CN209777676U - Intelligent pipeline express delivery conveying system based on Internet of things - Google Patents

Abstract

The utility model discloses an intelligent pipeline express delivery conveying system based on the Internet of things, which comprises a main pipeline connected side by side, wherein an inlet pipe and an outlet pipe are connected on the main pipeline, the inlet pipe and the outlet pipe are respectively connected on the main pipeline in an inclined manner, a first conveying cavity is arranged in the main pipeline, a second conveying cavity correspondingly communicated with the first conveying cavity is arranged on the inlet pipe, a third conveying cavity correspondingly communicated with the first conveying cavity is arranged on the outlet pipe, a sliding conveying box is arranged in the first conveying cavity, storage cavities are respectively arranged in the conveying box, express parcels can be stored through the storage cavities, the conveying box can further drive the sliding of express parcels through the sliding in the first conveying cavity, thereby realizing the transportation of the express parcels, and further avoiding the trouble caused by utilizing a truck to transport the express parcels, the transportation efficiency is improved.

Description

Intelligent pipeline express delivery conveying system based on Internet of things

Technical Field

The utility model relates to an express delivery conveying system, concretely relates to intelligent pipeline express delivery conveying system based on thing networking especially relates to an intelligent pipeline express delivery conveying system based on thing networking that can carry the express delivery through the pipeline is automatic.

Background

Along with the further express delivery transportation trade that has promoted of improvement of standard of living's constantly development, wherein the remote transportation of express delivery is realized through the freight train to the in-process of present express delivery transportation mostly, wherein carry out the in-process of express delivery transportation through the freight train and all need load the carriage of freight train with the express delivery parcel after then transport again mostly, owing to so far away need the long-time travel of freight train owing to the distance of transportation at the in-process of transportation, thereby can be further transport the express delivery parcel throughout the country, although can reach the purpose of transporting the express delivery through the freight train, but still have following problem:

In the process of transporting express by a truck, because the distance is long, a driver needs to drive the automobile for a long time, and because the long-time driving of the automobile easily causes fatigue, certain danger is further caused to the driver;

Due to the fact that the transportation distance is long, the time for transporting the express delivery is further increased, and the timeliness of the express delivery transportation is further influenced under the condition of traffic jam, so that certain uncertainty is caused to the transportation efficiency of the express delivery.

Therefore, it is necessary to design an intelligent pipeline express delivery system based on the internet of things to solve the technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the problems in the prior art, provides an intelligent pipeline express delivery system based on the Internet of things, can realize the delivery of express packages by laying a main pipeline, an inlet pipe and an outlet pipe are respectively connected on the main pipeline, so that the conveying box can be thrown in through the inlet pipe, the main pipeline is provided with a first air supply controller arranged side by side, the first air supply controller is internally provided with a third rotary exhaust fan respectively, thereby further generating wind power through the rotation of the third exhaust fan, further transmitting the wind power into the first transmission cavity, thereby further pushing the conveying box to slide, thereby realizing the transportation of express delivery, thereby further avoided utilizing freight train transportation express delivery parcel to cause the problem that conveying efficiency is low to improve conveying efficiency.

The utility model discloses a following technical scheme realizes:

The utility model provides an intelligence pipeline express delivery conveying system based on thing networking, is including the trunk line of connecting side by side, be connected with into pipe and exit tube on the trunk line, advance the pipe with the exit tube is the slope form respectively and connects on the trunk line, be provided with first transport chamber in the trunk line, advance be provided with on the pipe with the second of the corresponding intercommunication in first transport chamber carries the chamber, be provided with on the exit tube with the third of the corresponding intercommunication in first transport chamber carries the chamber, first transport intracavity is provided with gliding delivery box, be provided with the storage chamber in the delivery box respectively. Can deposit the express delivery parcel through what the storage chamber was further, can pass through the delivery box is in the transportation of realization that first delivery intracavity slided that can be further to the express delivery parcel to further realization transports the purpose of express delivery parcel.

