CN108900803B

CN108900803B - Monitoring method and system for submitted samples

Info

Publication number: CN108900803B
Application number: CN201810734296.8A
Authority: CN
Inventors: 肖钢; 罗玉淼; 周丹丹; 杨文宁; 吴清云
Original assignee: Jianzhen Detection Technology Shanghai Co ltd
Current assignee: Jianzhen Detection Technology Shanghai Co ltd
Priority date: 2018-07-06
Filing date: 2018-07-06
Publication date: 2021-01-12
Anticipated expiration: 2038-07-06
Also published as: CN108900803A

Abstract

The invention discloses a monitoring method and a system for a sample to be checked, which comprises the following steps: acquiring the opening state of an electronic lock body of an intelligent box for transporting a sample to be monitored for submission; when the electronic lock is unlocked, judging whether the to-be-monitored inspection sample is in the transportation process; and when the to-be-monitored submission sample is in the transportation process, sending first warning information and refusing to detect the to-be-monitored submission sample. The intelligent lock function is set, the electronic lock is controlled by the data server, the control of the authority is realized through the data server, and in the sample transportation process, as long as an unlocking event is detected, the detection of the sample is refused, so that the consistency of the quality of the sample to be detected and the whole sample to be detected in the whole transportation link is ensured, and the accuracy of the detection result is ensured.

Description

Monitoring method and system for submitted samples

Technical Field

The invention relates to the technical field of article transportation, in particular to a method and a system for monitoring a sample to be inspected.

Background

The sampling link in the inspection and detection work is an important work for guaranteeing the authenticity, representativeness and scientificity of the inspection sample. After sampling by a scientific method, the process of loading the to-be-detected sample into the sampling box and transporting the to-be-detected sample to the detection mechanism is an important link for ensuring the consistency of the to-be-detected sample and the whole to-be-detected sample. However, the samples may be turned into bags or damaged manually during transportation, or the properties of the samples to be inspected may be affected by external factors, such as high-temperature and high-humidity weather, bumpiness of roads, and overturning of the sampling box caused during manual transportation, so that the actual conditions of the samples to be inspected and the samples to be inspected are not consistent, and the measurement results are deviated.

Meanwhile, when the above situation does not have traceability, dispute between the sender and the detector will be caused, which causes serious loss to both parties.

Based on the technical problems existing above, the present application provides a technical solution to solve the above technical problems.

Disclosure of Invention

The invention aims to provide a method and a system for monitoring a submitted sample, which are used for monitoring the sample packing process and the transportation process in real time, avoiding the unknown phenomenon that the property of the submitted sample changes in the transportation process, and ensuring the consistency of the submitted sample and the overall sample to be detected in the whole transportation process, thereby ensuring the accuracy of the detection result.

The technical scheme provided by the invention is as follows:

a method of monitoring a sample under inspection, comprising: acquiring the opening state of an electronic lock body of an intelligent box for transporting a sample to be monitored for submission; when the electronic lock is unlocked, judging whether the to-be-monitored inspection sample is in the transportation process; and when the to-be-monitored submission sample is in the transportation process, sending first warning information and refusing to detect the to-be-monitored submission sample.

Further preferably, the method further comprises the following steps: when the to-be-monitored submission sample is judged to be transported to a preset position, acquiring image information in an intelligent box for transporting the to-be-monitored submission sample; checking whether the to-be-monitored inspection sample is replaced or not according to the acquired image information; and when the sample is replaced, sending first alarm information, and refusing to detect the to-be-monitored inspection sample.

Further preferably, the method further comprises the following steps: when the electronic lock is not unlocked and the to-be-monitored submission sample is not replaced, acquiring a running track of a vehicle for transporting the to-be-monitored submission sample; comparing the acquired running track of the vehicle with a preset running track of the vehicle; when the environmental information parameters are consistent, detecting the environmental information parameters in the intelligent box for transporting the to-be-monitored inspection samples; judging whether the detected environmental information parameters are consistent with the set environmental information parameters; when the detection state is consistent with the detection state, sending detection command information, and starting a detection state on the to-be-monitored to-be-detected sample;

or the like, or, alternatively,

when the electronic lock is not unlocked and the to-be-monitored submission sample is not replaced, detecting environmental information parameters in an intelligent box for transporting the to-be-monitored submission sample; judging whether the detected environmental information parameters are consistent with the set environmental information parameters; and when the detection result is consistent with the preset detection result, sending detection command information, and starting a detection state for the to-be-monitored to-be-detected sample.

Further preferably, the method further comprises the following steps: when the obtained running track is inconsistent with the preset running track of the vehicle, the road condition information is called; and sending abnormal transportation track information and the road condition information.

