CN114266333A - Internet of things-based cold box data interaction method - Google Patents

Abstract

The invention relates to a cold box data interaction method based on the Internet of things, which comprises the steps that a data recorder receives matching information of a cloud platform, wherein the matching information is ID identification information of a cold box, and the cold box is matched equipment distributed by the data recorder for the cloud platform; reading an ID identification code arranged on the cold box, and binding the cold box with the ID identification code consistent with ID identification information; acquiring real-time data information of the cold box; and sending the real-time data information to a cloud platform. Real-time monitoring of the cold box in the transportation process is realized through the Internet of things, if abnormity occurs in the transportation process, the cold box can be found in time and effective handling can be made, the safety and reliability of the cold box and the to-be-transported medicine in the cold box are guaranteed, and the medical articles can be detected and traced in the whole transportation process.

Description

Internet of things-based cold box data interaction method

Technical Field

The invention relates to the field of data interaction, in particular to a cold box data interaction method based on the Internet of things.

Background

The cold box data recorder in the prior art mainly adopts a display recording mode, the data interaction mode is the user interface interaction of the LED operation panel, and the data recorder still records data and display data and stores the data when the cold box is abnormal due to the record of the cold box.

But the stored data cannot be transmitted to the outside to seek effective processing against the abnormality from the outside.

Disclosure of Invention

Therefore, the invention provides a cold box data interaction method based on the Internet of things, which can solve the technical problem that data cannot be transmitted to the outside when the cold box is abnormal.

In order to achieve the purpose, the invention provides a cold box data interaction method based on the internet of things, which comprises the following steps:

the method comprises the steps that a data recorder receives matching information of a cloud platform, wherein the matching information is ID identification information of a cold box, and the cold box is a pairing device distributed by the data recorder by the cloud platform; reading an ID identification code arranged on the cold box, and binding the cold box with the ID identification code consistent with ID identification information; acquiring real-time data information of the cold box; and sending the real-time data information to a cloud platform.

Further, the acquiring real-time data information of the cold box comprises:

and detecting real-time position information, collision information, lock body state information and box cover state information of the cold box.

The temperature information and the humidity information are received and detected by a temperature and humidity sensor, and the temperature and humidity sensor is arranged on the cold box and used for detecting the real-time temperature and the real-time humidity in the cold box.

Further, when the cloud platform receives matching information,

receiving instruction information of a first terminal, wherein the instruction information comprises a transportation starting point and a transportation ending point;

the cloud platform is stored with a plurality of data recorder IDs and cold box IDs in advance;

sending the first instruction information, the ID of the data recorder and the ID of the cold box to a first execution end;

and receiving the matching information selected by the first execution end.

Further, when reading the ID identification code provided in the cold box, if the ID identification code is not identical to the ID identification information, an alarm message is issued and a standby state is entered.

Furthermore, when the real-time data information of the cold box is acquired,

acquiring real-time temperature information of the cold box;

presetting standard temperature information;

and when the real-time temperature information is greater than the standard temperature information, judging that the real-time data information is abnormal, sending alarm information, and synchronizing the alarm information to the cloud platform.

Furthermore, when the first execution terminal receives the instruction information to construct the matching information,

the first execution end selects the ID of the data recorder and the ID of the cold box according to the instruction information,

the first execution end takes the ID of the selected data recorder and the ID of the cold box as matching information;

furthermore, when the first execution end constructs the matching information, the first execution end is also used for constructing the execution information

A plurality of second execution end information is prestored in the first execution end;

and according to the instruction information of the first terminal, the first execution end selects the second execution end as execution information and sends the execution information to the cloud platform.

Further, upon the cloud platform receiving the execution information,

the cloud platform also sends the matching information and the execution information to a second terminal.

Further, when the data recorder continuously sends real-time data information to the cloud platform, the cloud platform sends the real-time data information to the first terminal, the second terminal and the second execution end.