Be provided with the even first air supply controller that sets up of interval on the trunk line, be provided with a pivoted third exhaust fan in the first air supply controller respectively, the third exhaust fan gives respectively first transport chamber air feed, first transport intracavity is provided with the first magnet that sets up side by side respectively, be provided with on the delivery box with the corresponding repulsive second magnet of first magnet, first magnet with second magnet is the ring form setting respectively, the wind-force that the third exhaust fan produced promotes the delivery box slides. Be provided with the pivoted third exhaust fan in the first air supply controller, thereby can pass through the rotation of third exhaust fan produces further the carrying of wind-force first transport intracavity, thereby can pass through further drive of wind-force the slip of carriage, thereby realize transporting the express delivery parcel first transport intracavity is provided with first magnet be provided with second magnet on the carriage, thereby can pass through first magnet with the corresponding repulsion of second magnet, can further messenger the carriage is unsettled first transport intracavity, thereby can further assurance arrives the normal slip of carriage, can further reduce with the trunk line, advance the friction of pipe, exit tube.

The end part of the conveying box is provided with a guide head which is arranged in a conical manner, a first wireless control module is arranged in the guide head, the outlet pipe is respectively provided with a first controller and a second controller which are connected to the main pipeline, a sliding first guide plate is arranged in the first controller, the first guide plate is respectively sealed with the third conveying cavity, the first controller is respectively internally provided with a second wireless control module which controls the sliding of the first guide plate, the second controller is respectively internally provided with a sliding second guide plate, the second guide plate is respectively sealed with the first conveying cavity, the second guide plate corresponds to the third conveying cavity, the second controller is respectively internally provided with a third wireless control module which controls the sliding of the second guide plate, and the first wireless control module controls the second wireless control module and the third wireless control module respectively in the sliding process of the conveying box And (4) action of the module. The conveying box is provided with a guide head, and the guide heads are respectively provided with a first wireless control module, so that the first wireless control module can respectively perform induction control corresponding to the second wireless control module and the second wireless control module, the sliding of the first guide plate and the second guide plate can be further controlled, the conveying box can be further guided, and the position of a destination of the conveying box can be further reached.

furthermore, the conveying box and the first conveying cavity are respectively in a circular arrangement, the end part of the conveying box is respectively provided with a sealing end cover for sealing the storage cavity, the conveying box is respectively provided with a plurality of first grooves which are correspondingly arranged, the first grooves are respectively internally provided with a first rotating shaft, and the first rotating shafts are respectively provided with a rotating supporting rotating wheel.

Further, be provided with a first spout in the first controller respectively, first deflector is in respectively slide in the first spout, be provided with a pivoted second pivot in the first controller respectively, the both ends of second pivot are provided with a first gear respectively, be provided with a drive in the first controller respectively second pivot pivoted second motor, second wireless control module controls respectively the second motor rotates, the both sides of first deflector be provided with respectively one with the first tooth's socket that the corresponding meshing of first gear is connected.

Further, be provided with a second spout in the second controller respectively, the second deflector is in respectively slide in the second spout, be provided with a pivoted third pivot in the second controller respectively, the both ends of third pivot are provided with a second gear respectively, the both sides of second deflector be provided with respectively one with the second tooth's socket that the corresponding meshing of second gear is connected, be provided with a drive in the second controller respectively third pivot pivoted motor, third wireless control module controls respectively the third motor rotates, the exit tube is the slope form setting, the second deflector with the corresponding slope form that is of exit tube slides.

Furthermore, a plurality of second air supply controllers arranged side by side are respectively arranged on the inlet pipe, a plurality of third air supply controllers arranged side by side are respectively arranged on the outlet pipe, a first exhaust cavity is respectively arranged in the first air supply controller, the second air supply controller and the third air supply controller, a fifth motor is respectively arranged in the first exhaust cavity, a third exhaust fan driven by the fifth motor respectively rotates, third air ports correspondingly communicated with the first exhaust cavity are respectively arranged on the first air supply controller, the second air supply controller and the third air supply controller, communication air ports corresponding to the first air supply controller, the second air supply controller and the third air supply controller are respectively arranged on the main pipe, the inlet pipe and the outlet pipe, and the first exhaust cavity and the communication air ports are correspondingly communicated through a fourth air port respectively, the communicating air ports are arranged in a circular ring shape respectively, a circle of fifth air ports communicated with the communicating air ports correspondingly are arranged on the main pipeline, the inlet pipe and the outlet pipe respectively, the fifth air ports are communicated with the first conveying cavity, the second conveying cavity and the third conveying cavity correspondingly respectively, and the exhaust directions of the fifth air ports correspond to the sliding directions of the conveying boxes respectively.