Further preferably, the method further comprises the following steps: when the detected environmental information parameters are inconsistent with the set environmental information parameters, acquiring the running time of a vehicle for transporting the to-be-monitored inspection sample; and transmitting the running time of the vehicle and the environmental abnormity information parameters.

A system for monitoring a sample under inspection, comprising: the lock body detection module, the position management module, the information sending module and the operation control module; a position acquisition submodule is arranged in the position management module; the lock body detection module is used for detecting the opening state of an electronic lock body of an intelligent box for transporting a to-be-monitored sample to be inspected; the position acquisition submodule is used for acquiring the position information of a vehicle for transporting the to-be-monitored inspection sample; the information sending module is used for sending first alarm information; the operation control module is respectively in communication connection with the lock body detection module, the position acquisition submodule and the information sending module, the lock body detection module is used for judging the opening state of the electronic lock body, when the electronic lock body is opened, the position acquisition submodule is controlled to judge the position information of the transportation tool, when the transportation tool is in the transportation process, the information sending module is controlled to send first alarm information, and the detection of the to-be-monitored inspection sample is refused.

Further preferably, the method further comprises the following steps: the image management module is internally provided with an image acquisition sub-module and an image detection sub-module; the image acquisition submodule is used for acquiring image information in an intelligent box for transporting the to-be-monitored inspection sample; the image detection submodule is used for checking whether the to-be-monitored inspection sample is replaced or not according to the image information acquired in the image acquisition submodule; the operation control module is also in communication connection with the image acquisition sub-module and the image detection sub-module respectively, and when the lock body detection module judges that the electronic lock body is unlocked, and the control position acquisition sub-module judges that the position information of the vehicle for transporting the to-be-monitored submission sample is in a preset position, the operation control module further controls the image detection sub-module to check that the to-be-monitored submission sample is replaced, and controls the information sending module to send first warning information to refuse to detect the to-be-monitored submission sample.

Further preferably, the method further comprises the following steps: the environment information management module is internally provided with an environment information acquisition submodule and an environment information comparison submodule; a track acquisition sub-module and a position comparison sub-module are also arranged in the position management module; the track acquisition submodule is used for acquiring the running track of a vehicle for transporting the to-be-monitored inspection sample; the position comparison submodule is used for comparing the running track acquired by the position acquisition submodule with a preset running track of a vehicle; the environment information acquisition submodule acquires environment information parameters in an intelligent box for transporting the to-be-monitored inspection samples; the environment information comparison submodule compares the environment information parameter acquired by the environment information acquisition submodule with a set environment information parameter; the operation control module is also in communication connection with the position comparison submodule, the environment information acquisition submodule and the environment information comparison submodule respectively; when the lock body detection module detects that the electronic lock is not unlocked and the to-be-monitored inspection sample is not replaced according to the image detection submodule, the position comparison submodule is controlled to compare whether the running track acquired by the position acquisition submodule is consistent with a preset running track of a vehicle or not, when the comparison result is consistent, the environment information comparison submodule is further controlled to compare whether the environment information parameter acquired by the environment information acquisition submodule is consistent with a set environment information parameter or not, and when the environment information parameter acquired by the environment information acquisition submodule is consistent with the set environment information parameter, detection command information is sent to start the detection state of the to-be-monitored inspection sample;

or the like, or, alternatively,

the operation control module is also in communication connection with the position comparison submodule, the environment information acquisition submodule and the environment information comparison submodule respectively; when the lock body detection module detects that the electronic lock is not opened and the to-be-monitored submission sample is not replaced according to the detection of the image detection submodule, the environment information comparison submodule is further controlled, whether the environment information parameters acquired by the environment information acquisition submodule are consistent with the set environment information parameters or not is judged according to the comparison, and when the environment information parameters are consistent, detection command information is sent to start the detection state of the to-be-monitored submission sample. Further preferably, a road condition obtaining sub-module is further arranged in the position management module; the road condition acquisition submodule is used for acquiring road condition information; the operation control module is also in communication connection with the road condition retrieval module, when the electronic lock is not unlocked and the to-be-monitored submission sample is not replaced according to the detection of the image detection submodule, the position comparison submodule is controlled to compare the running track acquired by the position acquisition submodule with the preset running track of the transportation tool, when the comparison is inconsistent, the transportation track is abnormal, the road condition retrieval module is controlled to retrieve road condition information, and the transportation track abnormal information and the road condition information are sent.

