CN117446416A

CN117446416A - Intelligent detection production line for notebook computer

Info

Publication number: CN117446416A
Application number: CN202311667057.2A
Authority: CN
Inventors: 高祥; 张本川; 洪亮亮
Original assignee: Anhui Juntu Intelligent Technology Co ltd
Current assignee: Anhui Juntu Intelligent Technology Co ltd
Priority date: 2023-12-07
Filing date: 2023-12-07
Publication date: 2024-01-26
Anticipated expiration: 2043-12-07
Also published as: CN117446416B

Abstract

The invention relates to the technical field of notebook computer detection production lines, and discloses an intelligent detection production line for notebook computers, which is characterized in that a detection layer and a processing layer which are arranged on the upper layer and the lower layer are matched with a lifting machine, so that the space is efficiently and reasonably utilized, and the notebook computer assembly production line and the detection production line after the notebook computer assembly are conveniently planned and laid out; through the three layers of conveying chains and the plurality of detection warehouse units, the product detection line, the detected product discharge line and the empty carrier backflow conveying line can be independently and efficiently operated, the utilization rate of the whole carrier and the product warehouse-out rate after detection are effectively improved, and the whole detection, discharge and carrier backflow efficiency is ensured; through the jacking positioner who sets up, effectively guarantee to loading the stability that has notebook computer carrier location, follow-up manipulator accurate getting of being convenient for put the carrier. The invention can form a complete notebook transfer test production line, supports a large batch of notebook tests, has a good reflux circulation system for the carrier, and effectively realizes high-efficiency circulation feeding test.

Description

Intelligent detection production line for notebook computer

Technical Field

The invention relates to the technical field of notebook computer detection production lines, in particular to an intelligent detection production line for notebook computers.

Background

Notebook computers are one type of computer, which is one of the most advanced scientific and technological inventions in the 20 th century, and have an extremely important influence on the production activities and social activities of humans. The application field of the method is expanded from the initial military scientific research application to various fields of society, and the method becomes an indispensable tool in the information society. Therefore, improving and ensuring the quality of the notebook is a requirement of the computer industry, and the produced notebook needs to be tested. At present, the common test mode for a large number of notebook computers is a mode of combining manual work with mechanical equipment to complete assembly line test, the traditional assembly line test mode is single, the quantity of the notebook computer test for bearing detection is limited, the notebook computer bearing transfer is detected, the whole automation degree is not enough, meanwhile, the cyclic reflux use for bearing the notebook computer carrier is lack of reasonable layout design, and the whole production line test efficiency is low.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides an intelligent detection production line for a notebook computer, which solves the problems that the traditional assembly line test mode is single, the number of bearing detection notebook tests is limited, the bearing transfer of the notebook computer is detected, the whole automation degree is insufficient, the circulating reflux use for bearing the notebook computer carrier is lack of reasonable layout design, and the test efficiency of the whole production line is low.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme:

