixed-point warmer and/or the second state information on the mobile warmer specifically includes,

step (S101), acquiring real-time heat preservation temperature information and/or currently stored heat preservation object quantity information of the fixed-point heat retainer as the first state information;

step (S102), obtaining real-time heat preservation temperature information, currently stored heat preservation object quantity information and real-time positioning information of the mobile heat retainer as the second state information;

step (S103), uploading the first state information and/or the second state information to a cloud for storage;

step (S104), based on the first state information and/or the second state information stored in the cloud, acquiring heat preservation temperature change data and/or a heat preservation temperature change curve corresponding to the fixed-point heat retainer and/or the mobile heat retainer, or based on the first state information and/or the second state information stored in the cloud, performing two-dimensional code scanning and extracting operation on the first state information and/or the second state information.

And (S2) performing identification and judgment processing on the first state information and/or the second state information to acquire an alarm indication signal related to the running state of the fixed-point warmer and/or the mobile warmer.

Preferably, the identification judgment processing of the first state information and/or the second state information in the step (S2) to obtain the alarm indication signal about the operation state of the fixed-point warmer and/or the mobile warmer specifically includes,

step (S201), the real-time heat preservation temperature information of the fixed-point heat retainer and a first preset heat preservation temperature range are subjected to identification matching processing, if the real-time heat preservation temperature information of the fixed-point heat retainer and the first preset heat preservation temperature range are matched, first judgment result information is generated, and if the real-time heat preservation temperature information of the fixed-point heat retainer and the first preset heat preservation temperature range are not matched, second judgment result information is;

step (S202), the number information of the heat preservation objects currently stored in the fixed-point heat preservation device and a first preset storage number range are subjected to identification matching processing, if the number information of the heat preservation objects currently stored in the fixed-point heat preservation device is matched with the first preset storage number range, third judgment result information is generated, and if the number information of the heat preservation objects currently stored in the fixed-point heat preservation device is not matched with the first preset storage number range;

step (S203), the real-time heat preservation temperature information of the mobile heat preservation device is identified and matched with a second preset heat preservation temperature range, if the real-time heat preservation temperature information of the mobile heat preservation device is matched with the second preset heat preservation temperature range, fifth judgment result information is generated, and if the real-time heat preservation temperature information of the mobile heat preservation device is not matched with the second preset heat preservation temperature range, sixth judgment result information is generated;

Step (S204), the number information of the heat preservation objects currently stored in the mobile heat preservation device and a second preset storage number range are subjected to identification matching processing, if the number information of the heat preservation objects currently stored in the mobile heat preservation device is matched with the second preset storage number range, seventh judgment result information is generated, and if the number information of the heat preservation objects currently stored in the mobile heat preservation device is not matched with the second preset storage number range, eighth judgment result information is generated;

step (S205), the real-time positioning information of the mobile heat retainer is identified and matched with a preset mobile area range, if the real-time positioning information of the mobile heat retainer is matched with the preset mobile area range, ninth judgment result information is generated, and if the real-time positioning information of the mobile heat retainer is not matched with the preset mobile area range, tenth judgment result information is generated;

preferably, the identification judgment processing of the first state information and/or the second state information in the step (S2) to obtain the alarm indication signal regarding the operation state of the fixed-point warmer and/or the mobile warmer further includes,

step (S206), generating a normal indication signal of the operation state of the fixed-point warmer or the mobile warmer as the alarm indication signal according to the first judgment result information, the third judgment result information, the fifth judgment result information, the seventh judgment result information or the ninth judgment result information;

step (S207), generating an indication signal indicating that the operation state of the fixed-point warmer or the mobile warmer is abnormal as the alarm indication signal according to the second determination result information, the fourth determination result information, the sixth determination result information, the eighth determination result information, or the tenth determination result information.

And a step (S3) of executing alarm operation in different modes according to the alarm indication signal.

Preferably, in the step (S3), the adaptively performing the alarming operation in different modes according to the alarming indication signal specifically includes,

step (S301), according to the normal indication signal of the running state, indicating the fixed point heat retainer and/or the mobile heat retainer to maintain the current working state;

and (S302) according to the abnormal operating state indication signal, performing alarm operation in an acoustic and/or optical mode on the current working state of the fixed point heat retainer and/or the movable heat retainer.

