CN115848930A - Storage system and optical fiber finished product production line - Google Patents

Abstract

The invention relates to the technical field of optical fiber products, in particular to a warehousing system and an optical fiber finished product production line. The warehousing system comprises at least one conveying part, a warehousing part and a control part, wherein the conveying part is provided with a finished product input end and a finished product lower line end, and each conveying part comprises two conveying lines which are arranged up and down; each sorting part is arranged on one side of the finished product lower line end; automatic transport portion includes a plurality of AGV dollies. The conveying part can circularly convey the trays between the finished product input end and the finished product offline end, the sorting part can sort the finished products with different specifications into the corresponding storage racks in a classified manner, the AGV trolley can carry the corresponding storage racks to enter and exit according to instructions, automatic sorting and entering and exiting of the finished products as required are realized, the original disordered entering and packing processes of the optical fiber finished products become more orderly and clear, unmanned and automatic entering and exiting processes are realized, and the problems of low efficiency and poor reliability of the packing and delivery processes of the optical fiber finished products in the prior art are effectively solved.

Description

Storage system and optical fiber finished product production line

Technical Field

The invention relates to the technical field of optical fiber products, in particular to a warehousing system and an optical fiber finished product production line.

Background

The finished optical fiber products generally refer to coiled optical fiber cables, and in order to protect and transport the optical fiber cables, newly produced optical fiber cables need to be coiled on a cable reel for storage, and then sorted, packaged and sent according to orders of different customers.

At present, in the existing optical fiber finished product production line, the optical fiber finished products cannot be offline according to the order sequence when offline, the optical fiber finished products with different specifications are all in chaotic sequencing when offline, and when delivery needs to be carried out aiming at the order of a customer in the later period, manual sorting and packaging according to different order contents are needed, the packaging and delivery mode is poor in efficiency and low in informatization degree, the phenomenon that the order is missed or mistakenly sent easily occurs, and therefore the problems of low efficiency and poor reliability exist in the packaging and delivery process of the existing optical fiber finished products.

Disclosure of Invention

Therefore, the technical problem to be solved by the present invention is to overcome the defects of low efficiency and poor reliability of the packaging and delivery process of the finished optical fiber products in the prior art, so as to provide a storage system and a finished optical fiber product production line.

In order to solve the above problems, the present invention provides a warehousing system comprising: at least one input ZLSQ20229714

The conveying parts are provided with finished product input ends and finished product tail end terminals, each conveying part comprises two conveying lines which are arranged up and down, one conveying line is suitable for conveying the tray loaded with the finished products at the finished product input ends to the finished product tail end terminals, and the other conveying line is suitable for conveying the tray at the finished product tail end terminals to the finished product input ends; each sorting part is arranged on one side of the finished product lower line end and is suitable for sorting the finished products on the tray into the corresponding storage rack; the automatic conveying part comprises a plurality of AGV trolleys, and each AGV trolley is provided with a storage state for conveying the storage racks to the storage area and a delivery state for conveying the storage racks to the delivery area.

Optionally, the device further comprises a plurality of plate returning machines arranged at the finished product input end and the finished product lower line end, and each plate returning machine is arranged between the two conveying lines in a lifting mode.

Optionally, the finished product end-to-end is provided with at least one sorting line corresponding to each sorting portion, the sorting lines are connected with the conveying portion, the conveying direction of the sorting lines is perpendicular to the conveying direction of the conveying portion, and a plate returning machine is correspondingly arranged at one end, far away from the conveying portion, of each sorting line.

Optionally, a jacking conveying mechanism is arranged at the joint of the conveying part and each sorting line.

Optionally, the conveying part is a double-layer speed multiplying chain.

Optionally, letter sorting portion includes letter sorting machine people, and one side of finished product input is equipped with sweeps a yard binding portion.

Optionally, the automatic feeding device further comprises a storage, a storage area is arranged in the storage, the finished product input end is located outside the storage, and the finished product off-line end is located in the storage area.

Optionally, the warehouse further includes a packing area disposed adjacent to the warehouse area, and a warehouse exit area is disposed between the warehouse area and the packing area.

Optionally, the part between the finished product input end and the finished product lower line end penetrates through the storage area and is arranged on the fixing frame, and the height of the fixing frame is higher than the height of a forklift body.