Further, the data recorder periodically sends real-time data information to the cloud platform, and when the real-time data information is abnormal, the data recorder immediately sends an abnormal alarm to the cloud platform and uploads the abnormal real-time data information.

Compared with the prior art, the data recorder of the cold box is connected with the cloud platform through the network, so that the configuration of the Internet of things is realized, the real-time data condition of the cold box can be uploaded to the cloud platform for the client to inquire and monitor, when the data of the cold box is abnormal, a transportation department can timely protect and remedy the object to be transported, and the detection, the tracing and the effective response to the abnormal condition of the medical article in the whole transportation process are realized.

Especially, increase wireless matching detecting element on cold box and data record appearance, when cold box and data record appearance mismatch, data record appearance does not begin work and sends the police dispatch newspaper, can realize data record appearance and cold box correctly pair and whole control, avoid sending wrong thing to be transported, guarantee authenticity and the reliability of data in the transportation.

Especially, the data record appearance can carry out the full aspect control to the temperature, humidity, position, the collision condition and the lock body of cold box, case lid state condition in real time, ensures the security of the thing of waiting to transport in the cold box to whether the risk that whether the thing of waiting to transport exists the inactivation through real-time data discovery in time, can avoid waiting to transport the thing loss simultaneously.

Particularly, the cloud platform sends the instruction information to the first execution end, the first execution end distributes the cold box, the data recorder and the second execution end, and the second execution end and the cold box which are in proper positions are selected according to information such as a sending place and an object to be transported, so that the utilization rate of the cold box, the data recorder and the second execution end in the transportation process is improved.

Particularly, the cloud platform synchronizes the instruction information and the current position of the object to be transported to the second terminal, so that the second terminal can timely know the delivery time of the object to be transported and the current location of the object to be transported.

Particularly, the data recorder can also periodically upload real-time data information besides sending out alarm information, so that the first terminal, the second terminal and the second execution end can timely and accurately pay attention to the transportation position and the storage state of the object to be transported, and safety guarantee is provided for transportation of the object to be transported.

Drawings

Fig. 1 is a schematic flow chart of a cold box data interaction method based on the internet of things according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a cold box data interaction system based on the internet of things according to an embodiment of the present invention;

fig. 3 is a schematic flow chart of a cold box data interaction system distribution service based on the internet of things according to an embodiment of the present invention.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention is further described below with reference to examples; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and do not limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1, an embodiment of the present invention provides a cold box data interaction method based on the internet of things, where the method includes:

step S10, the data recorder reads the cold box ID code to generate a two-dimensional code, the cold box ID code is uploaded to a cloud platform after the APP scans the code, and the cloud platform establishes a warehouse for the cold box ID code (when the cloud platform is used for the first time) and grants the cold box ID code to be used;

step S20: the method comprises the steps that a data recorder receives matching information of a cloud platform, wherein the matching information is ID identification information of a cold box, and the cold box is a pairing device distributed by the data recorder by the cloud platform;

step S30: reading an ID identification code arranged on the cold box, and binding the cold box with the ID identification code consistent with ID identification information;

step S40: acquiring real-time data information of the cold box;

step S50: and sending the real-time data information to a cloud platform.

Specifically, the articles to be transported in the cold box are medicines; the first terminal, the second terminal, the first execution end and the second execution end are clients on the cloud platform.

Specifically, the data recorder has two operating modes: a data recorder and cold box matching mode and a data recorder independent mode;

the cold box and the data recorder are connected in an instant insertion mode through a contact probe, data interaction is carried out by using an electric signal, the recorder obtains state information of the cold box after the cold box and the data recorder are completely contacted, the ID identification code of the cold box is read through a wireless matching detection unit of the recorder, if the recorder is completely matched with the ID identification code of the cold box, the binding function of the cold box and the recorder is realized, and a normal working mode is entered; otherwise, the recorder closes all function authorities, sends out warning and report and enters a standby state; when the data recorder is separated from the cold box, the recorder closes all the functional authorities, gives out warning and reports, and then enters a standby state.

