CN210234007U - Mobile phone screen chip mounter - Google Patents

Abstract

The utility model provides a mobile phone screen chip mounter, which comprises a first bottom plate, a Y-axis driving mechanism and a first positioning mechanism, the Y-axis driving mechanism and the lifting driving mechanism are both installed on the first base plate, the first positioning mechanism is connected to the first base plate in a sliding mode, one side of the first positioning mechanism in the X-axis direction is fixedly connected with the Y-axis driving mechanism, the lifting driving mechanism is installed below a driving portion of the lifting driving mechanism, one side of the second positioning mechanism in the X-axis direction is fixedly connected with the lifting driving mechanism, the other side of the second positioning mechanism in the X-axis direction is rotatably connected with the lifting driving mechanism, the first Y-axis driving mechanism drives the first positioning mechanism to move in and out of the position under the second positioning mechanism along the Y-axis direction, the lifting driving mechanism drives the lifting driving mechanism to drive the second positioning mechanism to do lifting movement, and the lifting driving mechanism drives the second positioning mechanism to do rotating movement. The utility model discloses can make things convenient for the manual work to carry out the material loading to the protection diaphragm, can replace the manual work to paste the protection diaphragm on the cell-phone screen, reduce intensity of labour, improve work efficiency.

Description

Mobile phone screen chip mounter

Technical Field

The utility model relates to a cell-phone production technical field specifically is a cell-phone screen chip mounter.

Background

After the cell-phone equipment was accomplished, need paste the protection film on the cell-phone screen in order to prevent that the screen from appearing the mar, among the prior art, the process of pasting the protection film generally is manual operation, and the workman tears the barrier film of protection film, pastes again after counterpointing protection film and screen through the people's eye, and this process intensity of labour is higher, and work efficiency is low, and the viscose of protection film is one side is stained with the fingerprint easily moreover and is influenced appearance quality.

Disclosure of Invention

An object of the utility model is to provide a cell-phone screen chip mounter to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a mobile phone screen chip mounter comprises a base plate I, a Y-axis driving mechanism, a positioning mechanism I, a positioning mechanism II, a turnover driving mechanism and a lifting driving mechanism, the Y-axis driving mechanism and the lifting driving mechanism are both arranged on the first base plate, the first positioning mechanism is connected to the first base plate in a sliding manner, one side of the positioning mechanism in the X axial direction is fixedly connected with the Y axial driving mechanism, the overturning driving mechanism is arranged below the driving part of the lifting driving mechanism, one side of the positioning mechanism II in the X-axis direction is fixedly connected with the turnover driving mechanism, the other side of the positioning mechanism II in the X-axis direction is rotatably connected with the turnover driving mechanism, the Y-axis driving mechanism drives the first positioning mechanism to move along the Y-axis and can move in and out of the position right below the second positioning mechanism, the lifting driving mechanism drives the overturning driving mechanism to drive the positioning mechanism II to do lifting motion, and the overturning driving mechanism drives the positioning mechanism II to do rotating motion.

Furthermore, the Y-axis driving mechanism comprises a servo motor, a ball screw pair, a sleeving piece sleeved on the periphery of the ball screw pair and a convex moving plate installed on the sleeving piece, and the servo motor drives the ball screw pair to drive the sleeving piece to drive the convex moving plate to move along the Y-axis.

Furthermore, the first positioning mechanism comprises a second bottom plate, a plurality of first support shafts, a support plate, an X axial positioning driving assembly and a Y axial positioning driving assembly, wherein the plurality of first support shafts, the X axial positioning driving assembly and the Y axial positioning driving assembly are all arranged on the second bottom plate, the carrier plate is arranged on the first support shaft, the top surface of the carrier plate extends upwards to form an X-axis retaining edge and a Y-axis retaining edge which are of an integral structure, the X axial retaining edge is arranged opposite to the upper part of the Y axial positioning driving component, the Y axial retaining edge is arranged opposite to the upper part of the X axial positioning driving component, a plurality of vacuum suckers are uniformly distributed on the top surface of the support plate, a vacuum gas circuit is arranged in the support plate, the plurality of vacuum suckers are communicated with the vacuum gas circuit, the support plate is provided with a first avoidance notch towards one side of the X axial positioning driving assembly, and is provided with a second avoidance notch towards one side of the Y axial positioning driving assembly.

