CN114261686A - Automatic aging production line for notebook computer - Google Patents

Abstract

The application relates to the technical field of notebook production, especially, relate to an automatic ageing production line of notebook computer, including being used for carrying out aging test's ageing oven to the notebook computer, feed inlet and discharge gate that is used for the material loading are seted up to the side of ageing oven, the side of ageing oven all is provided with the conveyor who is used for carrying the notebook computer with the position that feed inlet and discharge gate correspond, be provided with a plurality of racks that are used for placing the notebook computer in the ageing oven, be provided with the drive assembly who is used for adjusting the rack position in the ageing oven, offer on the rack and be used for supplying the notebook computer to put into the opening in the rack. This application has the effect that promotes ageing efficiency and has.

Description

Automatic aging production line for notebook computer

Technical Field

The application relates to the technical field of notebook computer production, in particular to an automatic aging production line for a notebook computer.

Background

The aging test is mainly a thermal oxidation aging test for rubber, plastic products, electrical appliance materials and other materials, or a ventilation aging test for electronic parts and plasticized products.

In the production process of the notebook computer, in order to control the quality of the computer, after the computer is produced and manufactured, the aging test needs to be randomly sampled in the manufactured finished computer, and then the quality of the computer in the whole batch is judged. In the prior art, an aging device is generally used for processing a notebook computer. The aging test equipment for the notebook computer in the prior art comprises an aging box and hanging baskets arranged in the aging box, wherein the hanging baskets are used for placing the computer and are provided with a plurality of groups, and each group of hanging baskets are arranged in the vertical direction so as to place a plurality of computers in the aging box for a test and save space.

Above-mentioned notebook computer's aging test equipment needs the manual work to place a plurality of notebook computers on the hanging flower basket one by one, and the efficiency of artificial placing is lower, and very big waste manpower resources.

Disclosure of Invention

In order to promote ageing efficiency, this application provides the automatic production line that ages of notebook computer.

The automatic aging production line for the notebook computer adopts the following technical scheme:

automatic ageing production line of notebook computer, including being used for carrying out aging test's ageing oven to notebook computer, feed inlet and discharge gate that is used for the material loading are seted up to the side of ageing oven, the side of ageing oven all is provided with the conveyor who is used for carrying notebook computer with the position that feed inlet and discharge gate correspond, be provided with a plurality of racks that are used for placing notebook computer in the ageing oven, be provided with the drive assembly who is used for adjusting the rack position in the ageing oven, offer on the rack and be used for supplying notebook computer to put into the opening to the rack.

Through adopting above-mentioned technical scheme, conveyor carries notebook computer, passes through the feed inlet with notebook computer and transmits to the ageing oven in, then enters into the rack through the opening on the rack, adjusts the position of rack through drive assembly simultaneously, places notebook computer one by one on a plurality of racks, replaces manual operation, promotes ageing efficiency.

Optionally, be provided with the mounting bracket in the ageing oven, be provided with the guide frame on the mounting bracket, it is a plurality of the rack sets up around the guide frame interval, the position slip that corresponds with the rack in the guide frame is provided with the connecting block, the rack is connected with the connecting block, drive assembly includes chain, gear and driving piece, the chain corresponds the setting with the position of guide frame on the mounting bracket, the gear sets up the inboard and the chain meshing at the chain, the driving piece sets up on the rack and is used for driving the chain rotation with gear connection, connecting block and chain connection.

Through adopting above-mentioned technical scheme, the driving piece passes through the gear and drives the chain rotation, and the chain rotates and drives the connecting block rotation, and then adjusts the position of rack, removes the rack of difference respectively to feed inlet or discharge gate department, accomplishes the operation of material loading or unloading.

Optionally, the rack rotates the setting on the connecting block, be provided with in the ageing oven and be used for driving rack pivoted guide board one, the rack deviates from its open-ended one side and guide board butt, the guide board one is gone up one side an organic whole that is close to ground and is provided with the rake, the rake is along the direction setting of buckling that deviates from the rack.