Further preferably, the position management module is further provided with a running time acquisition submodule;

the running time acquisition submodule is used for acquiring the running time of a vehicle for transporting the to-be-monitored inspection sample; the operation control module is also in communication connection with the operation time acquisition module, when the electronic lock is not unlocked through the lock body detection module and the to-be-monitored submission sample is not replaced according to the detection of the image detection submodule, the operation control module further controls the environmental information comparison submodule, compares whether the environmental information parameters acquired by the environmental information acquisition submodule are consistent with the set environmental information parameters, and controls the operation time acquisition module to acquire the transportation time of the to-be-monitored submission sample and send the operation time of a delivery tool and the environmental abnormal information parameters when the environmental information parameters are inconsistent.

The monitoring method and the monitoring system for the samples to be checked can bring at least one of the following beneficial effects:

in the invention, an intelligent lock function is set, the electronic lock is controlled by the data server, the control of authority is realized through the data server, and in the sample transportation process, as long as an unlocking event is detected, the occurrence of unreal and unsafe factors in the transportation process is explained, and the detection of the sample is rejected in order to ensure the authenticity of the sample to be detected and avoid the influence of unpacking on the property of the sample to be detected in the transportation process.

In the invention, the occurrence of intentional goods change and artificial damage is judged through the image information, and the detection of the sample is refused; the real reliability of the sample to be detected is also ensured, and the safety detection guarantee is provided for the detected party.

In the invention, by integrating GPS, Beidou and mobile base station comprehensive positioning monitoring measures through the video monitoring function in the sample boxing process and monitoring environmental parameters in the box in real time, the samples can be effectively prevented from being dropped or artificially damaged in the process of delivery and inspection; the external environment of the sample in the transportation process is monitored in real time, so that the environmental factors of the sample in the transportation process can be actively known, and whether the property of the sample to be inspected can be changed or not can be judged. Meanwhile, the method is also helpful to be used as an auxiliary tracing means when the detection result is questioned, and disputes caused by the fact that the two parties suspects that the property of the sample is changed due to the discomfortable storage condition in the transportation process, and the detection result is deviated are avoided. In addition, after the logistics information of the samples to be submitted for inspection is known in time, the logistics information system also helps a detection party to reasonably arrange experimenters and experimental instruments, and timely completes the detection of the samples to be submitted for inspection.

Drawings

The above features, technical features, advantages and modes of implementation of the method and system for monitoring a submitted sample according to the present invention will be further described in the following detailed description of preferred embodiments with reference to the accompanying drawings.

FIG. 1 is a flow chart of one embodiment of a method of monitoring a sample under test of the present invention;

FIG. 2 is a flow chart of another embodiment of a method of monitoring a sample under test of the present invention;

FIG. 3 is a flow chart of another embodiment of a method of monitoring a sample under test of the present invention;

FIG. 4 is a flow chart of another embodiment of a method of monitoring a sample under test of the present invention;

FIG. 5 is a flow chart of another embodiment of a method of monitoring a sample under test of the present invention;

FIG. 6 is a flow chart of another embodiment of a method of monitoring a sample under test of the present invention;

FIG. 7 is a schematic diagram of one embodiment of a sample submission monitoring system of the present invention;

FIG. 8 is a schematic diagram of another embodiment of a sample submission monitoring system of the present invention;

FIG. 9 is a schematic diagram of another embodiment of a sample submission monitoring system of the present invention;

FIG. 10 is a schematic diagram of another embodiment of a sample submission monitoring system of the present invention;

fig. 11 is a schematic diagram of another embodiment of a sample submission monitoring system of the present invention.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort. For the sake of simplicity, the drawings only schematically show the parts relevant to the present invention, and they do not represent the actual structure as a product.

One embodiment of a method for monitoring a sample to be examined is provided in the present invention, and is shown in fig. 2, and includes:

step S110, acquiring the opening state of an electronic lock body of an intelligent box for transporting a sample to be monitored for submission;

step S120, when the electronic lock is unlocked, judging whether the to-be-monitored inspection sample is in the transportation process;

step S130, when the to-be-monitored submission sample is in the transportation process, first warning information is sent, and the to-be-monitored submission sample is rejected to be detected.

Specifically, the invention solves the problems that the prior art can not realize intelligent management in the transportation process of the submitted sample to ensure the consistency of the submitted sample and the whole sample to be detected so as to ensure the accuracy of the detection result and the tracing problem when the detection result is doubtful, and the submitted sample needs to be placed in an intelligent box for storage and transportation; an electronic lock body is arranged on the intelligent box and is communicated with the cloud data server; the unlocking and locking of the electronic lock body are controlled through a cloud data server; in order to be able to unlock, it is therefore necessary to perform rights management on the lock, and unlocking and/or locking can be achieved only upon authentication of the rights. In the invention, the intelligent box in the sample to be detected can not be opened in the transportation process, because the requirement of the sample to be detected on the external environment is relatively high; therefore, no matter illegal unlocking or legal unlocking is carried out in the transportation process, the quality inspection center cannot detect the current sample, and detection is completely refused.

