CN113353528A

CN113353528A - Access system and method for intelligent transceiver station

Info

Publication number: CN113353528A
Application number: CN202110473207.0A
Authority: CN
Inventors: 杨兆文; 徐季新; 汤晓涛; 范明勇; 黄桂领
Original assignee: Zhejiang Yuantong Wire and Cable Manufacturing Co Ltd
Current assignee: Zhejiang Yuantong Wire and Cable Manufacturing Co Ltd
Priority date: 2021-04-29
Filing date: 2021-04-29
Publication date: 2021-09-07

Abstract

The invention relates to the field of cable warehousing management, and discloses an access system and an access method for an intelligent transceiving station, wherein the access system comprises an information input unit (1), a warehouse management unit (2), a stereoscopic warehouse unit (3) and a cable drum (4), the information input unit (1) inputs the information of the cable drum (4) into a main control system of the warehouse management unit (2) through a PDA code scanning gun to generate a database of the cable drum (4), the main control system of the warehouse management unit (2) performs data processing to automatically generate monthly usage and stock quantity, and the warehouse management unit (2) sends a signal to the stereoscopic warehouse unit (3) to access the cable drum (4). According to the invention, by designing the intelligent receiving and dispatching station, automatic warehousing and ex-warehousing is realized, the production efficiency is improved, the line finding time is saved, meanwhile, the storage and transportation cost is reduced, the labor intensity is reduced, and the warehouse space utilization rate is improved.

Description

Access system and method for intelligent transceiver station

Technical Field

The invention relates to the field of cable warehousing management, in particular to an access system and an access method of an intelligent receiving and dispatching station for cable warehousing.

Background

Informationization, digitization and intelligentization construction become a necessary way for enterprise transformation development, a stereoscopic warehouse has high space utilization rate and strong warehousing and ex-warehousing capacity, and the stereoscopic warehouse can be convenient for enterprises to implement modern management by combining with a computer for control management, so that the stereoscopic warehouse becomes an indispensable warehousing technology for enterprise logistics and production management and is deeply valued by the enterprises. However, the existing warehouse is still placed on the ground for storing the goods, so that the goods are inconvenient to store and take, or the goods cannot be automatically adjusted by relying on a conveyor or a manual driving forklift, the goods are relatively troublesome to store and take, and the goods entering and exiting efficiency is influenced. As application No. CN201510416198.6 discloses an intelligent stereoscopic warehouse, which comprises: the warehouse body is provided with a plurality of layers of goods shelves, and each goods shelf comprises a plurality of goods bins; the two guide rails are respectively arranged on two sides of the warehouse body; the two lifting platforms are respectively arranged on the two guide rails and driven to slide up and down by a lifting driving mechanism; the front part of the lifting platform is provided with a chute; the two first sliding tables are respectively clamped and embedded in the two sliding grooves and driven to slide back and forth through a back and forth driving mechanism; two ends of the guide rod are respectively arranged on the two first sliding tables; the two ends of the screw rod are respectively arranged on the two first sliding tables and are driven to rotate by the left and right driving mechanisms; the second sliding table is sleeved on the guide rod and the screw rod; the rear end of the second sliding table is provided with two supporting plates. Above-mentioned patent can the position of automatically regulated goods, and can adjust the goods of eminence to the transition warehouse in advance to convenient access, but there is the defect in this kind of warehouse to goods access and intelligent management, can not satisfy the demand of enterprise. According to the invention, by designing the intelligent receiving and dispatching station, automatic warehousing and ex-warehousing is realized, the production efficiency is improved, the line finding time is saved, meanwhile, the storage and transportation cost is reduced, the labor intensity is reduced, and the warehouse space utilization rate is improved.

Disclosure of Invention

The invention provides an access system and an access method of an intelligent transceiver station, aiming at the defects of difficult warehouse cable search and low space utilization rate in the prior art.

