CN216857458U - Express delivery commodity circulation supplies a platform - Google Patents

Abstract

The utility model relates to an express logistics delivery platform which comprises a telescopic conveying unit, a disinfecting unit, a fixed conveying unit, a code scanning unit, a dynamic weighing unit, a removing unit and a control unit according to an express conveying path. Wherein the middle rear end of the telescopic conveying unit transversely penetrates through the disinfection unit to be arranged; the fixed conveying unit is arranged at the downstream of the telescopic conveying unit, and one end of the fixed conveying unit transversely penetrates through the code scanning unit to be arranged; the dynamic weighing unit sets up in sweeping the below of sign indicating number unit, rejects the unit and sets up in one side position of fixed conveying unit rear end, and the control unit respectively with flexible conveying unit, sweep a sign indicating number unit, dynamic weighing unit, reject the unit electricity and be connected, the circulation of control express delivery. The utility model adopts a telescopic structure, is convenient for carrying express at a long distance, is flexible and convenient to use and saves time; the code scanning unit and the dynamic weighing unit simultaneously perform code scanning and weighing, so that the transportation device is effectively shortened, and the efficiency is improved; the elastic device of the sorting unit is convenient for rejecting abnormal express with wrong information.

Description

Express delivery commodity circulation supplies a platform

Technical Field

The utility model relates to the technical field of logistics scanning equipment, in particular to an express logistics delivery platform.

Background

With the rapid development of the internet e-commerce industry, the market demand of the domestic logistics industry is continuously expanding. For the logistics distribution center for storing a large number of goods, whether the logistics packages can be quickly and effectively scanned and weighed is very important. In the prior art, a three-section belt and an electric roller are generally adopted to send express packages into sorting equipment, namely, a first section is a fast delivery loading area, and the express packages are manually placed; the second section is a weighing scanning area, the express package is conveyed from the first section to the second section, the weight of the express package is obtained through a weighing sensor, and then the express bill number is read through a bar code scanner; the third section is an express delivery loading area, and the package is conveyed to the sorting machine by adopting an inclined belt.

Due to the fact that the express delivery needs to be manually placed with one side facing upwards, and part of special-shaped pieces are not easy to fix, the code scanning difficulty is high, and the operation is complex; the code scanning and weighing are carried out step by step, so that the efficiency is low, the time is wasted, and the length of the belt is too long due to the step by step, which is not beneficial to the reasonable utilization of the site space; there is not degassing unit, and the germ of carrying on the express delivery easily spreads other express deliveries through the belt to enlarge virus propagation range.

At present, the problems that the parcel in the related technology needs to be manually turned to scan the yard, weigh and carry out step by step, the belt is too long, and no disinfection device is provided are solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an express logistics delivery platform aiming at the defects in the prior art, and aims to solve the problems that packages need to be manually turned over to scan codes, code scanning and weighing are carried out step by step, belts are too long, no disinfection device is arranged and the like in the related art.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides an express delivery commodity circulation supplies a platform, includes flexible conveying unit, disinfection unit, fixed conveying unit, sweeps yard unit, dynamic weighing unit, rejects unit and the control unit according to express delivery route, wherein:

the telescopic conveying unit is a conveying structure with a telescopic length direction, and one end of the telescopic conveying unit transversely penetrates through the disinfection unit to be used for conveying express to the fixed conveying unit;

the disinfection unit is arranged at the middle rear end of the telescopic conveying unit and is used for disinfecting express circulated on the telescopic conveying unit;

the fixed conveying unit is arranged at the downstream of the telescopic conveying unit, one end of the fixed conveying unit transversely penetrates through the code scanning unit to be arranged, the front end of the fixed conveying unit is connected with the telescopic conveying unit, and the rear end of the fixed conveying unit is connected with the sorting machine and is used for receiving the express transferred from the telescopic conveying unit and transferring the express to the sorting machine;

the code scanning unit is arranged at the front end side position of the fixed conveying unit and used for scanning information of the express on the fixed conveying unit to obtain the barcode information of the express;

the dynamic weighing unit is arranged on the fixed conveying unit and is used for weighing the express on the fixed conveying unit to obtain the weight information of the express;

the removing unit is arranged at one side position of the rear end of the fixed conveying unit and used for removing express delivery with inconsistent bar code information and weight information transferred by the fixed conveying unit;

the control unit is respectively electrically connected with the telescopic conveying unit, the code scanning unit, the dynamic weighing unit and the removing unit and is used for controlling the circulation of the express.

Further, the telescopic conveying unit comprises a telescopic conveying element, wherein:

the telescopic conveying element is a power telescopic roller conveyor, and a driving element in the telescopic conveying element is connected with the control unit.

