CN112326699A

CN112326699A - Goods image management system based on X-ray machine

Info

Publication number: CN112326699A
Application number: CN202011203783.5A
Authority: CN
Inventors: 孟毛岛; 王培�; 孟涵
Original assignee: Hefei Gequan Intelligent Technology Co ltd
Current assignee: Hefei Gequan Intelligent Technology Co ltd
Priority date: 2020-11-02
Filing date: 2020-11-02
Publication date: 2021-02-05

Abstract

The invention relates to the technical field of cargo management systems, in particular to a cargo image management system based on an X-ray machine, which comprises an X-ray machine inspection end, an image management end, a screening channel and an in-out warehouse end, wherein the X-ray machine inspection end is provided with an X-ray imaging system, a weighing sensor and a first transmitter; the invention is convenient for classified management and storage of the goods according to the weight of the goods, the X-ray images and the goods shelf numbers of the corresponding goods are called through the image management terminal, the X-ray images of the goods are convenient to check and the positions of the goods are fast found, the whole process is automatically operated, the labor force is greatly saved, the errors are avoided, and the repeated operation is prevented.

Description

Goods image management system based on X-ray machine

Technical Field

The invention relates to the technical field of cargo management systems, in particular to a cargo image management system based on an X-ray machine.

Background

With the vigorous development of internet economy, online shopping has become the current main shopping mode of people, especially with the rapid development of international and domestic logistics industries, many residents have not satisfied the domestic online shopping platform, and they have looked to overseas e-commerce websites, especially the goods sold by overseas websites have more varieties and more favorable prices compared with the domestic, so that domestic residents can rapidly increase the quantity of foreign goods purchased through the internet, and thus customs entry postal goods are in a rapid development trend. However, the inbound postal items are various in types and complex in information checking, and particularly compared with the traditional postal items, the customs inbound postal items need to monitor tax collection and specific item deployment and control conditions, so that huge challenges are brought to the customs traditional postal item monitoring mode and means.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a goods image management system based on an X-ray machine, which is convenient for classified management and storage of goods according to the weight of the goods, when the goods are required to be called or taken out, the information of the goods is input at an image management end, the X-ray image and the cell number of the corresponding goods can be called through the image management end, the X-ray image of the goods can be checked conveniently, the cell where the goods are located can be found quickly, the taken goods are ensured to be correct through the X-ray image of the goods when the goods are taken out, the repeated operation of taking wrong goods is avoided, the process of moving the goods is safe and reliable, the whole process is automatically operated, the labor force is greatly saved, the goods management efficiency is improved, the errors are avoided, and the.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a cargo image management system based on an X-ray machine comprises an X-ray machine inspection end, an image management end, a screening channel and an in-out warehouse end, wherein the X-ray machine inspection end is provided with an X-ray imaging system, a weighing sensor and a first transmitter, the image management end is provided with a transceiver, the transceiver is used for receiving output signals of the X-ray imaging system and the weighing sensor transmitted by the first transmitter, the screening channel is provided with a first receiver, a sorting controller, a detention channel and a plurality of sorting channels, the first receiver is in signal connection with the transceiver, the sorting channels are respectively provided with a first electric telescopic arm, the first receiver and the first electric telescopic arm are both electrically connected with the sorting controller, the in-out warehouse end is provided with a second receiver, an in-out controller, a travelling mechanism and a cargo rack, and the second receiver is in signal connection with the transceiver, the second receiver the running gear the goods frame all with access controller electrical connection, running gear includes ground guide rail, walking guide arm, dress supporting bench and No. two electronic flexible arms, the walking guide arm with ground guide rail sliding connection, dress supporting bench with walking guide arm sliding connection, the walking guide arm the dress supporting bench all installs the driver, No. two electronic flexible arms with dress supporting bench fixed connection, the goods frame is equipped with the cell, No. three electronic flexible arms are all installed to the cell.

Further, the loading supporting table comprises a fixed supporting plate and a movable supporting plate, the second electric telescopic arm comprises a main telescopic arm and a first auxiliary telescopic arm, and the bottom surface of the movable supporting plate is fixedly connected with the top end of the first auxiliary telescopic arm.

Furthermore, No. two electronic flexible arms include No. two vice flexible arms and baffle, No. two vice flexible arms's top with baffle fixed connection.

Furthermore, electronic flexible arm includes vertical flexible arm, the flexible arm of level and push pedal, the flexible arm of level one end with vertical flexible arm fixed connection, the flexible arm of level the other end with push pedal fixed connection.