a notebook computer intelligent detection production line includes: the product processing layer is used for supporting the assembled notebook on the carrier and separating the detected notebook from the carrier; the detection layer is arranged above the product processing layer, the carrier bearing the notebook computer is lifted to the detection layer through the feeding lifting machine, and the feeding lifting machine is arranged on the product processing layer and used for lifting the carrier bearing the notebook computer to the detection layer; the lower layer conveying chain, the middle layer conveying chain and the upper layer speed doubling chain are sequentially arranged on the detection layer from bottom to top; the detection library units are arranged on the detection layer, and the detection library units are symmetrically arranged on two sides of the middle layer transportation chain; the warehouse-in transportation chain and the warehouse-out transportation chain are arranged on the detection layer up and down, the warehouse-in transportation chain and the warehouse-out transportation chain are arranged between the detection warehouse unit and the middle layer transportation chain, and one ends of the warehouse-in transportation chain and the warehouse-out transportation chain, which are close to the detection warehouse unit, are respectively provided with a jacking positioning device for positioning the carrier, and the carrier can be transferred onto the warehouse-in transportation chain from the middle layer transportation chain and onto the lower layer transportation chain from the warehouse-in transportation chain; the manipulator is arranged on the detection layer and in the middle of the detection library unit, and is used for grabbing the carrier and placing the carrier in each detection library on the detection library unit; the wire pulling and cover closing device is arranged on the detection layer and is close to the tail end of the lower conveying chain, a feeding conveying chain is arranged between the lower conveying chain and the wire pulling box cover device, and the carrier can be transferred onto the feeding conveying chain from the lower conveying chain; the discharging elevator and the carrier elevator are respectively arranged on the product treatment layer and extend out of the detection layer, a discharging transportation chain is arranged between the discharging elevators of the wire pulling and cover closing device, and the carrier of the notebook after separation detection is lifted to the detection layer through the carrier elevator; the empty carrier conveying chain is arranged between the carrier lifting machine and the upper conveying chain, the carriers on the carrier lifting machine can be transferred to the empty carrier conveying chain, and the carriers on the empty carrier conveying chain can be transferred to the upper conveying chain; the carrier reflow lifter is arranged on the detection layer and close to the feeding lifter, and the upper layer conveying chain transfers the carrier to the reflow lifter through the carrier reflow conveying chain; the transition roller set frame is arranged between the lifting machine and various types of conveying chains and is used for realizing the mutual transfer between the empty carrier or the carrier for loading the notebook computer and the lifting machine as well as between the carrier and the conveying chains.

Preferably, the middle layer conveying chain is close to the transition roller set, the middle layer conveying chain is close to the warehouse-in conveying chain, the warehouse-out conveying chain is close to the middle layer conveying chain, the warehouse-in conveying chain is close to the lower layer conveying chain, the lower layer conveying chain is close to the feeding conveying chain, the discharging conveying chain is close to the transition roller set frame, and the empty carrier conveying chain is close to the upper layer conveying chain and the upper layer conveying chain is close to the carrier backflow conveying chain.

Preferably, the jacking transplanting assembly comprises a mounting frame, a motor, a synchronous belt and an air cylinder, wherein the synchronous belt is connected with the motor in a transmission manner, the mounting frame is fixedly connected to a frame of a conveying chain, a housing is slidably connected to the mounting frame, the motor is arranged in an inner cavity of the housing, the synchronous belt is symmetrically arranged on two sides of the housing, the air cylinder is fixedly connected to the inner cavity of the housing, and the housing can move upwards or downwards along the vertical direction under the driving of the air cylinder.

Preferably, the housing is provided with a line stopper, and the line stopper is used for extending to block and position the carrier.

Preferably, the flow line blocker is a flow line blocker which is manufactured in a non-calibrated mode on any one of three flow line blockers of the ZDQ, ZHQ and ZDTC types produced by THK or any one of the three flow line blockers.

Preferably, the board returning machine is symmetrically arranged on the detection layer, the board returning machine comprises a moving platform capable of moving at fixed points between the upper layer conveying chain and the middle layer conveying chain, a driving assembly and a driving belt, the driving assembly and the driving belt are used for driving the moving platform to move, the moving platform is fixedly arranged on the driving belt, a driving roller group is arranged on the moving platform, the carrier supported above the upper layer conveying chain can be transferred onto the moving platform, the carrier supported above the moving platform can be transferred onto the middle layer conveying chain under the driving of the driving roller group, and the carrier supported above the middle layer conveying chain is finally transferred into a detection warehouse in an idle state in the detection warehouse unit for storage.

Preferably, the plate returning machine further comprises a mounting frame, the driving assembly is arranged on the upper portion of the mounting frame, the tensioning wheel is arranged on the lower portion of the mounting frame, the driving assembly is in transmission connection with the tensioning wheel, the mounting frame is provided with a sliding rail, the moving platform is in sliding connection with the sliding rail, and the upper end and the lower end of the mounting frame, which are located on the sliding rail, are provided with proximity switches.