From the content of the above embodiment, the cold chain system combining the fixed-point monitoring and the mobile monitoring and the control method thereof respectively obtain the first state information about the fixed-point heat retainer and the second state information about the mobile heat retainer, and generate the corresponding alarm indication signal according to the first state information and the second state information, so as to perform the adaptive alarm operation on the respective working states of the fixed-point heat retainer or the mobile heat retainer, thereby realizing the timely and accurate monitoring of the fixed-point heat retainer or the mobile heat retainer. The cold chain system combining fixed point and mobile monitoring and the control method thereof also have the following advantages: firstly, the cold chain system and the control method thereof can automatically monitor and alarm the fixed-point heat retainer and the mobile heat retainer at the same time, so that the monitoring and alarming functions of medicine or reagent storage and transfer in a hospital can be perfected; secondly, the cold chain system and the control method thereof have the functions of monitoring and alarming the fixed-point heat preservation box and/or the movable heat preservation box in real time, can effectively ensure that the medicine or the reagent is stored in a proper temperature range, and carry out corresponding photoacoustic alarm reminding operation when the heat preservation temperature of the fixed-point heat preservation box and/or the movable heat preservation box does not accord with a preset reasonable temperature range; thirdly, the cold chain system and the control method thereof can also upload the storage records and/or the historical data of the heat preservation temperature of the fixed-point heat preservation box and/or the movable heat preservation box to the corresponding cloud server, so that the corresponding data query and tracing operation can be conveniently carried out on the cloud server, and the data traceability of the cold chain system is improved; fourthly, the cold chain system and the control method thereof can also facilitate different intelligent terminals to carry out data query and data processing in a two-dimensional code scanning query mode so as to improve the data sharing performance of the cold chain system; fifthly, the cold chain system and the control method thereof can also acquire the position information of the mobile heat retainer in real time, thereby effectively avoiding the condition that medicines or reagents leak.

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

Claims (10)

1. The utility model provides a cold chain system that fixed point and mobile monitoring combined together which characterized in that:

the cold chain system combining the fixed point and the mobile monitoring comprises a fixed point heat retainer, a mobile heat retainer, a fixed point heat retaining information acquisition module, a mobile heat retaining information acquisition module, a server module and an alarm module; wherein the content of the first and second substances,

the fixed-point heat preservation information acquisition module is used for acquiring first state information about the fixed-point heat preservation device;

the mobile heat preservation information acquisition module is used for acquiring second state information about the mobile heat preservation device;

the server module is used for generating an alarm indicating signal according to the first state information and/or the second state information;

and the alarm module is used for carrying out adaptive alarm operation according to the alarm indication signal.

2. The combined fixed point and mobile monitoring cold chain system of claim 1, wherein: the fixed-point heat preservation information acquisition module comprises a first temperature acquisition submodule and/or a fixed-point heat preservation object quantity determination submodule; wherein the content of the first and second substances,

The first temperature acquisition submodule is used for acquiring real-time heat preservation temperature information of the fixed-point heat retainer as one of the first state information;

the fixed point heat preservation object quantity determination submodule is used for determining quantity information of heat preservation objects currently stored by the fixed point heat preservation device to serve as one of the first state information.

3. The combined fixed point and mobile monitoring cold chain system of claim 1, wherein: the mobile heat preservation information acquisition module comprises at least one of a second temperature acquisition submodule, a mobile heat preservation object number determination submodule and a positioning submodule; wherein the content of the first and second substances,

the second temperature acquisition submodule is used for acquiring real-time heat preservation temperature information of the mobile heat retainer as one of the second state information;

the mobile heat preservation object quantity determining submodule is used for determining quantity information of heat preservation objects currently stored in the mobile heat retainer to serve as one of the second state information;

and the positioning submodule is used for acquiring real-time positioning information of the mobile heat retainer to serve as one of the second state information.

4. The combined fixed point and mobile monitoring cold chain system of claim 1, wherein: the server module comprises a temperature information processing submodule, a heat preservation object quantity information processing submodule, a positioning information processing submodule and an indication signal generating submodule; wherein the content of the first and second substances,

The temperature information processing submodule is used for carrying out heat preservation temperature judgment and identification processing on the real-time heat preservation temperature information of the fixed-point heat preservation device in the first state information and/or the real-time heat preservation temperature information of the mobile heat preservation device in the second state information;

the heat preservation object quantity information processing submodule is used for carrying out object quantity judgment and identification processing on the heat preservation object quantity information of the fixed-point heat retainer in the first state information and/or the heat preservation object quantity information of the movable heat retainer in the second state information;

the positioning information processing submodule is used for identifying the position area range of the positioning information of the mobile heat retainer in the second state information;

the indication signal generation submodule is configured to generate the alarm indication signal according to a processing result of at least one of the heat preservation temperature determination and identification processing, the object number determination and identification processing, and the position area range identification processing.

5. The combined fixed point and mobile monitoring cold chain system of claim 1, wherein: the cold chain system combining the fixed-point monitoring and the mobile monitoring further comprises a two-dimensional code recognition module and a cloud storage module; wherein the content of the first and second substances,

The two-dimensional code identification module is respectively associated with the fixed-point heat retainer and the movable heat retainer in information;

the cloud storage module is used for storing the first state information and/or the second state information; the two-dimension code recognition module is used for realizing data interaction between an external terminal and the cloud storage module through code scanning operation.

