CN211149486U - Collection equipment and logistics express monitoring system - Google Patents

Collection equipment and logistics express monitoring system Download PDF

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Publication number
CN211149486U
CN211149486U CN202020307075.5U CN202020307075U CN211149486U CN 211149486 U CN211149486 U CN 211149486U CN 202020307075 U CN202020307075 U CN 202020307075U CN 211149486 U CN211149486 U CN 211149486U
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industrial control
visible light
control device
logistics express
package
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毕胜
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Neusoft Group Guangzhou Co ltd
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Neusoft Group Guangzhou Co ltd
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Abstract

The utility model discloses a collection equipment and commodity circulation express delivery monitored control system. The collecting device comprises a visible light collecting device, a code scanning device and an industrial control device. The visible light acquisition device and the code scanning device are respectively connected with the industrial control device, work according to the control of the industrial control device, and transmit acquired data to the industrial control device. Collecting the visible light image of the package during the visible light image collection work; when the code scanning device works, the surface order on the surface of the package is scanned to obtain the logistics express bill number of the package. In addition, the industrial control device also acquires an X-ray image shot by the parcel by the on-site X-ray machine. The visible light image, the logistics express bill number and the X-ray image can be used for logistics monitoring of the package. The acquisition equipment acquires the acquisition of various dimensional data of the packages at the logistics express site, the accuracy and the reliability of logistics monitoring are improved, the logistics express monitoring effect on the packages containing contraband is favorably improved, the difficulty of public security control work is reduced, and the efficiency of the public security control work is improved.

Description

Collection equipment and logistics express monitoring system
Technical Field
The utility model relates to an internet and internet of things technical field especially relate to an acquisition equipment and commodity circulation express delivery monitored control system.
Background
With the rapid development of information technology and the continuous popularization of electronic commerce, the logistics express industry develops rapidly. According to statistics, the total quantity of package transportation per year in China in recent years reaches more than one billion, and the annual speed increase reaches more than 40%. The logistics express service provides great convenience for daily production and life of people.
In China, weapons, ammunition, explosive articles, extremely toxic articles, anesthetic, radioactive articles and the like are all prohibited articles regulated by law, and are not manufactured, purchased, used, held, stored, transported and imported and exported privately. However, the monitoring effect of logistics express delivery of packages is poor at present, the difficulty of developing public security system security prevention and control work is high, and the efficiency is low.
SUMMERY OF THE UTILITY MODEL
Based on the problem, the utility model provides a collection equipment and commodity circulation express delivery monitored control system to promote the commodity circulation express delivery control efficiency to the parcel that contains contraband or suspected contraband, reduce the degree of difficulty of public security prevention and control work, promote the efficiency of public security prevention and control work.
The embodiment of the utility model discloses following technical scheme:
in a first aspect, the utility model provides an acquisition device, which is arranged at a logistics express site; the acquisition device includes: the system comprises a visible light image acquisition device, a code scanning device and an industrial control device; the visible light image acquisition device and the code scanning device are respectively connected with the industrial control device;
the visible light image acquisition device and the code scanning device are respectively used for acquiring the visible light image and the logistics express delivery order number of the package according to the control of the industrial control device when the package is conveyed on the conveyor belt of the X-ray machine; the X-ray machine is used for collecting an X-ray image of the package;
the industrial control device is used for acquiring the visible light image, the logistics express bill number and the X-ray image so as to monitor the logistics express of the package.
Optionally, the acquisition device further comprises: the grating is directly connected with the industrial control device and used for sending a trigger signal to the industrial control device when the situation that the package passes through the conveyor belt is identified;
and the industrial control device is used for controlling the visible light image acquisition device and the code scanning device to work according to the trigger signal.
Optionally, the acquisition device further comprises: the acquisition card is connected with the industrial control device through a data line;
when the acquisition card is inserted into the X-ray machine, the industrial control device is used for acquiring the X-ray image acquired by the X-ray machine through the acquisition card.