Furthermore, one end of the main pipeline is provided with a first end cover, the first end cover is provided with a first exhaust fan driven by a first motor, and the first end cover is provided with a first air port communicated with the first conveying cavity correspondingly.

Furthermore, the end part of the inlet pipe is provided with a second end cover respectively, the inlet pipe is provided with a plurality of first sliding holes which are correspondingly arranged, the second end cover is provided with a first sliding shaft which slides in the first sliding holes respectively, the second end cover is provided with a second exhaust fan which is driven by a fourth motor respectively, and the second end cover is provided with a second air port which is communicated with the second conveying cavity correspondingly.

Furthermore, the first magnet is arranged in a circular ring shape, the second magnet and the first magnet are correspondingly arranged in a circular ring shape, and the second magnet is arranged on the outer ring of the conveying box.

Compared with the prior art, the beneficial effects of the utility model are that: an inlet pipe and an outlet pipe are connected to the main pipeline, the inlet pipe and the outlet pipe are respectively arranged in an inclined manner, first conveying cavities are respectively arranged in the main pipeline, and conveying boxes can be further thrown through the inlet pipe, so that the conveying boxes can slide in the first conveying cavities, and express packages can be further conveyed, further troubles caused by conveying the express packages by using a truck are avoided, dangers caused by fatigue of a truck driver due to long-time driving are avoided, and the conveying efficiency of the express packages is further improved; the main pipeline is provided with a first air supply controller, so that wind power can be further generated through rotation of the third exhaust fan, the conveying box can be further pushed to slide in the first conveying cavity under the action of the wind power, express transportation can be completed, meanwhile, a first magnet can be arranged in the first conveying cavity, a second magnet is arranged on the conveying box, and therefore the conveying box can be further in a suspended state through corresponding repulsion of the first magnet and the second magnet, and normal sliding of the conveying box can be further guaranteed;

the conveying boxes are respectively provided with a guide head, and the guide heads are respectively internally provided with a first wireless control module, so that the sliding of the first guide plate and the second guide plate can be further controlled by respectively controlling the second wireless control module and the third wireless control module through the first wireless control module in the sliding process of the conveying boxes, the conveying boxes can be further guided, the conveying boxes can be further slid into different third sliding cavities, and the express packages can be further transported to different regions.

Drawings

The present invention will be further explained with reference to the accompanying drawings.

FIG. 1 is the embodiment of the utility model provides an intelligence pipeline express delivery conveying system overall structure schematic diagram based on thing networking.

Fig. 2 is the schematic view of the overall structure of the conveying box of the embodiment of the present invention.

Fig. 3 is a side view of the overall structure of the conveying box according to the embodiment of the present invention.

Fig. 4 is a schematic diagram of an overall structure of the first controller and the second controller according to the embodiment of the present invention.

Fig. 5 is a side view of the overall structure of the first controller according to the embodiment of the present invention.

fig. 6 is a side view of the overall structure of the second controller according to the embodiment of the present invention.

Fig. 7 is a schematic view of an overall structure of a first air supply controller according to an embodiment of the present invention.

Fig. 8 is a schematic view of the overall structure of the inlet pipe according to the embodiment of the present invention.

Fig. 9 is a schematic view of the overall structure of the inlet pipe according to the embodiment of the present invention.

In the figure: a main pipeline 1, a 2 inlet pipeline, a 3 outlet pipeline, a 4 first conveying cavity, a 5 second conveying cavity, a 6 third conveying cavity, a 7 first controller, a 8 second controller, a 9 first air supply controller, a 10 conveying box, a 11 first motor, a 12 first air port, a 13 first exhaust fan, a 14 storage cavity, a 15 first groove, a 16 first rotating shaft, a 17 supporting rotating wheel, an 18 guiding head, a 19 first wireless control module, a 20 first magnet, a 21 second magnet, a 22 first sliding chute, a 23 first guiding plate, a 24 first gear, a 25 second sliding chute, a 26 second guiding plate, a 27 sealing end cover, a 28 second wireless control module, a 29 second motor, a 30 second rotating shaft, a 31 first end cover, a 32 first tooth groove, a 33 third wireless control module, a 34 third motor, a 35 third rotating shaft, a 36 second gear, a 37 second tooth groove, a 38 second end cover, a 39 second air port, a 40 fourth motor, a 41 second exhaust fan, 42 a first slide shaft, 43 a first slide hole, 44 a first exhaust cavity, 45 a third air port, 46 a fifth motor, 47 a third exhaust fan, 48 a fourth air port, 49 a communication air port, 50 a fifth air port, 51 a second air supply controller and 52 a third air supply controller.