Therefore, in the invention, as long as the intelligent box for transporting the samples to be inspected is unlocked in the transportation process, the samples are refused to be detected, the integrity of the samples is ensured, and the samples to be inspected are strictly monitored.

An embodiment is also provided in the present invention, and shown with reference to fig. 2, further includes:

step S210, acquiring the opening state of an electronic lock body of an intelligent box for transporting a sample to be monitored for submission;

step S220, when the electronic lock is unlocked, judging the transportation position of the to-be-monitored inspection sample;

step S230, when the to-be-monitored submission sample is judged to be transported to a preset position, acquiring image information in an intelligent box for transporting the to-be-monitored submission sample;

step S240, checking whether the to-be-monitored inspection sample is replaced or not according to the acquired image information;

and step S250, when the sample is replaced, sending first alarm information, and refusing to detect the to-be-monitored submission sample.

Specifically, in this embodiment, the sample to be tested is placed in the intelligent box in a time-limited manner, and the equipment is transported from one location to the next quality inspection center; if the data server detects that the lock of the intelligent box is unlocked, positioning is needed, the unlocking time is needed, and the position of the vehicle is located during unlocking; judge again whether by people change the sample after unpacking, this needs quality testing center to look over through the picture of making a video recording of installing in the intelligent box, if change, then, quality testing center can not detect this sample, refuses to detect completely.

In the invention, the checking of the graphic information is set to ensure the authenticity of the detected sample, and on the other hand, when the sample has problems, the problem of information tracking is solved.

An embodiment is also provided in the present invention, and shown in fig. 3, further includes:

step S330, when the electronic lock is not unlocked and the to-be-monitored submission sample is not replaced, acquiring a running track of a vehicle for transporting the to-be-monitored submission sample;

step S340, comparing the acquired vehicle running track with a preset vehicle running track;

s350, when the environmental information parameters are consistent, detecting the environmental information parameters in the intelligent box for transporting the to-be-monitored inspection samples;

step S360, judging whether the detected environmental information parameters are consistent with the set environmental information parameters;

step S370, when the detection command information is consistent with the detection command information, the detection state of the to-be-monitored to-be-detected sample is started;

or;

when the electronic lock is not opened and the sample to be monitored is not replaced,

step S350, detecting environmental information parameters in an intelligent box for transporting the samples to be monitored for submission;

and step S370, when the detection command information is consistent with the detection command information, the detection state of the to-be-monitored sample to be detected is started.

Specifically, in this embodiment, if the intelligent box is not unlocked in the transportation process, and the sample in the intelligent box is not replaced through the called image information, that is, the bag is dropped; whether the intelligent box runs according to a specified route or not in the transportation process needs to be further checked, and meanwhile, a set running track is met, so that environmental parameters in the intelligent box need to be further checked, wherein the environmental parameters comprise temperature, humidity, pressure and illuminance; as long as before the quality inspection, the quality inspection is further carried out on the premise that the particularly relevant environmental parameters meet the validity of the samples to be inspected; when the environmental parameters are all in accordance with the normal parameters, the quality inspection center can send control command information to start quality inspection on the samples, if any problem occurs in the quality inspection, the transportation process needs to be further fed back and tracked according to the related information to know each inspection link, so that the quality of the inspected samples is ensured.

The embodiment also comprises another embodiment mode; as shown with reference to FIG. 4; the track of the transportation amount can be not tracked, and as long as the box is not opened and the bag is not dropped, the environment information is directly judged and comprises the environment information, pressure, temperature, humidity, illumination and the like; when the environmental parameters are all in accordance with the normal parameters, the quality inspection center sends control command information to start to perform quality inspection on the sample.

An embodiment is also provided in the present invention, shown with reference to FIG. 5; further comprising:

step S450, when the obtained running track is inconsistent with the preset running track of the vehicle, road condition information is called;

step S460 sends the transportation track abnormality information and the road condition information.

Specifically, if the intelligent box is not unlocked in the transportation process, and the sample in the intelligent box is not replaced through the called image information, namely the bag is dropped; whether the transportation runs according to the designated route or not needs to be further checked, if the tracks are inconsistent, the situation needs to be reported to a quality inspection center, and the information of the inconsistent tracks is used as an auxiliary reference condition of the quality inspection sample. Including transit timeouts; the transportation track changes, so the road surface environments are different, and the transportation time also correspondingly changes; and according to the comprehensive parameters, the quality inspection center performs related quality inspection judgment on the inspection sample.