Further, the sterilizing unit includes a sterilizing element, an infrared ray sensing element, a plurality of spraying elements and a partition element, wherein:

the disinfection element is arranged at the upper part of the disinfection unit and is positioned above the telescopic conveying unit;

the infrared sensing element is arranged at the middle upper part of the inner side wall of the disinfection element and is used for detecting express entering the lower part of the disinfection element and controlling the opening and closing of the disinfection element;

the plurality of spraying elements are arranged on the two sides and the top of the inner side wall of the disinfection element at intervals and are used for spraying out disinfectant of the disinfection element;

the two partition elements are respectively arranged at the inlet end and the outlet end of the disinfection element and are used for isolating the inside of the disinfection element from the external environment.

Further, the sterilization unit further comprises a number of moving elements and heating elements, wherein:

a plurality of moving elements are arranged at the bottom of the disinfecting element at intervals;

the heating element is arranged on the side wall of the disinfection element and is used for heating the disinfection liquid in the disinfection element.

Further, the fixed conveying unit comprises a first conveying element, a second conveying element and a supporting element, wherein:

the first conveying element is arranged at the downstream of the telescopic conveying unit, and the front end of the first conveying element is connected with the telescopic conveying unit;

the second conveying element is arranged on one side of the middle rear end of the first conveying element and used for receiving express items with the express item bar code information inconsistent with the express item weight information;

the supporting element is arranged at the bottom of the first conveying element and used for supporting the first conveying element.

Further, sweep a yard unit and include frame element and top-down set gradually in the inside illumination element of frame element, a plurality of sweep yard element, a plurality of first reflection element, wherein:

the frame element is erected at the top of the front end of the fixed conveying unit and used for mounting the illuminating element, the code scanning element and the first reflecting element;

the lighting element is arranged on the top of the frame element and used for providing a light source;

the code scanning elements are arranged at the middle upper part in the frame element, face the express delivery arrangement on the first conveying element, and are used for automatically scanning express deliveries in multiple directions and transmitting scanned bar code information to the control unit;

the first reflecting elements are symmetrically arranged on two sides of the frame element and used for reflecting the bar code images on the express delivery side wall to the code scanning elements on the two sides.

Further, the dynamic weighing unit comprises a dynamic weighing element, a photo-emission element, a second reflection element and a photo-reception element, wherein:

the dynamic weighing unit is arranged between the bottom of the first conveying element in the fixed conveying unit and the top of the supporting element, is connected with the control unit, and is used for dynamically weighing the express delivered by the fixed conveying unit in an up-flow mode and transmitting the obtained express delivery weight information to the control unit;

the photoelectric emission element is positioned at the middle rear end of the top of the frame element in the code scanning unit and emits a light signal downwards;

the second reflecting element is arranged at the bottom of the inner part of the first conveying unit in the fixed conveying unit and used for reflecting the optical signal output by the photoelectric emitting element and transmitting the optical signal to the photoelectric receiving element;

the photoelectric receiving element is arranged at the bottom of the first conveying unit in the fixed conveying unit and used for receiving the optical signal reflected by the second reflecting element and transmitting the acquired express position information to the control unit.

Further, the rejection unit comprises a rejection element, a plurality of pneumatic elements and a plurality of elastic elements, wherein:

the rejecting element is arranged on the other side of the fixed conveying unit;

the telescopic end of at least one pneumatic element and the removing element are fixed on a supporting element in the fixed conveying unit, and the pneumatic element is connected with the control unit;

one end of each elastic element is arranged on the inner side wall of the eliminating element at intervals and corresponds to express flowing and transferring on the fixed conveying unit.

Further, the rejection unit further comprises an auxiliary element, wherein:

the auxiliary element is arranged on the inner side of the removing element, is connected with the telescopic end of at least one pneumatic element movably penetrating through the removing element, is in sliding connection with the inner wall of the removing element, and is used for assisting the elastic element to remove the express delivery.

Further, the control unit includes a drive control element and a rejection control element, wherein:

the driving control element is respectively connected with the driving element in the telescopic conveying unit and the photoelectric receiving element in the dynamic weighing unit and is used for controlling the telescopic conveying unit according to received photoelectric information;

the removing control element is respectively connected with the code scanning element in the code scanning unit, the dynamic weighing element in the dynamic weighing unit and the pneumatic element in the removing unit and is used for controlling the removing unit according to the received express delivery bar code information and the weight information.