The invention also provides an optical fiber finished product production line, which comprises: the warehousing system is described above.

ZLSQ20229714

The invention has the following advantages:

1. the finished product unloading end is provided with the sorting parts, the conveying part can circularly convey the tray between the finished product input end and the finished product unloading end, finished products are placed on the tray and are conveyed to the finished product unloading end from the finished product input end, the sorting parts can sort the finished products with different specifications into the corresponding storage racks in a classified mode, the AGV trolley can carry the corresponding storage racks to be stored and taken out of the storage according to instructions, automatic sorting and storage and taking out of the finished products as required are achieved, the original disordered storage and packaging processes of the optical fiber finished products are enabled to be more orderly, unmanned and automation are achieved in the storage and taking-out processes, the problems that the efficiency of the packaging and delivery processes of the optical fiber finished products is low and the reliability is poor in the prior art are effectively solved, and the sorting efficiency of the optical fiber finished products is greatly improved.

2. The finished product end of inserting corresponds every letter sorting portion and is provided with at least one letter sorting line, and conveying part will carry the tray that carries the finished product to letter sorting line, and after the finished product of optic fibre's tray that carries on letter sorting line reachd the letter sorting station, letter sorting portion sorts the finished product of optic fibre this moment, and every letter sorting line can buffer memory tray of a certain amount for when letter sorting portion carried out letter sorting work, conveying part can also continue the circulation transportation tray.

3. The conveying part is a double-layer speed chain, an optical fiber finished product is conveyed on the upper layer of the double-layer speed chain, an empty tray is conveyed on the lower layer, the conveying speed of the conveying line can be accelerated by the speed chain, the uniform speed transportation of the whole conveying line can be guaranteed, the double-layer speed chain can stop running when the double-layer speed chain is halted according to a preset instruction, so that the sorting step is completed, and the automatic transportation of finished products is realized without manual control.

4. The finished product input end is located the outside of warehouse storehouse, and the finished product end of inserting the production line is located the warehouse district, and the warehouse district is located indoorly, and conveying department can directly transport the optic fibre finished product that just unloads from haulage vehicle to the warehouse district in and the letter sorting is stored, need not to pass through secondary transport, has reduced middle step for the warehouse entry beat.

Drawings

ZLSQ20229714

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 illustrates a layout of a warehousing system according to an embodiment of the present invention;

FIG. 2 shows an enlarged schematic view at A of the warehousing system of FIG. 1;

FIG. 3 shows an enlarged schematic view at B of the warehousing system of FIG. 1;

FIG. 4 shows a schematic diagram of a conveyor section of the warehousing system of FIG. 1;

FIG. 5 shows a schematic front view of a magazine of the warehousing system of FIG. 1;

FIG. 6 illustrates a schematic top view of a magazine of the warehousing system of FIG. 5;

fig. 7 shows a schematic top view of a magazine of the warehousing system of fig. 1 filled with a cable reel.

Description of reference numerals:

10. a conveying section; 11. a finished product input end; 12. a finished product is fed; 13. a jacking conveying mechanism; 14. a hoist; 20. a sorting section; 30. an AGV trolley; 40. returning the plate machine; 50. a sorting line; 60. a code scanning binding part; 70. a tray; 80. a storage warehouse; 81. a storage area; 82. a packing area; 83. a warehouse-out area; 84. a fixed mount; 90. a material storage rack; 91. a forklift; 92. a cable reel.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, all other embodiments of ZLSQ20229714 obtained by those of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 to 7, the warehousing system of the embodiment includes: at least one conveying section 10, several sorting sections 20 and automatic handling sections, each conveying section 10 having a finished product input end 11 and a finished product lower end 12, each conveying section 10 comprising two conveying lines arranged one above the other, one of which is adapted to convey the finished product loaded trays 70 of the finished product input end 11 to the finished product lower end 12 and the other is adapted to convey the trays 70 of the finished product lower end 12 to the finished product input end 11; each sorting section 20 is disposed at one side of the finished product lower line end 12, and each sorting section 20 is adapted to sort the finished products on the trays 70 into the corresponding storage rack 90; the automatic conveying part comprises a plurality of AGV trolleys 30, and each AGV trolley is small ZLSQ20229714

The carriage 30 has a storage state in which the magazine 90 is transported to the storage area 81 and a delivery state in which the magazine 90 is transported to the delivery area 83.