Optionally, the acquisition device further comprises: a router comprising a 4G card; the router is connected with the industrial control device;
the industrial control device is specifically used for establishing connection with the visible light image acquisition device and the code scanning device through the router to acquire the visible light image and the logistics express waybill number.
Optionally, the industrial control device is further configured to:
enhancing the image collected by the visible light collecting device; and/or, performing a cropping of the X-ray image.
Optionally, each device included in the collection device is deployed on a gantry of the logistics express delivery site.
Optionally, the gantry spans above the conveyor belt; the projection of the portal frame to the ground and the projection of the conveyor belt to the ground have an overlapping area; and each device in the acquisition equipment is respectively deployed at the top angle and/or right above the portal frame.
In a second aspect, the utility model provides a logistics express monitoring system, which comprises the collecting device provided by the first aspect; further comprising: a docking platform;
the industrial control device is used for sending the visible light image, the logistics express delivery order number and the X-ray image to a docking platform;
the docking platform is used for determining whether the package needs to be monitored according to the X-ray image; and when the parcel is determined to be monitored, the logistics express delivery monitoring of the parcel is realized by using the visible light image and the logistics express delivery bill number.
Optionally, the docking platform is further configured to verify authenticity of the acquisition device.
Optionally, the industrial control device communicates with the docking platform through a 4G card.
Compared with the prior art, the utility model discloses following beneficial effect has:
the utility model discloses in provide a set up the collection equipment at commodity circulation express delivery scene, it includes visible light collection system, sweeps a yard device and industrial control device. The visible light acquisition device and the code scanning device are respectively connected with the industrial control device, can work under the control of the industrial control device, and transmit acquired data to the industrial control device. Collecting the visible light image of the package during the visible light image collection work; when the code scanning device works, the surface order on the surface of the package is scanned to obtain the logistics express bill number of the package. In addition, the industrial control device can also acquire an X-ray image shot by the parcel by an on-site X-ray machine. The visible light image, the logistics express bill number and the X-ray image collected by the collecting device can be used for logistics monitoring of the package.
This collection equipment realizes acquireing the collection of the multiple dimension data of parcel at the commodity circulation express delivery scene, has promoted the degree of accuracy and the reliability of commodity circulation control to be favorable to promoting the commodity circulation express delivery control efficiency to the parcel that contains contraband or suspected contraband, reduce the degree of difficulty of public security prevention and control work, promote the efficiency of public security prevention and control work. Additionally, the utility model provides a logistics monitoring system who contains above-mentioned collection equipment still provides, and this system still includes docking platform, and docking platform passes through docking collection equipment, and whether the data determination parcel that utilizes collection equipment to gather need the control to utilize the data realization that collection equipment gathered to the control of parcel.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 these drawings without inventive exercise.
Fig. 1 is a schematic structural diagram of an acquisition device according to an embodiment of the present invention;
fig. 2 is an installation schematic diagram of the collecting device provided by the embodiment of the present invention at an express delivery site;
fig. 3 is a schematic structural diagram of a logistics express monitoring system provided by an embodiment of the present invention;
fig. 4 is a schematic structural diagram of a docking platform according to an embodiment of the present invention.
Detailed Description
Nowadays, logistics express service has gradually become an indelible part of people's production and life. More and more people rely on courier companies to ship or pick up items. But with the rapid development and the increasingly wide application of the logistics express industry, the annual package transportation volume reaches the billion magnitude. Such huge traffic volume, correspondingly, logistics express delivery data volume is much more huge.
In the face of logistics express delivery data with huge data volume, the public security system is difficult to complete security prevention and control work related to logistics express packages through one-by-one investigation. Therefore, monitoring the transportation of contraband is a difficult problem in security and control. How to improve the logistics express monitoring effect of packages becomes a technical problem to be solved urgently.