In order to solve the technical problem, the invention is solved by the following technical scheme:

the utility model provides an access system of intelligence receiving and dispatching station, including the information input unit, warehouse management unit, stereoscopic warehouse unit and cable drum, the information input unit sweeps the master control system of sign indicating number rifle with cable drum's information input warehouse management unit through PDA, generate cable drum's database, warehouse management unit's master control system carries out data processing, automatic monthly quantity and the stock quantity of generating, warehouse management unit sends the signal and carries out cable drum's access for stereoscopic warehouse unit, stereoscopic warehouse unit includes stereoscopic goods shelves, the carrier-and-stacker gets the goods shelves, be equipped with cable drum on the stereoscopic goods shelves, be equipped with carriage and crane on the carrier-stacker, the carriage is established on the crane, it snatchs machine and carriage to get to be equipped with on the goods shelves. When the cable drum is taken out of the warehouse, the cable drum is taken out of the three-dimensional goods shelf by the carrier-stacker through the moving frame and the lifting frame, the cable drum is placed on the moving vehicle through the moving frame, the cable drum on the moving vehicle is grabbed and placed on the ground by the grabbing machine, when the cable drum is put in the warehouse, the cable drum is grabbed and placed on the moving vehicle by the grabbing machine, the cable drum is pushed to the position of the carrier-stacker by the moving vehicle, the cable drum is taken down from the moving vehicle by the moving frame and placed on the moving frame, the carrier-stacker moves, and the warehouse position number of the three-dimensional goods shelf is placed into the cable drum through the lifting frame and the moving frame.

Preferably, the three-dimensional goods shelf comprises a stand column, a supporting plate and a first reel seat, wherein the supporting plate is arranged on the stand column, the first reel seat is arranged on the supporting plate, and a channel for the moving frame and the moving vehicle to pass through is arranged on the three-dimensional goods shelf. The moving vehicle is positioned below the goods taking rack and is positioned on one side of the channel, and the stacking vehicle is positioned on the other side of the channel of the three-dimensional goods rack.

Preferably, the two sides of the stacking car are provided with first sliding grooves, the lifting frame is provided with a supporting seat, the two sides of the supporting seat are provided with vertical plates, first sliding blocks matched with the first sliding grooves are arranged on the vertical plates, and the stacking car is movably erected on the supporting seat.

Preferably, the top of the goods taking frame is provided with a first motor and a second sliding groove, the grabbing machine comprises a lifting rod and a grabbing frame, the lifting rod is connected with the grabbing frame, the first motor is connected with the lifting rod through a chain, the lifting rod is provided with a connecting column, two ends of the connecting column are provided with pulleys, and the pulleys slide on the second sliding groove. The first motor rotates and drives the grabbing machine to slide on the second sliding groove through the chain, so that the grabbing machine moves on the goods taking frame.

Preferably, a connecting plate is arranged on the connecting column, a second motor is arranged on the connecting plate and connected with the lifting rod, a third sliding groove is formed in the lifting rod, a second sliding block is arranged on the connecting plate, and the second sliding block slides on the third sliding groove. The lifting rod moves up and down through the second motor to enable the grabbing frame to move up and down to grab the cable coil.

Preferably, the moving vehicle comprises a frame and a cart, the cart is arranged on the frame, the frame is provided with a rail, the cart is provided with wheels, the cart moves on the frame through the wheels, and the frame is further provided with a second wire coil base. After the grabbing frame grabs the cable coil, the cable coil is placed on the cart through the ascending height of the lifting rod and the descending height of the lifting rod.

Preferably, the goods taking frame is provided with a first control switch, the first control switch is respectively connected with the first motor and the second motor, and the frame is further provided with an alarm lamp and a second control switch.

