CN111283427A - Mobile phone embedded frame assembly line - Google Patents

Abstract

The invention provides a mobile phone frame embedding assembly line which comprises a conveying line and a return line, wherein the return line is arranged on the rear side of the conveying line, the front ends and the rear ends of the conveying line and the return line are respectively connected with each other through a transfer table, a tray is conveyed on the conveying line, and the conveying line is sequentially provided with: artifical material loading station, sweep a yard mechanism automatically, camera station behind the manual work equipment, camera mechanism behind the automatic pressurize, manual work equipment removal load equalizer station, manual work equipment antenna cable station, manual work equipment GPS station, manual work equipment earphone socket and preceding camera and antenna station, manual work equipment microphone and battery station, manual work equipment buffer station, automatic lock screw mechanism, automatic roll extrusion battery mechanism, artifical unloading station. The mobile phone embedded frame assembly line can greatly improve the assembly efficiency of the mobile phone embedded frame and can also reduce the labor intensity of workers.

Description

Mobile phone embedded frame assembly line

Technical Field

The invention relates to the field of mobile phone processing, in particular to a mobile phone embedded frame assembly line.

Background

When the mobile phone is assembled, parts to be assembled on the mobile phone are more, parts such as an earphone socket, an antenna, a camera, a microphone, a battery, a buffer and the like need to be assembled, and therefore parts corresponding to a plurality of stations need to be arranged and assembled on the mobile phone.

Disclosure of Invention

The invention aims to provide a mobile phone embedded frame assembly line which is high in assembly efficiency and can reduce the labor intensity of workers.

In order to achieve the above purpose, the invention provides the following technical scheme:

a mobile phone embedded frame assembly line comprises a conveying line and a return line, wherein the return line is arranged on the rear side of the conveying line, the front ends and the rear ends of the conveying line and the return line are respectively connected with each other through a transfer table, a tray is conveyed on the conveying line, and a mobile phone embedded frame to be processed can be placed on the tray; the conveying line is sequentially provided with the following components in an assembly sequence: the manual loading station is arranged on one side of the transfer table and used for manually placing the mobile phone embedded frame to be assembled on an empty tray, and the tray can convey the mobile phone embedded frame to other assembling stations; the automatic code scanning mechanism is arranged on one side of the manual feeding station and used for automatically scanning the two-dimensional code on the mobile phone embedded frame; the camera station after manual assembly is arranged on one side of the automatic code scanning mechanism and used for a worker to assemble the rear camera on the mobile phone embedded frame; the automatic pressure maintaining rear camera mechanism is arranged on one side of a camera station after manual assembly and is used for automatically maintaining the pressure of a rear camera on a mobile phone embedded frame; the station for manually assembling the mobile load balancer is arranged on one side of the camera mechanism after automatic pressure maintaining and is used for manually assembling the mobile load balancer on the mobile phone embedded frame; the manual antenna cable assembling station is arranged on one side of the manual load balancer assembling station and is used for manually assembling the antenna cable on the mobile phone embedded frame; the manual GPS assembling station is arranged on one side of the manual antenna cable assembling station and is used for manually assembling the GPS on the mobile phone embedded frame; the manual assembly earphone socket, the front camera and the antenna station are arranged on one side of the manual assembly GPS station and are used for manually assembling the earphone socket, the front camera and the antenna on the mobile phone embedded frame; the microphone and battery manual assembly station is arranged on one side of the earphone socket and the front camera and antenna manual assembly station and is used for manually assembling the microphone and the battery on the mobile phone embedded frame; the manual assembling buffer station is arranged on one side of the manual assembling microphone and battery station and is used for assembling the buffer on the mobile phone embedded frame; the automatic screw locking mechanism is arranged on one side of a manual assembling buffer station and used for locking screws to be locked of the mobile phone embedded frame, and the automatic battery rolling mechanism is arranged on one side of the automatic screw locking mechanism and used for automatically rolling the battery on the mobile phone embedded frame; and the manual blanking station is arranged on one side of the automatic rolling battery mechanism and is used for manually blanking the assembled mobile phone embedded frame.

Furthermore, the transfer table comprises a first workbench, a first X-axis driving device, a first Y-axis driving device and a first Y-axis moving table, the first Y-axis driving device is installed on the first workbench, the first Y-axis moving table is installed on the first Y-axis driving device, the first X-axis driving device is installed on the first Y-axis moving table, the first Y-axis driving device can drive the first Y-axis moving table and the first X-axis driving device to move along the Y-axis direction, and the first X-axis driving device is used for driving the tray to move along the X-axis direction.

Further, automatic lock screw mechanism includes second workstation, first lock screw mechanism, second lock screw mechanism and sweeps a yard rifle mechanism, first lock screw mechanism installs the left side at the second workstation, the right side at the second workstation is installed to second lock screw mechanism, sweep a yard rifle mechanism and install on the second workstation, and be located first lock screw mechanism's left side, first lock screw mechanism can follow X axle, Y axle and Z axle direction motion alone and inlay the screw locking on the frame with the cell-phone, second lock screw mechanism can follow X axle, Y axle and Z axle direction motion alone and inlay the screw locking on the frame with the cell-phone, sweep a yard rifle mechanism and be used for obtaining the information that the frame was inlayed to the cell-phone.

Further, camera mechanism includes pushes down cylinder, linear guide rail, balancing weight, pressure head, bottom plate and installation base member after the automatic pressurize, the vertical installation on the bottom plate of installation base member, linear guide rail installs on the installation base member, the balancing weight passes through the lifter plate and installs on linear guide rail, the lower extreme at the balancing weight is installed to the pressure head, it can drive lifter plate to drive balancing weight and pressure head and be elevating movement to push down the cylinder.