By adopting the technical scheme, compared with the prior art, the utility model has the following technical effects:

(1) the device realizes automatic express code scanning and weighing through the telescopic conveying unit, the fixed conveying unit, the code scanning unit, the dynamic weighing unit and the removing unit, and has the advantages of simple operation, high working efficiency and flexible use;

(2) the telescopic conveying unit of the device can be stretched in the length direction, so that the long-distance express delivery carrying work is facilitated, the use is flexible and convenient, the time is saved, and the efficiency is improved;

(3) the express delivery is simultaneously scanned and weighed by the code scanning unit and the dynamic weighing unit of the device, so that the time is saved, the transportation device is effectively shortened, and the efficiency is improved;

(4) the removal unit of the device can remove express with wrong information, and the elastic device of the device is more convenient to remove special-shaped express with wrong information;

(5) the disinfection unit of the device can effectively disinfect and prevent epidemic, prevent virus from propagating through the express delivery, and the mobile device at the bottom of the disinfection unit is convenient to move, and the disinfection working space is adjusted.

Drawings

FIG. 1 is a schematic perspective view of an express logistics delivery table according to the present invention;

FIG. 2 is a schematic perspective view of an express logistics delivery table according to the present invention;

FIG. 3 is a schematic view of a partial cross-sectional structure of a sterilization unit in an express delivery logistics delivery table according to the present invention;

FIG. 4 is a schematic view of a partial cross-sectional structure of an express delivery logistics delivery table according to the present invention;

FIG. 5 is a schematic view of a partial cross-sectional structure of an express delivery logistics delivery table according to the present invention;

FIG. 6 is a schematic view of a partial cross-sectional structure of an express delivery logistics delivery table according to the present invention;

fig. 7 is a schematic view of a partial cross-sectional structure of a removing unit in an express delivery logistics delivery platform of the utility model.

Wherein the reference numerals are:

10. a telescopic conveying unit; 11. a telescopic conveying element; 12. a drive element;

20. a sterilizing unit; 21. a sterilizing element; 22. an infrared sensing element; 23. a spray element; 24. a partition element; 25. a moving element; 26. a heating element;

30. a fixed conveying unit; 31. a first conveying element; 32. a second conveying element; 33. a support element;

40. a code scanning unit; 41. a frame member; 42. an illumination element; 43. a code scanning element; 44. a first reflective element;

50. a dynamic weighing unit; 51. a dynamic weighing element; 52. a photoelectric emission element; 53. a second reflective element; 54. a photoelectric receiving element;

60. a rejection unit; 61. a rejection element; 62. a pneumatic element; 63. an elastic element; 64. an auxiliary element;

70. a control unit; 71. a drive control element; 72. and eliminating the control element.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive efforts based on the embodiments of the present invention, shall fall within the scope of protection of the present invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The utility model is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

An express delivery logistics delivery platform is shown in figure 1 and comprises a telescopic conveying unit 10, a sterilizing unit 20, a fixed conveying unit 30, a code scanning unit 40, a dynamic weighing unit 50, a removing unit 60 and a control unit 70 according to an express delivery conveying path. The telescopic conveying unit 10 is a conveying structure with a telescopic length direction, and one end of the telescopic conveying unit transversely penetrates through the sterilizing unit 20 to be used for conveying express items to the fixed conveying unit 30; the disinfection unit 20 is arranged at the middle rear end of the telescopic conveying unit 10 and is used for disinfecting express delivered on the telescopic conveying unit 10; the fixed conveying unit 30 is arranged at the downstream of the telescopic conveying unit 10, one end of the fixed conveying unit transversely penetrates through the code scanning unit 40 to be arranged, the front end of the fixed conveying unit is connected with the telescopic conveying unit 10, and the rear end of the fixed conveying unit is connected with the sorting machine and used for receiving the express from the telescopic conveying unit 10 and transferring the express to the sorting machine; the code scanning unit 40 is arranged at the front end side of the fixed conveying unit 30 and is used for scanning the information of the express on the fixed conveying unit 30 to obtain the barcode information of the express; the dynamic weighing unit 50 is arranged on the fixed conveying unit 30 and used for weighing the express on the fixed conveying unit 30 to obtain the weight information of the express; the removing unit 60 is arranged at one side of the rear end of the fixed conveying unit 30 and used for removing express delivery in which the bar code information streamed and transferred by the fixed conveying unit 30 is inconsistent with the weight information; the control unit 70 is electrically connected with the telescopic conveying unit 10, the code scanning unit 40, the dynamic weighing unit 50 and the removing unit 60 respectively and used for controlling the circulation of the express.