Further, X axial direction drive locating component and Y axial direction drive assembly structure are the same, X axial direction drive locating component includes slip table cylinder, connecting plate, mount pad, two at least sliding shafts, circle separation blade, spring one and glue the kicking block, the connecting plate is installed on the slip table cylinder, the mount pad is installed on the connecting plate, two at least sliding shafts and mount pad sliding connection, two at least sliding shafts one end and circle separation blade fixed connection, two at least sliding shafts the other end outwards with glue kicking block fixed connection, the spring is one set to be established in the sliding shafts periphery and lie in and glue between kicking block and the mount pad, slip table cylinder drive connecting plate drives the mount pad and glues the kicking block through the sliding shaft transmission and follows X axial motion.

Furthermore, the second positioning mechanism comprises a vacuum suction plate, a second spring, a rivet, a base plate, a plurality of cylinders, a plurality of positioning pin sleeves, a left ear plate and a right ear plate, the rivet comprises a screw cap, a smooth rod and a screw rod which are of an integral structure, the smooth rod is positioned between the screw rod and the screw cap, the four corners of the vacuum suction plate are respectively in threaded connection with the screw rod, the smooth rod of the rivet is in sliding connection with the vacuum suction plate, the springs are respectively sleeved on the peripheries of the smooth rods and positioned between the vacuum suction plate and the base plate, the cylinders are installed on one side, opposite to the vacuum suction plate, of the base plate, a plurality of first through holes are formed in the base plate, the driving ends of the cylinders respectively penetrate through the first through holes, the positioning pin sleeves are fixedly connected with the driving ends of the cylinders, the outer diameters of the positioning pin sleeves are smaller than the diameters of the first through holes, and the positioning pin sleeves are arranged along the paths of the two adjacent side faces, the cylinder can drive locating pin cover protrusion vacuum suction disc, left side otic placode and right otic placode symmetry set up in base plate vacuum suction disc one side dorsad, left side otic placode and upset actuating mechanism fixed connection, through-hole two has been seted up to the right otic placode, the flange portion and the right otic placode fixed connection of T shape rotation axis, the axial region of T shape rotation axis passes through-hole two and upset actuating mechanism rotatable coupling.

Further, upset actuating mechanism includes left side board, revolving cylinder and right side board, left side board and right side board all perpendicular to bottom plate one, left side board and right side board set up relatively, revolving cylinder install relative and right side board one side at the left side board, the through-hole three has been seted up on the right side board, left side board and right side board all install perpendicularly in lift actuating mechanism's drive division below.

Furthermore, the lifting driving mechanism comprises a second supporting shaft, a supporting plate, a lifting plate and an adjustable stroke cylinder, the second supporting shaft is vertically arranged below the four-corner positions of the supporting plate respectively, the four corners of the lifting plate are sleeved on the periphery of the second supporting shaft respectively and can slide up and down, the adjustable stroke cylinder is arranged on the supporting plate, a piston rod of the adjustable stroke cylinder penetrates through the supporting plate downwards, the lower end of the piston rod is fixedly connected with the lifting plate, and the adjustable stroke cylinder drives a piston rod of the adjustable stroke cylinder to drive the lifting plate to move up and down.

The utility model has the advantages that:

the second overturning driving mechanism drives the second positioning mechanism to rotate to enable the vacuum suction plate face to the front under the initial state, manual feeding can be facilitated, the air cylinder stretches out of the piston rod to drive the positioning pin sleeves to protrude out of the vacuum suction plate, the protective membrane is manually attached to the vacuum suction plate firstly, then the position of the protective membrane is adjusted to enable the adjacent two sides of the protective membrane to be attached to the plurality of positioning pin sleeves respectively, the plurality of vacuum suction holes in the vacuum suction plate adsorb and fix the protective membrane, the air cylinder retracts into the piston rod to drive the positioning pin sleeves to enable the protective membrane not to protrude out of the vacuum suction plate, and positioning of the protective membrane is finally.