As shown with reference to FIG. 6;

an embodiment is also provided in the present invention, as shown with reference to fig. 6; further comprising:

s570, when the detected environmental information parameters are inconsistent with the set environmental information parameters, acquiring the running time of a vehicle for transporting the to-be-monitored inspection sample; s580 transmits the running time of the vehicle and the environmental abnormality information parameter.

Specifically, the transportation amount track can be not tracked, and as long as the container is not opened and the bag is not dropped, the environment information is directly judged, wherein the environment information comprises the environment information, pressure, temperature, humidity, illumination and the like; when the environmental parameters are abnormal, such as high temperature or low temperature, the monitored abnormal parameters are sent to a quality inspection center; meanwhile, all the time when the transportation means transports the sample is called again; and the quality inspection center provides objective evaluation for the sample according to the environmental parameters and the running time parameters.

Meanwhile, another embodiment is also provided: if the intelligent box is not unlocked in the transportation process, and the sample in the intelligent box is not replaced through the called image information, namely the bag is dropped; if the intelligent box needs to further check whether the intelligent box runs according to the specified route in the transportation process and meets the set running track, the environmental parameters in the intelligent box need to be further checked, and the parameters are abnormal; calling all the time when the vehicle transports the sample again; and the quality inspection center gives objective evaluation to the sample according to the environmental parameters and the running time parameters.

According to the invention, through multi-parameter and multi-dimensional formulation of quality inspection conditions such as safety parameters, transportation track parameters, environmental parameters and the like, a novel method and a novel system for monitoring the inspection sample in real time in the transportation process after the inspection and detection mechanism randomly and scientifically extracts the inspection and detection sample are provided, so that the real-time monitoring and monitoring of the sample transportation process are realized, the consistency of the inspection sample and the overall to-be-detected sample in the transportation link is ensured, and the method and the system have very important significance in ensuring the accuracy of the detection result.

The present invention also provides an embodiment of a monitoring system for inspecting a sample, as shown in fig. 7; the method comprises the following steps: the lock body detection module 100, the position management module 200, the information sending module 500 and the operation control module 600; a position acquisition submodule 210 is arranged in the position management module 200; a lock body detection module 100 for detecting an open state of an electronic lock body of an intelligent box for transporting a sample to be monitored for submission; a position acquisition submodule 210 for acquiring position information of a vehicle for transporting a to-be-monitored inspection sample; an information sending module 500, configured to send first warning information; the operation control module 600 is in communication connection with the lock body detection module, the position acquisition submodule and the information sending module respectively, the lock body detection module is used for judging the opening state of the electronic lock body, when the electronic lock body is opened, the position acquisition submodule is controlled to judge the position information of a vehicle, when the vehicle is in a transportation path, the information sending module is controlled to send first warning information, and the detection of the to-be-monitored submission sample is refused.

Specifically, referring to fig. 1, the present invention includes an intelligent box, on which an electronic lock is disposed, the electronic lock communicating with a data server of a quality inspection center; meanwhile, the system also comprises a user end which communicates with the data server and comprises mobile communication equipment, a notebook computer and the like; accessing state information of the smart box; the intelligent box body reports the state information to the operation control module 600 at regular time, and the operation control module 600 can provide a management strategy for the intelligent box body; the operation control module 600 is a data server; a plurality of cameras are arranged in the intelligent box; an image management module is formed; the environment management module is composed of a plurality of sensors; the device comprises a temperature sensor, a humidity sensor, a photosensitive sensor, a pressure sensor and the like; each detection device establishes a bidirectional communication relationship with the data server through a data communication interface; reporting the detected information in real time; the operation control module 600 collects all the information data and sends out corresponding commands in time according to the reported data; if the lock is opened during transportation, stopping quality inspection; if the sample in the box is replaced, quality testing is rejected.

An embodiment is also provided in the present invention, shown with reference to fig. 8; further comprising: an image management module 300, in which an image acquisition sub-module 310 and an image detection sub-module 320 are provided in the image management module 300; the image acquisition sub-module 310 is used for acquiring image information in an intelligent box for transporting the to-be-monitored inspection sample; the image detection submodule 320 is used for checking whether the to-be-monitored inspection sample is replaced or not according to the image information acquired in the image acquisition submodule; the operation control module 600 is also in communication connection with the image acquisition sub-module and the image detection sub-module respectively, when the lock body detection module determines that the electronic lock body is unlocked, and when the control position acquisition sub-module determines that the position information of the transportation to-be-monitored submission sample is at the preset position, the control information sending module further controls the image detection sub-module to check that the to-be-monitored submission sample is replaced, and the control information sending module sends first warning information to refuse to detect the to-be-monitored submission sample.