Preferably, a limiting block is arranged on the mounting frame near the upper end of the sliding rail, and the moving platform is positioned at the lower part of the mounting frame in an initial state.

(III) beneficial effects

The invention has the following beneficial effects:

according to the intelligent detection production line of the notebook computer, through the cooperation of the detection layer and the processing layer which are arranged on the upper layer and the lower layer and the elevator, the space is efficiently and reasonably utilized, and the layout of the notebook computer assembly production line and the detection production line after the notebook computer assembly is planned and laid out conveniently; through the three layers of conveying chains and the plurality of detection warehouse units, the product detection line, the detected product discharge line and the empty carrier backflow conveying line can be independently and efficiently operated, the utilization rate of the whole carrier and the product warehouse-out rate after detection are effectively improved, and the whole detection, discharge and carrier backflow efficiency is ensured; through the jacking positioner who sets up, effectively guarantee to loading the stability that has notebook computer carrier location, follow-up manipulator accurate getting of being convenient for put the carrier.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a planar layout structure of a detection layer according to the present invention;

FIG. 3 is a schematic diagram of the junction between a detection warehouse unit and a middle layer transportation chain according to the present invention;

FIG. 4 is a schematic diagram of the layout structure of the plate returning machine of the present invention;

FIG. 5 is a schematic view of the junction between the plate returning machine and the conveying chain;

FIG. 6 is a schematic diagram of a plate returning machine according to the present invention;

FIG. 7 is a schematic diagram of the layout structure of the discharging elevator and the carrier elevator according to the present invention;

FIG. 8 is a schematic diagram of the layout structure of the device for pulling out the wire box cover according to the present invention;

fig. 9 is a schematic structural view of the lifting transplanting device of the present invention.

In the figure: 1. a product treatment layer; 2. a detection layer; 3. a feeding elevator; 4. a transition roller set frame; 5. middle layer transport chain; 6. a carrier; 7. a pipeline stopper; 8. jacking the transplanting device; 9. warehousing and transporting chains; 10. jacking and positioning device; 11. a manipulator; 12. a detection library unit; 13. a delivery transport chain; 14. a lower transport chain; 15. a feed conveyor chain; 16. a wire pulling and cover closing device; 17. a discharging transportation chain; 18. a discharging elevator; 19. a carrier elevator; 20. empty carrier transport chains; 21. an upper transport chain; 22. a carrier reflow lifter; 23. plate returning machine; 231. a mounting frame; 232. a drive assembly; 233. a transmission belt; 234. a mobile platform; 235. a drive roller group; 236. a limiting block; 237. a proximity switch; 238. a tensioning wheel; 239. a sliding rail; 24. and (5) a carrier reflow transportation chain.