An access method of a smart transceiver station, comprising the access system of the smart transceiver station, further comprising the following steps:

A. inputting data information, wherein the information input unit inputs the data information of the cable coil into a main control system of a warehouse management unit to generate a database of the cable coil;

B. processing data information, wherein a main control system of the warehouse management unit processes data and automatically generates monthly consumption and stock quantity;

C. the method comprises the following steps of accessing cable information, inputting data information of a cable coil needing to be accessed in a main control system of a warehouse management unit, and sending a signal instruction to a stereoscopic warehouse unit through a sensor;

D. the stereoscopic warehouse unit receives the signal command sent by the warehouse management unit, the grabbing machine, the moving vehicle and the stacking vehicle enter a working state to carry out warehouse-out and warehouse-in operations, required cable coils are stored and taken, when the cable coils are taken out of the warehouse, the carrier-and-stacker takes out the cable coil from the three-dimensional goods shelf through the moving frame and the lifting frame, the carrier-and-stacker moves to the passage, the moving frame works, the cable coil is placed on the cart of the moving vehicle, the cart returns, the first motor and the second motor work, the grabbing machine grabs the cable coil on the moving vehicle and places the cable coil on the ground, when the cable coil is put in storage, the first motor and the second motor work, the grabbing machine grabs and puts the cable drum on the cart of the moving vehicle, the cart brings the cable drum to the position of the stacking vehicle through the channel, the moving frame work takes the cable drum off the cart, the stacking vehicle moves, and the crane and the moving frame place the cable drum into the corresponding storage position number of the three-dimensional goods shelf.

The main functions of the intelligent transceiver station are:

(1) products entering and exiting the receiving and dispatching station can be checked and traced;

(2) the optimal section length and the optimal specification product can be automatically matched according to the order requirement;

(3) the three-dimensional goods shelf can save the field space, the products can be automatically delivered and stored in and out through the stacking car and the goods shelf taking, manual operation is not needed, and the efficiency is higher;

(4) the product acceptance condition can be counted, a planner can be reminded to prepare goods in time for common products, and the planner can be reminded to digest and treat goods in time for stagnant products;

(5) the transceiver station can automatically form counting statistical data, and reduce manual statistical deviation.

Due to the adoption of the technical scheme, the invention has the remarkable technical effects that: the handheld PDA code scanning gun can be used for scanning the cable coils for warehousing, the coils are automatically placed in a designated place by a stacking trolley after being warehoused, automatic warehousing and warehousing are achieved, production efficiency is improved, line finding time is saved, warehousing core real-time data are subjected to data management by a WMS (warehouse management system) in the transceiving station, the monthly consumption and the inventory quantity are automatically generated, data interaction and sharing with an EPR system are achieved by the WMS, accurate data support is provided for subsequent paperless production scheduling and cost accounting, space utilization rate can be greatly improved by the intelligent transceiving station, standardized management and traceable management of semi-finished products are achieved, storage and transportation cost is greatly reduced, labor intensity is relieved, and warehouse space utilization rate is improved. According to the invention, by designing the intelligent receiving and dispatching station, automatic warehousing and ex-warehousing is realized, the production efficiency is improved, the line finding time is saved, meanwhile, the storage and transportation cost is reduced, the labor intensity is reduced, and the warehouse space utilization rate is improved.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural diagram of a three-dimensional shelf.

Fig. 3 is a schematic structural view of the stacker.

Fig. 4 is a schematic view of the structure of the goods taking shelf.

Fig. 5 is a partially enlarged view of a in fig. 4.

Fig. 6 is a partially enlarged view of B in fig. 4.

Fig. 7 is a schematic structural view of the mobile vehicle.

The names of the parts indicated by the numerical references in the above figures are as follows: the system comprises an information input unit 1, a warehouse management unit 2, a stereoscopic warehouse unit 3, a cable reel 4, a stereoscopic shelf 5, a stacker 6, a goods taking shelf 7, a moving shelf 8, a lifting shelf 9, a grabbing machine 10, a moving car 11, a column 12, a supporting plate 13, a first reel seat 14, a channel 15, a first chute 16, a supporting seat 17, a vertical plate 18, a first sliding block 19, a first motor 20, a second chute 21, a lifting rod 22, a grabbing shelf 23, a connecting column 24, a pulley 25, a connecting plate 26, a second motor 27, a third chute 28, a second sliding block 29, a frame 30, a cart 31, a cart, a rail 32, a wheel 33, a second reel seat 34, a first control switch 35, a warning lamp 36 and a second control switch 37.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Example 1