Furthermore, the screening channel is connected with the inspection end of the X-ray machine through a main transmission mechanism, the main transmission mechanism comprises a driving motor, a driving rotating wheel and a driven rotating wheel, the output end of the driving motor is connected with the driving rotating wheel, and the driven rotating wheel is connected with the driving rotating wheel through a transmission belt.

Further, it is equipped with vice transmission device, 2 supplementary electronic flexible arms and the limiting plate of group's symmetry to select separately the passageway, supplementary electronic flexible arm with limiting plate fixed connection, the shipment brace table is equipped with induced draft motor and sucking disc, the sucking disc with No. two electronic flexible arm fixed connection, the sucking disc pass through the tuber pipe with the motor that induced drafts is connected.

Further, a bar code scanner and a second transmitter are installed at one end, opposite to the screening channel, of the X-ray machine inspection end, and the second transmitter is in signal connection with the transceiver.

Due to the adoption of the technical scheme, the invention has the following advantages:

1) the goods enter an X-ray machine inspection end for imaging scanning, a weighing sensor obtains the weight of the goods, a transmitter transmits an X-ray image and the weight of the goods in the goods to an image management end, the image management end selects a corresponding sorting channel and a corresponding cell for the goods according to the weight of the goods, and associates the cell number of the same goods with the X-ray image, so that the goods can be sorted, managed and stored according to the weight of the goods, when the goods need to be called or taken out, the information of the goods is input at the image management end, the X-ray image and the cell number of the corresponding goods can be called through the image management end, the X-ray image of the goods can be checked conveniently, the cell where the goods are located can be found quickly, the goods can be taken without errors through the X-ray image of the goods when the goods are taken out, and repeated operation of wrong goods can be avoided;

2) when goods are pushed to the cells from the loading support platform, the first auxiliary telescopic arm firstly contracts downwards to drive the movable support plate to move downwards, the movable support plate is separated from the bottom surface of the goods, the main telescopic arm extends again to push the goods on the fixed support plate to the cells, the contact area between the goods and the loading support platform in the moving process of the goods is reduced, and the moving resistance of the goods is reduced;

3) after the goods are transferred to the goods loading support platform from the sorting channel, the second auxiliary telescopic arm extends upwards, the baffle plate synchronously moves upwards, and the goods are prevented from falling off in the moving process of the walking guide rod;

4) after the push pedal sent the goods to the sorting passageway that corresponds, the goods was marchd to the terminal point of sorting passageway along with the vice transport mechanism who corresponds, when corresponding running gear was not ready yet, the limiting plate prevented that the goods from dropping from sorting passageway, the running gear is ready, supplementary electronic flexible arm extends, the limiting plate removes the restriction to the goods, the goods shifts to the dress brace table from vice transport mechanism's transmission belt on, No. two electronic flexible arms extend earlier, make sucking disc and goods inhale mutually, No. two electronic flexible arms shrink again, the reliability that the goods shifted to the dress brace table from sorting passageway is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic view of the structure of the transport mechanism;

FIG. 4 is a schematic view of the transfer of cargo from the running gear to the cells;

fig. 5 is a schematic structural view of a loading support table in embodiment 2 of the present invention;

fig. 6 is a schematic structural view of a loading support table in embodiment 3 of the present invention;

the following are structural designations of the invention:

1-an X-ray machine inspection end, 2-an image management end, 3-a detention channel, 4-a sorting channel, 5-a traveling mechanism, 6-a goods shelf, 7-a bar code scanner, 8-a second transmitter, 11-a weighing sensor, 12-a first transmitter, 13-a driving wheel, 14-a driven wheel, 15-a transmission belt, 21-a transceiver, 41-a vertical telescopic arm, 42-a horizontal telescopic arm, 43-a push plate, 44-an auxiliary electric telescopic arm, 45-a limiting plate, 51-a ground guide rail, 52-a traveling guide rod, 53-a goods loading support table, 54-a second electric telescopic arm, 55-an air suction motor, 56-a suction cup, 61-a unit lattice, 62-a third electric telescopic arm and 531-a fixed support plate, 532-movable supporting plate, 541-main telescopic arm, 542-first auxiliary telescopic arm, 543-second auxiliary telescopic arm and 544-baffle.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1 to 4, the present invention provides a technical solution: a cargo image management system based on an X-ray machine comprises an X-ray machine inspection end 1, an image management end 2, a screening channel and an in-out warehouse end, wherein the X-ray machine inspection end 1 is provided with an X-ray imaging system, a weighing sensor 11 and a first transmitter 12, the image management end 2 is provided with a transceiver 21, the transceiver 21 is used for receiving the output signals of the X-ray imaging system and the weighing sensor 11 transmitted by the first transmitter 12, the screening channel is provided with a first receiver, a sorting controller, a retention channel 3 and a plurality of sorting channels 4, the first receiver is in signal connection with the transceiver 21, the sorting channels 4 are provided with a first electric telescopic arm, the first receiver and the first electric telescopic arm are both electrically connected with the sorting controller, the in-out warehouse end is provided with a second receiver, an in-out controller, a traveling mechanism 5 and a cargo rack 6, the second receiver is in signal connection with the transceiver 21, and the second receiver, Running gear 5, goods frame 6 all with access controller electrical connection, running gear 5 includes ground guide 51, walking guide 52, loading support table 53 and No. two electronic flexible arms 54, walking guide 52 and ground guide 51 sliding connection, loading support table 53 and walking guide 52 sliding connection, walking guide 52, the driver is all installed to loading support table 53, No. two electronic flexible arms 54 and loading support table 53 fixed connection, goods frame 6 is equipped with unit check 61, No. three electronic flexible arms 62 are all installed to unit check 61.