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the present invention provides a technical solution: a notebook computer intelligent detection production line includes: the product processing layer 1 is used for supporting the assembled notebook on the carrier 6 and separating the detected notebook from the carrier 6 in the product processing layer 1; the detection layer 2 is arranged above the product processing layer 1, the carrier 6 bearing the notebook computer is lifted to the detection layer 2 through the feeding lifting machine 3, and the feeding lifting machine 3 is arranged on the product processing layer 1 and is used for lifting the carrier 6 bearing the notebook computer to the detection layer 2; the middle layer conveying chain 5, the lower layer conveying chain 14 and the upper layer speed doubling chain are sequentially arranged on the detection layer 2 from bottom to top; the detection library units 12 are arranged on the detection layer 2, and the detection library units 12 are symmetrically arranged on two sides of the middle layer transportation chain 5; the warehouse-in conveying chain 9 and the warehouse-out conveying chain 13 are arranged on the detection layer 2 up and down, the warehouse-in conveying chain 9 and the warehouse-out conveying chain 13 are arranged between the detection warehouse unit 12 and the middle-layer conveying chain 5, and one ends of the warehouse-in conveying chain 9 and the warehouse-out conveying chain 13, which are close to the detection warehouse unit 12, are respectively provided with a jacking positioning device 10 for positioning the carrier 6, wherein the carrier 6 can be transferred onto the warehouse-in conveying chain 9 from the middle-layer conveying chain 5 and onto the lower-layer conveying chain 14 from the warehouse-in conveying chain 9; the manipulator 11 is arranged on the detection layer 2 and in the middle of the detection library unit 12, and the manipulator 11 is used for grabbing the carrier 6 and placing the carrier in each detection library on the detection library unit 12; the wire pulling and cover closing device is arranged on the detection layer 2 and is close to the tail end of the lower conveying chain 14, a feeding conveying chain 15 is arranged between the lower conveying chain 14 and the wire pulling box cover device 16, and the carrier 6 can be transferred onto the feeding conveying chain 15 from the lower conveying chain 14; the discharging lifting machine 18 and the carrier lifting machine 19 are arranged on the product processing layer 1 and extend out of the detection layer 2, a discharging conveying chain 17 is arranged between the discharging lifting machines 18 of the wire pulling and cover closing device, and the carrier 6 of the notebook after separation detection is lifted to the detection layer 2 through the carrier lifting machine 19; an empty carrier transport chain 20, which is disposed between the carrier hoist 19 and the upper transport chain 21, wherein the carriers 6 on the carrier hoist 19 can be transferred to the empty carrier transport chain 20, and the carriers 6 on the empty carrier transport chain 20 can be transferred to the upper transport chain 21; a carrier reflow lifter 22, disposed on the inspection floor 2 and adjacent to the feed lifter 3, the upper transport chain 21 transferring the carriers 6 to the reflow lifter through a carrier reflow transport chain 24; the transition roller set frame 4 is arranged between the lifting machine and various types of conveying chains and is used for realizing the mutual transfer between the empty carrier or the carrier 6 for loading the notebook computer and the lifting machine and the conveying chains.