The utility model provides a storage and taking system of intelligent receiving and dispatching station, as shown in fig. 1-7, including information input unit 1, warehouse management unit 2, stereoscopic warehouse unit 3 and cable spool 4, information input unit 1 sweeps a yard rifle through the PDA and enters the master control system of warehouse management unit 2 with the information of cable spool 4, generate the database of cable spool 4, warehouse management unit 2's master control system carries out data processing, automatic monthly quantity and stock quantity of formation, warehouse management unit 2 sends the signal and carries out the access of cable spool 4 to stereoscopic warehouse unit 3, stereoscopic warehouse unit 3 includes stereoscopic goods shelves 5, carrier-and-stacker 6 and goods taking frame 7, be equipped with cable spool 4 on the stereoscopic goods shelves 5, be equipped with removal frame 8 and crane 9 on carrier-and-stacker 6, removal frame 8 is established on crane 9, be equipped with grabber 10 and locomotive 11 on the goods taking frame 7. When going out of the warehouse, the stacker 6 takes out the cable drum 4 from the three-dimensional goods shelves 5 through the moving frame 8 and the crane 9, the cable drum 4 is placed on the moving vehicle 11 through the moving frame 8, the cable drum 4 on the moving vehicle 11 is grabbed and placed on the ground by the grabbing machine 10, when entering the warehouse, the cable drum 4 is grabbed and placed on the moving vehicle 11 by the grabbing machine 10, the cable drum 4 is pushed to the position of the stacker 6 by the moving vehicle 11, the cable drum 4 is taken down from the moving vehicle 11 and placed on the moving frame 8 by the moving frame 8, the stacker 6 moves, and the warehouse number of the three-dimensional goods shelves 5 is placed into the cable drum 4 through the crane 9 and the moving frame 8.

The three-dimensional shelf 5 comprises a stand column 12, a supporting plate 13 and a first reel seat 14, wherein the supporting plate 13 is arranged on the stand column 12, the first reel seat 14 is arranged on the supporting plate 13, and a channel 15 for the moving frame 8 and the moving vehicle 11 to pass through is arranged on the three-dimensional shelf 5. The moving cart 11 is located below the fetching shelf 7, and on one side of the passage 15, the stacking cart 6 is located on the other side of the passage 15 of the space shelf 5.

The two sides of the piling car 6 are provided with first sliding grooves 16, the lifting frame 9 is provided with a supporting seat 17, the two sides of the supporting seat 17 are provided with vertical plates 18, the vertical plates 18 are provided with first sliding blocks 19 matched with the first sliding grooves 16, and the moving frame 8 is arranged on the supporting seat 17.

Get goods shelves 7 top and be equipped with first motor 20 and second spout 21, snatch machine 10 includes lifter 22 and snatchs frame 23, and lifter 22 with snatch frame 23 and be connected, first motor 20 is connected with lifter 22 through the chain, is equipped with spliced pole 24 on the lifter 22, and spliced pole 24 both ends are equipped with pulley 25, and pulley 25 slides on second spout 21. The rotation of the first motor 20 drives the grabbing machine 10 to slide on the second chute 21 through a chain, so that the grabbing machine 10 moves on the goods taking rack 7.

The connecting column 24 is provided with a connecting plate 26, the connecting plate 26 is provided with a second motor 27, the second motor 27 is connected with the lifting rod 22, the lifting rod 22 is provided with a third sliding groove 28, the connecting plate 26 is provided with a second sliding block 29, and the second sliding block 29 slides on the third sliding groove 28. The lifting rod 22 moves up and down through the second motor 27 to move the grabbing frame 23 up and down to grab the cable reel 4.

The movable cart 11 comprises a frame 30 and a cart 31, wherein the cart 31 is arranged on the frame 30, a rail 32 is arranged on the frame 30, wheels 33 are arranged on the cart 31, the cart 31 moves on the frame 30 through the wheels 33, and a second reel seat 34 is further arranged on the frame 30. After the cable drum 4 is gripped by the gripping rack 23, the lifting rod 22 is lifted and moved to a position above the cart 31, and the lifting rod 22 is lowered to a height to place the cable drum 4 on the cart 31.