An embodiment is also provided in the present invention, shown with reference to fig. 9; further comprising: the environment information management module 400 is provided with an environment information acquisition submodule 410 and an environment information comparison submodule 420 in the environment information management module 400; a track acquisition submodule 220 and a position ratio submodule 230 are also arranged in the position management module; the track acquisition submodule 220 is used for acquiring the running track of a vehicle for transporting the inspection sample to be monitored; the position comparison submodule 230 is used for comparing the running track obtained by the position obtaining submodule with a preset running track of a vehicle; the environmental information acquisition submodule 410 is used for acquiring environmental information parameters in an intelligent box for transporting the samples to be monitored and submitted to be detected; the environmental information comparison module 420 compares the environmental information parameters acquired by the environmental information acquisition module with the set environmental information parameters; the operation control module 600 is also in communication connection with the position comparison submodule, the environmental information acquisition submodule and the environmental information comparison submodule respectively; when the lock body detection module detects that the electronic lock is not unlocked, and when the to-be-monitored inspection sample is not replaced according to the detection of the image detection submodule, the control position comparison submodule compares whether the running track acquired by the position acquisition submodule is consistent with the preset running track of a vehicle or not, when the compared result is consistent, the control position comparison submodule further controls the environment information comparison submodule to compare whether the environment information parameter acquired by the environment information acquisition submodule is consistent with the set environment information parameter or not, and when the environment information parameter acquired by the environment information acquisition submodule is consistent with the set environment information parameter, the detection command information is sent, and the to-be-monitored inspection sample is unlocked and detected;

or the like, or, alternatively,

another embodiment; the operation control module 600 is also in communication connection with the position comparison submodule, the environmental information acquisition submodule and the environmental information comparison submodule respectively; when the lock body detection module detects that the electronic lock is not opened and the to-be-monitored sample to be checked is not replaced according to the detection of the image detection submodule, the environment information comparison submodule is further controlled, whether the environment information parameters acquired by the environment information acquisition submodule are consistent with the set environment information parameters or not is compared, and when the environment information parameters are consistent with the set environment information parameters, detection command information is sent to start the detection state of the to-be-monitored sample to be checked.

An embodiment is also provided in the present invention, shown with reference to FIG. 10; a road condition obtaining sub-module 240 is further arranged in the position management module 200; a traffic information obtaining sub-module 240 for obtaining traffic information; the operation control module, still with road conditions transfer module communication connection, when detecting the electronic lock through lock body detection module and not being opened, and when waiting to monitor the censorship sample according to image detection submodule detection and not being displaced, the control position is compared the submodule and is compared the operation orbit that the position acquireed the submodule and is had with the transport means operation orbit of predetermineeing, when the nonconformity of comparison, then the transportation orbit is unusual, and control road conditions transfer module and transfer road conditions information, and send transportation orbit abnormal information and road conditions information.

An embodiment is also provided in the present invention, shown with reference to fig. 11; a run time acquisition submodule 250 is also arranged in the position management module 200; a run-time acquisition submodule 250 for acquiring a run-time of a vehicle for transporting the inspection sample to be monitored; the operation control module 600 is also in communication connection with the operation time acquisition module, when the electronic lock is not unlocked through the lock body detection module, and when the to-be-monitored delivery sample is not replaced according to the detection of the image detection submodule, the environmental information comparison submodule is further controlled, whether the environmental information parameters acquired by the environmental information acquisition submodule are consistent with the set environmental information parameters or not is compared, and when the environmental information parameters are inconsistent, the operation time acquisition module is controlled to acquire the transportation time of the to-be-monitored delivery sample, and the operation time of the delivery tool and the environmental abnormal information parameters are transmitted.

In this application, specific implementation manners have been described in the above method embodiments, and since the method embodiments and the apparatuses are in one-to-one correspondence, detailed descriptions thereof are omitted here.

In the present invention, the information for detecting the vehicle position may be located by the GPS; in addition, the invention is also provided with a display module for displaying detection information including environment parameter information and position information, displaying the position of the vehicle on the way, road condition information and the like in reality; the operation management module stores the received information, and can perform active tracking if any data is abnormal; if a certain parameter value in the sample is abnormal, the factors causing the abnormality, including temperature initiation, humidity initiation or illumination initiation, can be judged, and then the link which is caused by the long illumination time, whether the link is an artificial factor or the quality problem of the sample is found out.