Manually placing the mobile phone on a support plate of a first positioning mechanism, adsorbing the mobile phone by a plurality of vacuum suckers on the support plate, respectively propping two adjacent side surfaces of the mobile phone by an X axial positioning driving assembly and a Y axial positioning driving assembly of the first positioning mechanism, respectively attaching two other adjacent side surfaces of the mobile phone to an X axial retaining edge and a Y axial retaining edge on a carrier, and finally completing the positioning of the mobile phone.

The Y-axis driving mechanism drives the first positioning mechanism to drive the mobile phone to move to the position right below the second positioning mechanism; the turnover driving mechanism drives the positioning mechanism II to drive the protective membrane to rotate so as to enable the protective membrane to be opposite to the mobile phone up and down; the lifting driving mechanism drives the overturning driving mechanism to drive the positioning mechanism II to drive the protective membrane to move downwards so as to attach the protective membrane to the screen of the mobile phone, the action of attaching the protective membrane is completed, the vacuum suction plate stops adsorbing the protective membrane, the lifting driving mechanism resets, the overturning driving mechanism resets, the Y-axis driving mechanism resets, the positioning mechanism I resets, and the mobile phone is manually taken out to complete a working cycle.

The utility model discloses a upset actuating mechanism can make things convenient for the manual work to carry out the material loading with the protection diaphragm, can fix a position the protection diaphragm through positioning mechanism two, can fix a position the cell-phone through positioning mechanism one, guarantee the uniformity of the attached position of protection diaphragm, drive positioning mechanism one through Y axial actuating mechanism and drive the cell-phone and move under positioning mechanism two, upset actuating mechanism drives two rotatory messenger's protection diaphragms of positioning mechanism and for the cell-phone, two transmission protection diaphragm downstream realization automatic accomplishes the action of pasting the protection diaphragm of lift driving machine drive upset actuating mechanism, the alignment process when having saved artifical protection diaphragm among the prior art, the labor intensity is reduced, work efficiency and appearance quality are improved.

Drawings

FIG. 1: a perspective view of a mobile phone screen surface mount machine.

FIG. 2: a front view of a mobile phone screen surface mount machine.

FIG. 3: a first positioning mechanism of a mobile phone screen chip mounter is provided with a perspective view.

FIG. 4: a perspective view of an X-axis positioning driving assembly of a mobile phone screen chip mounter is provided.

FIG. 5: a bottom view of a second positioning mechanism of a mobile phone screen chip mounter is provided.

FIG. 6: a front view of a second positioning mechanism of a mobile phone screen chip mounter is provided.

Detailed Description

The invention is further explained below with reference to the drawings:

referring to fig. 1 and 2, a mobile phone screen chip mounter includes a first base plate 1, a Y-axis driving mechanism 2, a first positioning mechanism 3, a second positioning mechanism 4, a flip driving mechanism 5 and a lift driving mechanism 6, wherein the Y-axis driving mechanism 2 and the lift driving mechanism 6 are both mounted on the first base plate 1, the first positioning mechanism 3 is slidably connected to the first base plate 1, a Y-axis linear guide pair 7 arranged in parallel is arranged between the first positioning mechanism 3 and the base plate to realize sliding connection, one side of the first positioning mechanism 3 in the X-axis direction is fixedly connected with the Y-axis driving mechanism 2, the flip driving mechanism 5 is mounted below a driving part of the lift driving mechanism 6, one side of the second positioning mechanism 4 in the X-axis direction is fixedly connected with the flip driving mechanism 5, the other side of the second positioning mechanism 4 in the X-axis direction is rotatably connected with the flip driving mechanism, the Y-axis driving mechanism 2 drives the first positioning mechanism 3 to move along the Y-, the lifting driving mechanism 6 drives the overturning driving mechanism to drive the second positioning mechanism 4 to do lifting motion, and the overturning driving mechanism 5 drives the second positioning mechanism 4 to do rotating motion.

Y axial actuating mechanism 2, positioning mechanism 3, positioning mechanism two 4, upset actuating mechanism 5 and lift actuating mechanism 6, start button and emergency stop button all with electric cabinet electric connection, start button and emergency stop button all install on bottom plate one, electric cabinet and power electric connection, Y axial actuating mechanism 2, positioning mechanism 3, positioning mechanism two 4, upset actuating mechanism 5 and lift actuating mechanism 6's action order are controlled by the PLC controller in the electric cabinet.