The goods enter an X-ray machine inspection end 1 for imaging scanning, a weighing sensor 11 obtains the weight of the goods, a transmitter 12 transmits an X-ray image inside the goods and the weight of the goods to an image management end 2, the image management end 2 selects a corresponding sorting channel 4 and a corresponding cell 61 for the goods according to the weight of the goods, the number of the cell 61 of the same goods is associated with the X-ray image, information of the goods is input, the X-ray image and the number of the cell 61 of the corresponding goods can be called through the image management end 2, and the X-ray image of the goods can be checked conveniently and the goods can be found quickly; the image management terminal 2 selects the corresponding sorting channel 4 and cell 61 for the goods according to the weight of the goods, the route information is transmitted to a first receiver and a second receiver, a sorting controller starts a corresponding first electric telescopic arm according to the receiving information of the first receiver, the goods which do not meet the requirement are directly pushed to a detention channel 3, the first electric telescopic arm sends the goods which meet the requirement to a corresponding sorting channel 4, then the goods are sent to a loading support table 53, an access controller starts a walking route of a walking guide rod 52 on a ground guide rail 51 according to the receiving information of the second receiver, the walking guide rod 52 loads the goods and moves to a corresponding cell 61, the access controller moves the loading support table 53 upwards along the walking guide rod 52 through a driver of the loading support table 53, and the second electric telescopic arm 54 extends to push the goods into the corresponding cell 61; when goods are taken out, the X-ray images and the numbers of the unit cells 61 of the corresponding goods are called through the image management end 2, the goods taken are confirmed to be correct through the X-ray images, the goods taking program is started, the goods taking route information is transmitted to the second receiver, the access controller starts the walking route of the walking guide rod 52 on the ground guide rail 51 according to the receiving information of the second receiver, the walking guide rod 52 and the empty loading support platform 53 move to the corresponding unit cells 61, the access controller moves the loading support platform 53 upwards along the walking guide rod 52 through a driver of the loading support platform 53, the third electric telescopic arm 62 extends, and the goods in the unit cells 61 are pushed to the loading support platform 53.

In this embodiment, preferably, the screening channel is connected to the inspection end 1 of the X-ray machine through a main transmission mechanism, the main transmission mechanism includes a driving motor, a driving wheel 13 and a driven wheel 14, an output end of the driving motor is connected to the driving wheel 13, and the driven wheel 14 is connected to the driving wheel 13 through a transmission belt 15. The goods are transmitted between the X-ray machine inspection end 1 and the screening channel through the main transmission mechanism.

In this embodiment, preferably, the barcode scanner 7 and the second transmitter 8 are installed at the end of the X-ray machine inspection end 1 opposite to the screening channel, and the second transmitter 8 is in signal connection with the transceiver 21. Before entering the inspection end 1 of the X-ray machine, each cargo is scanned through the bar code scanner 7 to obtain the bar code number of each cargo, the second transmitter 8 transmits the bar code number of each cargo to the image management end 2, subsequent cargos enter the inspection end 1 of the X-ray machine to be imaged and scanned, the first transmitter 12 transmits the X-ray image inside the cargo to the image management end 2, and the bar code number and the X-ray image of the same cargo are in one-to-one correspondence.