The warehousing system of the embodiment is applied, the sorting parts 20 are arranged at the lower end 12 of the finished product, the conveying part 10 can circularly convey the tray 70 between the input end 11 of the finished product and the lower end 12 of the finished product, the finished product is placed on the tray 70 and is conveyed to the lower end 12 of the finished product from the input end 11 of the finished product, the sorting parts 20 can sort the finished products of different specifications into the corresponding storage racks 90 in a classified mode, the AGV trolley 30 can carry the corresponding storage racks 90 to enter and leave the warehouse according to instructions, automatic sorting and warehousing and on-demand ex-warehousing of the finished products are realized, the disordered warehousing and packaging processes of the finished products of the optical fibers become more clear, the unmanned and automatic warehousing and ex-warehousing processes are realized, the problems of low efficiency and poor reliability of the packaging and delivery processes of the finished products of the optical fibers in the prior art are effectively solved, and the warehousing efficiency of the finished products of the optical fibers is greatly improved.

Specifically, the finished optical fiber product is a cable reel 92, the number of the conveying portions 10 can be correspondingly matched according to the scale of an actual warehouse, and the number of the sorting portions 20 can be correspondingly matched according to the required warehousing efficiency.

In this embodiment, the automatic pallet returning device further includes a plurality of pallet returning machines 40 disposed at the finished product input end 11 and the finished product lower end 12, each pallet returning machine 40 is disposed between two conveying lines in a lifting manner, and the pallet returning machines 40 can convey the pallet 70 on one of the conveying lines to the other conveying line for reverse transportation, so that the conveying part 10 can circularly convey the pallet 70, and automatic pallet returning is realized. It will be appreciated that, as an alternative embodiment, the plate return machine 40 may not be provided, and a lifting structure may be provided between the two conveyor lines, so that the pallet 70 on one of the conveyor lines can be moved to the other conveyor line by the lifting structure when the pallet reaches the end, and the reverse transportation is performed.

Specifically, the two vertically arranged conveying lines make the space occupied by the conveying part 10 smaller, so that the space occupied by the conveying lines is greatly saved, the conveying directions and the specific conveying structures of the two conveying lines are not limited, the conveying lines on the upper layer can convey the tray 70 carrying the optical fiber finished products, and the conveying lines on the lower layer can be ZLSQ20229714

The empty tray 70 is transported, or the lower layer of the transport line transports the tray 70 carrying the finished optical fiber product, while the upper layer of the transport line transports the empty tray 70, the transport line can be a chain transport line, a belt pulley transport line, a roller transport line, etc., and the tray 70 can be transported stably.

Preferably, in order to facilitate the sorting process of the sorting section 20, the conveyor line located at the upper level transports trays 70 carrying finished optical fibers, and the conveyor line located at the lower level transports empty trays 70.

In this embodiment, at least one sorting line 50 is disposed on the finished product lower end 12 corresponding to each sorting section 20, the sorting line 50 is connected to the conveying section 10, the conveying direction of the sorting line 50 is perpendicular to the conveying direction of the conveying section 10, a plate returning machine 40 is disposed on one end of each sorting line 50 away from the conveying section 10, the conveying section 10 conveys the tray 70 loaded with the finished product to the sorting line 50, after the tray 70 loaded with the finished optical fiber product on the sorting line 50 reaches the sorting station, the sorting section 20 sorts the finished optical fiber product at this time, and each sorting line 50 can buffer a certain number of trays 70, so that when the sorting section 20 performs sorting, the conveying section 10 can continue to circularly convey the trays 70. It should be noted that for convenience of description, the "tray 70 loaded with finished optical fibers" on the conveying section 10 or the sorting line 50 will be directly described as a finished product or a finished optical fiber product.