Further, referring to fig. 1 and fig. 3, the Y-axis driving mechanism 2 includes a servo motor 21, a ball screw pair 22, a sleeve 23 sleeved on the periphery of the ball screw pair 22, and a convex moving plate 24 installed on the sleeve 23, the servo motor 21 drives the ball screw pair 22 to drive the sleeve 23 to drive the convex moving plate 24 to move along the Y-axis, and the right side of the convex moving plate 24 is fixedly connected to the carrier plate 33.

Further, referring to fig. 3, the first positioning mechanism 3 includes a second bottom plate 31, a plurality of first support shafts 32, a support plate 33, an X axial positioning driving assembly 34 and a Y axial positioning driving assembly 35, the plurality of first support shafts 32, the X axial positioning driving assembly 34 and the Y axial positioning driving assembly 35 are all mounted on the second bottom plate 31, the support plate 33 is mounted on the first support shafts 32, a top surface of the support plate 33 extends upward to form an X axial rib 331 and a Y axial rib 332 which are integrally formed, the X axial rib 331 is disposed opposite to an upper portion of the Y axial positioning driving assembly 35, the Y axial rib 332 is disposed opposite to an upper portion of the X axial positioning driving assembly 34, a plurality of vacuum suction cups 36 are uniformly distributed on the top surface of the support plate 33, the plurality of vacuum suction cups 36 are lower than the top surface of the support plate 33, a vacuum air path is disposed in the support plate 33, the plurality of vacuum suction cups 36 are communicated with the vacuum path, and a movable air path for avoiding the And a first avoidance notch 333 for avoiding the movement of the upper part of the Y axial positioning driving component 35 is formed in one side of the carrier plate 33 facing the Y axial positioning driving component 35.

When the mobile phone is placed on the carrier plate 33, the front side and the left side of the mobile phone partially and incompletely cover the upper part of the avoidance notch two 334 and the avoidance notch one 333 respectively, so that the mobile phone can be supported by the X axial positioning driving component 34 and the Y axial positioning driving component 35, and meanwhile, the mobile phone which is pasted with the protective membrane can be conveniently taken out by a human hand through the avoidance notch two 334 or the avoidance notch one 333.

The rear side of the support plate 33 is connected with a first air nozzle in a threaded mode, the first air nozzle is communicated with the output end of a first vacuum generator through a first air pipe, the input end of the first vacuum generator is communicated with the output end of a first electromagnetic valve through a second air pipe, the input end of the first electromagnetic valve is communicated with an air source through a third air pipe, and the first electromagnetic valve is electrically connected with the electric cabinet.

Further, the X-axis positioning driving assembly 34 and the Y-axis positioning driving assembly 35 have the same structure, referring to fig. 4, the X-axis positioning driving assembly 34 includes a sliding table cylinder 341, a connecting plate 342, a mounting seat 343, at least two sliding shafts 344, a circular blocking plate 345, a first spring 346 and a rectangular rubber top block 347, the connecting plate 342 is mounted on the sliding table cylinder 341, the mounting seat 343 is mounted on the connecting plate 342, the at least two sliding shafts 344 are slidably connected with the mounting seat 343, at least two outward ends of the sliding shafts 344 are fixedly connected with the circular blocking plate 345, the circular blocking plate 345 is used for limiting the sliding shafts 344, the first spring 346 is prevented from driving the rubber top block 347 to drive the sliding shafts 344 to disengage from the mounting seat 343, the outward ends of the at least two sliding shafts 344 are fixedly connected with the rubber top block 347, the first spring 346 is sleeved on the periphery of the sliding shafts 344 and located between the rubber top block 347 and the mounting seat 343, the first spring 346 cylinder 341 drives the connecting plate 342 to drive the mounting seat 343 to drive the rubber The mobile phone on the carrier plate 33 is supported or released, when the rubber top block 347 supports the mobile phone, the first spring 346 is compressed, and the first spring 346 has the function of preventing the rubber top block 347 from being in hard contact with the mobile phone, so that the mobile phone is prevented from receiving impact force.