Detailed Description

as shown in fig. 1-9, an intelligence pipeline express delivery conveying system based on thing networking, including trunk line 1 that connects side by side, be connected with on the trunk line 1 and advance pipe 2 and exit tube 3, advance pipe 2 with exit tube 3 is the slope form respectively and connects on the trunk line 1, be provided with first transport chamber 4 in the trunk line 1, advance be provided with on the pipe 2 with the second of the corresponding intercommunication in first transport chamber 4 carries chamber 5, be provided with on the exit tube 3 with the third of the corresponding intercommunication in first transport chamber 4 carries chamber 6, be provided with gliding delivery box 10 in the first transport chamber 4, be provided with storage chamber 14 in the delivery box 10 respectively.

The main pipeline 1 is connected side by side, the main pipeline 1 can be arranged on two sides of a road, an inlet pipe 2 and an outlet pipe 3 are connected to the main pipeline 1, the arrangement positions of the inlet pipe 1 and the outlet pipe 3 can be arranged according to the route of express delivery transportation, a first conveying cavity 4 is arranged in the main pipeline 1, the first conveying cavity 4 is a cavity, the inlet pipes 2 can be correspondingly connected side by side, second conveying cavities 5 are respectively arranged in the inlet pipes 2, the inlet pipes 2 can be arranged in an express delivery conveying place, the outlet pipes 3 are correspondingly arranged side by side, third conveying cavities 6 are respectively arranged in the outlet pipes 3, the third conveying cavities 6 are respectively a cavity, the outlet pipes 3 can be arranged at the destination of express delivery, a sliding conveying box 10 is arranged in the first conveying cavity 4, and a storage cavity 14 is respectively arranged in the conveying box 10, therefore, express packages can be further stored through the storage cavity 14, the delivery box 10 can be delivered through the second delivery cavity 5 arranged on the inlet pipe 2, the delivery box 10 can further slide into the first delivery cavity 4 after sliding in the second delivery cavity 5, the delivery box 10 can further enable the express packages to be delivered to a destination through the outlet pipe 3 after sliding in the third delivery cavity 6, the express packages can be transported, the problem of low transportation efficiency caused by transporting the express packages by using a truck is further solved, 24-hour transportation can be realized, the danger caused by fatigue driving of a driver is avoided, and the transportation efficiency of the express packages can be further improved.

Be provided with the even first air supply controller 9 that sets up of interval on the trunk line 1, be provided with a pivoted third exhaust fan 47 in the first air supply controller 9 respectively, third exhaust fan 47 gives respectively the first 4 air supplies in transport chamber, be provided with the first magnet 20 that sets up side by side in the first transport chamber 4 respectively, be provided with on the delivery box 10 with the corresponding repulsive second magnet 21 of first magnet 20, first magnet 20 with second magnet 21 is the ring form setting respectively, the wind-force that third exhaust fan 47 produced promotes delivery box 10 slides.

Be provided with first air supply controller 9 on trunk line 1, the quantity that first air supply controller 9 set up can set up according to the needs of design, be provided with a pivoted third exhaust fan 47 in first air supply controller 9 respectively, third exhaust fan 47 rotates and can produce certain wind-force to can further blow through the effect of wind-force the slip of delivery box 10, so as to can reach the gliding mesh of delivery box 10, be provided with the first magnet 20 of corresponding setting in first transport chamber 4, second transport chamber 5, the third transport chamber 6 respectively, first magnet 20 is the ring form setting respectively, and the interval that first magnet 20 set up is the same, be provided with second magnet 21 on delivery box 10, second magnet 21 is the ring form setting, second magnet 21 can slide in first magnet 20, therefore, in the process that the conveying box 10 slides in the first conveying cavity 4, the conveying box 4 can be further in a suspended state through the repulsive action of the first magnet 20 and the second magnet 21, the friction force between the conveying box 10 and the inner walls of the first conveying cavity 4, the second conveying cavity 5 and the third conveying cavity 6 can be further reduced, and the normal conveying effect is guaranteed.