Specifically, as shown in fig. 3, for convenience of manufacturing, the sorting line 50 has a structure consistent with that of the conveying part 10 and is divided into an upper sorting line and a lower sorting line, the upper conveying line conveys the optical fiber finished products to the upper sorting line, after the sorting process is completed, the upper sorting line conveys the tray 70 to the plate returning machine 40, the plate returning machine 40 lowers and conveys the tray 70 to the lower sorting line, and the lower sorting line conveys the tray 70 to the lower conveying line and returns to the finished product input end 11. It should be understood that, as an alternative embodiment, the specific structure of the sorting line 50 may be changed according to the requirement, or only the upper sorting line may be provided, after the sorting process is completed, the tray 70 on the upper sorting line is directly conveyed to the conveying line on the lower layer by the plate returning machine 40, or the sorting line 50 may not be provided, and the sorting part 20 directly forms ZLSQ20229714 for the optical fiber on the conveying line on the upper layer

And (5) sorting the products.

In the present embodiment, a jacking conveying mechanism 13 is provided at the connection of the conveying part 10 and each sorting line 50, the jacking conveying mechanism 13 is adapted to jack up and convey the tray 70 onto the sorting line 50, when the finished optical fiber product reaches the connection of the conveying part 10 and the sorting line 50, the conveying part 10 stops conveying, and the jacking conveying mechanism 13 is lifted to contact with the tray 70 and convey the tray 70 to the sorting line 50.

Specifically, the specific structure of the jacking conveying mechanism 13 is not limited, and the jacking conveying mechanism 13 may be vertically moved by driving components such as a driving cylinder and a linear motor, the conveying manner of the jacking conveying mechanism 13 may be in the form of chain conveying, belt pulley conveying, roller conveying, and the like, and the tray 70 may be stably conveyed. It should be noted that the existing jacking conveying mechanism can be adopted as the jacking conveying mechanism 13, fig. 3 only indicates the setting position of the jacking conveying mechanism 13, the position of the jacking conveying mechanism 13 in fig. 3 is the tray 70, and the jacking conveying mechanism 13 is below the tray 70.

In this embodiment, conveying part 10 is the double-deck doubly fast chain, and the optical fiber finished product is transported on the upper strata of the double-deck doubly fast chain, and empty tray 70 of lower floor's transportation, the transport speed of transfer chain can be accelerated to the doubly fast chain, and can guarantee that whole transfer chain transports at the uniform velocity, and the double-deck doubly fast chain can be according to predetermined instruction, can the bring to rest when needs pause to accomplish the letter sorting step, need not manual control and realize off-the-shelf automatic transport.

In this embodiment, the sorting unit 20 includes a sorting robot, a code scanning binding unit 60 is disposed on one side of the finished product input end 11, the code scanning binding unit 60 can perform information code binding on each optical fiber finished product, and the sorting robot sorts the information of the optical fiber finished product after recognizing the information.

Specifically, as shown in fig. 2 to 3, after the optical fiber finished product is placed on the tray 70, the operator binds the current optical fiber finished product with the information code, where the information code may be printed on site and attached to the optical fiber finished product, or may be an information code recording and identifying system ZLSQ20229714 carried by the optical fiber finished product itself

In the middle of, after the finished optic fibre was carried to letter sorting line 50, letter sorting robot scanned the information code on the finished optic fibre and discerned the information of finished optic fibre at present, later picks up the finished optic fibre and places on corresponding storage frame 90 on one side through self tongs.

In this embodiment, further include warehouse 80, warehouse 81 has in warehouse 80, and finished product input end 11 is located the outside of warehouse 80, and finished product lower extreme 12 is located warehouse 81, and warehouse 81 is located indoorly, and conveying unit 10 can directly transport the optic fibre finished product that just unloads from the haulage vehicle to warehouse 81 in and sort and store, need not to pass through secondary transport, has reduced middle step for the warehousing beat.

In this embodiment, the storage warehouse 80 further includes a packing area 82 disposed adjacent to the storage area 81, an out-of-warehouse area 83 is disposed between the storage area 81 and the packing area 82, and the agv 30 can perform corresponding actions according to commands issued at the out-of-warehouse area 83.

Specifically, the packing area 82 can pack the finished optical fiber products taken from the delivery area 83, and the operator and the forklift 91 in the packing area 82 can freely walk to work, which can also be a transit area from delivery to loading as the finished optical fiber products.