Through adopting above-mentioned technical scheme, when the rack removed along with the connecting block, remove to the guide board at the rack initial, and the rake butt, the rack rotates on the connecting block for its opening side rotates along the one side that deviates from ground, makes the rack be in the state of slope, and the rack continues to remove to its opening part and feed inlet department and corresponds the setting, so that notebook computer after entering into the opening, under its own effect of gravity, remove to the rack in, promote the efficiency of placing.

Optionally, a baffle for controlling the opening to be closed is rotatably arranged at the opening of the placing frame, one side, close to the ground, of the baffle is rotatably connected with the placing frame, a rotating member for adjusting the position of the baffle is arranged on a rotating shaft of the baffle, an adjusting assembly is arranged on one side, close to the first guide plate, of the placing frame, the adjusting assembly comprises an adjusting frame and an adjusting rope, the adjusting frame is slidably arranged on the placing frame, and the adjusting frame is abutted to the first guide plate; one end of the adjusting rope is connected with the end of the adjusting frame, and the other end of the adjusting rope is wound on the rotating shaft of the baffle.

Through adopting above-mentioned technical scheme, when the rack removed, adjusting bracket and guide board butt drive the baffle through adjusting the rope and rotate, and the baffle rotates to the state of opening after, and the rack continues to remove, and the rack rotates to the tilt state this moment to subsequent place notebook computer in the rack.

Optionally, the placing rack is provided with an elastic assembly for assisting in adjusting the relative connecting block of the placing rack to be in a fixed position, the elastic assembly is arranged at two groups of intervals on the rotating shaft of the placing rack, the elastic assembly comprises a fixed plate and an elastic piece, the fixed plate is arranged on the connecting block, the fixed plate and the placing rack are arranged at intervals, and the elastic piece is arranged between the placing rack and the fixed plate and used for adjusting the position of the placing rack.

Through adopting above-mentioned technical scheme, after notebook computer entered into the rack, the rack continued to move to and guide a separation of board, and the rack is under elastic component's effect, got back to the state before the slope, and the baffle rotates to the closed state simultaneously, reduces the phenomenon that the notebook computer appears dropping, stability when promoting the aging test.

Optionally, the first guide plate is arranged in the aging box in a sliding mode, a sealing plate used for controlling a feed inlet and a discharge outlet is arranged on the aging box in a sliding mode, a control assembly is arranged in the aging box, and the control assembly is used for adjusting the positions of the first guide plate and the sealing plate.

Through adopting above-mentioned technical scheme, when needs place notebook computer in the rack, remove the position of guide board one through control assembly for the rack can adjust the angle and the open-ended closure of rack with guide board butt when removing, when not needing, guide board one to initial position, reduce when ageing notebook computer, guide board one appears interfering its phenomenon of motion.

Optionally, the control assembly comprises a control piece, a first screw rod and a second screw rod, the first screw rod is arranged in the aging box along the sliding direction of the first guide plate, a first control block used for being connected with the first guide plate is connected to the first screw rod in a threaded fit mode, the second screw rod is arranged along the sliding direction of the inner sealing plate of the feeding port, a second control block used for being connected with the sealing plate is arranged on the second screw rod, the output end of the control piece is connected with the first screw rod, the second screw rod is perpendicular to the first screw rod, and a bevel gear group used for being connected with the first screw rod and the second screw rod is arranged between the first screw rod and the second screw rod.

Through adopting above-mentioned technical scheme, when the position of guide board one and closing plate needs to be adjusted, control piece drives screw rod one and rotates, and screw rod one drives screw rod two through the bevel gear group and rotates, and screw rod one rotates with screw rod two and drives control block one and control block two respectively and remove, and then adjusts the position of guide board one and closing plate two.

Optionally, the placing rack is provided with a rotation angle limiting strip for limiting the baffle, and the baffle is closed to form an included angle between the limiting strip and the baffle.

Through adopting above-mentioned technical scheme, set up spacing regulation to control the baffle and rotate to appointed position, make the rack when being in the state of slope, the baffle sets up along orientation feed inlet department, so that supplementary notebook computer enters into in the rack.

