CN114435900B

CN114435900B - Commodity circulation discharge conveying assembly

Info

Publication number: CN114435900B
Application number: CN202210186218.5A
Authority: CN
Inventors: 吴兆祥; 龚学明
Original assignee: Shenzhen Zhemeng Software Development Co ltd
Current assignee: Shenzhen Zhemeng Software Development Co ltd
Priority date: 2022-02-28
Filing date: 2022-02-28
Publication date: 2022-10-11
Anticipated expiration: 2042-02-28
Also published as: CN114435900A

Abstract

The invention relates to the technical field of logistics conveying equipment, in particular to a logistics unloading conveying assembly, wherein a placing structure is arranged on one side of a conveyor belt body, a conveying structure is arranged on the placing structure, a turnover structure is arranged on the conveying structure, a dislocation structure is connected to the conveying structure, a guide structure is arranged on the conveyor belt body, and a linkage structure is connected to the guide structure; the goods to be conveyed can be quickly and efficiently conveyed to the surface of the conveyor belt body through the matching use of the conveying structure and the overturning structure, so that the heavy goods are prevented from being manually conveyed by workers, the labor is saved, and the conveying efficiency is improved; the goods are guided through the guide structure, the goods are prevented from being conveyed to the outside of the conveyor belt body, the guide structures at the two ends of the conveyor belt body are reversed through the linkage structure, the goods can slide into the surface of the conveyor belt body better, and the conveying effect of the goods is improved.

Description

Commodity circulation discharge conveying assembly

Technical Field

The invention relates to the technical field of logistics conveying equipment, in particular to a logistics unloading conveying assembly.

Background

The logistics takes the storage as the center, so that the synchronization of production and the market is promoted; logistics is the whole process of planning, implementing and managing raw materials, semi-finished products, finished products and related information from the production place of commodities to the consumption place of the commodities by the modes of transportation, storage, distribution and the like at the lowest cost in order to meet the requirements of customers; the logistics goods need to use equipment for unloading and conveying during the transportation process.

However, after the traditional logistics goods are sorted and classified, workers need to convey the goods onto the conveyor belt one by one, so that the labor consumed during conveying is large, and the conveying efficiency is low; when some goods are thrown on the surface of the secondary conveyor belt, the goods impact the surface of the secondary conveyor belt, so that the failure of the conveyor belt can be caused, meanwhile, articles inside the package are easy to damage, and the logistics conveying effect is poor; when the commodity circulation goods are more, be not convenient for concentrate on putting the goods on the conveyer belt, commodity circulation conveying efficiency is lower.

Disclosure of Invention

In view of the problems in the prior art, the invention provides a logistics unloading conveying assembly.

The technical scheme adopted by the invention for solving the technical problems is as follows: a logistics unloading and conveying assembly comprises a conveying belt body, wherein a placing structure is arranged on one side of the conveying belt body, a conveying structure is arranged on the placing structure, a turnover structure is arranged on the conveying structure, a dislocation structure is connected to the conveying structure, a guide structure is arranged on the conveying belt body, and a linkage structure is connected to the guide structure;

the placing structure comprises an installation box, a conveying structure is arranged on the installation box, the conveying structure comprises an installation box, the installation box is connected to the inside of the installation box in a sliding mode, a first hydraulic rod is arranged inside the installation box, a connecting block is fixed to the bottom end of the first hydraulic rod, a baffle is fixed to one side of the connecting block and connected to the inside of the installation box in a sliding mode, an installation strip is arranged on one side of the baffle, and a turnover structure is arranged on the installation strip; the conveying structure further comprises a supporting strip, and the supporting strip is arranged on one side of the mounting strip.

Specifically, the overturning structure comprises a placing frame, the placing frame is arranged at the top end of the supporting strip, the placing frame is of a grid-shaped structure, one end of the placing frame is rotatably connected with a first rotating shaft, one end of the first rotating shaft is fixed to one side of the mounting strip, a torsion spring is arranged outside the first rotating shaft, one end of the torsion spring is arranged inside the placing frame, and the other end of the torsion spring is arranged inside the first rotating shaft; the turnover structure further comprises a plurality of protruding blocks, and the protruding blocks are arranged at two ends of the placing frame in pairs.

Specifically, the placing structure further comprises a connecting strip and a plurality of connecting strips which are fixed inside the installation box in parallel and a plurality of connecting strips are arranged between the grid structures of the connecting strips and the placing frame in a staggered mode, the cross section of each connecting strip is of an L-shaped structure, a plurality of first rollers are arranged on one side of each connecting strip, and the first rollers are connected with the placing frame in a rolling mode.