a guide head 18 which is arranged in a conical shape is arranged at the end part of the conveying box 10, a first wireless control module 19 is arranged in the guide head 18, a first controller 7 and a second controller 8 which are connected to the main pipeline 1 are respectively arranged at the positions of the outlet pipes 3, a sliding first guide plate 23 is arranged in the first controller 7, the first guide plate 23 is respectively sealed with the third conveying cavity 6, a second wireless control module 28 which controls the sliding of the first guide plate 23 is respectively arranged in the first controller 7, a sliding second guide plate 26 is respectively arranged in the second controller 8, the second guide plates 26 are respectively sealed with the first conveying cavity 4, the second guide plates 26 correspond to the third conveying cavity 6, and a third wireless control module 33 which controls the sliding of the second guide plates 26 is respectively arranged in the second controller 8, the first wireless control module 19 controls the operations of the second wireless control module 28 and the third wireless control module 33 during the sliding of the transportation box 10.

A guide head 18 is arranged at the end part of the conveying box 10, the guide head 18 is arranged in a conical shape, a first wireless control module 19 is arranged in the guide head 18, a first controller 7 and a second controller 8 are respectively arranged at the position of the outlet pipe 3, the first controller 7 and the second controller 8 are correspondingly arranged, a sliding first guide plate 23 is respectively arranged in the first controller 7, the sliding of the first guide plate 23 can respectively seal the third conveying cavity 6, the first guide plate 23 and the main pipe 1 are correspondingly arranged in an arc shape, a sliding second guide plate 26 is respectively arranged in the second controller 8, the sliding of the second guide plate 26 can seal the first conveying cavity 4, the second guide plate 26 slides in an inclined shape, so that the second guide plate 26 can further seal the first conveying cavity 4 after sealing the first conveying cavity 4 The delivery box 10 is directed into the third delivery chamber 6 inside the exit duct 3 and, during the sliding of the delivery box 10 inside the first delivery chamber 4, after the destination information can be set in the first wireless control module 19, the destination information can be set in the second wireless control module 28 and the third wireless control module 33, so that the sliding of the first wireless control module 19 can be further controlled corresponding to the second wireless control module 28 and the third wireless control module 33 by the sliding of the transportation box 10, so that the sliding of the first guide plate 23 and the second guide plate 26 can be further controlled, therefore, the conveying box 10 can be further guided into the third conveying cavity 6, and the conveying box 10 can be guided to a destination position, so that the express packages can be automatically transported.

As shown in fig. 2 and 3, the conveying box 10 and the first conveying cavity 4 are respectively arranged in a circular shape, the end portions of the conveying box 10 are respectively provided with a sealing end cover 27 for sealing the storage cavity 14, the conveying box 10 is respectively provided with a plurality of first grooves 15 which are correspondingly arranged, a first rotating shaft 16 is respectively arranged in each first groove 15, and a rotating supporting rotating wheel 17 is respectively arranged on each first rotating shaft 16.

A sealing end cap 27 is respectively arranged at the end part of the conveying box 10, so that the storage cavity 14 can be further sealed through the sealing end cap 27, the express packages can be conveniently taken, a first groove 15 is provided on the conveying box 10, the first groove 15 is provided in plurality and respectively provided at the outer ring of the conveying box 10, a first rotating shaft 16 is respectively arranged in the first grooves 15, a rotating supporting rotating wheel 17 is respectively arranged on the first rotating shaft 16, so that the conveying box 10 can be further supported by the rotation of the supporting runner 17 during the sliding process of the conveying box 10, friction due to the weight of the conveyance case 10 can be further avoided, thereby further ensuring normal sliding movement to the conveyance case 10.

As shown in fig. 4 and 5, a first sliding slot 22 is respectively disposed in the first controller 7, the first guide plate 23 slides in the first sliding slot 22, a second rotating shaft 30 is respectively disposed in the first controller 7, a first gear 24 is respectively disposed at two ends of the second rotating shaft 30, a second motor 29 is respectively disposed in the first controller 7 for driving the second rotating shaft 30 to rotate, the second wireless control module 28 respectively controls the second motor 29 to rotate, and a first tooth slot 32 correspondingly engaged with the first gear 24 is respectively disposed at two sides of the first guide plate 23.