As shown in fig. 2, the telescopic conveyor unit 10 includes a telescopic conveyor element 11. Wherein the telescopic conveying element 11 is a power telescopic roller conveyor, and the driving element 12 in the telescopic conveying element 11 is connected with the control unit 70.

In some of these embodiments, can adjust the front position of flexible conveying element 11 according to the demand, reduce the work load that the staff carried the express delivery, improve work efficiency. When not in use, the utility model can compress the length direction of the utility model, thereby reducing the occupied area and being flexible and convenient in use.

As shown in fig. 2 to 3, the sterilizing unit 20 includes a sterilizing member 21, an infrared ray sensing member 22, a plurality of spraying members 23, and a blocking member 24. Wherein, the sterilizing element 21 is arranged at the upper part of the sterilizing unit 20 and is positioned at the upper position of the telescopic conveying unit 10; the infrared sensing element 22 is arranged at the middle upper part of the inner side wall of the disinfection element 21 and is used for detecting express entering the lower part of the disinfection element 21 and controlling the opening and closing of the disinfection element 21; the plurality of spraying elements 23 are arranged at the two sides and the top of the inner side wall of the disinfection element 21 at intervals and are used for spraying the disinfection liquid of the disinfection element 21; the two partition elements 24 are respectively disposed at the inlet end and the outlet end of the sterilizing element 21, and are used for isolating the inside of the sterilizing element 21 from the external environment.

Specifically, the sterilizing member 21 is provided at the middle rear end of the telescopic conveying member 11.

Further, the sterilisation unit 20 further comprises a number of moving elements 25 and heating elements 26. Wherein, a plurality of moving elements 25 are arranged at the bottom of the sterilizing element 21 at intervals; the heating element 26 is disposed on a side wall of the disinfecting element 21 for heating the disinfecting liquid in the disinfecting element 21.

In some of these embodiments, the disinfecting element 21 is a disinfecting cabinet.

In some of these embodiments, infrared sensing element 22 is an infrared sensing system for detecting the delivery of couriers. When the infrared sensing element 22 detects that the express delivery is transported inside the disinfection element 21, the infrared sensing element 22 controls the disinfection element 21 to be started to disinfect the express inside the disinfection element 21; when the infrared sensing element 22 detects that the inside of the sterilizing element 21 is not transported by express, the infrared sensing element 22 controls the sterilizing element 21 to be powered off.

In some of these embodiments, the spray elements 23 are spray holes, covered over a large area, and sterilized by atomization.

In some of these embodiments, the number of spray elements 23 is 11, 5 of which are disposed at the four corners and the middle of the top of the sterilizing element 21 for sterilizing the upper end of the express delivery; the 4 pieces of the disinfection components are symmetrically arranged on the middle upper parts of the side walls on the two sides of the disinfection component 21, are higher than the top of the telescopic conveying component 11 and are used for disinfecting the express delivery side walls; the other 2 inclined and symmetrical spraying elements are arranged at the middle lower parts of the side walls of the two sides of the disinfection element 21, are lower than the bottom of the conveying device in the telescopic conveying element 11 and face the bottom of the conveying device in the telescopic conveying element 11 for bottom disinfection for express delivery, and the transverse distances between the spraying elements 23 symmetrically arranged at the side walls of the two sides of the disinfection element 21 are larger than the width of the telescopic conveying element 11, so that the disinfection unit 20 can move freely.

In some embodiments, the partition element 24 is a partition curtain to prevent the atomized disinfection solution from diffusing to the outside, so as to achieve more thorough disinfection of the express delivery.

In some of these embodiments, the moving element 25 is a pulley. The position of the disinfection element 21 can be adjusted according to the length direction of the telescopic conveying unit 10, and express delivery can be conveniently disinfected.

In some of these embodiments, the heating element 26 is a heater. When the temperature is lower, the disinfectant is prevented from freezing.

As shown in fig. 2, 4, and 5, the fixed conveyance unit 30 includes a first conveyance member 31, a second conveyance member 32, and a support member 33. Wherein, the first conveying element 31 is arranged at the downstream of the telescopic conveying unit 10, and the front end thereof is connected with the telescopic conveying unit 10; the second conveying element 32 is arranged on one side of the middle rear end of the first conveying element 31 and used for receiving express items with the express item barcode information inconsistent with the weight information; the supporting member 33 is disposed at the bottom of the first conveying member 31 for supporting the first conveying member 31.

Specifically, the first conveying element 31 is disposed downstream of the telescopic conveying element 11, and its front end is engaged with the telescopic conveying element 11.

In some of these embodiments, the first conveying element 31 is a powered roller conveyor.

In some of these embodiments, the second conveying element 32 roller conveyor.