Example 2

Referring to fig. 1 to 5, the present invention provides a technical solution: a cargo image management system based on an X-ray machine comprises an X-ray machine inspection end 1, an image management end 2, a screening channel and an in-out warehouse end, wherein the X-ray machine inspection end 1 is provided with an X-ray imaging system, a weighing sensor 11 and a first transmitter 12, the image management end 2 is provided with a transceiver 21, the transceiver 21 is used for receiving the output signals of the X-ray imaging system and the weighing sensor 11 transmitted by the first transmitter 12, the screening channel is provided with a first receiver, a sorting controller, a retention channel 3 and a plurality of sorting channels 4, the first receiver is in signal connection with the transceiver 21, the sorting channels 4 are provided with a first electric telescopic arm, the first receiver and the first electric telescopic arm are electrically connected with the sorting controller, the in-out warehouse end is provided with a second receiver, an in-out controller, a traveling mechanism 5 and a cargo rack 6, the second receiver is in signal connection with the transceiver 21, the second receiver, Running gear 5, goods frame 6 all with access controller electrical connection, running gear 5 includes ground guide 51, walking guide 52, loading support table 53 and No. two electronic flexible arms 54, walking guide 52 and ground guide 51 sliding connection, loading support table 53 and walking guide 52 sliding connection, walking guide 52, the driver is all installed to loading support table 53, No. two electronic flexible arms 54 and loading support table 53 fixed connection, goods frame 6 is equipped with unit check 61, No. three electronic flexible arms 62 are all installed to unit check 61.

In this embodiment, preferably, the loading support platform 53 includes a fixed support plate 531 and a movable support plate 532, the second electric telescopic arm 54 includes a main telescopic arm 541 and a first auxiliary telescopic arm 542, and a bottom surface of the movable support plate 532 is fixedly connected to a top end of the first auxiliary telescopic arm 542. When supporting platform 53 propelling movement to cell 61 is followed to the goods, the first vice flexible arm 542 contracts downwards earlier, drives movable support plate 532 downstream, and movable support plate 532 separates with the bottom surface of goods, and main flexible arm 541 extends again, pushes up cell 61 with the goods on the fixed stay board 531, reduces the goods and removes the area of contact of in-process goods and supporting platform 53 of the goods, reduces the resistance that the goods removed.

In this embodiment, preferably, the second electric telescopic arm 54 includes a second auxiliary telescopic arm 543 and a baffle 544, and a top end of the second auxiliary telescopic arm 543 is fixedly connected to the baffle 544. After the goods are transferred from the sorting channel 4 to the loading support platform 53, the second telescopic arm 543 extends upwards, the baffle 544 moves upwards synchronously, and the goods are prevented from falling off in the moving process of the walking guide rod 52.

Example 3

Referring to fig. 1 to 6, the present invention provides a technical solution: a cargo image management system based on an X-ray machine comprises an X-ray machine inspection end 1, an image management end 2, a screening channel and an in-out warehouse end, wherein the X-ray machine inspection end 1 is provided with an X-ray imaging system, a weighing sensor 11 and a first transmitter 12, the image management end 2 is provided with a transceiver 21, the transceiver 21 is used for receiving the output signals of the X-ray imaging system and the weighing sensor 11 transmitted by the first transmitter 12, the screening channel is provided with a first receiver, a sorting controller, a retention channel 3 and a plurality of sorting channels 4, the first receiver is in signal connection with the transceiver 21, the sorting channels 4 are provided with a first electric telescopic arm, the first receiver and the first electric telescopic arm are electrically connected with the sorting controller, the in-out warehouse end is provided with a second receiver, an in-out controller, a traveling mechanism 5 and a cargo rack 6, the second receiver is in signal connection with the transceiver 21, the second receiver, Running gear 5, goods frame 6 all with access controller electrical connection, running gear 5 includes ground guide 51, walking guide 52, loading support table 53 and No. two electronic flexible arms 54, walking guide 52 and ground guide 51 sliding connection, loading support table 53 and walking guide 52 sliding connection, walking guide 52, the driver is all installed to loading support table 53, No. two electronic flexible arms 54 and loading support table 53 fixed connection, goods frame 6 is equipped with unit check 61, No. three electronic flexible arms 62 are all installed to unit check 61.

In this embodiment, preferably, the first electric telescopic arm includes a vertical telescopic arm 41, a horizontal telescopic arm 42 and a push plate 43, one end of the horizontal telescopic arm 42 is fixedly connected with the vertical telescopic arm 41, and the other end of the horizontal telescopic arm 42 is fixedly connected with the push plate 43. Image management end 2 selects corresponding sorting passageway 4 and cell 61 for the goods according to the weight of goods to with route information transmission to receiver No. one, select the electronic flexible arm of corresponding of controller start-up according to the receipt information of receiver No. one, corresponding vertical flexible arm 41 extends downwards, corresponding horizontal flexible arm 42 extends to the direction that is close to the goods, corresponding push pedal 43 sends the goods to corresponding sorting passageway 4.