Specifically, the dislocation structure comprises a fixed block, the fixed block is arranged inside the mounting box, one side of the fixed block is rotatably connected with a second hydraulic rod, a second rotating shaft is rotatably arranged at the top end of the second hydraulic rod, the second rotating shaft is connected inside a sliding groove in a rolling manner, and the sliding groove is arranged on one side of the mounting box; the dislocation structure still includes the second gyro wheel, two the top of mounting box is located to the second gyro wheel, second gyro wheel roll connection is in the inside of mounting groove, one side of mounting box is located to the mounting groove.

Specifically, the guide structure comprises a fixed table, the fixed table is fixed on a conveyor belt body, two first guide rollers are symmetrically arranged at two ends of the fixed table, a first connecting shaft is arranged inside the first guide rollers, two ends of the first connecting shaft are rotatably connected inside the fixed table, a first limiting disc is arranged at the end part of the first connecting shaft, a first belt is arranged outside the first limiting disc, the first limiting disc is in rolling connection with the first belt, the other end of the first belt is arranged outside a second limiting disc, the second limiting disc is in rolling connection with the first belt, a second connecting shaft is arranged inside the second limiting disc, two ends of the second connecting shaft are rotatably connected inside the fixed table, and a second guide roller is fixed outside the second connecting shaft; the first connecting shaft is arranged at one end inside the first limiting disc and is of a hexagonal prism structure, the section of one end, arranged inside the fixed table, of the first connecting shaft is of a cylinder structure, the other end, arranged inside the second limiting disc, of the second connecting shaft is of a hexagonal prism structure, and the other end, arranged inside the fixed table, of the second connecting shaft is of a cylinder structure.

Specifically, linkage structure includes the second belt, the second belt is equipped with two, one the outside of the spacing dish of second is located to the one end of second belt, roll connection between spacing dish of second and the second belt, the outside of the spacing dish of third is located to the other end of second belt, roll connection between the spacing dish of third and the second belt, the spacing dish of third rotates to be connected in the inside of fixed station, one side of the spacing dish of third is fixed with first gear, one side meshing of first gear has the second gear, one side of second gear is fixed with the spacing dish of fourth, the spacing dish of fourth rotates to be connected in the inside of fixed station, the outside roll connection of the spacing dish of fourth has another second belt, the outside of another spacing dish of second is located to the other end of second belt.

The invention has the beneficial effects that:

(1) According to the logistics unloading and conveying assembly, the placing structure is arranged on one side of the conveyor belt body, the conveying structure is arranged inside the installation box, the overturning structure is arranged at one end of the conveying structure, one end of the placing structure is conveniently buried underground, the placing structure is further convenient for placing logistics goods to be conveyed, then the conveying structure is used for lifting goods, and finally the goods are thrown onto the conveyor belt body for conveying the goods through the overturning structure, so that logistics conveying personnel are prevented from manually conveying heavier logistics goods onto the conveyor belt body, manpower is greatly saved, and the conveying efficiency of the logistics goods is greatly improved; namely: the bottom end of the mounting box is embedded underground on one side of the conveyor belt body, one side of the bottom end of the mounting box is flush with the ground, when goods need to be conveyed, the space between the goods is placed between the connecting strips and the placing frame on one side of the mounting box, after the goods are placed, a first hydraulic rod inside the mounting box contracts and further drives the connecting blocks to ascend, the connecting blocks ascend and further drive the baffle to ascend, the baffle ascends and further drives the mounting strips and the placing frame on the top end of the mounting strips to ascend, when the placing frame ascends to a certain height, one side of the placing frame is abutted against the guide structure, the first hydraulic rod continues to contract, the baffle and the mounting strips continue to ascend, the placing frame further rotates around a first rotating shaft, the torsion spring contracts, when the first hydraulic rod completely contracts, the placing frame rotates to a certain degree, the goods are further dumped or thrown onto the conveyor belt body, at the moment, the first hydraulic rod extends, the torsion spring releases abutting reset after the placing frame and the guide structure, drives the placing frame to reset, finally returns to an initial position, goods needed to be further added, the arrangement of the holding strips, the holding strips is greatly improved, the stability of the placing frame, the arrangement of the placing frame is effectively avoided, the goods slippage of the goods, the goods is effectively, one side of the goods is provided with the slipping of the wheels, and the connection between the placing frame is greatly reduced friction force of the placing frame; the one end of being convenient for to place the structure buries the underground, and then be convenient for place the structure and place the commodity circulation goods that need carry, and rethread transport structure risees goods, and on the conveyer belt body of transporting goods was put with the goods through flip structure at last, avoided the commodity circulation to carry on the manual transport heavier commodity circulation goods of personnel to the conveyer belt body, and then saved the manpower greatly, and then improved the transport efficiency of commodity circulation goods greatly.