To solve the problems, the inventor provides a collection device and a logistics express monitoring system through research. The collection equipment can collect abundant data (including X-ray images, visible light images and logistics express delivery order numbers) of various dimensions of the packages, and the accuracy and reliability of package monitoring are improved. In addition, the docking platform in the system can receive the data acquired by the acquisition equipment, and judges the safety of the articles in the package based on the data, so as to determine whether to monitor the articles. When the docking platform determines that the package needs to be monitored, monitoring is achieved by using data collected by the front-end collecting device. The utility model provides a collection equipment and commodity circulation express delivery monitored control system have promoted the commodity circulation express delivery control efficiency to the parcel, and then reduce the degree of difficulty of public security prevention and control work, promote the efficiency of public security prevention and control work.
In order to make the technical solution of the present invention better understood, the technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1, this figure is a schematic structural diagram of an acquisition device provided by an embodiment of the present invention.
The collection device 110 is arranged on a logistics express delivery site. As an example, the logistics express delivery site may be an express delivery relay center.
The logistics express delivery scene where the acquisition equipment 110 is also provided with an X-ray machine, and the X-ray machine can be a channel-type X-ray machine and comprises a conveyor belt. After the parcel in the logistics express delivery site is placed in the conveyer belt, along with the conveyer belt motion, the X-ray image is shot by the X-ray machine after reaching the specific area.
The acquisition device 110 includes: the device comprises a visible light image acquisition device 111, a code scanning device 112 and an industrial control device 113. Wherein, the visible light collecting device 111 and the code scanning device 112 are respectively connected with the industrial control device 113.
Since the visible light image capturing device 111 is connected to the industrial control device 113, the visible light image capturing device 111 and the industrial control device 113 can communicate with each other. For example, the visible light image capturing device 111 may receive a first control signal sent by the industrial control device 113, and capture a visible light image of a package according to control of the first control signal. After the visible light image is shot, the visible light image acquisition device 111 may further send the obtained image to the industrial control device 113.
It can be understood that if the quality of the visible light image of the package is not good, the industrial control device 113 may perform image processing, such as image enhancement, on the package, so as to improve the quality of the visible light image. In addition, as a possible implementation manner, the industrial control device 113 may also perform screening on multiple frames of images before sending the visible light image.
As an example, the sampling device 110 of the present embodiment may use a china digital video live broadcasting suite with a model of "rock canyon nuc5i3ryh-ub 60" as the industrial control device 113.
Since the code scanning device 112 is connected to the industrial control device 113, the code scanning device 112 can communicate with the industrial control device 113. For example, the code scanning device 112 may receive a second control signal sent by the industrial control device 113, and scan a barcode or a two-dimensional code on the parcel receipt to obtain the number of the logistics express receipt according to the control of the second control signal. As a possible implementation manner, the code scanning device 112 is a three-dimensional depth-of-field code scanning device. After the code scanning is finished, the code scanning device 112 may send the obtained logistics express delivery order number to the industrial control device 113.
The X-ray machine of commodity circulation express delivery scene shoots the parcel, obtains the X-ray image of parcel. The acquisition device 110 may further include: and (5) collecting the card. The acquisition card is connected with the industrial control device 113 through a data line. And the acquisition card can be plugged into the X-ray machine, so that the X-ray image is transferred to the acquisition card, and then the acquisition card provides the X-ray image to the industrial control device 113 through the data line.
It should be noted that the X-ray image obtained by the acquisition card from the X-ray machine may be in an original image data format, and therefore, the industrial control device 113 may further cut the image data to obtain the X-ray image corresponding to the package.
It can be understood that if no package passes by on the conveyor belt, the visible light image capture device 111 and the code scanner device 112 are still working continuously, which may result in unnecessary waste of power resources. To avoid this problem, a sensor for identifying the passage of the package may also be provided in the acquisition device 110. As an example, the sensor may be a photosensor comprising a grating. The grating is directly connected to the industrial control device 113. When the grating recognizes that the package passes through the conveyor belt of the X-ray machine, a trigger signal is sent to the industrial control device 113, so that the industrial control device 113 controls the visible light image acquisition device 111 and the code scanning device 112 to work according to the trigger signal. As an example, after the industrial control device 113 receives the trigger signal of the grating, it sends a first control signal to the visible light image capturing device 111, and sends a second control signal to the code scanning device 112. Since the visible light image acquisition device 111 and the code scanning device 112 respectively work under the control of the industrial control device 113, unnecessary waste of power resources is saved.