Optionally, a second guide plate is arranged in the aging box close to the discharge port in a sliding mode, the second guide plate is used for driving the baffle to rotate to send the notebook computer out of the placing rack, and a control assembly used for adjusting the position of the second guide plate is also arranged in the aging box and in the position corresponding to the second guide plate.

Through adopting above-mentioned technical scheme, set up guide board two in discharge gate department to set up the control assembly and adjust the position of guide board two, when needs take out notebook computer, open through the closing plate that removes discharge gate department, make notebook computer send out the ageing oven through the discharge gate.

Optionally, the adjusting bracket is rotatably provided with a rotating sleeve, and the outer side of the rotating sleeve is abutted against the first guide plate.

Through adopting above-mentioned technical scheme, the alignment jig reduces the frictional force between alignment jig and the guide board one through rotating cover and guide board butt to the rack rotates.

Drawings

Fig. 1 is a schematic structural diagram of an automatic aging production line for a notebook computer according to an embodiment of the present application.

FIG. 2 is a cut-away view of an aging oven in an automatic notebook computer aging production line according to an embodiment of the present application.

Fig. 3 is a structural view of a driving assembly in an automatic notebook computer aging production line according to an embodiment of the present application.

Fig. 4 is a structural view of a control assembly in an automatic notebook computer aging production line according to an embodiment of the present application.

Fig. 5 is a structural view of an automatic aging production line rack for a notebook computer according to an embodiment of the present application.

FIG. 6 is a structural view of an elastic component in an automatic aging production line for notebook computers according to an embodiment of the present application.

Fig. 7 is a mechanism view of an adjusting assembly in an automatic notebook computer aging production line according to an embodiment of the present application.

Reference numerals: 1. an aging box; 11. a feed inlet; 12. a discharge port; 13. a heater; 14. a sealing plate; 15. a second guide plate; 2. a conveying device; 3. a mounting frame; 31. a guide frame; 32. connecting blocks; 4. placing a rack; 41. a baffle plate; 42. a rotating member; 43. a chute; 5. a drive assembly; 51. a chain; 52. a gear; 53. a drive member; 6. an elastic component; 61. an elastic member; 62. a fixing plate; 7. a first guide plate; 71. an inclined portion; 8. an adjustment assembly; 81. an adjusting bracket; 811. rotating the sleeve; 82. adjusting the rope; 9. a control component; 91. a control member; 92. a first screw rod; 921. a first control block; 93. a second screw; 931. a second control block; 932. a bevel gear set.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The application discloses automatic production line that ages of notebook computer. Referring to fig. 1 and 2, the automatic aging production line for the notebook computer comprises an aging box 1 and conveying devices 2 arranged on two sides of the aging box 1, wherein the conveying devices 2 can be belt conveyors, a feed inlet 11 and a discharge outlet 12 are respectively formed in positions, corresponding to the conveying devices 2, on the aging box 1, the notebook computer is conveyed into the aging box 1 through the conveying devices 2 to be aged, and after the aging is carried out, the notebook computer is conveyed to the conveying devices 2 through the discharge outlets 12 to be processed in the next process.

Referring to fig. 2 and 3, a heater 13 for performing an aging process on the notebook computer is arranged in the aging box 1, the heater 13 is used for adjusting the temperature in the aging box 1, a temperature aging test is performed on the notebook computer, and the heater 13 is arranged at the center of the bottom of the aging box 1, so that the temperature in the aging box 1 is uniformly distributed.

Referring to fig. 2 and 3, a mounting frame 3 is arranged in an aging box 1, a placing frame 4 for placing a notebook computer is arranged on the mounting frame 3, a placing frame 4 for placing the notebook computer is arranged on the mounting frame 3, a guide frame 31 is arranged on the mounting frame 3, the guide frame 31 is arranged on one side of the aging box 1 adjacent to a feed port 11, the guide frame 31 is arranged in the aging box 1 in the circumferential direction, a connecting block 32 is arranged in the guide frame 31 in a sliding manner, the connecting block 32 is connected with the placing frame 4, a driving assembly 5 for adjusting the position of the connecting block 32 is arranged on the mounting frame 3, the driving assembly 5 drives the placing frame 4 to rotate in the aging box 1 through the connecting block 32, the guide frame 31 is respectively arranged close to the feed port 11 and a discharge port 12, the driving assembly 5 drives the placing frame 4 to transfer the notebook computer to the placing frame 4 through the feed port 11 respectively, after aging, the placing rack 4 is driven to rotate to the discharge port 12 and is sent out.