A first sliding chute 22 is arranged in the first controller 7, so that the first guide plate 23 can be supported by the first sliding chute 22, and thus the normal sliding of the first guide plate 23 can be further ensured, a rotating second rotating shaft 30 is arranged in the first controller 7, a first gear 24 is respectively arranged at two ends of the second rotating shaft 30, the second rotating shaft 30 can be further driven to rotate by the rotation of the second motor 29, so that the first gear 24 can be further driven to rotate, a first tooth groove 32 is respectively arranged at two sides of the first guide plate 23, the first gear 24 is correspondingly engaged with the first tooth groove 32, so that the sliding of the first guide plate 23 can be further controlled by the rotation of the second motor 29, so that the communication and closure of the first delivery chamber 4 with the third delivery chamber 6 can be further controlled.

As shown in fig. 4 and 6, a second sliding slot 25 is respectively disposed in the second controller 8, the second guide plate 26 slides in the second sliding slot 25, a third rotating shaft 35 is respectively disposed in the second controller 8, a second gear 36 is respectively disposed at two ends of the third rotating shaft 35, a second gear slot 37 correspondingly engaged with the second gear 36 is respectively disposed at two sides of the second guide plate 26, a third motor 34 for driving the third rotating shaft 35 to rotate is disposed in the second controller 8, the third wireless control module 33 respectively controls the third motor 34 to rotate, the outlet tube 3 is disposed in an inclined manner, and the second guide plate 26 slides in an inclined manner correspondingly to the outlet tube 3.

The second controller 8 is internally provided with a second chute 25, the second chute 25 can support the second guide plate 26, so as to further ensure the normal sliding of the second guide plate 26, the second controller 8 is internally provided with a third motor 34, so as to further drive the third rotating shaft 35 to rotate by the rotation of the third motor 34, so as to further drive the second gear 36 to rotate, so as to further drive the sliding of the second guide plate 26, the two sides of the second guide plate 26 are respectively provided with a second tooth groove 37 correspondingly engaged and connected with the second gear 36, so as to further drive the sliding of the second guide plate 26, the second guide plate 26 is arranged in an inclined manner, so as to further convey the conveying box 10 into the outlet pipe 3, thereby accomplishing the delivery of the express packages.

As shown in fig. 1 and 7, a plurality of second air supply controllers 51 arranged side by side are respectively arranged on the inlet pipe 2, a plurality of third air supply controllers 52 arranged side by side are respectively arranged on the outlet pipe 3, a first exhaust cavity 44 is respectively arranged in each of the first air supply controller 9, the second air supply controller 51 and the third air supply controller 52, a fifth motor 46 is respectively arranged in each of the first exhaust cavities 44, a third exhaust fan driven by each of the fifth motors 46 rotates 47, a third air port 45 correspondingly communicated with the first exhaust cavity 44 is respectively arranged on each of the first air supply controller 9, the second air supply controller 51 and the third air supply controller 52, a communication air port 49 correspondingly communicated with the first air supply controller 9, the second air supply controller 51 and the third air supply controller 52 is respectively arranged on the main pipe 1, the inlet pipe 2 and the outlet pipe 3, first exhaust chamber 44 with communicate respectively through the corresponding intercommunication of a fourth gas port 48 between the gas port 49, communicate the gas port 49 and be the ring form setting respectively, be provided with the round respectively on trunk line 1, advance pipe 2, the exit tube 3 with the corresponding fifth gas port 50 who communicates the gas port 49, fifth gas port 50 respectively with first transport chamber 4, second transport chamber 5, the corresponding intercommunication of third transport chamber 6, the exhaust direction of fifth gas port 50 respectively with the slip direction of carrying case 10 is corresponding.

A plurality of second air supply controllers 51 are respectively disposed on the inlet pipes 2, the number of the second air supply controllers 51 can be set according to design requirements, the number of the third air supply controllers 52 can be set according to design requirements, a first exhaust chamber 44 is respectively disposed in each of the first air supply controller 9, the second air supply controller 51 and the third air supply controller 52, the third exhaust fan 47 can be further driven to rotate by the rotation of the fifth motor 46, so that wind power can be further generated, the wind power can further flow into the first exhaust chamber 44 through the third air inlet 45, and further flow into the communication air inlet 49 through the fourth air inlet 48, so that air can be further discharged into the first conveying chamber 4, the fifth air inlet 50, The second conveying cavity 5 and the third conveying cavity 6 can further push the conveying box 10 to slide, so that the aim of driving the conveying box 10 to slide by utilizing wind power is fulfilled, the inclined direction of the fifth air port 50 corresponds to the conveying direction of the conveying box 10, the normal sliding of the conveying box 10 can be further guaranteed, and normal conveying is realized.