In order to ensure the safety of the operation of the collecting device 110, an air switch may be further disposed in the power supply circuit of the collecting device 110 in practical applications. When the air switch is closed, the collection device 110 is powered; when the air switch is switched off, the collection equipment loses power and stops working.
In practical applications, as a possible implementation manner, the industrial control device 113 is provided with a router, and the router is provided with a 4G card, that is, supports 4G communication. The industrial control device 113 may be connected to the visible light image capturing device 111 and the code scanning device 112 through a router. The above is the collecting device provided by this embodiment, which includes a visible light collecting device, a code scanning device and an industrial control device. The visible light acquisition device and the code scanning device are respectively connected with the industrial control device, can work under the control of the industrial control device, and transmit acquired data to the industrial control device. Collecting the visible light image of the package during the visible light image collection work; when the code scanning device works, the surface order on the surface of the package is scanned to obtain the logistics express bill number of the package. In addition, the industrial control device can also acquire an X-ray image shot by the parcel by an on-site X-ray machine. The visible light image, the logistics express bill number and the X-ray image collected by the collecting device can be used for logistics monitoring of the package.
This collection equipment realizes acquireing the collection of the multiple dimension data of parcel at the commodity circulation express delivery scene, has promoted the degree of accuracy and the reliability of commodity circulation control to be favorable to promoting the commodity circulation express delivery control efficiency to the parcel that contains contraband or suspected contraband, reduce the degree of difficulty of public security prevention and control work, promote the efficiency of public security prevention and control work.
Referring to fig. 2, which is a schematic view of the installation of the collection device at a logistics express delivery site, the collection device 110 may be deployed on a gantry 201. Gantry 201 spans above the conveyor belt. The projection of the portal frame 201 to the ground and the projection of the conveyor belt to the ground have an overlapping area. The devices in the acquisition equipment 110 are respectively deployed at the top corner and/or right above the gantry 201.
In one possible implementation, the various devices of the harvesting device 110 may be centrally deployed within a protective case 114 of the harvesting device 110, as shown in fig. 2. For example, the protective box 114 is arranged in the region 204 directly above the gantry 201, and thus the respective devices of the acquisition apparatus 110 include: the device comprises a visible light image acquisition device 111, a code scanning device 112, an industrial control device 113 and a grating 115. The industrial control device 113 includes a router 1131, and is connected to the visible light image capturing device 111 and the code scanning device 112 through the router 1131, and the connection relationship is represented by a dashed line in fig. 2. The industrial control device 113 is connected to an acquisition card 117 via a data line 116, and the acquisition card 117 is used for plugging an X-ray machine outside the acquisition device 110, so that the acquisition card 117 is located outside the protection box 114 during operation. The grating 115 is directly connected to the industrial control device 113. In practical application, the protective box may be provided with light holes, and the grating 115, the visible light image collecting device 111 and the code scanning device 112 collect data through the light holes respectively.
In addition, as another possible implementation manner, the devices of the acquisition apparatus 110 may also be disposed on the gantry 201 in a decentralized manner. For example, the visible light image acquisition device 111 is disposed at one top corner 202 of the gantry 201, the code scanning device 112 is disposed at the other top corner 203 of the gantry 201, and the industrial control device 113 is disposed in the region 204 directly above the gantry 201.
The gantry 201 shown in fig. 2 may be customized according to the size of each device in the collection equipment 110 and the spatial structure of the logistics express delivery site.
Based on the foregoing embodiment, correspondingly, this application still provides a commodity circulation express delivery monitored control system.
Referring to fig. 3, the structure of the logistics express monitoring system 100 is schematically shown. The system 100 mainly includes an acquisition device 110 and a docking platform 120. The collection device 110 is arranged at the logistics express site as the front end of the logistics express monitoring system 100. The docking platform 120 may run in a cloud system or may be implemented by a physical device, which may be a device with computing capability, such as a computer. The specific implementation form of the docking platform 120 is not limited herein. The industrial control device can send the visible light image, the logistics express waybill number and the X-ray image to the docking platform 120 in a 4G communication mode by using a 4G card in the router.