(2) According to the logistics unloading conveying assembly, the staggered structure is arranged inside the placing structure, so that the overturning structure and the placing structure can be staggered conveniently through the staggered structure, the phenomenon that a worker mistakenly places a logistics goods piece on the placing structure in the process that the overturning structure is not lowered is avoided, the logistics goods piece continues to slide into the bottom end of the goods after the overturning structure is staggered, the logistics goods are conveyed better, and the conveying effect is good; namely: when a worker puts goods on the connecting strip during the period that the placing rack is not completely put at the bottom end, the bottom end of the grid-shaped structure of the placing rack is provided with an infrared scanning device, when goods are placed on the connecting strip in a scanning mode, the second hydraulic rod is started to shrink at first, the second hydraulic rod shrinks and then drives the mounting box to slide in the mounting box, meanwhile, the second hydraulic rod shrinks and then drives the second rotating shaft to roll in the sliding groove in one side of the mounting box, the second hydraulic rod rotates on one side of the fixing block, when the second hydraulic rod shrinks completely, the placing rack shrinks to the inside of the mounting box, after the first hydraulic rod continues to run to a complete extension state, the second hydraulic rod extends and then drives the mounting box and the placing rack to reset, the placing rack returns to a staggered state with the connecting strip again and then continues to run to convey the goods, the top end of the mounting box is provided with a second roller, the second roller slides in the mounting groove in the mounting box, and friction force is greatly reduced; and then avoided flip structure not having the decline in-process yet, the staff mistake is placed commodity circulation goods and is being placed structural, continues to slide in the bottom of goods after making flip structure dislocation, and then better transport commodity circulation goods, the effect of carrying is good.

(3) According to the logistics unloading and conveying assembly, the guide structure is arranged on the conveyor belt body, the linkage structure is arranged on the guide structure, so that goods conveyed and thrown by the turnover structure can be guided through the guide structure, the goods are effectively prevented from being conveyed to the outside of the conveyor belt body, the guide structures at two ends of the conveyor belt body can be reversed through the linkage structure, the goods can better slide into the surface of the conveyor belt body, the conveying efficiency of the goods is greatly improved, and the conveyed goods are protected; namely: when the placing rack is abutted against the first guide roller, one part of goods on the placing rack rolls from the adjacent first guide roller to the surface of the conveying belt body, the other part of goods is thrown on the more far first guide roller, the adjacent first guide roller rotates to drive the first connecting shaft to rotate, the first connecting shaft rotates to drive the first limiting disc to rotate, the first limiting disc rotates to drive the first belt to move, the first belt moves to drive the second limiting disc to rotate, the second limiting disc rotates to drive the second connecting shaft to rotate, the second connecting shaft rotates to drive the second guide roller to rotate, the second limiting disc rotates to drive the second belt to move simultaneously, the second belt moves to drive the third limiting disc to rotate, the third limiting disc rotates to drive the first gear to rotate, the first gear rotates to drive the second gear to rotate, the second gear drives the fourth limiting disc to rotate, the rotation direction of the fourth limiting disc is opposite to the rotation direction of the third limiting disc, the second belt on one side of the fourth limiting disc drives the second gear to rotate, the other two guide rollers rotate, and the two guide rollers rotate; the goods that are convenient for carry and throw for flip structure through guide structure are led, have effectively avoided the goods to carry the outside of conveyer belt body, are convenient for commutate the guide structure at conveyer belt body both ends through the linkage structure, and then make the better surface that slides into the conveyer belt body of goods, have improved the transport efficiency of goods greatly, have protected the goods of being transported simultaneously.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is an overall structural schematic diagram of a preferred embodiment of a logistics discharge transport assembly provided in the present invention;

FIG. 2 is a schematic view of the connection structure of the conveying structure, the turning structure, the dislocation structure and the placing structure of the present invention;

FIG. 3 is a schematic view of a connection structure of the supporting strip and the turnover structure of the present invention;

FIG. 4 is a schematic view of a connection structure of the supporting bar, the mounting bar and the first rotating shaft according to the present invention;

FIG. 5 is a schematic view of a connection structure of a guide structure and a linkage structure according to the present invention;

FIG. 6 is an enlarged view of the part A shown in FIG. 1;

FIG. 7 is an enlarged view of the part B shown in FIG. 2;

FIG. 8 is an enlarged view of the structure of the portion C shown in FIG. 2;

fig. 9 is an enlarged view of the structure of the D-section shown in fig. 2.