In addition, in each embodiment of the present invention, the ue establishing a communication system with the data server includes: a smart phone, a tablet computer, a portable email device, an electronic book, a handheld game console, a game controller, a laptop computer, a netbook, a handheld electronic device, or a smart wearable device, among others.

The intelligent box can monitor the temperature and humidity in the box body and the position of the box body in real time, and remotely control the opening and locking of the box body, so that the preservation environment and logistics information of the samples to be inspected in the box body can be known in time, and the safety monitoring of the samples to be inspected in the transportation process can be realized.

In addition, in the invention, the operation management module can realize automatic locking of the intelligent lock, and the technical scheme comprises the following steps: locking at fixed time, or unlocking and locking are realized through the light sensitivity of the light-sensitive sensor.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A method of monitoring a sample under inspection, comprising:

acquiring the opening state of an electronic lock body of an intelligent box for transporting a sample to be monitored for submission; the electronic lock body is communicated with a cloud data server, and the cloud data server is used for carrying out authority management on the electronic lock body and controlling unlocking and locking of the electronic lock body;

when the electronic lock is unlocked:

judging whether the to-be-monitored inspection sample is in the transportation process;

when the to-be-monitored submission sample is in the transportation process, sending first warning information, and refusing to detect the to-be-monitored submission sample;

when the to-be-monitored submission sample is judged to be transported to a preset position, acquiring image information in an intelligent box for transporting the to-be-monitored submission sample;

checking whether the to-be-monitored submission sample is replaced or not according to the acquired image information, and when the to-be-monitored submission sample is replaced, sending first alarm information to refuse to detect the to-be-monitored submission sample;

when the electronic lock body is not opened, judging whether the to-be-monitored inspection sample is replaced or not; if the to-be-monitored submission sample is not replaced, executing a scheme one or a scheme two:

the first scheme comprises the following steps:

acquiring a running track of a vehicle for transporting the inspection sample to be monitored;

comparing the acquired running track of the vehicle with a preset running track of the vehicle;

when the obtained running track of the vehicle is consistent with the preset running track of the vehicle in comparison, detecting environmental information parameters in an intelligent box for transporting the to-be-monitored inspection sample; judging whether the detected environmental information parameters are consistent with the set environmental information parameters; when the detected environmental information parameter is judged to be consistent with the set environmental information parameter, sending detection command information, and starting a detection state on the to-be-monitored inspection sample; when the detected environmental information parameters are judged to be inconsistent with the set environmental information parameters, acquiring the running time of a vehicle for transporting the to-be-monitored inspection sample, and sending the running time of the vehicle and the detected environmental information parameters; the environment information parameters comprise temperature, humidity, illuminance and pressure;

when the obtained running track of the vehicle is inconsistent with the preset running track of the vehicle in comparison, the road condition information is retrieved, and abnormal transportation track information and the road condition information are sent;

the second scheme comprises the following steps:

detecting environmental information parameters in an intelligent box for transporting a to-be-monitored inspection sample; the environment information parameters comprise temperature, humidity, illuminance and pressure;

judging whether the detected environmental information parameters are consistent with the set environmental information parameters, and if so, sending detection command information to start a detection state on the to-be-monitored inspection sample; and when the environmental information parameters are inconsistent, acquiring the running time of a vehicle for transporting the to-be-monitored inspection sample, and sending the running time of the vehicle and the detected environmental information parameters.

2. A system for monitoring a sample under inspection, comprising: the lock body detection module, the position management module, the information sending module and the operation control module; a position acquisition submodule is arranged in the position management module; the operation control module is a cloud data server;

the lock body detection module is used for detecting the opening state of an electronic lock body of an intelligent box for transporting a to-be-monitored sample to be inspected; the electronic lock body is communicated with a cloud data server, and the cloud data server is used for carrying out authority management on the electronic lock body and controlling unlocking and locking of the electronic lock body;

the position acquisition submodule is used for acquiring the position information of a vehicle for transporting the to-be-monitored inspection sample;

the information sending module is used for sending first alarm information;

the operation control module is respectively in communication connection with the lock body detection module, the position acquisition sub-module and the information sending module, the lock body detection module is used for judging the opening state of the electronic lock body, when the electronic lock body is opened, the position acquisition sub-module is controlled to judge the position information of the transportation tool, when the transportation tool is in the transportation process, the information sending module is controlled to send first alarm information, and the detection of the to-be-monitored inspection sample is refused;