It should be noted that, in order to ensure the reliability of monitoring the express delivery of the package logistics, the docking platform 120 may verify the authenticity of the front-end data source (i.e., the acquisition device 110) of the package, so as to prevent someone from intentionally falsifying the data acquired by the front end and transmitting the data to the docking platform 120.
As a possible implementation manner, after the docking platform 120 establishes a connection with the industrial control device 113 in the acquisition device 110, a verification request is sent to the industrial control device 113, and verification information is obtained. As an example, the verification information may include: the system comprises position information of an X-ray machine, a logistics express company to which the X-ray machine belongs and the model of the X-ray machine. In addition, the verification information can also comprise the models of the visible light acquisition device and the code scanning device. When the verification information passes the verification of the docking platform 120, the docking platform 120 may determine that the collection device 110 is a collection device capable of providing reliable data, i.e., true; otherwise, it is false. It is understood that the above is only one example implementation manner of the docking platform 120 for verifying the authenticity of the acquisition device 110, and in practical applications, the manner of verifying the authenticity may include various manners, which are not limited herein.
A docking platform 120 for determining whether the package needs to be monitored according to the X-ray image of the package. As an example, if it is determined from an X-ray image of a package that contraband or suspected contraband is included in the package, it may be determined that the package needs to be monitored. The docking platform 120 is further configured to use the visible light image and the logistics express waybill number to monitor the logistics express waybill when it is determined that the package needs to be monitored.
Since the visible light image contains the appearance characteristics of the package, the logistics express waybill number can be used for indexing the shipping information (such as contact telephone, shipping address and receiving address of sender and receiver) of the package, so that when the package is determined to need to be monitored, the logistics express waybill monitoring on the package can be effectively realized by using the visible light image and the logistics express waybill number.
In the utility model, the X-ray image, the visible light image and the logistics express bill number collected at the front end provide rich data support for the monitoring of the rear end; the back end judges the safety according to the data provided by the front end and monitors the packages to be monitored. This commodity circulation express delivery monitored control system 100 has promoted the commodity circulation express delivery control efficiency to the parcel, and then reduces the degree of difficulty of public security prevention and control work, promotes the efficiency of public security prevention and control work.
The embodiment of the utility model provides an in commodity circulation express delivery monitored control system 100, the human-computer image of parcel can also be gathered to collection equipment 110's visible light image acquisition device 111, both contained this parcel and the commodity circulation express delivery staff's of handling this parcel image promptly. The human-computer image may also be sent to the docking platform 120 by the central control machine 113 of the acquisition device 110, so that the docking platform 120 uses the human-computer image, the visible light image of the package, and the logistics express order number together as an evidence of the verification chain in the logistics express service process.
Referring to fig. 4, this figure is a schematic structural diagram of a docking platform provided in the embodiment of the present invention. It should be noted that the docking platform is not limited to be connected to one set of collection equipment in one logistics express delivery site, and may also be connected to multiple sets of collection equipment in the same logistics express delivery site, or connected to collection equipment in different logistics express delivery sites.
As shown in fig. 4, the docking platform 120 includes: a service center 121 and an image review module 122; wherein, the service desk 121 is connected with the image reviewing module 122 through a first interface. In practical applications, the image reviewing module 122 may be a server with an image reviewing function. The algorithms for implementing the image reviewing function include various algorithms, and the algorithm for implementing the image reviewing by the image reviewing module 122 is not particularly limited.
In the docking platform 120, the service center 121 is configured to receive the visible light image, the logistics express waybill number, and the X-ray image from the industrial control device 113 of the acquisition device 110. In addition, verification information from the industrial control device 113 can be received. Since the service desk 121 and the image reviewing module 122 are connected through the first interface, the service desk 121 can transmit the X-ray image of the package to the image reviewing module 122 for image reviewing thereof using the first interface.