In the figure: 1. a conveyor belt body; 2. a placement structure; 201. installing a box; 202. a connecting strip; 203. a first roller; 3. a conveying structure; 301. mounting a box; 302. a first hydraulic lever; 303. connecting blocks; 304. a baffle plate; 305. mounting a bar; 306. supporting the strip; 4. a turning structure; 401. placing a rack; 402. a first rotating shaft; 403. a torsion spring; 404. a bump; 5. a staggered structure; 501. a fixed block; 502. a second hydraulic rod; 503. a second rotating shaft; 504. a chute; 505. a second roller; 506. mounting grooves; 6. a guide structure; 601. a fixed table; 602. a first guide roller; 603. a first connecting shaft; 604. a first limiting disc; 605. a first belt; 606. a second limiting disc; 607. a second connecting shaft; 608. a second guide roller; 7. a linkage structure; 701. a second belt; 702. a third limiting disc; 703. a first gear; 704. a second gear; 705. and a fourth limiting disc.

Detailed Description

The present invention will be further described with reference to the following detailed description so that the technical means, the creation features, the achievement purposes and the effects of the present invention can be easily understood.

As shown in fig. 1 to 9, the logistics unloading conveying assembly comprises a conveyor belt body 1, wherein a placing structure 2 is arranged on one side of the conveyor belt body 1, a conveying structure 3 is arranged on the placing structure 2, an overturning structure 4 is arranged on the conveying structure 3, a dislocation structure 5 is connected to the conveying structure 3, a guide structure 6 is arranged on the conveyor belt body 1, and a linkage structure 7 is connected to the guide structure 6;

the placing structure 2 comprises an installation box 201, a conveying structure 3 is arranged on the installation box 201, the conveying structure 3 comprises an installation box 301, the installation box 301 is connected to the inside of the installation box 201 in a sliding mode, a first hydraulic rod 302 is arranged inside the installation box 301, a connecting block 303 is fixed to the bottom end of the first hydraulic rod 302, a baffle 304 is fixed to one side of the connecting block 303, the baffle 304 is connected to the inside of the installation box 301 in a sliding mode, an installation bar 305 is arranged on one side of the baffle 304, and an overturning structure 4 is arranged on the installation bar 305; the conveying structure 3 further comprises a supporting strip 306, and the supporting strip 306 is arranged on one side of the mounting strip 305.

Specifically, the overturning structure 4 comprises a placing frame 401, the placing frame 401 is arranged at the top end of the supporting bar 306, the placing frame 401 is of a grid-shaped structure, one end of the placing frame 401 is rotatably connected with a first rotating shaft 402, one end of the first rotating shaft 402 is fixed on one side of the mounting bar 305, a torsion spring 403 is arranged outside the first rotating shaft 402, one end of the torsion spring 403 is arranged inside the placing frame 401, and the other end of the torsion spring 403 is arranged inside the first rotating shaft 402; the turnover structure 4 further comprises a plurality of bumps 404, and the plurality of bumps 404 are arranged at two ends of the placing rack 401 in pairs.

Specifically, the placing structure 2 further comprises a plurality of connecting strips 202, the connecting strips 202 are fixed inside the installation box 201 in parallel, the connecting strips 202 and the grid structure of the placing frame 401 are arranged in a staggered manner, the cross section of each connecting strip 202 is of an L-shaped structure, a plurality of first rollers 203 are arranged on one side of each connecting strip 202, and the first rollers 203 are connected with the placing frame 401 in a rolling manner; namely: the bottom end of the installation box 201 is embedded underground on one side of the conveyor belt body 1, one side of the bottom end of the installation box 201 is flush with the ground, when goods need to be conveyed, objects are placed between the objects on the connecting strips 202 and the placing rack 401 on one side of the installation box 201, after the goods are placed, the first hydraulic rod 302 in the installation box 301 contracts and further drives the connecting blocks 303 to ascend, the connecting blocks 303 ascend and further drives the baffle plates 304 to ascend, the baffle plates 304 ascend and further drive the installation strips 305 and the placing rack 401 at the top ends of the installation strips 305 to ascend, when the placing rack 401 ascends to a certain height, one side of the placing rack 401 abuts against the guide structure 6, the first hydraulic rod 302 continues to contract, the baffle plates 304 and the installation strips 305 continue to ascend, the placing rack 401 further rotates around the first rotating shaft 402, the torsion spring 403 contracts, after the torsion spring is completely contracted after the first hydraulic rod 302 contracts, the placing rack 401 rotates to a certain degree, the goods are further dumped or thrown onto the conveyor belt body 1, at the moment, the first hydraulic rod 302 extends, the torsion spring 403 and the torsion spring 401 returns to the initial position, the placing rack 401 continues to be added, the logistics piece is provided with the roller wheels 306, the rack 401, the friction force of the placing rack 202 is greatly reduced, the goods is effectively reduced, the object is effectively prevented from slipping of the goods from being connected with the placing rack 401, and the goods is effectively prevented from slipping of the goods from slipping connection piece 401; the one end of being convenient for bury placing structure 2 underground, and then the logistics goods that need carry are placed to placing structure 2 of being convenient for, and 3 rising goods pieces of rethread transport structure are put the conveyer belt body 1 of transportation goods through flip structure 4 at last, have avoided the manual relatively heavy logistics goods of carrying of logistics transport personnel to conveyer belt body 1 on, and then have saved the manpower greatly, and then have improved the transport efficiency of logistics goods greatly.