According to the invention, the detection layer 2 and the treatment layer which are arranged on the upper layer and the lower layer are matched with the elevator, so that the space is effectively and reasonably utilized, and the layout of the notebook computer assembly line and the detection line after the notebook computer assembly is planned and laid out; through the three layers of conveying chains and the plurality of detection warehouse units 12, the product detection line, the detected product discharge line and the empty carrier 6 reflow conveying line can be independently and efficiently operated, the utilization rate of the whole carrier 6 and the detected product warehouse rate are effectively improved, and the whole detection, discharge and carrier 6 reflow efficiency is ensured; through the jacking positioner 10 that sets up, effectively guarantee to loading the stability that the notebook computer carrier 6 was fixed a position, follow-up manipulator 11 accurate getting of being convenient for put carrier 6.

In the actual use process of the invention, when the assembled notebook is assembled with the carrier 6 in product processing, the carrier 6 loaded with the notebook to be detected is lifted to the detection layer 2 through the feeding lifting machine 3, at the moment, the carrier 6 loaded with the notebook is transferred to the middle layer transportation chain 5 through the lifting transplanting device 8 with the assembly line stopper 7 matched with the transition roller set frame 4, and then the notebook and the carrier 6 enter the vicinity of a certain detection warehouse unit 12 together, at the moment, the blocking limiting carrier 6 can be transferred to the warehouse-in transportation chain 9, and after the notebook is moved to the tail end of the warehouse-in transportation chain 9 and positioned by the lifting positioning device 10, the manipulator 11 can grasp the carrier 6 with the notebook, and the notebook on the carrier 6 is sent to the detection warehouse in the detection warehouse unit 12 for detection; after the notebook computer test is completed, the manipulator 11 grabs the carrier 6 loaded with the notebook computer in the detection warehouse again, so that the carrier 6 is separated from the detection warehouse, the carrier 6 is placed on the lifting positioning device 10 on the delivery transport chain 13 for positioning, after positioning, the positioning of the lifting positioning device 10 on the carrier 6 is canceled, and at the moment, the carrier 6 moves to the vicinity of the lower transport chain 14 along with the delivery transport chain 13, and is limited at the moment and is transferred to the lower transport chain 14. The carrier 6 of the notebook after detection moves to the tail end under the drive of the lower layer conveying chain 14, at this moment, the carrier 6 can be transferred to the feeding conveying chain 15, so that the carrier 6 loaded with the notebook after detection enters the wire-pulling and cover-closing device 16 (the notebook on the carrier 6 needs to be ensured to be always in a starting state in the detection process, and the notebook needs to be avoided from dormancy, so the notebook always has a certain opening and closing angle in the detection process, the wire-pulling box cover device is used for automatically closing the notebook so as to carry out quick packaging and discharging subsequently), the notebook after wire pulling and cover closing is conveyed to the discharging conveying chain 17 along with the carrier 6, at this moment, the discharging conveying chain 17 conveys the notebook after wire pulling and cover closing to the discharging lifting machine 18, the discharging lifting machine 18 conveys the notebook after wire pulling and cover closing to the product processing layer 1, the detected notebook and the carrier 6 are separated in the product processing layer 1, and the qualified notebook after detection is shunted, and the empty notebook is shunted to the carrier lifting machine 6 and is conveyed to the carrier lifting machine 19 again to the detection layer 2. The empty carrier 6 is transferred to the empty carrier transport chain 20 along with the carrier lifting machine 19, the empty carrier transport chain 20 is transferred to the upper transport chain 21 along with the empty carrier transport chain 20, and the carrier reflux transport chain 24 and the carrier reflux lifting machine 22 are matched under the continuous driving of the upper transport chain 21, so that the empty carrier 6 is transferred to the detection layer 2 again, and the processing places of the notebook and the carrier 6 are loaded, thereby realizing the efficient batch detection of the notebook, and the effects of pulling out the wire and closing the cover for the notebook and forming the reflux recycling of the carrier 6.

In this embodiment, the jacking transplanting device 8 is arranged on the middle layer conveying chain 5, the warehouse-in conveying chain 9, the warehouse-out conveying chain 13, the lower layer conveying chain 14, the feeding conveying chain 15, the discharging conveying chain 17, the transition roller set frame 4, the empty carrier conveying chain 20, the upper layer conveying chain 21 and the carrier reflow conveying chain 24.

In this embodiment, jacking transplanting assembly includes mounting bracket, motor, is connected hold-in range and cylinder with motor drive, and mounting bracket fixed connection is on the frame of transportation chain, and sliding connection has the shell in the mounting bracket, and the motor is arranged in the shell inner chamber, and hold-in range symmetrical arrangement is in the both sides of shell, and first jacking cylinder fixed connection is in the shell inner chamber, and the shell can be along vertical orientation upwards or down moving under the drive of cylinder. Referring to fig. 9, by the jacking transplanting assembly, the carrier 6 on the transport chain and the transition roller set frame 4 can be conveniently transferred, and the product transfer before and after the reflow and the notebook detection can be conveniently ensured.

In this embodiment, the casing is provided with a line stopper 7, and the line stopper 7 is configured to protrude to block and position the carrier 6. Referring to fig. 9, through the assembly line stopper 7, when the empty carrier 6 on the transport chain or the carrier 6 loaded with the notebook computer moves to the housing, the cut carrier 6 can be blocked, so that the synchronous belt is conveniently rotated by the motor, and the carrier 6 on the housing is driven to move, thereby realizing the transfer of the carrier 6 between different transport chains.

In this embodiment, the pipeline stopper 7 is a pipeline stopper 7 after nonstandard customization based on any one of the ZDQ, ZHQ and ZDTC types manufactured by THK or any one of the above three types of pipeline stoppers.