6. A control method of a cold chain system combining fixed point and mobile monitoring according to any one of claims 1-5, characterized in that the control method comprises the following steps:

a step (S1) of acquiring first state information on the fixed-point warmer and/or second state information on the mobile warmer;

a step (S2) of identifying and judging the first state information and/or the second state information to obtain an alarm indication signal related to the running state of the fixed-point heat retainer and/or the mobile heat retainer;

and (S3) according to the alarm indication signal, adaptively executing alarm operation in different modes.

7. The control method according to claim 6, characterized in that:

in the step (S1), the acquiring of the first state information on the fixed-point warmer and/or the second state information on the mobile warmer specifically includes,

Step (S101), acquiring real-time heat preservation temperature information of the fixed-point heat retainer and/or currently stored heat preservation object quantity information as the first state information;

step (S102), acquiring real-time heat preservation temperature information, currently stored heat preservation object quantity information and real-time positioning information of the mobile heat retainer as the second state information;

step (S103), uploading the first state information and/or the second state information to a cloud for storage;

step (S104), based on the first state information and/or the second state information stored in the cloud, acquiring heat preservation temperature change data and/or a heat preservation temperature change curve corresponding to the fixed-point heat retainer and/or the mobile heat retainer, or based on the first state information and/or the second state information stored in the cloud, performing two-dimensional code scanning and extracting operation on the first state information and/or the second state information.

8. The control method according to claim 7, characterized in that:

in the step (S2), the identifying and determining the first status information and/or the second status information to obtain the alarm indication signal related to the operation status of the fixed-point warmer and/or the mobile warmer specifically includes,

Step (S201), the real-time heat preservation temperature information of the fixed-point heat retainer and a first preset heat preservation temperature range are subjected to identification matching processing, if the real-time heat preservation temperature information of the fixed-point heat retainer and the first preset heat preservation temperature range are matched, first judgment result information is generated, and if the real-time heat preservation temperature information of the fixed-point heat retainer and the first preset heat preservation temperature range are not matched, second judgment result information is;

step (S202), the number information of the heat preservation objects currently stored in the fixed-point heat preservation device and a first preset storage number range are subjected to identification matching processing, if the number information of the heat preservation objects currently stored in the fixed-point heat preservation device is matched with the first preset storage number range, third judgment result information is generated, and if the number information of the heat preservation objects currently stored in the fixed-point heat preservation device is not matched with the first preset storage number range;

step (S203), the real-time heat preservation temperature information of the mobile heat preservation device is subjected to identification matching processing with a second preset heat preservation temperature range, if the real-time heat preservation temperature information of the mobile heat preservation device is matched with the second preset heat preservation temperature range, fifth judgment result information is generated, and if the real-time heat preservation temperature information of the mobile heat preservation device is not matched with the second preset heat preservation temperature range, sixth judgment result information is generated;

step (S204), the number information of the heat preservation objects currently stored in the mobile heat preservation device and a second preset storage number range are subjected to identification matching processing, if the number information of the heat preservation objects currently stored in the mobile heat preservation device is matched with the second preset storage number range, seventh judgment result information is generated, and if the number information of the heat preservation objects currently stored in the mobile heat preservation device is not matched with the second preset storage number range, eighth judgment result information is generated;

and (S205) identifying and matching the real-time positioning information of the mobile heat retainer with a preset mobile area range, if the real-time positioning information of the mobile heat retainer is matched with the preset mobile area range, generating ninth judgment result information, and if the real-time positioning information of the mobile heat retainer is not matched with the preset mobile area range, generating tenth judgment result information.

9. The control method according to claim 8, characterized in that:

in the step (S2), the identifying and determining the first status information and/or the second status information to obtain the alarm indication signal related to the operation status of the fixed-point warmer and/or the mobile warmer further includes,

a step (S206) of generating a normal indication signal regarding an operation state of the fixed-point warmer or the mobile warmer as the alarm indication signal according to the first determination result information, the third determination result information, the fifth determination result information, the seventh determination result information, or the ninth determination result information;

step (S207), generating an indication signal indicating that the operation state of the fixed-point warmer or the mobile warmer is abnormal according to the second determination result information, the fourth determination result information, the sixth determination result information, the eighth determination result information, or the tenth determination result information, as the alarm indication signal.

10. The control method according to claim 9, characterized in that:

in the step (S3), adaptively performing different modes of alarming operation according to the alarming indication signal specifically includes,

Step (S301), according to the running state normal indication signal, indicating the fixed point heat retainer and/or the movable heat retainer to maintain the current working state unchanged;

and (S302) according to the running state abnormal indication signal, performing alarm operation in an acoustic and/or optical mode on the current working state of the fixed point heat retainer and/or the movable heat retainer.

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