When the data recorder works in a single mode, the data recorder does not need to be matched with a cold box or not. At the moment, the wireless matching detection unit of the data recorder is invalid, and the data recorder can be used under the maximum authority.

Particularly, through uploading the real-time data information of the data recorder to the cloud platform through the network, the configuration of the Internet of things is realized, the real-time data condition of the cold box can be uploaded to the cloud platform for client inquiry and monitoring, and when the cold box data is abnormal, the transportation department can timely protect and remedy the medicine, so that the medical article can be detected, traced and effectively coped with the abnormal condition in the whole transportation process.

Specifically, the acquiring real-time data information of the cold box includes:

detecting real-time position information, collision information and lock body state information of the cold box;

the temperature and humidity detection method comprises the steps of receiving temperature information and humidity information, wherein the temperature information and the humidity information are obtained by detecting a temperature and humidity sensor, and the temperature and humidity sensor is arranged on a cold box and used for detecting real-time environment temperature and real-time humidity in the cold box.

Particularly, the data record appearance is connected through the contact probe with the cold box, and after pairing with the cold box, utilize the record of the humiture sensor on signal of telecommunication and the cold box to the temperature and humidity of cold box, data record appearance self possess embedded module, can gather real-time data information such as position, collision, current electric quantity to through networking module, utilize network signal with this real-time data information to upload to the cloud platform.

Particularly, the data record appearance can carry out the full aspect control to the temperature, humidity, position, the collision condition and the lock body condition of cold box, case lid state in real time, ensures the security of the interior medicine of cold box to in time discover through real-time data whether there is the risk of inactivation in the medicine, can avoid the medicine to lose simultaneously.

Specifically, when the cloud platform receives matching information, receiving instruction information of a first terminal, wherein the instruction information comprises a transportation starting point and a transportation ending point; the cloud platform stores a plurality of data recorder IDs and cold box IDs in advance, sends the instruction information, the data recorder IDs and the cold box IDs to the first execution end, and receives matching information selected by the first execution end.

Specifically, the cloud platform sends the instruction information to a first execution end, the first execution end selects an appropriate idle cold box and a data recorder and an appropriate idle second execution end in position distance according to the sending place and medicine information in the instruction information, then allocates the cold box, the data recorder and the second execution end, and uploads the allocated cold box, the data recorder and the second execution end as matching information to the cloud platform.

Specifically, the first execution end selects the second execution end and the cold box with proper positions through information such as a transportation starting point and medicines, and utilization rates of the cold box, the data recorder and the second execution end are improved in the transportation process.

Specifically, when the first execution end receives the instruction information to construct the matching information,

the first execution end selects a data recorder ID and a cold box ID according to the instruction information;

the first execution end uses the selected data recorder ID and the cold box ID as matching information.

Particularly, the one-to-one correspondence between the cold box and the data recorder is realized through the matching information selected by the first execution end, the data sensor is prevented from being placed wrongly, and the monitoring performance of the medicine in the cold box and the reliability of the data are ensured.

Specifically, when reading an ID identification code provided in the cold box, if the ID identification code does not match the ID identification information, alarm information is issued and the cold box enters a standby state.

Specifically, by adding a wireless matching detection unit to the cold box and the data recorder, when the cold box and the data recorder are not matched, the data recorder does not start working and gives an alarm.

Particularly, correct pairing and whole-process monitoring of the data recorder and the cold box can be achieved, wrong medicine delivery is avoided, and authenticity and reliability of data in the transportation process are guaranteed.

Specifically, when the real-time data information of the cold box is obtained, the real-time temperature information of the cold box is obtained; presetting standard temperature information;

specifically, the real-time information acquired by the data recorder can be temperature, humidity, position, lock state and collision condition, and when the real-time data information is compared and analyzed, the standard data information can be transmitted to the data recorder by the cloud platform in real time.

Specifically, the data recorder can monitor the temperature, the humidity, the position, the collision condition and the lock body condition of the cold box in a real-time and all-round manner, so that the safety of medicines in the cold box is ensured.