Further, referring to fig. 5 and 6, the second positioning mechanism 4 includes a vacuum suction plate 41, a second spring, a rivet 42, a base plate 43, a plurality of cylinders 44, a plurality of positioning pin sleeves 45, a left ear plate 46 and a right ear plate 47, the rivet 42 includes a nut, a smooth rod and a screw rod which are integrated, the smooth rod is located between the screw rod and the nut, four corners of the vacuum suction plate 41 are respectively connected with the screw rod by screw threads, the smooth rod of the rivet 42 is connected with the vacuum suction plate 41 in a sliding manner, a first linear bearing is arranged between the smooth rod and the vacuum suction plate, a plurality of springs are respectively sleeved on the periphery of the plurality of smooth rods and located between the vacuum suction plate 41 and the base plate 43, the plurality of cylinders 44 are installed on a side of the base plate 43 opposite to the vacuum suction plate 41, a plurality of first through holes are opened on the base plate, driving ends of the plurality of cylinders 44 respectively pass through the plurality of first through holes, the positioning pin sleeves 45 are fixedly connected with driving ends of the cylinders 44, when the air cylinder 44 drives the positioning pin sleeve 45 to retract, the positioning pin sleeve 45 can enter the first through hole, the positioning pin sleeves 45 are arranged along paths of two adjacent side surfaces of the vacuum suction plate 41, the air cylinders 44 are linked, the air cylinder 44 can drive the positioning pin sleeve 45 to protrude out of the vacuum suction plate 41, the left lug plate 46 and the right lug plate 47 are symmetrically arranged on one side, back to the vacuum suction plate 41, of the base plate 43, the left lug plate 46 is fixedly connected with the overturning driving mechanism 5, the right lug plate 47 is provided with a second through hole, a flange portion of the T-shaped rotating shaft 48 is fixedly connected with the right lug plate 47, a shaft portion of the T-shaped rotating shaft 48 penetrates through the second through hole from left to right to be rotatably connected with the overturning driving mechanism, the shaft portion of the T-shaped rotating shaft 48 is rotatably connected with the right side plate 53 of the overturning driving mechanism, and a linear bearing is arranged between the.

The vacuum suction plate 41 is uniformly provided with a plurality of vacuum suction holes 411, a vacuum air circuit II is arranged in the vacuum suction plate 41, the vacuum suction holes 411 are communicated with the vacuum air circuit II, any one side of the periphery of the vacuum suction plate 41 is in threaded connection with an air nozzle II, the air nozzle II is communicated with the output end of a vacuum generator II through an air pipe IV, the input end of the vacuum generator II is communicated with the output end of a solenoid valve II through an air pipe V, the input end of the solenoid valve II is communicated with an air source through an air pipe VI, and the solenoid valve II is electrically connected with an electric cabinet.

Further, referring to fig. 1 and 2, the turnover driving mechanism 5 includes a left side plate 51, a rotating cylinder 52 and a right side plate 53, the left side plate 51 and the right side plate 53 are both perpendicular to the first bottom plate 1, the left side plate 51 and the right side plate 53 are oppositely disposed, the rotating cylinder 52 is installed on one side of the left side plate 51 opposite to the right side plate 53, a third through hole is opened on the right side plate 53, a second linear bearing is installed in the third through hole, and both the left side plate 51 and the right side plate 53 are vertically installed below the driving portion of the lifting driving mechanism 6.

Further, the lifting driving mechanism 6 comprises a second supporting shaft 61, a supporting plate 62, a lifting plate 63 and an adjustable stroke cylinder 64, the second supporting shaft 61 is vertically installed below four corners of the supporting plate 62, four corners of the lifting plate 63 are respectively sleeved on the periphery of the second supporting shaft 61 and can slide up and down, a linear bearing III is arranged between the four corners of the lifting plate 63 and the second supporting shaft 61 to realize sliding connection, the adjustable stroke cylinder 64 is installed on the supporting plate 62, a piston rod of the adjustable stroke cylinder 64 penetrates through the supporting plate 62 downwards, the lower end of the piston rod is fixedly connected with the lifting plate 63, and the adjustable stroke cylinder 64 drives a piston rod of the adjustable stroke cylinder to drive the lifting plate.