In this embodiment, preferentially, select separately passageway 4 and be equipped with vice transmission device, the supplementary electronic flexible arm 44 and the limiting plate 45 of 2 group symmetries, supplementary electronic flexible arm 44 and limiting plate 45 fixed connection, loading supporting bench 53 is equipped with induced draft motor 55 and sucking disc 56, sucking disc 56 and No. two electronic flexible arm 54 fixed connection, sucking disc 56 passes through the tuber pipe and is connected with induced draft motor 55. After the push plate 43 sends the goods to the corresponding sorting channel 4, the goods advances to the terminal point of the sorting channel 4 along with the corresponding auxiliary transmission mechanism, when the corresponding travelling mechanism 5 is not prepared, the limiting plate 45 prevents the goods from dropping from the sorting channel 4, the travelling mechanism 5 is ready, the auxiliary electric telescopic arm 44 extends, the limiting plate 45 removes the limitation on the goods, the goods are transferred to the loading supporting platform 53 from the transmission belt of the auxiliary transmission mechanism, the second electric telescopic arm 54 extends firstly, the sucking disc 56 is sucked with the goods, the second electric telescopic arm 54 contracts again, and the reliability of transferring the goods to the loading supporting platform 53 from the sorting channel is improved.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A cargo image management system based on an X-ray machine is characterized by comprising an X-ray machine inspection end, an image management end, a screening channel and an in-out warehouse end, wherein the X-ray machine inspection end is provided with an X-ray imaging system, a weighing sensor and a first transmitter, the image management end is provided with a transceiver, the transceiver is used for receiving output signals of the X-ray imaging system and the weighing sensor transmitted by the first transmitter, the screening channel is provided with a first receiver, a sorting controller, a detention channel and a plurality of sorting channels, the first receiver is in signal connection with the transceiver, the sorting channels are respectively provided with a first electric telescopic arm, the first receiver and the first electric telescopic arm are electrically connected with the sorting controller, the in-out warehouse end is provided with a second receiver, an in-out controller, a travelling mechanism and a cargo shelf, the second receiver is in signal connection with the transceiver, the second receiver the running gear the goods frame all with access controller electrical connection, running gear includes ground guide rail, walking guide arm, dress supporting bench and No. two electronic flexible arms, the walking guide arm with ground guide rail sliding connection, dress supporting bench with walking guide arm sliding connection, the walking guide arm the dress supporting bench all installs the driver, No. two electronic flexible arms with dress supporting bench fixed connection, the goods frame is equipped with the cell, No. three electronic flexible arms are all installed to the cell.

2. The X-ray machine based cargo image management system according to claim 1, wherein the loading support platform comprises a fixed support plate and a movable support plate, the second electric telescopic arm comprises a main telescopic arm and a first auxiliary telescopic arm, and the bottom surface of the movable support plate is fixedly connected with the top end of the first auxiliary telescopic arm.

3. The X-ray machine based cargo image management system of claim 1, wherein the second electric telescopic arm comprises a second auxiliary telescopic arm and a baffle, and the top end of the second auxiliary telescopic arm is fixedly connected with the baffle.

4. The X-ray machine based cargo image management system of claim 1, wherein the first electric telescopic arm comprises a vertical telescopic arm, a horizontal telescopic arm and a push plate, one end of the horizontal telescopic arm is fixedly connected with the vertical telescopic arm, and the other end of the horizontal telescopic arm is fixedly connected with the push plate.

5. The X-ray machine based cargo image management system according to claim 1, wherein the screening channel is connected to the inspection end of the X-ray machine through a main transmission mechanism, the main transmission mechanism comprises a driving motor, a driving wheel and a driven wheel, an output end of the driving motor is connected to the driving wheel, and the driven wheel is connected to the driving wheel through a transmission belt.

6. The X-ray machine-based cargo image management system according to claim 1, wherein the sorting channel is provided with a secondary transmission mechanism, 2 sets of symmetrical auxiliary electric telescopic arms and a limiting plate, the auxiliary electric telescopic arms are fixedly connected with the limiting plate, the loading support platform is provided with an air suction motor and a suction cup, the suction cup is fixedly connected with the second electric telescopic arm, and the suction cup is connected with the air suction motor through an air pipe.

7. The X-ray machine based cargo image management system of claim 1, wherein a barcode scanner and a second transmitter are installed at an end of the X-ray machine inspection end opposite to the screening channel, and the second transmitter is in signal connection with the transceiver.