The goods taking rack 7 is provided with a first control switch 35, the first control switch 35 is respectively connected with the first motor 20 and the second motor 27, and the frame 30 is also provided with an alarm lamp 36 and a second control switch 37.

A. inputting data information, wherein the information input unit 1 inputs the data information of the cable coil 4 into a main control system of the warehouse management unit 2 to generate a database of the cable coil 4;

B. processing data information, wherein a main control system of the warehouse management unit 2 performs data processing to automatically generate monthly consumption and stock quantity;

C. the method comprises the following steps of (1) accessing cable information, inputting data information of a cable coil 4 needing to be accessed in a main control system of a warehouse management unit 2, and sending a signal instruction to a stereoscopic warehouse unit 3 through a sensor;

D. the stereoscopic warehouse unit 3 receives the signal command sent by the warehouse management unit 2, the grabbing machine 10, the moving vehicle 11 and the piling vehicle 6 enter a working state to carry out warehouse-out and warehouse-in operations, required cable coils 4 are stored and taken out, when the cable coils are taken out, the piling vehicle 6 takes the cable coils 4 out of the stereoscopic shelf 5 through the moving frame 8 and the lifting frame 9, the piling vehicle 6 moves to a passage 15, the moving frame 8 works, the cable coils 4 are placed on a cart 31 of the moving vehicle 11, the cart 31 returns, the first motor 20 and the second motor 27 work, the grabbing machine 10 grabs the cable coils 4 on the moving vehicle 11 and places the cable coils 4 on the ground, when the cable coils are put in a warehouse, the first motor 20 and the second motor 27 work, the grabbing machine 10 grabs the cable coils 4 on the cart 31 of the moving vehicle 11, the cart 31 brings the cable coils 4 to the position of the piling vehicle 6 through the passage 15, the moving frame 8 works to take the cable coils 4 off from the cart 31, the stacking car 6 moves, and the cable coil 4 is placed into the corresponding warehouse location number of the three-dimensional goods shelf 5 through the lifting frame 9 and the moving frame 8.

The working principle is as follows: the handheld PDA code scanning gun can be used for realizing code scanning and warehousing of the cable coil 4, the cable coil is automatically placed in a designated place by the stacking trolley 6 after being warehoused, automatic warehousing and warehousing is realized, the production efficiency is improved, the line searching time is saved, the warehousing core real-time data is subjected to data management by the WMS warehouse management system in the transceiving station, the monthly consumption and the inventory quantity are automatically generated, data interaction and sharing with the EPR system are realized by the WMS, accurate data support is provided for subsequent paperless production scheduling and cost accounting, the space utilization rate can be greatly improved by the intelligent transceiving station, standardized management and traceable management of semi-finished products are realized, the storage and transportation cost is greatly reduced, the labor intensity is reduced, and the warehouse space utilization rate is improved. According to the invention, by designing the intelligent receiving and dispatching station, automatic warehousing and ex-warehousing is realized, the production efficiency is improved, the line finding time is saved, meanwhile, the storage and transportation cost is reduced, the labor intensity is reduced, and the warehouse space utilization rate is improved.