In this embodiment, the board returning machine 23 is symmetrically disposed on the detection layer 2, the board returning machine 23 includes a moving platform 234 capable of moving between the upper layer conveying chain 21 and the middle layer conveying chain 5 at fixed points, and a driving component 232 and a driving belt 233 for driving the moving platform 234 to move, the moving platform 234 is fixedly disposed on the driving belt 233, a driving roller group 235 is disposed on the moving platform 234, the carrier 6 supported above the upper layer conveying chain 21 can be transferred onto the moving platform 234, the carrier 6 supported above the moving platform 234 can be transferred onto the middle layer conveying chain 5 under the driving of the driving roller group 235, and the carrier 6 supported above the middle layer conveying chain 5 is finally transferred into the detection warehouse in an idle state in the detection warehouse unit 12 for storage. Referring to fig. 4 and 5, through the plate returning machine 23, when empty supporting carriers 6 transported on the upper layer transportation chain 21 are stacked, the plate returning machine 23 can be started, so that the movable platform 234 descends to the middle layer transportation chain 5 along with the driving belt 233, and the redundant empty supporting carriers 6 are returned to the middle layer transportation chain 5 under the driving of the driving roller group 235, and finally the function that the empty supporting carriers 6 are placed in the detection warehouse unit 12 for temporary storage is realized, the situation that the whole empty supporting carriers 6 are excessively returned between the transportation chain and the return elevator is effectively avoided, and the running stability is affected occurs.

In this embodiment, the plate returning machine 23 further includes a mounting frame 231, the driving assembly 232 is disposed at an upper portion of the mounting frame, the tensioning wheel 238 is disposed at a lower portion of the mounting frame 231, the driving belt 233 is in transmission connection between the driving assembly 232 and the tensioning wheel 238, the sliding rail 239 is disposed on the mounting frame 231, the moving platform 234 is in sliding connection with the sliding rail 239, and the proximity switches 237 are disposed at upper and lower ends of the sliding rail 239 on the mounting frame 231. Referring to fig. 6, the sliding rail 239 effectively ensures the stability of the moving platform 234 when the carrier 6 is driven to move up and down; through the proximity switch 237 that sets up, effectively guarantee that moving platform 234 can accurately remove to fixed position, guarantee positioning accuracy to follow-up accurate carrier 6 on the transfer platform.

In this embodiment, a stopper 236 is disposed on the mounting frame 231 near the upper end of the sliding rail 239, and the moving platform 234 is located at the lower portion of the mounting frame 231 in the initial state. Referring to fig. 6, by the set stopper 236, it is possible to facilitate ensuring positioning accuracy when the movable platform 234 is lifted to a position corresponding to the upper conveyor chain 21, and to effectively avoid positioning errors after movement.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The term "comprising" an element defined by the term "comprising" does not exclude the presence of other identical elements in a process, method, article or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A notebook computer intelligent detection production line includes:

the product processing layer is used for supporting the assembled notebook on the carrier and separating the detected notebook from the carrier;

the detection layer is arranged above the product processing layer, the carrier bearing the notebook computer is lifted to the detection layer through the feeding lifting machine, and the feeding lifting machine is arranged on the product processing layer and used for lifting the carrier bearing the notebook computer to the detection layer;

the lower layer conveying chain, the middle layer conveying chain and the upper layer speed doubling chain are sequentially arranged on the detection layer from bottom to top;

the detection library units are arranged on the detection layer, and the detection library units are symmetrically arranged on two sides of the middle layer transportation chain;

the warehouse-in transportation chain and the warehouse-out transportation chain are arranged on the detection layer up and down, the warehouse-in transportation chain and the warehouse-out transportation chain are arranged between the detection warehouse unit and the middle layer transportation chain, and one ends of the warehouse-in transportation chain and the warehouse-out transportation chain, which are close to the detection warehouse unit, are respectively provided with a jacking positioning device for positioning the carrier, and the carrier can be transferred onto the warehouse-in transportation chain from the middle layer transportation chain and onto the lower layer transportation chain from the warehouse-in transportation chain;

the manipulator is arranged on the detection layer and in the middle of the detection library unit, and is used for grabbing the carrier and placing the carrier in each detection library on the detection library unit;

the wire pulling and cover closing device is arranged on the detection layer and is close to the tail end of the lower conveying chain, a feeding conveying chain is arranged between the lower conveying chain and the wire pulling box cover device, and the carrier can be transferred onto the feeding conveying chain from the lower conveying chain;