As shown in fig. 1 and 2, a first end cap 31 is disposed at one end of the main pipe 1, a first exhaust fan 13 driven by a first motor 11 is disposed on the first end cap 31, and a first air port 12 correspondingly communicated with the first conveying cavity 4 is disposed on the first end cap 31.

A first end cover 31 is disposed at one end of the main pipe 1, so that the first exhaust fan 13 can be further driven to rotate by the rotation of the first motor 11, and wind power can be further generated by the rotation of the first exhaust fan 13, so that the wind power can be further circulated into the first conveying cavity 4 through the first air port 12, and the wind power in the first conveying cavity 4 can be further increased.

As shown in fig. 8 and 9, a second end cap 38 is respectively disposed at the end of the inlet pipe 2, a plurality of first sliding holes 43 correspondingly disposed are respectively disposed on the inlet pipe 2, first sliding shafts 42 sliding in the first sliding holes 43 are respectively disposed on the second end cap 38, a second exhaust fan 41 driven by a fourth motor 40 is respectively disposed on the second end cap 38, and second air ports 39 correspondingly communicated with the second conveying cavity 5 are respectively disposed on the second end cap 38.

The end parts of the inlet pipes 2 are respectively provided with a second end cover 38, the second end cover 38 is provided with a first sliding shaft 42, so that the second end cover 38 can be further opened by sliding the first sliding shaft 42 in the first sliding hole 43, the delivery box 10 can be conveniently thrown, the rotation of the fourth motor 40 can further drive the rotation of the second exhaust fan 41, wind power can be further generated, the wind power in the second delivery cavity 5 can be further increased, and the delivery box 10 can normally slide.

As shown in fig. 3, the first magnet 20 is disposed in an annular shape, and the second magnet 21 is disposed in an annular shape corresponding to the first magnet 20 and is disposed on the outer ring of the conveyance case 10.

First magnet 20 is the ring form setting, first magnet 20 is provided with the multistage and corresponds the connection, second magnet 21 is the ring form setting, second magnet 21 is provided with the multistage and corresponds the connection to can pass through first magnet 20 with the corresponding repulsion of second magnet 21, the messenger that can be further that delivery box 10 is in unsettled state, reduction that can be further delivery box 10 with the frictional force between trunk line 1, advance pipe 2, the exit tube 3.

Claims (8)

1. The utility model provides an intelligence pipeline express delivery conveying system based on thing networking which characterized in that: the pipeline conveying device comprises a main pipeline connected side by side, wherein an inlet pipe and an outlet pipe are connected to the main pipeline, the inlet pipe and the outlet pipe are respectively connected to the main pipeline in an inclined manner, a first conveying cavity is arranged in the main pipeline, a second conveying cavity correspondingly communicated with the first conveying cavity is arranged on the inlet pipe, a third conveying cavity correspondingly communicated with the first conveying cavity is arranged on the outlet pipe, a sliding conveying box is arranged in the first conveying cavity, and storage cavities are respectively arranged in the conveying boxes;

The main pipeline is provided with first air supply controllers which are uniformly arranged at intervals, a rotating third exhaust fan is arranged in each first air supply controller, the third exhaust fans supply air to the first conveying cavities respectively, first magnets which are arranged side by side are arranged in the first conveying cavities respectively, second magnets which are repelled correspondingly to the first magnets are arranged on the conveying boxes, the first magnets and the second magnets are arranged in a circular ring shape respectively, and the conveying boxes are pushed to slide by wind power generated by the third exhaust fans;

The end part of the conveying box is provided with a guide head which is arranged in a conical manner, a first wireless control module is arranged in the guide head, the outlet pipe is respectively provided with a first controller and a second controller which are connected to the main pipeline, a sliding first guide plate is arranged in the first controller, the first guide plate is respectively sealed with the third conveying cavity, the first controller is respectively internally provided with a second wireless control module which controls the sliding of the first guide plate, the second controller is respectively internally provided with a sliding second guide plate, the second guide plate is respectively sealed with the first conveying cavity, the second guide plate corresponds to the third conveying cavity, the second controller is respectively internally provided with a third wireless control module which controls the sliding of the second guide plate, and the first wireless control module controls the second wireless control module and the third wireless control module respectively in the sliding process of the conveying box And (4) action of the module.