The image reviewing module 122 determines the type of items contained in the package based primarily on the X-ray image of the package. For example, weapons, ammunition, explosive articles, highly toxic articles, narcotics, radioactive articles, and the like are contraband. If the judgment result is yes, the package contains the contraband or suspected contraband, and if the logistics express service is provided for the package, personal safety or public safety is possibly damaged. The package needs to be monitored. In addition, the determination result may further include the type of the item included in the package.
After the image reviewing module 122 sends the determination result to the service center 121, if the determination result indicates that the package contains contraband or suspected contraband, the image reviewing module 122 may send an alarm message to the public security system. The alert message carries the type of item in the package, such as firearm, ammunition, etc. In addition, the image reviewing module 122 may also send an instruction message to the service desk 121 to instruct the service desk 121 to send the image and information related to the package to the public security system: the X-ray image, the visible light image, the logistics express waybill number and the verification information of the package are obtained from the industrial control device 131. The images and the information are provided for a public security system, the public security system can conveniently use the data to butt joint a logistics express platform, more detailed logistics express data of the packages are obtained, and the packages are monitored and investigated more thoroughly.
Optionally, the docking platform 120 further comprises: a data center station 123. The service center 121 is connected to the data center 123 via a second interface. In the embodiment of the present invention, the service center 121 of the docking platform 120 is used to provide various types of services to the outside, such as comprehensive alarm coordination service for providing information clues for anti-terrorism, anti-drug, frame, and criminal investigation department. The data center 123 of the docking platform 120 provides data processing and data analysis functions based on these service requirements. An example implementation of the data center station 123 is provided below.
In one example implementation, the data center station 123 includes: and (5) early warning model. The early warning model is a pre-trained model, and can generate an early warning signal after logistics express delivery data are imported into a database of a public security system.
The early warning model can comprise a preset early warning condition, and if the logistics express delivery data led into the early warning model meets the early warning condition, an early warning signal is generated. The warning signal may be sent from the data center station 123 to the public security system, or may be sent from the data center station 123 to the service center station 121, and then provided to the public security system by the service center station 121.
The purpose of the early warning is mainly to give an early warning of the frequency of consignment of packages containing contraband or suspected contraband. It can be understood that if the consignment frequency of the packages reaches a certain set threshold, the frequency is over high, and an early warning is needed to prompt the public security system to strengthen the security prevention and control force and take effective monitoring and supervision measures.
In this embodiment, the early warning condition may at least include any one of the following:
1) the alarming times of the packages of the target logistics express delivery transit center reach a first preset threshold;
2) the alarm frequency of the packages delivered by the target area reaches a second preset threshold value;
3) and the alarm frequency of the received packages in the target area reaches a third preset threshold value.
In the above example, the early warning condition 1) is satisfied, which indicates that the number of packages containing contraband or suspected contraband in the packages processed by the transit center of the target logistics express is large, and an early warning signal needs to be generated to early warn the abnormal consignment of the transit center of the target logistics express. And the early warning condition 2) is met, which means that the number of packages containing contraband or suspected contraband in the packages sent out by the target area is large, and an early warning signal needs to be generated to early warn the abnormal delivery behavior of the target area. The target area may be suspected of production of contraband. And the early warning condition 3) is met, the fact that the number of packages containing contraband or suspected contraband in the packages received by the target area is large is indicated, and an early warning signal needs to be generated to early warn the abnormal goods receiving behavior of the target area. The target area may be suspected of use of contraband.
Through the above description, can understand, the embodiment of the utility model provides a commodity circulation express delivery monitored control system has promoted the directive property to parcel commodity circulation express delivery control through generating early warning signal to saved the investigation time, promoted monitoring efficiency. The logistics express monitoring system can help a public security system to carry out security prevention and control work more pertinently.
In another example implementation, the data center station 123 includes: and (5) studying and judging the model. The data center 123 is configured to generate a study report by using the study model and logistics express delivery data imported from a database of the public security system.
The purpose of study and judgment is mainly to conduct macroscopic angle study and judgment on the contraband consignment situation of a certain target area and generate study and judgment reports so that the public security system can accurately grasp the consignment trend of the contraband in the target area.