The connecting blocks 32 and the placing frame 4 are arranged in a plurality, and the connecting blocks 32 and the placing frame 4 are arranged at intervals around the guide frame 31, so that the plurality of notebook computers are placed in the aging box 1, and aging operation is performed on the plurality of notebook computers.

Referring to fig. 3 and 4, the driving assembly 5 includes a chain 51, gears 52 and a driving member 53, the driving member 53 may be configured as a motor, the gears 52 are disposed on the mounting frame 3, the gears 52 are disposed in plurality, and the gears 52 are disposed at intervals around the guide frame 31, the gears 52 are disposed on a side of the guide frame 31 away from the rack 4, the driving member 53 may be configured as a motor, the motor is disposed on the mounting frame 3, the chain 51 is disposed outside the gears 52 and is engaged with the gears 52, an output end of the driving member 53 is connected to a rotation center of one of the gears 52, a transfer block is disposed on the connecting block 32, and a side of the transfer block away from the connecting block 32 is connected to one of the sections of the chain 51. When the driving member 53 drives the chain 51 to rotate, the connecting block 32 is driven to move through the middle rotating rod, so as to adjust the position of the placing frame 4.

Referring to fig. 5 and 6, the placing frame 4 is a frame-shaped structure, and when the placing frame 4 moves in the vertical direction at one side close to the feed port 11, the side close to the ground is set as a bottom surface, and the side away from the ground is set as a top surface. An opening is arranged on one side of the placing frame 4 close to the feeding hole 11, the center of one side of the placing frame 4 close to the connecting block 32 is connected with the connecting block 32, the placing frame 4 is arranged on the connecting block 32 in a rotating mode, the placing frame 4 is in a horizontal state when moving in a vertical direction in an initial state, an elastic component 6 used for assisting in adjusting the position of the placing frame 4 is arranged on the placing frame 4, the elastic component 6 is arranged on the bottom surface of the placing frame 4, in combination with a figure 7, the elastic component 6 comprises an elastic component 61 and a fixing plate 62, the fixing plate 62 is arranged on the connecting block 32 and is arranged at an interval with the placing frame 4, the elastic component 61 can be arranged into a spring, one end of the spring is connected with the fixing plate 62, the other end of the spring is connected with the placing frame 4, the elastic components 6 are arranged in two groups, the two groups are symmetrically arranged in the vertical direction along the linear direction of the rotating shaft of the placing frame 4, and the placing frame 4 is supported by the two groups of elastic components 6, so that the rack 4 is in a balanced state.

Referring to fig. 4 and 5, be provided with the guide board 7 that is used for adjusting rack 4 position in ageing oven 1, guide board 7 is close to one side setting on ground on the horizontal direction of feed inlet 11, guide board 7 slides along the direction of horizontal direction towards feed inlet 11 in ageing oven 1 and sets up, guide board 7 sets up along vertical direction, and be close to one side an organic whole on ground and be provided with rake 71, one side that rake 71 deviates from guide board 7 is along the direction bending setting that deviates from feed inlet 11.