Specifically, every AGV dolly 30 has climbing mechanism, and it can move to the below of storage frame 90 and jack-up storage frame 90, later according to predetermined orbit transport storage frame 90 again, AGV dolly 30 is connected to warehouse management system, can appoint the action according to warehouse management system's instruction, and the operating personnel who is located out storehouse district 83 inputs instruction information on the APP, and warehouse management system prepares material and issues AGV dolly 30 transport task according to the information of APP, and later AGV dolly 30 corresponds the execution.

Specifically, the bottom of the storage rack 90 is provided with a plurality of pulleys, so that the storage rack 90 can be pushed by an operator if the AGV needs to move, and the problem that the AGV cannot move due to the weight ZLSQ20229714 of the storage rack 90 is solved

Too large to move.

In the present embodiment, the portion between the finished product input end 11 and the finished product lower line end 12 passes through the storage area 81 and is disposed on the fixing frame 84, the height of the fixing frame 84 is higher than the height of the forklift 91, and the fixing frame 84 can lift the portion of the conveying part 10 located in the packing area 82 to a certain height, so that the movement of the worker or the equipment in the packing area 82 is not affected. It is to be understood that, as an alternative embodiment, the mounting bracket 84 may be eliminated, regardless of the effect on the baling region 82.

Specifically, as shown in fig. 4, the left end is a finished product input end 11, the right end is a finished product lower end 12, the conveying part 10 further includes two hoists 14, each hoist 14 includes a frame body and a double-layer lifting structure, in the hoist 14 near the left side, the double-layer lifting structure can lift the finished optical fiber product on the upper layer of the finished product input end 11 to the high position for continuous transportation when being lifted, the high-position tray 70 can be lowered to the lower layer of the finished product input end 11 for continuous transportation when being lowered, in the hoist 14 near the left side, the double-layer lifting structure can lift the tray 70 on the lower layer of the finished product lower end 12 to the high position for continuous transportation when being lifted, and the high-position finished optical fiber product can be lowered to the upper layer of the finished product lower end 12 for continuous transportation when being lowered. In order to better show the transportation process of the conveying part 10, the conveying part 10 is changed into a linear transportation line in fig. 4, and the structure of the sorting line 50 is omitted.

Preferably, the mounting bracket 84 is a steel mounting platform.

In the present embodiment, the length of the storage area 81 is 20 meters to 80 meters, the width is 18 meters to 45 meters, more than 60 storage positions are contained in the storage area 81, and more than 100 cable reels 92 can be contained in a single storage position.

The invention also provides an optical fiber finished product production line, which comprises: the warehousing system is described above.

The operation of the warehousing system of the present embodiment is described as follows:

warehousing: unloading the optical fiber finished product which is not put in storage onto a tray 70 of a finished product input end 11 and recording the optical fiber finished product into ZLSQ20229714

An information code; the conveying part 10 transports a plurality of finished optical fiber products to each sorting line 50; the sorting robot recognizes the information and sorts the finished optical fiber products to corresponding storage racks 90; the AGV cart 30 transports the storage racks 90 to the storage bay.

And (4) ex-warehouse: an operator calls materials on the APP; the warehouse management system prepares materials according to the material calling information and gives the AGV trolley 30 a carrying task; the AGV trolley 30 moves to the bottom of the corresponding storage rack 90 to jack up and is transferred to the warehouse-out area 83; an operator packs and boxes the required finished optical fiber products in the delivery area 83 or carries the storage rack 90 by a forklift 91; after the material handling is finished, the operator confirms that the goods taking task is finished on the APP, and the material calling is finished.

Entering the tailing/empty storage rack 90 into a warehouse: after the operator confirms that the goods taking task is completed on the APP, a tailing/empty storage rack 90 warehousing instruction is issued at the moment; the warehouse management system issues the AGV trolley 30 carrying task according to the warehousing instruction, and the AGV trolley 30 moves to the position below the tailing/empty storage rack 90 to be jacked up and carried to the warehouse position.