For example, a study report may include a trend of a target area shipping a package containing contraband for a preset period of time. The preset period may be the past year, a quarter, a month, etc. Trends presented in the study report may be ascending, descending, stationary, and the like. It can be understood that if the target area contraband consignment trend presented in the study report is an ascending trend, the recent logistics express consignment behavior of the area needs to be concerned particularly. In addition, the public security system and the study and judgment report can carry out more in-depth monitoring and investigation on conditions of production, sale, use and the like of contraband in the target area, so that possible criminal behaviors can be struck, and the public safety hidden danger can be reduced.
It should be noted in addition that the embodiment of the utility model provides a commodity circulation express delivery monitored control system not only can serve the policeman system, provides corresponding service according to the service demand of policeman system, can also serve commodity circulation express delivery company, provides corresponding service according to the service demand of commodity circulation express delivery company. That is to say, the early warning model can also generate early warning signals and study and judge reports after logistics express companies import logistics express data to the logistics express companies. The docking platform 120 provides the early warning signal and the study and judgment report to the logistics express company.
The combination is right the utility model provides a commodity circulation express delivery monitored control system's description the utility model discloses in, through the data perception to express delivery commodity circulation express delivery trade with in coordination, realize the comprehensive early warning and the supervision of the full dimension of the full chain of testimony commodity circulation express delivery, the human ground things organization of whole courts, ensure contraband real-time warning and deal with fast, change basic unit's prevention and control work and move towards the initiative from passive. The system realizes the image reviewing service of perception, early warning and research and judgment, provides data support of flow direction, classification and clustering of the delivered articles for information research and judgment work, provides statistical analysis of the same-proportion ring ratio for trend early warning, and provides comprehensive alarm condition cooperative service of information clues for anti-terrorism, drug enforcement, reconnaissance and criminal investigation departments. By utilizing the logistics express monitoring system, dynamic sensing data of the regional express logistics express industry can be comprehensively and three-dimensionally presented, and auxiliary decision making can be realized from heat distribution, inflow and outflow trends to comprehensive trend situation early warning and alarm situation cooperative disposal.
In practical applications, the docking platform 120 may further provide data query services to satisfy data query requests of users, such as contraband data query, special crowd monitoring query, logistics express information query, and image review judgment result query. In addition, the docking platform 120 may further provide a statistical query service to satisfy a statistical query request of a user, such as a contraband flow direction query, a contraband thermodynamic diagram, a contraband classification display, an X-ray image alarm state, and the like.
In practical applications, the docking platform 120 may also meet the management requirements of the system for the user. The user's operations at the docking platform 120 can be recorded by the docking platform 120, generating a series of operation logs. In addition, user information logged into the docking platform 120 may also be recorded.
Optionally, the docking platform 120 may include a memory, and the stored information may include the following:
collecting a package visible light image, an X-ray image, a logistics express order number and the like sent by the equipment 110;
the image reviewing module 122 performs an image reviewing function to obtain a judgment result;
the operation information related to the docking platform 120 includes a login account, an operation log, and the like.
Optionally, the docking platform 120 may provide a service of manual review, for example, the image reviewing module 122 is only used as an initial judgment, the abnormal X-ray image and the result of the initial judgment are provided to the reviewing staff through the visual interface, and the reviewing staff performs a treatment by combining the above to determine whether to send an alarm message to the public security system. The interface may present the following disposal options:
(1) misjudgment and no treatment;
(2) confirming and first-level alarming;
(3) and confirming and secondary alarming.
The audit staff member selects based on the above options, and the docking platform 120 performs subsequent operations based on the selection operation of the audit staff member. It should be noted that the docking platform 120 may automatically configure the disposition opinion according to the alarm level and push the disposition opinion to the collection device 110, the business system and the public security system of the logistics express company. In addition, the docking platform 120 may also alert the disposition opinions and push the disposition opinions based on the push requirements of different police.