the discharging elevator and the carrier elevator are respectively arranged on the product treatment layer and extend out of the detection layer, a discharging transportation chain is arranged between the discharging elevators of the wire pulling and cover closing device, and the carrier of the notebook after separation detection is lifted to the detection layer through the carrier elevator;

the empty carrier conveying chain is arranged between the carrier lifting machine and the upper conveying chain, the carriers on the carrier lifting machine can be transferred to the empty carrier conveying chain, and the carriers on the empty carrier conveying chain can be transferred to the upper conveying chain;

the carrier reflow lifter is arranged on the detection layer and close to the feeding lifter, and the upper layer conveying chain transfers the carrier to the reflow lifter through the carrier reflow conveying chain;

the transition roller set frame is arranged between the lifting machine and various types of conveying chains and is used for realizing the mutual transfer between the empty carrier or the carrier for loading the notebook computer and the lifting machine as well as between the carrier and the conveying chains.

2. The intelligent detection production line for notebook computers according to claim 1, wherein: the middle layer conveying chain is close to the transition roller set, the middle layer conveying chain is close to the warehouse-in conveying chain, the warehouse-out conveying chain is close to the middle layer conveying chain, the warehouse-in conveying chain is close to the lower layer conveying chain, the lower layer conveying chain is close to the feeding conveying chain, the discharging conveying chain is close to the transition roller set frame, and the empty carrier conveying chain is close to the upper layer conveying chain, and the upper layer conveying chain is close to the carrier backflow conveying chain.

3. The intelligent detection production line for notebook computers according to claim 2, wherein: the jacking transplanting assembly comprises a mounting frame, a motor, a synchronous belt and an air cylinder, wherein the synchronous belt is connected with the motor in a driving manner, the mounting frame is fixedly connected to a frame of a conveying chain, a shell is connected to the mounting frame in a sliding manner, the motor is arranged in an inner cavity of the shell, the synchronous belt is symmetrically arranged on two sides of the shell, the air cylinder is fixedly connected to the inner cavity of the shell, and the shell can move upwards or downwards along the vertical direction under the driving of the air cylinder.

4. A notebook computer intelligent detection production line according to claim 3, characterized in that: and the shell is provided with a flow line stopper which is used for extending out to block and position the carrier.

5. The intelligent detection production line for notebook computers according to claim 4, wherein: the assembly line stopper adopts any one of the ZDQ, ZHQ and ZDTC model assembly line stoppers produced by THK or any one of the assembly line stoppers after non-calibration production.

6. The intelligent detection production line for notebook computers according to any one of claims 1 to 5, wherein: the detection layer is symmetrically provided with a plate returning machine, the plate returning machine comprises a moving platform capable of moving between an upper layer conveying chain and a middle layer conveying chain at fixed points, a driving assembly and a driving belt, the driving assembly and the driving belt are used for driving the moving platform to move, the moving platform is fixedly arranged on the driving belt, a driving roller group is arranged on the moving platform, the carrier supported above the upper layer conveying chain can be transferred onto the moving platform, the carrier supported above the moving platform can be transferred onto the middle layer conveying chain under the driving of the driving roller group, and the carrier supported above the middle layer conveying chain is finally transferred into a detection warehouse in an idle state in the detection warehouse unit for storage.

7. The intelligent detection production line for notebook computers according to claim 6, wherein: the plate returning machine further comprises a mounting frame, the driving assembly is arranged on the upper portion of the mounting frame, a tensioning wheel is arranged on the lower portion of the mounting frame, the driving assembly is in transmission connection with the tensioning wheel, a sliding rail is arranged on the mounting frame, the moving platform is in sliding connection with the sliding rail, and proximity switches are arranged at the upper end and the lower end of the sliding rail on the mounting frame.

8. The intelligent detection production line for notebook computers according to claim 7, wherein: and a limiting block is arranged on the mounting frame and close to the upper end of the sliding rail, and the moving platform is positioned at the lower part of the mounting frame in an initial state.