Specifically, the dislocation structure 5 includes a fixed block 501, the fixed block 501 is disposed inside the installation box 201, one side of the fixed block 501 is rotatably connected with a second hydraulic rod 502, a second rotating shaft 503 is rotatably disposed at the top end of the second hydraulic rod 502, the second rotating shaft 503 is rotatably connected inside a sliding groove 504, and the sliding groove 504 is disposed on one side of the installation box 301; the dislocation structure 5 further comprises second rollers 505, the two second rollers 505 are arranged at the top end of the mounting box 301, the second rollers 505 are connected to the inside of a mounting groove 506 in a rolling manner, and the mounting groove 506 is arranged on one side of the mounting box 201; namely: when a worker puts goods on the connecting bar 202 during the period that the placing frame 401 is not completely placed at the bottom end, an infrared scanning device is arranged at the bottom end of the grid-shaped structure of the placing frame 401, when the goods are scanned on the connecting bar 202, the second hydraulic rod 502 is started to contract at first, the second hydraulic rod 502 contracts to drive the mounting box 301 to slide in the mounting box 201, meanwhile, the second hydraulic rod 502 contracts to drive the second rotating shaft 503 to roll in the sliding groove 504 on one side of the mounting box 301, the second hydraulic rod 502 rotates on one side of the fixed block 501, when the second hydraulic rod 502 contracts completely, the placing frame 401 contracts to the inside of the mounting box 201, after the first hydraulic rod 302 continues to operate to a completely extended state, the second hydraulic rod 502 extends to drive the mounting box 301 to reset with the placing frame 401, the placing frame 401 returns to a state staggered with the connecting bar 202 again to continue to operate and convey the goods, a second roller 505 is arranged at the top end of the mounting box 301, the second roller 505 slides in the mounting groove 506 in the mounting box 201, and friction force is greatly reduced; and then avoided flip structure 4 not having the decline in-process yet, the staff mistake is placed commodity circulation goods piece on placing structure 2, continues to slide in the bottom of goods after making flip structure 4 dislocation, and then better transport commodity circulation goods, the effectual of transport.

Specifically, the guide structure 6 includes a fixed table 601, the fixed table 601 is fixed on the conveyor belt body 1, two first guide rollers 602 are symmetrically arranged at two ends of the fixed table 601, a first connecting shaft 603 is arranged inside the first guide rollers 602, two ends of the first connecting shaft 603 are rotatably connected inside the fixed table 601, a first limiting disc 604 is arranged at an end of the first connecting shaft 603, a first belt 605 is arranged outside the first limiting disc 604, the first limiting disc 604 is in rolling connection with the first belt 605, the other end of the first belt 605 is arranged outside the second limiting disc 606, the second limiting disc 606 is in rolling connection with the first belt 605, a second connecting shaft 607 is arranged inside the second limiting disc 606, two ends of the second connecting shaft 607 are rotatably connected inside the fixed table 601, and a second guide roller 608 is fixed outside the second connecting shaft 607; the first connecting shaft 603 is arranged at one end inside the first limiting disc 604 and is in a hexagonal prism structure, the first connecting shaft 603 is arranged at one end inside the fixed table 601 and is in a cylindrical structure, the second connecting shaft 607 is arranged at one end inside the second limiting disc 606 and is in a hexagonal prism structure, and the second connecting shaft 607 is arranged at one end inside the fixed table 601 and is in a cylindrical structure.