In some of these embodiments, the second conveyor element 32 is a sloped unpowered roller conveyor with a rail at its end to prevent couriers from sliding down to the ground.

In some of these embodiments, the support member 33 is a support for a stationary table.

As shown in fig. 4 to 5, the code scanning unit 40 includes a frame element 41, and an illuminating element 42, a plurality of code scanning elements 43, and a plurality of first reflective elements 44, which are sequentially disposed inside the frame element 41 from top to bottom. Wherein, the frame element 41 is erected on the top of the front end of the fixed conveying unit 30 and is used for installing the illuminating element 42, the code sweeping element 43 and the first reflecting element 44; an illumination member 42 is mounted on top of the frame member 41 for providing a light source; the scanning elements 43 are arranged at the middle upper part inside the frame element 41 and are arranged towards the express delivery on the first conveying element 31, and are used for automatically scanning the express delivery in multiple directions and transmitting the scanned bar code information to the control unit 70; a plurality of first reflecting elements 44 are symmetrically arranged on two sides of the frame element 41 and used for reflecting the bar code images on the express delivery side walls to the code scanning elements 43 on two sides.

In some of these embodiments, the frame element 41 is a fixed rack.

In some embodiments, the lighting element 42 is an LED lamp, which is energy-saving and environment-friendly, and is convenient to use, and provides a light source for the code scanning element 43 to scan codes.

In some of these embodiments, code scanning element 43 is a code scanning camera.

In some of these embodiments, the first reflective element 44 is a mirror that reflects the barcode image at the express delivery sidewall to the code-scanning element 43.

In some of these embodiments, there are 8 symbol sweeping elements 43 and 2 first reflecting elements 44. Wherein, 1 code scanning element 43 is horizontally arranged in the middle of the top inner wall of the frame element 41 and used for scanning the top of the express delivery; the 1 scan elements 43 are spaced apart at the middle of the top inner wall of the frame element 41 and tilted forward by 45 ° for oblique downward scanning; 4 code scanning members 43 are provided at four corners of the upper middle portion of the frame member 41, arranged toward the courier on the first conveying member 31; the 2 code scanning elements 43 are symmetrically arranged on the inner walls of the two sides of the middle-upper rear end of the frame element 41, have the same express delivery direction in the scanning direction, and are used for receiving the image reflected by the first reflecting element 44 and indirectly scanning the side walls of the two sides of the express; the first reflecting elements 44 are symmetrically arranged on the inner walls of the two sides of the upper front end in the frame element 41, and are obliquely arranged towards the express delivery on the first conveying element 31, so as to reflect the barcode images on the express delivery side walls to the code scanning element 43.

As shown in FIGS. 4-5, the dynamic weighing cell 50 includes a dynamic weighing cell 51, a photoemissive cell 52, a second reflective cell 53, and a photoreceiving cell 54. The dynamic weighing element 51 is arranged between the bottom of the first conveying element 31 in the fixed conveying unit 30 and the top of the supporting element 33, is connected with the control unit 70, and is used for dynamically weighing the express delivered by the fixed conveying unit 30, and transmitting the obtained express delivery weight information to the control unit 70; the photoelectric emission element 52 is positioned at the middle rear end of the top of the frame element 41 in the code scanning unit 40 and emits a light signal downwards; the second reflecting element 53 is arranged at the inner bottom of the first conveying element 31 in the fixed conveying unit 30, and is used for reflecting the optical signal output by the photoelectric emitting element 52 and transmitting the optical signal to the photoelectric receiving element 54; the photoelectric receiving element 54 is disposed at the bottom of the first conveying element 31 in the fixed conveying unit 30, and is used for receiving the light signal reflected by the second reflecting element 53 and transmitting the obtained express delivery position information to the control unit 70.

In some of these embodiments, the dynamic weighing unit 51 is a dynamic weighing machine, and when the courier is circulated to the first conveying unit 31, the dynamic weighing unit 51 detects the weight of the courier above it and transmits the obtained courier weight information to the control unit 70.

In some of these embodiments, the photoemissive element 52 is an infrared light emitting device. When the express items on the first conveying element 31 do not flow to the middle rear end of the code scanning unit 40, the optical signal emitted by the photoelectric emitting element 52 is reflected by the second reflecting element 53, the optical signal is conveyed to the photoelectric receiving element 54, and the photoelectric receiving element 54 transmits the information that the express items do not flow to the middle rear end of the code scanning unit 40 to the control unit 70; when the express flow on the first conveying element 31 reaches the middle rear end of the code scanning unit 40, the optical signal emitted by the photoelectric emitting element 52 is blocked by the express and cannot be reflected to the photoelectric receiving element 54 through the second reflecting element 53, the photoelectric receiving element 54 transmits the information that the express flow reaches the middle rear end of the code scanning unit 40 to the control unit 70, and the control unit 70 controls the driving element 12 to operate, that is, the telescopic conveying element 11 starts to convey the express. The express delivery is effectively prevented from being accumulated on the first conveying member 31.