Specifically, when the real-time temperature information is greater than the standard temperature information, the real-time data information is judged to be abnormal, alarm information is sent out, and the alarm information is synchronized to the cloud platform.

Specifically, the data recorder sends real-time data information to the cloud platform, and the real-time data information includes: the method comprises the steps of measuring the temperature, the humidity, the lock body state, the box cover state, the position, the collision condition and the like, comparing the real-time data information with standard data information preset by a data recorder, judging that the real-time data information is abnormal when the real-time data information is inconsistent with the standard data information, sending alarm information by the data recorder, and synchronizing the alarm information to a cloud platform.

Particularly, the data recorder can monitor and upload real-time data information of the cold box, and meanwhile can send alarm information to abnormal conditions of the cold box in time, and safety of medicines in the cold box is guaranteed to the greatest extent.

Specifically, the first execution end is further used for constructing execution information when constructing the matching information, so as to determine a transportation subject; basic information of a plurality of second execution ends is prestored in the first execution end; and according to the instruction information of the first terminal, the first execution end selects the second execution end as a transportation subject according to the instruction information and the basic information, and sends the execution information to the cloud platform.

Specifically, the first execution end stores the basic information of a plurality of second execution ends in advance, and also stores the real-time information of the plurality of second execution ends, including the information of idle state, position and the like, and the first execution end selects the second execution end with the proper current position according to the transportation starting point and the medicine information in the instruction information, and transports the medicine cold box from the transportation starting point to the transportation destination.

Particularly, the second execution end with proper distance and state can be selected to execute the transportation task, the second execution end can be reasonably arranged, and the utilization rate of the second execution end is improved.

Specifically, when the cloud platform receives the execution information, the matching information and the execution information are sent to the second terminal.

Specifically, the second terminal can know the delivery time of the medicine and the current location of the medicine in time.

Specifically, when the data recorder sends real-time data information to the cloud platform, the cloud platform sends the real-time data information to the first terminal, the second terminal and the second execution terminal synchronously.

Particularly, the monitoring, the detection and the traceability of the whole process of the cold box transportation process by the client are realized.

Specifically, when the data recorder sends real-time data information to the cloud platform, if the real-time data information is abnormal information, an abnormal alarm is immediately sent to the cloud platform, and the abnormal information is uploaded.

Specifically, the embodiment enables the alarm information not to be limited to the timed reporting system of the data recorder, ensures that the alarm information is reported in time, ensures the timeliness of the alarm information, and further enables the second execution end to timely and effectively process the abnormal condition of the cold box.

Referring to fig. 2, the cold box body has two modules, namely a contact probe and a temperature and humidity sensor; the data recorder comprises a key, a display screen, a timing reporting system, an infinite matching detection unit and other modules; the cloud platform comprises a first terminal, a first execution end, a second execution end and a second terminal.

Plug-and-play type connection of cold box and data record appearance can be the contact probe, also can be the plug-in connection mode of all kinds of data lines, selects the advantage of contact probe, makes the installation operation of cold box and data record appearance more simple convenient, realizes plug-and-play's operational effect.

The standard data information of the embodiment of the invention is preset in the data recorder, can be used for quickly comparing and processing the detected real-time data information in time, and can be used for monitoring and recording the real-time data information of the cold box under the condition of not being influenced by a network environment.

The data interaction form among the cloud platform, each terminal and the data recorder can be a broadcast network or a point-to-point network.

The data recorder is connected through the contact probe with the cold box, pair the back with the cold box, utilize the record of the humiture sensor on signal of telecommunication and the cold box to the temperature and humidity of cold box, data recorder self possess embedded module, can be to the position, the collision, real-time data information such as current electric quantity gathers, and through the networking module, utilize this real-time data information to upload the cloud platform to network signal, the cloud platform uploads each customer end with real-time data information through network signal again, the realization is to the detection of cold box transportation and traces back.