Specifically, the linkage structure 7 includes a second belt 701, two second belts 701 are provided, one end of one second belt 701 is provided outside the second limiting disc 606, the second limiting disc 606 and the second belt 701 are connected in a rolling manner, the other end of the second belt 701 is provided outside the third limiting disc 702, the third limiting disc 702 is connected in a rolling manner with the second belt 701, the third limiting disc 702 is rotatably connected inside the fixed platform 601, one side of the third limiting disc 702 is fixed with a first gear 703, one side of the first gear 703 is engaged with a second gear 704, one side of the second gear 704 is fixed with a fourth limiting disc 705, the fourth limiting disc 705 is rotatably connected inside the fixed platform 601, the outside of the fourth limiting disc 705 is connected with another second belt 701 in a rolling manner, and the other end of the second belt 701 is provided outside the other second limiting disc 606; namely: when the rack 401 abuts against the first guide roller 602, a part of the goods on the rack 401 rolls from the adjacent first guide roller 602 to the surface of the conveyor belt body 1, another part of the goods is thrown onto the first guide roller 602 at the far end, the first guide roller 602 at the adjacent end rotates to drive the first connecting shaft 603 to rotate, the first connecting shaft 603 rotates to drive the first limiting disc 604 to rotate, the first limiting disc 604 rotates to drive the first belt 605 to move, the first belt 605 moves to drive the second limiting disc 606 to rotate, the second limiting disc 606 rotates to drive the second connecting shaft 607 to rotate, the second guiding roller 607 rotates to drive the second guiding roller 608 to rotate, the second limiting disc 606 rotates to drive the second belt 701 to move simultaneously, the second belt 701 moves to drive the third limiting disc 702 to rotate, the third limiting disc 702 rotates to drive the first gear 703 to rotate, the first gear 703 rotates to drive the second gear 704 to rotate, the second gear 704 further drives the fourth limiting disc 705 to rotate, the fourth limiting disc 705 rotates to drive the second limiting disc 701 to rotate, and the second limiting disc 705 rotates to drive the second limiting disc 606, and the second limiting disc 701 rotates to drive the second limiting disc 606, and the second limiting disc 705 to rotate, and the second limiting disc 701 rotates to drive the second limiting disc 606, and the second limiting disc 705 to drive the second limiting disc 606 to rotate; goods convenient for carry and throw for flip structure 4 through guide structure 6 and put are led, have effectively avoided the goods to carry the outside of conveyer belt body 1, are convenient for commutate the guide structure 6 at conveyer belt body 1 both ends through linkage structure 7, and then make the better surface that slides into conveyer belt body 1 of goods, have improved the transport efficiency of goods greatly, have protected the goods of being transported simultaneously.