In some of these embodiments, the second reflective element 53 is a mirror, and its reflective surface is inclined at 45 ° to the horizontal.

In some of these embodiments, the photo-receiving element 54 is a line camera.

As shown in fig. 4 to 6, the rejecting unit 60 includes a rejecting element 61, a plurality of pneumatic elements 62, and a plurality of elastic elements 63. Wherein, the rejecting element 61 is arranged at the other side of the fixed conveying unit 30; the telescopic end of at least one pneumatic element 62 and the rejecting element 61 are fixed on the supporting element 33 in the fixed conveying unit 30, and the pneumatic element 62 is connected with the control unit 70; one ends of the elastic elements 63 are arranged on the inner side wall of the rejecting element 61 at intervals and correspond to the express flowing on the fixed conveying unit 30.

Further, the rejection unit 60 also comprises an auxiliary element 64. The auxiliary element 64 is arranged on the inner side of the rejecting element 61, connected with the telescopic end of at least one pneumatic element 62 movably penetrating through the rejecting element 61 and connected with the inner wall of the rejecting element 61 in a sliding mode, and used for assisting the elastic element 63 in express rejecting.

In some of these embodiments, the rejection element 61 is a box.

In some of these embodiments, pneumatic element 62 is a pneumatic cylinder that drives ejector element 61 in a reciprocating motion.

In some of these embodiments, there are 3 pneumatic elements 62, a first pneumatic element, a second pneumatic element, and a third pneumatic element, respectively. Wherein the first pneumatic element and the second pneumatic element are respectively connected with the rejecting element 61, and the third pneumatic element is connected with the auxiliary element 64. When the rejecting work is carried out, the outer wall of the auxiliary element 64 is in contact with the rear side of the inner wall of the rejecting element 61, the elastic element 63 penetrates through a avoiding hole in the auxiliary element 64 and is arranged on the inner wall of the rejecting element 61, the first pneumatic element and the second pneumatic element drive the rejecting element 61 to advance, and the auxiliary element 64 and the rejecting element 61 are relatively static under the drive of the third pneumatic element; the express delivery and the elastic element 63 are in elastic contact, when the express delivery is pushed to the second conveying element 32, the first pneumatic element and the second pneumatic element drive the removing element 61 to retreat and reset, the third pneumatic element drives the auxiliary element 64 to advance so that the express delivery and the elastic element 63 are separated from each other, then the third pneumatic element drives the auxiliary element 64 to retreat so that the outer wall of the auxiliary element 64 is in contact with the rear side of the inner wall of the removing element 61, namely the auxiliary element 64 resets.

In some embodiments, the elastic element 63 is an elastic rubber rod, which can effectively make elastic contact with the special express delivery to facilitate pushing the express delivery.

In some of these embodiments, the auxiliary element 64 is a push plate, and a plurality of relief holes of the elastic element 63 are provided to facilitate the reciprocating movement of the auxiliary element 64.

The control unit 70 includes a drive control element 71 and a reject control element 72. The driving control element 71 is respectively connected with the driving element 12 in the telescopic conveying unit 10 and the photoelectric receiving element 54 in the dynamic weighing unit 50, and is used for controlling the telescopic conveying unit 10 according to received photoelectric information; the removing control element 72 is respectively connected with the code scanning element 43 in the code scanning unit 40, the dynamic weighing element 51 in the dynamic weighing unit 50 and the pneumatic element 62 in the removing unit 60, and is used for controlling the removing unit 60 according to the received express delivery barcode information and weight information.

In some of these embodiments, the drive control element 71 is a drive control switch for controlling the drive element 12.

In some embodiments, the removing control element 72 is a removing control switch, and when the barcode information and the weight information of the express items received by the removing control element 72 are inconsistent, the removing control element 72 controls the pneumatic element 62 to operate, so that the removing unit 60 removes the express items with inconsistent barcode information and weight information, and moves the express items with inconsistent information to the second conveying element 32 to wait for processing by a worker.

The working principle of the utility model is as follows:

before the express delivery disinfection device is used, the telescopic conveying unit 10 is moved to a position convenient for express delivery carrying and transportation, the position and the length of the telescopic conveying unit 10 are adjusted, and the position of the disinfection unit 20 is adjusted through the moving element 25, so that express delivery is disinfected by matching with the telescopic conveying unit 10.