Example 2

The utility model provides a storage and taking system of intelligent receiving and dispatching station, as shown in fig. 1, including information input unit 1, warehouse management unit 2, stereoscopic warehouse unit 3 and cable spool 4, information input unit 1 sweeps code rifle through PDA and enters the master control system of warehouse management unit 2 with the information of cable spool 4, generate the database of cable spool 4, warehouse management unit 2's master control system carries out data processing, automatic monthly quantity and stock quantity of generating, warehouse management unit 2 sends the signal and carries out cable spool 4's access for stereoscopic warehouse unit 3, stereoscopic warehouse unit 3 includes stereoscopic goods shelves 5, carrier-and-stacker 6 and goods taking frame 7, be equipped with cable spool 4 on stereoscopic goods shelves 5, be equipped with removal frame 8 and crane 9 on carrier-and-stacker 6, removal frame 8 is established on crane 9, be equipped with grabber 10 and locomotive 11 on the goods taking frame 7. When going out of the warehouse, the stacker 6 takes out the cable drum 4 from the three-dimensional goods shelves 5 through the moving frame 8 and the crane 9, the cable drum 4 is placed on the moving vehicle 11 through the moving frame 8, the cable drum 4 on the moving vehicle 11 is grabbed and placed on the ground by the grabbing machine 10, when entering the warehouse, the cable drum 4 is grabbed and placed on the moving vehicle 11 by the grabbing machine 10, the cable drum 4 is pushed to the position of the stacker 6 by the moving vehicle 11, the cable drum 4 is taken down from the moving vehicle 11 and placed on the moving frame 8 by the moving frame 8, the stacker 6 moves, and the warehouse number of the three-dimensional goods shelves 5 is placed into the cable drum 4 through the crane 9 and the moving frame 8.

Example 3

The utility model provides a storage and taking system of intelligent receiving and dispatching station, as shown in fig. 1-4, including information input unit 1, warehouse management unit 2, stereoscopic warehouse unit 3 and cable spool 4, information input unit 1 sweeps a yard rifle through the PDA and enters the master control system of warehouse management unit 2 with the information of cable spool 4, generate the database of cable spool 4, warehouse management unit 2's master control system carries out data processing, automatic monthly quantity and stock quantity of formation, warehouse management unit 2 sends the signal and carries out the access of cable spool 4 to stereoscopic warehouse unit 3, stereoscopic warehouse unit 3 includes stereoscopic goods shelves 5, carrier-and-stacker 6 and goods taking frame 7, be equipped with cable spool 4 on the stereoscopic goods shelves 5, be equipped with removal frame 8 and crane 9 on carrier-and-stacker 6, removal frame 8 is established on crane 9, be equipped with grabber 10 and locomotive 11 on the goods taking frame 7. When going out of the warehouse, the stacker 6 takes out the cable drum 4 from the three-dimensional goods shelves 5 through the moving frame 8 and the crane 9, the cable drum 4 is placed on the moving vehicle 11 through the moving frame 8, the cable drum 4 on the moving vehicle 11 is grabbed and placed on the ground by the grabbing machine 10, when entering the warehouse, the cable drum 4 is grabbed and placed on the moving vehicle 11 by the grabbing machine 10, the cable drum 4 is pushed to the position of the stacker 6 by the moving vehicle 11, the cable drum 4 is taken down from the moving vehicle 11 and placed on the moving frame 8 by the moving frame 8, the stacker 6 moves, and the warehouse number of the three-dimensional goods shelves 5 is placed into the cable drum 4 through the crane 9 and the moving frame 8.

Claims

1. The utility model provides an access system of intelligent transceiver station, includes information input unit (1), warehouse management unit (2), stereoscopic warehouse unit (3) and cable drum (4), its characterized in that: information input unit (1) sweeps code gun through PDA and enters the major control system of warehouse management unit (2) with the information of cable drum (4), generate the database of cable drum (4), the major control system of warehouse management unit (2) carries out data processing, monthly quantity and stock quantity are generated automatically, warehouse management unit (2) send signal and carry out the access of cable drum (4) for stereoscopic warehouse unit (3), stereoscopic warehouse unit (3) are including stereoscopic goods shelves (5), carrier-and-stacker (6) and get goods frame (7), be equipped with cable drum (4) on stereoscopic goods shelf (5), be equipped with on carrier-and-stacker (6) and remove frame (8) and crane (9), remove frame (8) and establish on crane (9), it is equipped with grabbing machine (10) and locomotive (11) on goods frame (7) to get.

2. The access system of a smart transceiver station of claim 1, wherein: three-dimensional goods shelves (5) are equipped with passageway (15) that supply carriage (8) and locomotive (11) to pass through on being equipped with on the three-dimensional goods shelves (5) including stand (12), fagging (13) and first wire reel seat (14), be equipped with fagging (13) on stand (12), be equipped with first wire reel seat (14) on fagging (13).