When the conveyor belt is used, the bottom end of the installation box 201 is embedded underground on one side of the conveyor belt body 1, one side of the bottom end of the installation box 201 is flush with the ground, when goods need to be conveyed, objects are placed on the connecting strips 202 and the placing frames 401 on one side of the installation box 201, after the goods are placed, the first hydraulic rods 302 in the installation box 301 contract to further drive the connecting blocks 303 to ascend, the connecting blocks 303 ascend to further drive the baffle plates 304 to ascend, the baffle plates 304 ascend to further drive the installation strips 305 and the placing frames 401 at the top ends of the installation strips 305 to ascend, when the placing frames 401 ascend to a certain height, one sides of the placing frames 401 abut against the first guide rollers 602, the first hydraulic rods 302 continue to contract, and the baffle plates 304 and the installation strips 305 continue to ascend, the placing frame 401 further rotates around the first rotating shaft 402, the torsion spring 403 contracts, after the first hydraulic rod 302 completely contracts, the placing frame 401 rotates to a certain degree, goods are poured or thrown onto the conveyor belt body 1, at the moment, the first hydraulic rod 302 extends, the torsion spring 403 resets after the placing frame 401 is released from contact with the first guide roller 602, the placing frame 401 is driven to reset, the initial position is finally returned, the logistics goods needing to be conveyed are continuously added, the support strip 306 is arranged, the stability of the placing frame 401 is greatly improved, the arrangement of the bump 404 effectively avoids slippage of the logistics goods, the first roller 203 is arranged on one side of the connecting strip 202, and the friction force between the connecting strip 202 and the placing frame 401 is greatly reduced; one end of the placing structure 2 is conveniently buried underground, the placing structure 2 is convenient to place logistics goods to be conveyed, the goods are lifted through the conveying structure 3, and finally the goods are thrown onto the conveying belt body 1 for conveying the goods through the overturning structure 4, so that logistics conveying personnel are prevented from manually conveying heavier logistics goods onto the conveying belt body 1, the manpower is greatly saved, and the conveying efficiency of the logistics goods is greatly improved; when a worker puts goods on the connecting bar 202 during the period that the placing frame 401 is not completely placed at the bottom end, an infrared scanning device is arranged at the bottom end of the grid-shaped structure of the placing frame 401, when the goods are scanned on the connecting bar 202, the second hydraulic rod 502 is started to contract at first, the second hydraulic rod 502 contracts to drive the mounting box 301 to slide in the mounting box 201, meanwhile, the second hydraulic rod 502 contracts to drive the second rotating shaft 503 to roll in the sliding groove 504 on one side of the mounting box 301, the second hydraulic rod 502 rotates on one side of the fixed block 501, when the second hydraulic rod 502 contracts completely, the placing frame 401 contracts to the inside of the mounting box 201, after the first hydraulic rod 302 continues to operate to a completely extended state, the second hydraulic rod 502 extends to drive the mounting box 301 to reset with the placing frame 401, the placing frame 401 returns to a state staggered with the connecting bar 202 again to continue to operate and convey the goods, a second roller 505 is arranged at the top end of the mounting box 301, the second roller 505 slides in the mounting groove 506 in the mounting box 201, and friction force is greatly reduced; further, the phenomenon that a worker mistakenly places the logistics goods on the placing structure 2 when the overturning structure 4 is not lowered is avoided, the overturning structure 4 continues to slide into the bottom end of the goods after being dislocated, the logistics goods are conveyed better, and the conveying effect is good; when the rack 401 abuts against the first guide roller 602, a part of the goods on the rack 401 rolls from the adjacent first guide roller 602 to the surface of the conveyor belt body 1, another part of the goods is thrown onto the first guide roller 602 at the far end, the first guide roller 602 at the adjacent end rotates to drive the first connecting shaft 603 to rotate, the first connecting shaft 603 rotates to drive the first limiting disc 604 to rotate, the first limiting disc 604 rotates to drive the first belt 605 to move, the first belt 605 moves to drive the second limiting disc 606 to rotate, the second limiting disc 606 rotates to drive the second connecting shaft 607 to rotate, the second guiding roller 607 rotates to drive the second guiding roller 608 to rotate, the second limiting disc 606 rotates to drive the second belt 701 to move simultaneously, the second belt 701 moves to drive the third limiting disc 702 to rotate, the third limiting disc 702 rotates to drive the first gear 703 to rotate, the first gear 703 rotates to drive the second gear 704 to rotate, the second gear 704 further drives the fourth limiting disc 705 to rotate, the fourth limiting disc 705 rotates to drive the second limiting disc 701 to rotate, and the second limiting disc 705 rotates to drive the second limiting disc 606, and the second limiting disc 701 rotates to drive the second limiting disc 606, and the second limiting disc 705 to rotate, and the second limiting disc 701 rotates to drive the second limiting disc 606, and the second limiting disc 705 to drive the second limiting disc 606 to rotate; goods that are convenient for carry and throw for flip structure 4 through guide structure 6 are led, have effectively avoided the goods to carry the outside of conveyer belt body 1, are convenient for carry the switching-over through linkage structure 7 with guide structure 6 at conveyer belt body 1 both ends, and then make the better surface that slides in conveyer belt body 1 of goods, have improved the transport efficiency of goods greatly, have protected the goods of quilt simultaneously.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims

1. The logistics unloading conveying assembly is characterized by comprising a conveying belt body (1), wherein a placing structure (2) is arranged on one side of the conveying belt body (1), a conveying structure (3) is arranged on the placing structure (2), a turnover structure (4) is arranged on the conveying structure (3), a dislocation structure (5) is connected to the conveying structure (3), a guide structure (6) is arranged on the conveying belt body (1), and a linkage structure (7) is connected to the guide structure (6);

the placing structure (2) comprises an installation box (201), a conveying structure (3) is arranged on the installation box (201), the conveying structure (3) comprises an installation box (301), the installation box (301) is connected to the inside of the installation box (201) in a sliding mode, a first hydraulic rod (302) is arranged inside the installation box (301), a connecting block (303) is fixed to the bottom end of the first hydraulic rod (302), a baffle (304) is fixed to one side of the connecting block (303), the baffle (304) is connected to the inside of the installation box (301) in a sliding mode, an installation strip (305) is arranged on one side of the baffle (304), and a turnover structure (4) is arranged on the installation strip (305);

the turnover structure (4) comprises a placing frame (401), the placing frame (401) is arranged at the top end of the supporting strip (306), the placing frame (401) is of a grid-shaped structure, one end of the placing frame (401) is rotatably connected with a first rotating shaft (402), one end of the first rotating shaft (402) is fixed to one side of the mounting strip (305), a torsion spring (403) is arranged outside the first rotating shaft (402), one end of the torsion spring (403) is arranged inside the placing frame (401), and the other end of the torsion spring (403) is arranged inside the first rotating shaft (402);