In use, the express is placed on the telescopic conveying element 11, and the control unit 70 controls the driving element 12 to operate for a period of time and then stop, so that the express is sterilized by the sterilizing unit 20 and then flows to the fixed conveying unit 30; the code scanning element 43 and the dynamic weighing element 51 scan and weigh the express delivery, and the detected bar code information and weight information are input to the control unit 70; when the express delivery flows to the middle rear end of the frame element 41, the optical signal emitted by the photoelectric emitting element 52 is blocked by the express delivery, and cannot be reflected to the photoelectric receiving element 54 via the second reflecting element 53, the photoelectric receiving element 54 transmits the information of the express delivery flowing to the middle rear end of the code scanning unit 40 to the control unit 70, the control unit 70 controls the driving element 12 to operate, that is, the telescopic conveying element 11 starts to convey the express delivery, so that the next express delivery is conveyed to the fixed conveying unit 30 for code scanning and weighing.

When the express item bar code information and the weight information received by the control unit 70 are consistent, the express item is conveyed to a sorting machine; when the express delivery bar code information is inconsistent with the weight information, the control unit 70 controls the pneumatic element 62 to work, so that the removing unit 60 removes the express delivery to the second conveying element 32, the removing unit 60 resets, and the worker obtains the express delivery with inconsistent information on the second conveying element 32, performs manual checking and solves the problem.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (10)

1. The utility model provides an express delivery commodity circulation supplies a platform, its characterized in that includes flexible conveying unit (10), disinfection unit (20), fixed conveying unit (30), sweeps yard unit (40), dynamic weighing unit (50), rejects unit (60) and the control unit (70) according to express delivery route, wherein:

the telescopic conveying unit (10) is of a conveying structure with a telescopic length direction, and one end of the telescopic conveying unit transversely penetrates through the sterilizing unit (20) to be used for conveying express to the fixed conveying unit (30);

the disinfection unit (20) is arranged at the middle rear end of the telescopic conveying unit (10) and is used for disinfecting express circulated on the telescopic conveying unit (10);

the fixed conveying unit (30) is arranged at the downstream of the telescopic conveying unit (10), one end of the fixed conveying unit transversely penetrates through the code scanning unit (40) to be arranged, the front end of the fixed conveying unit is connected with the telescopic conveying unit (10), and the rear end of the fixed conveying unit is connected with the sorting machine and is used for receiving the express delivered out of the telescopic conveying unit (10) and transferring the express to the sorting machine;

the code scanning unit (40) is arranged at the front end side of the fixed conveying unit (30) and is used for scanning the information of the express on the fixed conveying unit (30) to obtain the barcode information of the express;

the dynamic weighing unit (50) is arranged on the fixed conveying unit (30) and is used for weighing the express on the fixed conveying unit (30) to obtain the weight information of the express;

the removing unit (60) is arranged at one side position of the rear end of the fixed conveying unit (30) and is used for removing express delivery in which the barcode information and the weight information of the flow and rotation of the fixed conveying unit (30) are inconsistent;

the control unit (70) is electrically connected with the telescopic conveying unit (10), the code scanning unit (40), the dynamic weighing unit (50) and the removing unit (60) respectively and used for controlling the circulation of the express.

2. The courier logistics delivery table of claim 1, wherein the telescopic transport unit (10) comprises a telescopic transport element (11), wherein:

the telescopic conveying element (11) is a power telescopic roller conveyor, and a driving element (12) in the telescopic conveying element (11) is connected with the control unit (70).

3. The courier logistics delivery table of claim 1, wherein the sterilizing unit (20) comprises a sterilizing element (21), an infrared sensing element (22), a number of spray elements (23), and a blocking element (24), wherein:

the disinfection element (21) is arranged at the upper part of the disinfection unit (20) and is positioned above the telescopic conveying unit (10);

the infrared sensing element (22) is arranged at the middle upper part of the inner side wall of the disinfection element (21) and is used for detecting express delivery entering the lower part of the disinfection element (21) and controlling the opening and closing of the disinfection element (21);

the plurality of spraying elements (23) are arranged on the two sides and the top of the inner side wall of the disinfection element (21) at intervals and are used for spraying disinfectant of the disinfection element (21);

the two partition elements (24) are respectively arranged at the inlet end and the outlet end of the disinfection element (21) and are used for isolating the interior of the disinfection element (21) from the external environment.