3. The access system of a smart transceiver station of claim 1, wherein: the stacking trolley is characterized in that first sliding grooves (16) are formed in two sides of the stacking trolley (6), a supporting seat (17) is arranged on the lifting frame (9), vertical plates (18) are arranged on two sides of the supporting seat (17), first sliding blocks (19) matched with the first sliding grooves (16) are arranged on the vertical plates (18), and the moving frame (8) is arranged on the supporting seat (17).

4. The access system of a smart transceiver station of claim 1, wherein: get goods shelves (7) top and be equipped with first motor (20) and second spout (21), snatch machine (10) including lifter (22) and snatch frame (23), lifter (22) with snatch frame (23) and be connected, first motor (20) are connected with lifter (22) through the chain, be equipped with spliced pole (24) on lifter (22), spliced pole (24) both ends are equipped with pulley (25), pulley (25) slide on second spout (21).

5. The access system of a smart transceiver station of claim 4, wherein: be equipped with connecting plate (26) on spliced pole (24), install second motor (27) on connecting plate (26), second motor (27) are connected with lifter (22), are equipped with third spout (28) on lifter (22), are equipped with second slider (29) on connecting plate (26), and second slider (29) slide on third spout (28).

6. The access system of a smart transceiver station of claim 5, wherein: the moving vehicle (11) comprises a vehicle frame (30) and a cart (31), the cart (31) is arranged on the vehicle frame (30), a vehicle rail (32) is arranged on the vehicle frame (30), wheels (33) are arranged on the cart (31), the cart (31) moves on the vehicle frame (30) through the wheels (33), and a second reel seat (34) is further arranged on the vehicle frame (30).

7. The access system of a smart transceiver station of claim 6, wherein: a first control switch (35) is arranged on the goods taking rack (7), the first control switch (35) is respectively connected with the first motor (20) and the second motor (27), and an alarm lamp (36) and a second control switch (37) are further arranged on the frame (30).

8. An access method of a smart transceiver station, characterized in that: an access system including a smart transceiver station as claimed in claim 1, further comprising the steps of:

A. inputting data information, wherein the information input unit (1) inputs the data information of the cable coil (4) into a master control system of the warehouse management unit (2) to generate a database of the cable coil (4);

B. processing data information, wherein a main control system of the warehouse management unit (2) performs data processing to automatically generate monthly usage and stock quantity;

C. cable information is accessed, data information of a cable coil (4) needing to be accessed is input into a main control system of the warehouse management unit (2), and a signal instruction is sent to the stereoscopic warehouse unit (3) through a sensor;

D. the stereoscopic warehouse unit (3) receives a signal command sent by the warehouse management unit (2), the grabbing machine (10), the moving vehicle (11) and the stacking vehicle (6) enter a working state to carry out warehouse-out and warehouse-in operations, required cable coils (4) are accessed, when the cable coils are delivered, the stacking vehicle (6) takes the cable coils (4) out of the stereoscopic shelf (5) through the moving rack (8) and the lifting rack (9), the stacking vehicle (6) moves to the passage (15), the moving rack (8) works, the cable coils (4) are placed on a cart (31) of the moving vehicle (11), the cart (31) returns, the first motor (20) and the second motor (27) work, the grabbing machine (10) grabs the cable coils (4) on the moving vehicle (11) and places the cable coils on the ground, when the cable coils are stored, the first motor (20) and the second motor (27) work, the grabbing machine (10) grabs the cable coils (4) on the cart (31) of the moving vehicle (11), the trolley (31) brings the cable coil (4) to the position of the stacking trolley (6) through the channel (15), the moving frame (8) works to take the cable coil (4) down from the trolley (31), the stacking trolley (6) moves, and the cable coil (4) is placed into the corresponding stock position number of the three-dimensional shelf (5) through the lifting frame (9) and the moving frame (8).