2. The intelligent pipeline express delivery system based on the Internet of things of claim 1, wherein: the conveying box and the first conveying cavity are respectively in circular arrangement, the end part of the conveying box is respectively provided with a sealing end cover for sealing the storage cavity, the conveying box is respectively provided with a plurality of first grooves which are correspondingly arranged, the first grooves are respectively internally provided with a first rotating shaft, and the first rotating shafts are respectively provided with a rotating supporting rotating wheel.

3. the intelligent pipeline express delivery system based on the Internet of things of claim 1, wherein: be provided with a first spout in the first controller respectively, first deflector is in respectively slide in the first spout, be provided with a pivoted second pivot in the first controller respectively, the both ends of second pivot are provided with a first gear respectively, be provided with a drive in the first controller respectively second pivot pivoted second motor, second wireless control module controls respectively the second motor rotates, the both sides of first deflector be provided with respectively one with the first tooth's socket that the corresponding meshing of first gear is connected.

4. The intelligent pipeline express delivery system based on the Internet of things of claim 1, wherein: be provided with a second spout in the second controller respectively, the second deflector is in respectively slide in the second spout, be provided with a pivoted third pivot in the second controller respectively, the both ends of third pivot are provided with a second gear respectively, the both sides of second deflector be provided with respectively one with the second tooth's socket that the corresponding meshing of second gear is connected, be provided with a drive in the second controller respectively third pivot pivoted third motor, third wireless control module controls respectively the third motor rotates, the exit tube is slope form setting, the second deflector with the exit tube is corresponding to be slope form and slides.

5. The intelligent pipeline express delivery system based on the Internet of things of claim 1, wherein: the air supply system is characterized in that the inlet pipe is respectively provided with a plurality of second air supply controllers arranged side by side, the outlet pipe is respectively provided with a plurality of third air supply controllers arranged side by side, a first exhaust cavity is respectively arranged in the first air supply controller, the second air supply controller and the third air supply controller, a fifth motor is respectively arranged in the first exhaust cavity, a third exhaust fan driven by the fifth motor rotates respectively, the first air supply controller, the second air supply controller and the third air supply controller are respectively provided with a third air port correspondingly communicated with the first exhaust cavity, the main pipe, the inlet pipe and the outlet pipe are respectively provided with a communication air port corresponding to the first air supply controller, the second air supply controller and the third air supply controller, the first exhaust cavity and the communication air port are correspondingly communicated with each other through a fourth air port respectively, the communicating air ports are arranged in a circular ring shape respectively, a circle of fifth air ports communicated with the communicating air ports correspondingly are arranged on the main pipeline, the inlet pipe and the outlet pipe respectively, the fifth air ports are communicated with the first conveying cavity, the second conveying cavity and the third conveying cavity correspondingly respectively, and the exhaust directions of the fifth air ports correspond to the sliding directions of the conveying boxes respectively.

6. The intelligent pipeline express delivery system based on the Internet of things of claim 1, wherein: one end of the main pipeline is provided with a first end cover, a first exhaust fan driven by a first motor is arranged on the first end cover, and a first air port communicated with the first conveying cavity correspondingly is arranged on the first end cover.

7. The intelligent pipeline express delivery system based on the Internet of things of claim 1, wherein: the end part of the inlet pipe is respectively provided with a second end cover, the inlet pipe is respectively provided with a plurality of first sliding holes which are correspondingly arranged, the second end cover is respectively provided with a first sliding shaft which slides in the first sliding holes, the second end cover is respectively provided with a second exhaust fan driven by a fourth motor, and the second end cover is respectively provided with a second air port which is correspondingly communicated with the second conveying cavity.

8. The intelligent pipeline express delivery system based on the Internet of things of claim 1, wherein: the first magnet is arranged in a circular ring shape, the second magnet is arranged in a circular ring shape corresponding to the first magnet, and the second magnet is arranged on the outer ring of the conveying box.