4. The courier logistics delivery table of claim 3, wherein the sterilization unit (20) further comprises a number of moving elements (25) and heating elements (26), wherein:

a plurality of moving elements (25) are arranged at intervals at the bottom of the disinfecting element (21);

the heating element (26) is arranged on the side wall of the disinfection element (21) and is used for heating the disinfection liquid in the disinfection element (21).

5. The courier logistics delivery table of claim 1, wherein the stationary transport unit (30) comprises a first transport element (31), a second transport element (32), and a support element (33), wherein:

the first conveying element (31) is arranged at the downstream of the telescopic conveying unit (10), and the front end of the first conveying element is connected with the telescopic conveying unit (10);

the second conveying element (32) is arranged on one side of the middle rear end of the first conveying element (31) and used for receiving express items of which the barcode information and the weight information are inconsistent;

the supporting element (33) is arranged at the bottom of the first conveying element (31) and is used for supporting the first conveying element (31).

6. The courier logistics delivery table of claim 1, wherein the code scanning unit (40) comprises a frame element (41) and a lighting element (42), a plurality of code scanning elements (43) and a plurality of first reflecting elements (44) which are sequentially arranged inside the frame element (41) from top to bottom, wherein:

the frame element (41) is erected on the top of the front end of the fixed conveying unit (30) and is used for mounting the illuminating element (42), the code scanning element (43) and the first reflecting element (44);

the lighting element (42) is mounted on top of the frame element (41) for providing a light source;

a plurality of code scanning elements (43) are arranged at the middle upper part inside the frame element (41) and face the express delivery arrangement on the first conveying element (31) in the fixed conveying unit (30) for automatically scanning the express delivery in multiple directions and transmitting the scanned bar code information to the control unit (70);

a plurality of first reflecting elements (44) are symmetrically arranged on two sides of the frame element (41) and used for reflecting the bar code images on the express delivery side wall to the code scanning elements (43) on two sides.

7. The courier logistics delivery table of claim 1, wherein the dynamic weighing unit (50) comprises a dynamic weighing element (51), a photo-electric emitting element (52), a second reflecting element (53) and a photo-electric receiving element (54), wherein:

the dynamic weighing element (51) is arranged between the bottom of the first conveying element (31) in the fixed conveying unit (30) and the top of the supporting element (33), is connected with the control unit (70), and is used for dynamically weighing the express flowing on the fixed conveying unit (30) and transmitting the obtained express weight information to the control unit (70);

the photoelectric emission element (52) is positioned at the middle rear end of the top of the frame element (41) in the code scanning unit (40) and emits a light signal downwards;

the second reflecting element (53) is arranged at the inner bottom of the first conveying element (31) in the fixed conveying unit (30) and is used for reflecting the optical signal output by the photoelectric emission element (52) and transmitting the optical signal to the photoelectric receiving element (54);

the photoelectric receiving element (54) is arranged at the bottom of the first conveying element (31) in the fixed conveying unit (30) and used for receiving the optical signal reflected by the second reflecting element (53) and transmitting the acquired express delivery position information to the control unit (70).

8. The courier logistics delivery table of claim 1, wherein the rejection unit (60) comprises a rejection element (61), a plurality of pneumatic elements (62), and a plurality of resilient elements (63), wherein:

the rejecting element (61) is arranged on the other side of the fixed conveying unit (30);

the telescopic end of at least one pneumatic element (62) is connected with the rejecting element (61) and fixed on a supporting element (33) in the fixed conveying unit (30), and the pneumatic element (62) is connected with the control unit (70);

one ends of the elastic elements (63) are arranged on the inner side wall of the rejecting element (61) at intervals and correspond to express flowing on the fixed conveying unit (30).

9. The courier logistics delivery table of claim 8, wherein the rejection unit (60) further comprises an auxiliary element (64), wherein:

the auxiliary element (64) is arranged on the inner side of the rejecting element (61), is connected with the telescopic end of at least one pneumatic element (62) movably penetrating through the rejecting element (61), is connected with the inner wall of the rejecting element (61) in a sliding mode, and is used for assisting the elastic element (63) to reject the express delivery.

10. The courier logistics delivery table of claim 1, wherein the control unit (70) comprises a drive control element (71) and a reject control element (72), wherein:

the driving control element (71) is respectively connected with the driving element (12) in the telescopic conveying unit (10) and the photoelectric receiving element (54) in the dynamic weighing unit (50) and is used for controlling the telescopic conveying unit (10) according to received photoelectric information;

the removing control element (72) is respectively connected with the code scanning element (43) in the code scanning unit (40), the dynamic weighing element (51) in the dynamic weighing unit (50) and the pneumatic element (62) in the removing unit (60) and is used for controlling the removing unit (60) according to the received express delivery bar code information and weight information.

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