The memory of the docking platform 120 may also store treatment comments and alert levels for the package. It should be noted that the alarm level is not limited to two levels, and may also include a coarser level division or a finer level division. The manner of dividing the alarm levels is not limited here. The alarm level division can be set according to a specific logistics express scene.
It should be noted that, in the present specification, all the embodiments are described in a progressive manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. The above-described system embodiments are merely illustrative, and the units described as separate components may or may not be physically separate, and the components suggested as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.
The above description is only one specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The collecting device is characterized by being arranged on a logistics express delivery site; the acquisition device includes: the system comprises a visible light image acquisition device, a code scanning device and an industrial control device; the visible light image acquisition device and the code scanning device are respectively connected with the industrial control device;
the visible light image acquisition device and the code scanning device are respectively used for acquiring the visible light image and the logistics express delivery order number of the package according to the control of the industrial control device when the package is conveyed on the conveyor belt of the X-ray machine; the X-ray machine is used for collecting an X-ray image of the package;
the industrial control device is used for acquiring the visible light image, the logistics express bill number and the X-ray image so as to monitor the logistics express of the package.
2. The acquisition device according to claim 1, characterized in that it further comprises: the grating is directly connected with the industrial control device and used for sending a trigger signal to the industrial control device when the situation that the package passes through the conveyor belt is identified;
and the industrial control device is used for controlling the visible light image acquisition device and the code scanning device to work according to the trigger signal.
3. The acquisition device according to claim 1, characterized in that it further comprises: the acquisition card is connected with the industrial control device through a data line;
when the acquisition card is inserted into the X-ray machine, the industrial control device is used for acquiring the X-ray image acquired by the X-ray machine through the acquisition card.
4. The acquisition device according to claim 1, characterized in that it further comprises: a router comprising a 4G card; the router is connected with the industrial control device;
the industrial control device is specifically used for establishing connection with the visible light image acquisition device and the code scanning device through the router to acquire the visible light image and the logistics express waybill number.
5. The acquisition device of claim 1, wherein the industrial control device is further configured to:
enhancing the image collected by the visible light collecting device; and/or, performing a cropping of the X-ray image.
6. The collecting apparatus according to any one of claims 1 to 5, wherein each device included in the collecting apparatus is disposed on a gantry of the logistics express delivery site.
7. The collection apparatus of claim 6, wherein the gantry spans above the conveyor belt; the projection of the portal frame to the ground and the projection of the conveyor belt to the ground have an overlapping area; and each device in the acquisition equipment is respectively deployed at the top angle and/or right above the portal frame.
8. A logistics express monitoring system, characterized by comprising the acquisition equipment of any one of claims 1 to 7; further comprising: a docking platform;
the industrial control device is used for sending the visible light image, the logistics express delivery order number and the X-ray image to a docking platform;
the docking platform is used for determining whether the package needs to be monitored according to the X-ray image; and when the parcel is determined to be monitored, the logistics express delivery monitoring of the parcel is realized by using the visible light image and the logistics express delivery bill number.
9. The logistics express monitoring system of claim 8, wherein the docking platform is further configured to verify authenticity of the collection device.
10. The logistics express monitoring system of claim 8, wherein the industrial control device is in communication with the docking platform via a 4G card.
CN202020307075.5U 2020-03-12 2020-03-12 Collection equipment and logistics express monitoring system Active CN211149486U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113435815A (en) * 2021-07-08 2021-09-24 浙江汇鼎华链科技有限公司 Express logistics traceability system and method based on block chain
CN114494985A (en) * 2022-04-18 2022-05-13 山东西曼克技术有限公司 Logistics transfer robot work abnormity detection method and system based on image processing

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113435815A (en) * 2021-07-08 2021-09-24 浙江汇鼎华链科技有限公司 Express logistics traceability system and method based on block chain
CN114494985A (en) * 2022-04-18 2022-05-13 山东西曼克技术有限公司 Logistics transfer robot work abnormity detection method and system based on image processing
CN114494985B (en) * 2022-04-18 2022-07-19 山东西曼克技术有限公司 Logistics transfer robot work abnormity detection method and system based on image processing

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