Referring to fig. 5 and 6, when the notebook computer needs to be transferred into the rack 4, the first guide plate 7 is moved to correspond to the edge of one side of the rack 4 away from the feed port 11, when the rack 4 is moved to the first guide plate 7, the edge of the rack 4 abuts against the inclined portion 71, the rack 4 is inclined, at this time, the two elastic members 61 in the elastic assembly 6 are respectively compressed and stretched, then the edge of the rack 4 is moved to abut against the side surface of the first guide plate 7, at this time, the rack 4 is in an inclined state, the opening side of the rack 4 is higher than the corresponding side, after the rack 4 is moved to the corresponding position of the opening of the rack 4 and the feed port 11, the notebook computer is moved to the opening of the rack 4 through the conveying device 2, then is moved into the rack 4 under the effect of the own gravity of the notebook computer, and the rack 4 continues to move, when the placing frame 4 moves to be separated from the first guide plate 7, the placing frame 4 returns to the horizontal state under the action of the elastic piece 61.

Referring to fig. 5 and 6, a baffle 41 is rotatably disposed at the opening, one side of the baffle 41 close to the ground is rotatably disposed on the placing rack 4, a rotating member 42 is disposed on the rotating shaft of the baffle 41, the rotating member 42 can be a torsion spring, and in an initial state, the torsion spring drives the baffle 41 to be in a vertical state, that is, in a state where the opening is closed. Be provided with adjusting part 8 on rack 4, adjusting part 8 includes alignment jig 81 and regulation rope 82, spout 43 has been seted up on the lateral wall that deviates from baffle 41 on rack 4, the tip of alignment jig 81 slides in spout 43 and sets up, and extend to rack 4's outside, the one end of regulation rope 82 and the end connection of alignment jig 81, the other end passes through rack 4 inside rotation axis department that extends to baffle 41, and the winding is in the axis of rotation of baffle 41, for the ease of adjusting the rotation axis connection of rope 82 and baffle 41, the position that sets up in rack 4 and adjust rope 82 and correspond is hollow structure, so that regulation rope 82 passes.

Referring to fig. 5 and 6, when the placing frame 4 moves to the inclined position, the adjusting frame 81 abuts against the inclined portion 71, the placing frame 4 continues to move, the adjusting frame 81 is driven to move, the adjusting rope 82 is pulled by the moving of the adjusting frame 81, the baffle plate 41 is driven by the adjusting rope 82 to rotate to the opened state, after the baffle plate 41 is opened, the adjusting frame 81 stops moving, the placing frame 4 continues to move, the placing frame 4 rotates, after the notebook computer enters the placing frame 4, the placing frame 4 moves to be separated from the first guide plate 7, the baffle plate 41 rotates to the closed state under the action of the torsion spring, and the notebook computer is protected.

Referring to fig. 7, one side that deviates from rack 4 on alignment jig 81 is provided with rotates cover 811, rotates cover 811 and rotates the setting on alignment jig 81, and alignment jig 81 rotates cover 811 through rotating cover 811 and guide board 7 butt simultaneously, reduces the frictional force between alignment jig 81 and the guide board 7 to drive rack 4 and rotate.

In this embodiment, the placing frame 4 can be provided with a limiting strip, the limiting strip is close to the rotating shaft of the baffle 41, an included angle is formed between the limiting strip and the baffle 41, the baffle 41 rotates to open the opening, the baffle 41 is abutted to the limiting strip when rotating to the same plane as the bottom side of the placing frame 4, when the placing frame 4 inclines, the baffle 41 after being unfolded is close to the feed port 11 and is arranged, the notebook computer enters the baffle 41 through the feed port 11, and then enters the placing frame 4 through the baffle 41, so that the transfer efficiency of the notebook computer is improved.

The sealing plate 14 used for controlling the opening and closing of the feeding hole 11 is arranged at the feeding hole 11, a mounting groove is formed in the side wall of the feeding hole 11, the sealing plate 14 is arranged in the feeding hole 11 in a sliding mode, the opening and closing of the feeding hole 11 are controlled by adjusting the position of the sealing plate 14 in the mounting groove, and the sliding direction of the sealing plate 14 is perpendicular to the sliding direction of the first guide plate 7.