In the initial state, the rotary air cylinder 52 drives the left ear plate 46 to drive the substrate 43 to drive the rotary surface of the vacuum suction plate 41 to move forwards through the rivet 42, manual feeding can be facilitated, the air cylinder 44 extends out of the piston rod to drive the positioning pin sleeve 45 to protrude out of the vacuum suction plate 41, the protective membrane is manually attached to the vacuum suction plate 41 firstly, then the position of the protective membrane is adjusted to enable the two adjacent sides of the protective membrane to be attached to the plurality of positioning pin sleeves 45 respectively, then the plurality of vacuum suction holes 411 in the vacuum suction plate 41 adsorb and fix the protective membrane, the air cylinder 44 retracts into the piston rod to drive the positioning pin sleeve 45 to move so that the protective membrane does not protrude out of the vacuum suction plate 41, and finally positioning of the protective.

Manually placing the mobile phone on the carrier plate 33, adsorbing the mobile phone by the vacuum suckers 36 on the carrier plate 33, respectively driving the rubber jacking block 347 to jack the right side and the front side of the mobile phone by the X-axis positioning driving component 34 and the Y-axis positioning driving component 35 so that the left side and the rear side of the mobile phone are respectively attached to the Y-axis retaining edge 332 and the X-axis retaining edge 331 on the carrier plate 33, and finally completing the positioning of the mobile phone.

The Y-axis driving mechanism 2 drives the first positioning mechanism 3 to drive the mobile phone to move to a position right below the second positioning mechanism 4; the rotary cylinder 52 drives the left ear plate 46 to drive the base plate 43 to drive the vacuum suction plate 41 to rotate through the rivet 42, so that the protective membrane rotates to be opposite to the mobile phone up and down; the lifting driving mechanism 6 drives the overturning driving mechanism 5 to drive the positioning mechanism two 4 to drive the protective membrane to move downwards to be attached to a mobile phone screen, the vacuum suction plate 41 drives the protective membrane to be pressed on the mobile phone screen, the spring two is compressed to prevent the vacuum suction plate 41 from driving the protective membrane to be in hard contact with the mobile phone to protect the mobile phone screen, the vacuum suction plate 41 stops adsorbing the protective membrane, the lifting driving mechanism 6 resets, the overturning driving mechanism 5 resets, the Y axial driving mechanism 2 resets, the vacuum suction cups 36 stop adsorbing the mobile phone, the X axial positioning driving assembly 34 and the Y axial positioning driving assembly 35 reset, and the mobile phone is manually taken out to complete a working period.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (7)

1. A mobile phone screen chip mounter is characterized in that: comprises a first base plate, a Y-axis driving mechanism, a first positioning mechanism, a second positioning mechanism, a turnover driving mechanism and a lifting driving mechanism, the Y-axis driving mechanism and the lifting driving mechanism are both arranged on the first base plate, the first positioning mechanism is connected to the first base plate in a sliding manner, one side of the positioning mechanism in the X axial direction is fixedly connected with the Y axial driving mechanism, the overturning driving mechanism is arranged below the driving part of the lifting driving mechanism, one side of the positioning mechanism II in the X-axis direction is fixedly connected with the turnover driving mechanism, the other side of the positioning mechanism II in the X-axis direction is rotatably connected with the turnover driving mechanism, the Y-axis driving mechanism drives the first positioning mechanism to move along the Y-axis and can move in and out of the position right below the second positioning mechanism, the lifting driving mechanism drives the overturning driving mechanism to drive the positioning mechanism II to do lifting motion, and the overturning driving mechanism drives the positioning mechanism II to do rotating motion.

2. The mobile phone screen placement machine according to claim 1, wherein: the Y-axis driving mechanism comprises a servo motor, a ball screw pair, a sleeving piece sleeved on the periphery of the ball screw pair and a convex moving plate installed on the sleeving piece, and the servo motor drives the ball screw pair to drive the sleeving piece to drive the convex moving plate to move along the Y-axis.