the monitoring system for the samples to be submitted further comprises:

the image management module is internally provided with an image acquisition sub-module and an image detection sub-module;

the image acquisition submodule acquires image information in an intelligent box for transporting the to-be-monitored inspection sample;

the image detection submodule checks whether the to-be-monitored inspection sample is replaced or not according to the image information acquired in the image acquisition submodule;

the operation control module is also in communication connection with the image acquisition sub-module and the image detection sub-module respectively, and when the lock body detection module judges that the electronic lock body is unlocked, and the control position acquisition sub-module judges that the position information of the vehicle for transporting the to-be-monitored submission sample is in a preset position, the operation control module further controls the image detection sub-module to check that the to-be-monitored submission sample is replaced, and controls the information sending module to send first alarm information to refuse to detect the to-be-monitored submission sample;

the monitoring system for the samples to be submitted further comprises:

the environment information management module is internally provided with an environment information acquisition submodule and an environment information comparison submodule; a track acquisition sub-module and a position comparison sub-module are also arranged in the position management module; the environment information acquisition submodule comprises a temperature sensor, a humidity sensor, a photosensitive sensor and a pressure sensor;

the track acquisition submodule is used for acquiring the running track of a vehicle for transporting the to-be-monitored inspection sample;

the position comparison submodule is used for comparing the running track obtained by the track obtaining submodule with a preset running track of a vehicle;

the environment information acquisition submodule acquires environment information parameters in an intelligent box for transporting the to-be-monitored inspection samples; the environment information parameters comprise temperature, humidity, illuminance and pressure;

the environment information comparison submodule compares the environment information parameter acquired by the environment information acquisition submodule with a set environment information parameter;

the operation control module is also in communication connection with the position comparison submodule, the environment information acquisition submodule and the environment information comparison submodule respectively; when the lock body detection module detects that the electronic lock body is not opened and the to-be-monitored inspection sample is not replaced according to the detection of the image detection submodule, the position comparison submodule is controlled to compare whether the running track acquired by the track acquisition submodule is consistent with the preset running track of a vehicle or not, when the comparison result is consistent, the environment information comparison submodule is further controlled, whether the environment information parameter acquired by the environment information acquisition submodule is consistent with the set environment information parameter or not is compared, and when the environment information parameter acquired by the environment information acquisition submodule is consistent with the set environment information parameter, detection command information is sent to start the detection state of the to-be-monitored inspection sample;

or the like, or, alternatively,

the operation control module is also in communication connection with the position comparison submodule, the environment information acquisition submodule and the environment information comparison submodule respectively; when the lock body detection module detects that the electronic lock body is not opened and the to-be-monitored submission sample is not replaced according to the detection of the image detection submodule, the environment information comparison submodule is further controlled, whether the environment information parameter acquired by the environment information acquisition submodule is consistent with the set environment information parameter or not is judged according to the comparison result, and when the environment information parameter acquired by the environment information acquisition submodule is consistent with the set environment information parameter, detection command information is sent to start the detection state of the to-be-monitored submission sample; the environment information parameters comprise temperature, humidity, illuminance and pressure;

the position management module is also provided with a road condition acquisition submodule;

the road condition acquisition submodule is used for acquiring road condition information;

the operation control module is also in communication connection with a road condition acquisition sub-module, when the lock body detection module detects that the electronic lock body is not opened and the to-be-monitored submission sample is not replaced according to the detection of the image detection sub-module, the position comparison sub-module is controlled to compare whether the running track acquired by the track acquisition sub-module is consistent with the preset running track of a transportation tool or not, when the running track acquired by the track acquisition sub-module is inconsistent with the preset running track of the transportation tool, the transportation track is abnormal, the road condition acquisition sub-module is controlled to acquire road condition information, and the abnormal transportation track information and the road condition information are sent;

the position management module is also provided with an operation time acquisition submodule;

the running time acquisition submodule is used for acquiring the running time of a vehicle for transporting the to-be-monitored inspection sample;

the operation control module is also in communication connection with the operation time acquisition submodule, when the lock body detection module detects that the electronic lock body is not opened and the to-be-monitored inspection sample is not replaced according to the detection of the image detection submodule, the operation control module further controls the environmental information comparison submodule, whether the environmental information parameters acquired by the environmental information acquisition submodule are consistent with the set environmental information parameters or not is judged according to the comparison, and when the environmental information parameters are inconsistent, the operation control module controls the operation time acquisition submodule to acquire the transportation time of the to-be-monitored inspection sample and sends the operation time of the transportation tool and the environmental information parameters acquired by the environmental information acquisition submodule.