Referring to fig. 3, the first terminal is a sender, and sends instruction information to the cloud platform to generate a waybill; the cloud platform sends instruction information sent by a first terminal to a first execution end, wherein the first execution end is a distribution side web end, so that a cold box, a data recorder and a distributor are distributed, and the information is generated into matching information and uploaded to a cloud end; the cloud end transmits the matching information back to the data recorder, the data recorder searches for a cold box conforming to the matching ID according to the matching information, the cold box enters a working state after installation, and real-time data information of the cold box starts to be monitored and uploaded; the second execution end is a distribution side app end, the second execution end can receive real-time data information of the cold box in real time, so that when medicine data are abnormal, medicines to be transported can be processed and protected in time, the second terminal is a receiving party, and the cloud platform synchronizes the real-time data information of the cold box and the instruction information sent by the first terminal to the second terminal, so that a complete distribution data interaction network is formed.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention; various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A cold box data interaction method based on the Internet of things is characterized by comprising the following steps:

the method comprises the steps that a data recorder receives matching information of a cloud platform, wherein the matching information is ID identification information of a cold box, and the cold box is a pairing device distributed by the data recorder by the cloud platform;

reading an ID identification code arranged on the cold box, and binding the cold box with the ID identification code consistent with ID identification information;

acquiring real-time data information of the cold box;

and sending the real-time data information to a cloud platform.

2. The internet of things-based cold box data interaction method according to claim 1, wherein the acquiring real-time data information of the cold box comprises:

detecting real-time position information, collision information, lock body state information and box cover state information of the cold box;

the temperature information and the humidity information are received and detected by a temperature and humidity sensor, and the temperature and humidity sensor is arranged on the cold box and used for detecting the real-time temperature and the real-time humidity in the cold box.

3. The Internet of things-based cold box data interaction method according to claim 2, wherein when the cloud platform receives the matching information,

receiving instruction information of a first terminal, wherein the instruction information comprises a transportation starting point and a transportation ending point;

the cloud platform is stored with a plurality of data recorder IDs and cold box IDs in advance;

sending the instruction information, the ID of the data recorder and the ID of the cold box to a first execution end;

and receiving the matching information selected by the first execution end.

4. The Internet of things-based cold box data interaction method of claim 3, wherein when the first execution end receives the instruction information and constructs the matching information,

the first execution end selects a data recorder ID and a cold box ID according to the instruction information;

the first execution end uses the selected data recorder ID and the cold box ID as matching information.

5. The Internet of things-based cold box data interaction method is characterized in that when an ID identification code arranged on the cold box is read, if the ID identification code is inconsistent with ID identification information, alarm information is sent out and the cold box enters a standby state.

6. The Internet of things-based cold box data interaction method according to claim 5, wherein when real-time data information of the cold box is acquired,

acquiring real-time temperature information of the cold box;

presetting standard temperature information;

and when the real-time temperature information is greater than the standard temperature information, judging that the real-time data information is abnormal, sending alarm information, and synchronizing the alarm information to the cloud platform.

7. The Internet of things-based cold box data interaction method of claim 6, wherein when the first execution end constructs the matching information,

the system is also used for constructing execution information for determining a transportation subject;

basic information of a plurality of second execution ends is prestored in the first execution end;

and according to the instruction information of the first terminal, the first execution end selects the second execution end as a transportation subject according to the instruction information and the basic information, and sends the execution information to the cloud platform.

8. The Internet of things-based cold box data interaction method of claim 7, wherein when the cloud platform receives the execution information,

and sending the matching information and the execution information to a second terminal.

9. The cold box data interaction method based on the Internet of things of claim 1, wherein when the data recorder sends real-time data information to the cloud platform, the cloud platform synchronously sends the real-time data information to a first terminal, a second terminal and a second execution terminal.

10. The cold box data interaction method based on the Internet of things as claimed in any one of claims 1 to 9, wherein when the data recorder sends real-time data information to the cloud platform, if the real-time data information is abnormal information, an abnormal alarm is immediately sent to the cloud platform and the abnormal information is uploaded.

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