In order to adjust the positions of the guide plate I7 and the seal plate I14, a control assembly 9 for adjusting the positions of the guide plate I7 and the seal plate 14 is arranged on the aging box 1. The control assembly 9 comprises a control piece 91, a first screw 92 and a second screw 93, the first screw 92 is arranged on the side wall of the aging box 1 and is arranged along the sliding direction of the first guide plate 7, the first screw 92 is in threaded fit with the first control block 921 outside the first screw 92, the first control block 921 is connected with the first guide plate 7, the second screw 93 is arranged on the aging box 1 and is arranged along the sliding direction of the sealing plate 14, the second screw 93 is in threaded fit with the second control block 931 outside the second screw 93, the second control block 931 is connected with the side face of the sealing plate 14, the first control block 921 and the second control block 931 are both arranged on the side wall of the aging box 1 in a sliding manner, the control piece 91 can be arranged as a motor, the output end of the control piece 91 is connected with the first screw 92, the end of the second screw 93 is arranged close to the first screw 92, the bevel gear group 932 used for connecting the first screw 92 and the second screw 92 is arranged outside the first screw 92 and the end of the second screw 93, when the first screw 92 is driven by the control piece 91, the second screw 93 is driven to rotate through the bevel gear unit 932, and the position of the first guide plate 7 is adjusted when the position of the sealing plate 14 is adjusted.

The position that is close to discharge gate 12 in ageing oven 1 is provided with guide board two 15, guide board two 15 is the same with guide board one 7's structure, and around the central point symmetry setting between feed inlet 11 and the discharge gate 12, also slide in discharge gate 12 and be provided with the closing plate 14 that is used for controlling discharge gate 12, closing plate 14 opens discharge gate 12 along vertical lapse, the position that corresponds with guide board two 15 also is provided with the control assembly 9 that is used for adjusting guide board two 15 and discharge gate 12 department closing plate 14 position in ageing oven 1. After ageing the completion, drive rack 4 and rotate to discharge gate 12 department, control assembly 9 drives closing plate 14 and removes and open discharge gate 12, and adjust the position of two guide boards 15, when rack 4 rotates to discharge gate 12 department, the top side of rack 4 is towards the direction on ground, when rack 4 removes, adjust the position of rack 4 through two guide boards 15, the opening is opened to rotating baffle 41 simultaneously, after rack 4 inclines, the position that this rack 4 is located on the horizontal direction is higher than discharge gate 12 and sets up, rack 4 inclines to pass on notebook computer passes through discharge gate 12 and forwards conveyor 2, reduce the manual work and take out, promote ageing test efficiency.

The implementation principle of the application is as follows: carry notebook computer through conveyor 2, when rack 4 rotates to feed inlet 11 department, under the effect of guide board 7, rack 4 slopes, baffle 41 rotates and opens the opening, notebook computer enters into rack 4 in, rack 4 continues to move to and guide board 7 separation, under elastic component 6's effect, drive rack 4 and get back to initial position, baffle 41 closes simultaneously, fix notebook computer, reduce the manual work and place notebook computer, promote ageing test efficiency.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an automatic production line that ages of notebook computer, is including ageing oven (1) that is used for carrying out aging test to the notebook computer, its characterized in that: the utility model discloses a notebook computer aging device, including ageing box (1), the side of ageing box (1) is seted up feed inlet (11) and discharge gate (12) that are used for the material loading, the side of ageing box (1) all is provided with conveyor (2) that are used for carrying the notebook computer with the position that feed inlet (11) and discharge gate (12) correspond, be provided with a plurality of rack (4) that are used for placing the notebook computer in ageing box (1), be provided with drive assembly (5) that are used for adjusting rack (4) position in ageing box (1), offer on rack (4) and be used for supplying the notebook computer to put into the opening in rack (4).

2. The automatic notebook computer aging production line of claim 1, wherein: be provided with mounting bracket (3) in ageing oven (1), be provided with guide frame (31) on mounting bracket (3), it is a plurality of rack (4) set up around guide frame (31) interval, slide with the position that rack (4) correspond in guide frame (31) and be provided with connecting block (32), rack (4) and connecting block (32) are connected, drive assembly (5) are including chain (51), gear (52) and driving piece (53), chain (51) correspond the setting with the position of guide frame (31) on mounting bracket (3), gear (52) set up inboard and chain (51) meshing at chain (51), driving piece (53) set up on rack (4) and gear (52) are connected and are used for driving chain (51) to rotate, connecting block (32) and chain (51) are connected.