3. The mobile phone screen placement machine according to claim 1, wherein: the first positioning mechanism comprises a second bottom plate, a plurality of first support shafts, a support plate, an X axial positioning driving assembly and a Y axial positioning driving assembly, the plurality of first support shafts, the X axial positioning driving assembly and the Y axial positioning driving assembly are all arranged on the second bottom plate, the carrier plate is arranged on the first support shaft, the top surface of the carrier plate extends upwards to form an X-axis retaining edge and a Y-axis retaining edge which are of an integral structure, the X axial retaining edge is arranged opposite to the upper part of the Y axial positioning driving component, the Y axial retaining edge is arranged opposite to the upper part of the X axial positioning driving component, a plurality of vacuum suckers are uniformly distributed on the top surface of the support plate, a vacuum gas circuit is arranged in the support plate, the plurality of vacuum suckers are communicated with the vacuum gas circuit, the support plate is provided with a first avoidance notch towards one side of the X axial positioning driving assembly, and is provided with a second avoidance notch towards one side of the Y axial positioning driving assembly.

4. The mobile phone screen placement machine according to claim 3, wherein: x axial direction drive locating component and Y axial direction drive assembly structure are the same, X axial direction drive locating component includes slip table cylinder, connecting plate, mount pad, two at least sliding shafts, circle separation blade, spring one and glues the kicking block, the connecting plate is installed on the slip table cylinder, the mount pad is installed on the connecting plate, two at least sliding shaft and mount pad sliding connection, two at least sliding shaft one end and circle separation blade fixed connection, two at least sliding shaft the other end outwards with glue kicking block fixed connection, the spring suit is established in the sliding shaft periphery and is located and glues between kicking block and the mount pad, slip table cylinder drive connecting plate drives the mount pad and glues the kicking block through the sliding shaft transmission and follows X axial motion.

5. The mobile phone screen placement machine according to claim 1, wherein: the second positioning mechanism comprises a vacuum suction plate, a second spring, a pull nail, a base plate, a plurality of cylinders, a plurality of positioning pin sleeves, a left ear plate and a right ear plate, the pull nail comprises a screw cap, a smooth rod and a screw rod which are of an integral structure, the smooth rod is positioned between the screw rod and the screw cap, the four corners of the vacuum suction plate are respectively in threaded connection with the screw rod, the smooth rod of the pull nail is in sliding connection with the vacuum suction plate, the springs are respectively sleeved on the peripheries of the smooth rods and positioned between the vacuum suction plate and the base plate, the cylinders are arranged on one side, back to the vacuum suction plate, of the base plate, a plurality of first through holes are formed in the base plate, the driving ends of the cylinders respectively penetrate through the first through holes, the positioning pin sleeves are fixedly connected with the driving ends of the cylinders, the outer diameter of the positioning pin sleeves is smaller than that of the first through holes, and the positioning pin sleeves are arranged along the paths of the, the cylinder can drive locating pin cover protrusion vacuum suction disc, left side otic placode and right otic placode symmetry set up in base plate vacuum suction disc one side dorsad, left side otic placode and upset actuating mechanism fixed connection, through-hole two has been seted up to the right otic placode, the flange portion and the right otic placode fixed connection of T shape rotation axis, the axial region of T shape rotation axis passes through-hole two and upset actuating mechanism rotatable coupling.

6. The mobile phone screen placement machine according to claim 1, wherein: the turnover driving mechanism comprises a left side plate, a rotary cylinder and a right side plate, the left side plate and the right side plate are all perpendicular to the first bottom plate, the left side plate and the right side plate are arranged relatively, the rotary cylinder is arranged on one side of the left side plate, which is opposite to the right side plate, a third through hole is formed in the right side plate, and the left side plate and the right side plate are all vertically arranged below a driving part of the lifting driving mechanism.

7. The mobile phone screen placement machine according to claim 1, wherein: the lifting driving mechanism comprises a second supporting shaft, a supporting plate, a lifting plate and an adjustable stroke cylinder, wherein the second supporting shaft is vertically arranged below the four-angle position of the supporting plate, the four corners of the lifting plate are respectively sleeved on the periphery of the second supporting shaft and can slide up and down, the adjustable stroke cylinder is arranged on the supporting plate, a piston rod of the adjustable stroke cylinder penetrates through the supporting plate downwards, the lower end of the piston rod is fixedly connected with the lifting plate, and the adjustable stroke cylinder drives a piston rod of the adjustable stroke cylinder to drive the lifting plate to move up and down.

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