It should be noted that: the tailings are the storage shelves 90 that store the finished fiber product but are not full.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

1. the sorting part 20 is arranged at the lower end 12 of the finished product, the conveying part 10 can circularly convey the tray 70 between the input end 11 of the finished product and the lower end 12 of the finished product, the finished product is placed on the tray 70 and is conveyed to the lower end 12 of the finished product from the input end 11 of the finished product, the sorting part 20 can sort the finished products of different specifications into the corresponding storage racks 90 in a classified mode, the AGV trolley 30 can carry the corresponding storage racks 90 to enter and leave the storage according to instructions, automatic sorting and storage and delivery of the finished products as required are achieved, the original disordered storage and packaging processes of the optical fiber finished products become more clear, the unmanned and automatic storage and delivery processes are achieved, and the sorting and storage efficiency of the optical fiber finished products is greatly improved.

ZLSQ20229714

2. Conveying part 10 is the double-deck doubly fast chain, and the double-deck doubly fast chain's upper strata transportation optic fibre finished product, the empty tray 70 of lower floor's transportation, the transport speed of transfer chain can be accelerated to the doubly fast chain, and can guarantee that whole transfer chain transports at the uniform velocity, and the double-deck doubly fast chain can be according to predetermined instruction, can the shut down when needs pause to accomplish the letter sorting step, need not manual control and realize off-the-shelf automatic transportation.

3. The part between the finished product input end 11 and the finished product lower line end 12 passes through the storage area 81 and is arranged on the fixing frame 84, the height of the fixing frame 84 is higher than the height of the forklift 91, and the fixing frame 84 can lift the part of the conveying part 10, which is positioned in the packing area 82, to a certain height, so that the movement of workers or equipment in the packing area 82 is not influenced.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (10)

1. A warehousing system, comprising:

-at least one conveyor section (10) having a finished product infeed end (11) and a finished product drop end (12), each conveyor section (10) comprising two conveyor lines arranged one above the other, one of said conveyor lines being adapted to convey pallets (70) loaded with finished products from the finished product infeed end (11) to the finished product drop end (12) and the other of said conveyor lines being adapted to convey said pallets (70) from the finished product drop end (12) to the finished product infeed end (11);

a plurality of sorting sections (20), each sorting section (20) being arranged at one side of the finished product lower line end (12), each sorting section (20) being adapted to sort the finished products on the trays (70) into corresponding storage racks (90);

an automatic transfer unit comprising a plurality of AGV dollies (30), each of the AGV dollies (30) having a storage state in which the storage rack (90) is transported to a storage area (81) and an unloading state in which the storage rack (90) is transported to an unloading area (83).

2. The warehousing system as claimed in claim 1 further comprising a plurality of board return machines (40) disposed at the finished product input end (11) and the finished product drop end (12), each board return machine (40) being liftably disposed between two of the conveyor lines.

3. The warehousing system as claimed in claim 2, characterized in that at least one sorting line (50) is provided for each sorting section (20) at the lower end (12) of the finished products, the sorting line (50) is connected to the conveying section (10), the conveying direction of the sorting line (50) is perpendicular to the conveying direction of the conveying section (10), and the plate returning machine (40) is provided for each end of the sorting line (50) away from the conveying section (10).

4. The warehousing system according to claim 3, characterized in that a jacking conveyor mechanism (13) is provided at the connection of said conveyor (10) to each sorting line (50).

5. Warehouse system according to any one of claims 1 to 4, characterized in that the conveyor (10) is a double-speed chain.

6. Warehouse system according to any one of claims 1 to 4, characterized in that said sorting section (20) comprises a sorting robot, said finished product input (11) being provided on one side with a code-scanning binding section (60).

7. Warehousing system according to any of claims 1 to 4, characterized in that it further comprises a warehouse (80), said warehouse (80) having therein said warehouse area (81), said finished product input (11) being located outside said warehouse (80), said finished product lower end (12) being located in said warehouse area (81).

8. Warehousing system according to claim 7, characterized in that said warehouse (80) further comprises a packing area (82) arranged adjacent to said warehouse area (81), said out-of-warehouse area (83) being arranged between said warehouse area (81) and said packing area (82).

9. Warehouse system according to claim 8, characterized in that the section between the finished product input (11) and the finished product drop line (12) passes through the storage area (81) and is arranged on a fixed mount (84), the height of the fixed mount (84) being higher than the body height of the forklift (91).

10. An optical fiber finished product production line, comprising: the warehousing system of any one of claims 1-9.

Images