3. The automatic notebook computer aging production line of claim 2, wherein: rack (4) rotate the setting on connecting block (32), be provided with in ageing oven (1) and be used for driving rack (4) pivoted guide board (7), rack (4) deviate from its open-ended one side and guide board (7) butt, the one side an organic whole that is close to ground on guide board (7) is provided with rake (71), rake (71) are along the direction of deviating from rack (4) the setting of buckling.

4. The automatic notebook computer aging production line of claim 3, wherein: the opening of the placing frame (4) is rotatably provided with a baffle (41) used for controlling the opening to be closed, one side, close to the ground, of the baffle (41) is rotatably connected with the placing frame (4), a rotating piece (42) used for adjusting the position of the baffle (41) is arranged on a rotating shaft of the baffle (41), an adjusting assembly (8) is arranged on one side, close to the guide plate I (7), of the placing frame (4), the adjusting assembly (8) comprises an adjusting frame (81) and an adjusting rope (82), the adjusting frame (81) is arranged on the placing frame (4) in a sliding mode, and the adjusting frame (81) is abutted to the guide plate I (7); one end of the adjusting rope (82) is connected with the end part of the adjusting frame (81), and the other end of the adjusting rope is wound on the rotating shaft of the baffle (41).

5. The automatic notebook computer aging production line of claim 4, wherein: be provided with on rack (4) and be used for the supplementary elastic component (6) that adjust rack (4) relative connecting block (32) and be in fixed position, elastic component (6) are provided with two sets ofly at both intervals of the axis of rotation of rack (4), elastic component (6) are including fixed plate (62) and elastic component (61), fixed plate (62) set up on connecting block (32), fixed plate (62) and rack (4) interval set up, elastic component (61) set up and are used for adjusting the position of rack (4) between rack (4) and fixed plate (62).

6. The automatic notebook computer aging production line of claim 4, wherein: the guide plate I (7) slides in the aging box (1) and is provided with a sealing plate (14) used for controlling the opening and closing of a feed inlet (11) and a discharge outlet (12), a control assembly (9) is arranged in the aging box (1), and the control assembly (9) is used for adjusting the positions of the guide plate I (7) and the sealing plate (14).

7. The automatic notebook computer aging production line of claim 4, wherein: the control assembly (9) comprises a control piece (91), a first screw rod (92) and a second screw rod (93), the first screw rod (92) is arranged in the aging box (1) along the sliding direction of the first guide plate (7) in the direction of the guide plate, the first screw rod (92) is connected with a first control block (921) connected with the first guide plate (7) in a threaded fit manner, the second screw rod (93) is arranged along the sliding direction of the inner sealing plate (14) of the feeding port (11), the second screw rod (93) is provided with a second control block (931) connected with the sealing plate (14), the output end of the control piece (91) is connected with the first screw rod (92), the second screw rod (93) is perpendicular to the first screw rod (92), and a bevel gear group (932) used for connecting the first screw rod (92) and the second screw rod (93) is arranged between the first screw rod (92) and the second screw rod (93).

8. The automatic notebook computer aging production line of claim 4, wherein: the rack (4) is provided with a rotation angle limiting strip for limiting the baffle (41), and the limiting strip and the baffle (41) are arranged at an included angle when the baffle (41) is closed.

9. The automatic notebook computer aging production line of claim 1, wherein: be close to discharge gate (12) department in ageing oven (1) and slide and be provided with guide board two (15), guide board two (15) are used for driving baffle (41) and rotate and see off notebook computer from rack (4) in, the position that corresponds with guide board two (15) in ageing oven (1) also is provided with control assembly (9) that are used for adjusting guide board two (15) positions.

10. The automatic notebook computer aging production line of claim 4, wherein: the adjusting frame (81) is provided with a rotating sleeve (811) in a rotating mode, and the outer side of the rotating sleeve (811) is abutted to the guide plate I (7).

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