the placing structure (2) further comprises connecting strips (202), the connecting strips (202) are fixed inside the installation box (201) in parallel, the connecting strips (202) and the grid structure of the placing frame (401) are arranged in a staggered mode, the cross section of each connecting strip (202) is of an L-shaped structure, a plurality of first rollers (203) are arranged on one side of each connecting strip (202), and the first rollers (203) are connected with the placing frame (401) in a rolling mode;

the dislocation structure (5) comprises a fixing block (501), the fixing block (501) is arranged inside the mounting box (201), one side of the fixing block (501) is rotatably connected with a second hydraulic rod (502), the top end of the second hydraulic rod (502) is rotatably provided with a second rotating shaft (503), the second rotating shaft (503) is connected inside a sliding groove (504) in a rolling manner, and the sliding groove (504) is arranged on one side of the mounting box (301);

the dislocation structure (5) further comprises second rollers (505), the two second rollers (505) are arranged at the top end of the mounting box (301), the second rollers (505) are connected to the inside of the mounting groove (506) in a rolling manner, and the mounting groove (506) is arranged on one side of the mounting box (201);

when a worker puts goods on the connecting strip (202) when the placement frame (401) is not completely put at the bottom end, an infrared scanning device is arranged at the bottom end of the grid-shaped structure of the placement frame (401), when the goods are scanned on the connecting strip (202), the second hydraulic rod (502) is started to contract at first, the second hydraulic rod (502) contracts to drive the installation box (301) to slide in the installation box (201), meanwhile, the second hydraulic rod (502) contracts to drive the second rotating shaft (503) to roll in the sliding groove (504) on one side of the installation box (301), the second hydraulic rod (502) rotates on one side of the fixed block (501), when the second hydraulic rod (502) contracts completely, the placement frame (401) contracts to the inside of the installation box (201), after the first hydraulic rod (302) continues to operate to a completely extended state, the second hydraulic rod (502) extends to drive the installation box (301) and the placement frame (401) to reset, the placement frame (401) returns to a staggered setting state with the connecting strip (202) again, and then continues to operate and convey the goods;

the guide structure (6) comprises a fixing table (601), the fixing table (601) is fixed on the conveyor belt body (1), two first guide rollers (602) are symmetrically arranged at two ends of the fixing table (601), a first connecting shaft (603) is arranged inside the first guide rollers (602), two ends of the first connecting shaft (603) are rotatably connected inside the fixing table (601), a first limiting disc (604) is arranged at the end part of the first connecting shaft (603), a first belt (605) is arranged outside the first limiting disc (604), the first limiting disc (604) is in rolling connection with the first belt (605), the other end of the first belt (605) is arranged outside a second limiting disc (606), the second limiting disc (606) is in rolling connection with the first belt (605), a second connecting shaft (607) is arranged inside the second limiting disc (606), two ends of the second connecting shaft (607) are rotatably connected inside the fixing table (601), and a second connecting shaft (607) is fixed outside the second guide rollers (608);

linkage structure (7) include second belt (701), second belt (701) are equipped with two, one the outside of second spacing dish (606) is located to the one end of second belt (701), roll connection between second spacing dish (606) and second belt (701), the outside of third spacing dish (702) is located to the other end of second belt (701), roll connection between third spacing dish (702) and second belt (701), third spacing dish (702) rotate to be connected in the inside of fixed station (601), one side of third spacing dish (702) is fixed with first gear (703), one side meshing of first gear (703) has second gear (704), one side of second gear (704) is fixed with fourth spacing dish (705), fourth spacing dish (705) rotate to be connected in the inside of fixed station (601), the outside roll connection of fourth spacing dish (705) has another second belt (701), the outside of second belt (701) is located another outside of second belt (701).

2. A logistics discharge conveyor assembly of claim 1 wherein: the conveying structure (3) further comprises a supporting strip (306), and the supporting strip (306) is arranged on one side of the mounting strip (305).

3. The logistics discharge conveyor assembly of claim 1 wherein: the turnover structure (4) further comprises protruding blocks (404), and the protruding blocks (404) are arranged at two ends of the placing frame (401) in pairs.

4. The logistics discharge conveyor assembly of claim 1 wherein: the first connecting shaft (603) is arranged at one end inside the first limiting disc (604) and is of a hexagonal prism structure, the cross section of one end, arranged inside the fixed table (601), of the first connecting shaft (603) is of a cylindrical structure, the other end, arranged inside the second limiting disc (606), of the second connecting shaft (607) is of a hexagonal prism structure, and the other end, arranged inside the fixed table (601), of the second connecting shaft (607) is of a cylindrical structure.