The invention has the beneficial effects that:

when the invention works, firstly, the conveyor line conveys an empty tray to a manual feeding station, the manual work puts a mobile phone embedded frame to be assembled on the empty tray, then the conveyor line continuously conveys the mobile phone embedded frame on the tray to an automatic code sweeping mechanism, the automatic code sweeping mechanism automatically scans a two-dimensional code on the mobile phone embedded frame, the conveyor line continuously conveys the mobile phone embedded frame on the tray to a camera station after the manual assembly, a worker assembles a rear camera on the mobile phone embedded frame, the conveyor line continuously conveys the mobile phone embedded frame on the tray to the camera mechanism after the automatic pressure maintaining, automatically maintains the pressure of the rear camera on the mobile phone embedded frame, the conveyor line continuously conveys the mobile phone embedded frame on the tray to a manual assembly mobile load balancer station, manually assembles a mobile load balancer on the mobile phone embedded frame, and the conveyor line continuously conveys the mobile phone embedded frame on the tray to a manual assembly antenna cable station, manually assembling an antenna cable on a mobile phone embedded frame, continuously conveying the mobile phone embedded frame on a tray to a manual GPS assembling station by a conveying line, manually assembling the GPS on the mobile phone embedded frame, continuously conveying the mobile phone embedded frame on the tray to a manual earphone assembling station, a front camera and an antenna assembling station by the conveying line, manually assembling the earphone socket, the front camera and the antenna on the mobile phone embedded frame, continuously conveying the mobile phone embedded frame on the tray to the manual microphone and battery assembling station by the conveying line, manually assembling the microphone and the battery on the mobile phone embedded frame, continuously conveying the mobile phone embedded frame on the tray to the manual buffer assembling station by the conveying line, manually assembling the buffer on the mobile phone embedded frame, continuously conveying the mobile phone embedded frame on the tray to an automatic screw locking mechanism by the conveying line, locking screws to be locked of the mobile phone embedded frame, and continuously conveying the mobile phone embedded frame on the tray to the automatic battery rolling mechanism by the conveying line, and the battery is automatically rolled on the mobile phone embedded frame, finally, the mobile phone embedded frame on the tray is continuously conveyed to a manual blanking station by the conveying line, the assembled mobile phone embedded frame is manually blanked, the empty tray after blanking comes to a return line under the conveying of the transfer table, and the return line finally conveys the empty tray to a manual loading station, so that the work is circulated. Compared with the prior art, the mobile phone embedded frame assembly line can greatly improve the assembly efficiency of the mobile phone embedded frame and can also reduce the labor intensity of workers.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic top perspective view of the present invention;

FIG. 3 is a schematic structural view of the tray of the present invention;

FIG. 4 is a schematic view of the construction of a turntable according to the present invention;

FIG. 5 is a schematic structural diagram of the automatic screw locking mechanism of the present invention;

fig. 6 is a mechanism schematic diagram of the camera mechanism after automatic pressure maintaining of the invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

as shown in fig. 1 to 3, an assembly line for a mobile phone bezel comprises a conveying line 1 and a return line 2, wherein the return line 2 is arranged at the rear side of the conveying line 1, the front end and the rear end of the conveying line 1 and the rear end of the return line 2 are respectively connected with each other through a transfer table 3, a tray 4 is conveyed on the conveying line 1, and the mobile phone bezel 5 to be processed can be placed on the tray 4; the conveying line 1 is sequentially provided with: the manual loading station 6 is arranged on one side of the transfer table 3 and used for manually placing the mobile phone embedded frame 5 to be assembled on the empty tray 4, and the tray 4 can convey the mobile phone embedded frame 5 to other assembling stations; the automatic code scanning mechanism 7 is arranged on one side of the manual feeding station 6 and used for automatically scanning the two-dimensional code on the mobile phone embedded frame 5; the camera station 8 is arranged on one side of the automatic code scanning mechanism 7 and used for assembling the rear camera on the mobile phone embedded frame 5 by workers; the camera mechanism 9 after automatic pressure maintaining is arranged on one side of the camera station 8 after manual assembly and used for automatically maintaining the pressure of the rear camera on the mobile phone embedded frame 5; a manual assembly mobile load balancer station 10, wherein the manual assembly mobile load balancer station 10 is arranged on one side of the camera mechanism 9 after automatic pressure maintaining and is used for manually assembling the mobile load balancer 10 on the mobile phone embedded frame 5; the manual antenna cable assembling station 11 is arranged on one side of the manual load balancer assembling station 10 and is used for manually assembling the antenna cable on the mobile phone embedded frame 5; a manual GPS assembling station 12, wherein the manual GPS assembling station 12 is arranged on one side of the manual antenna cable assembling station 11 and is used for manually assembling a GPS on the mobile phone embedded frame 5; the manual assembly earphone socket and front camera and antenna station 13 is arranged on one side of the manual assembly GPS station 12 and is used for manually assembling the earphone socket and the front camera and antenna on the mobile phone embedded frame 5; a microphone and battery manual assembly station 14, wherein the microphone and battery manual assembly station 14 is arranged on one side of the earphone socket and the front camera and antenna manual assembly station 13 and is used for manually assembling the microphone and the battery on the mobile phone embedded frame 5; a manual assembling buffer station 15, wherein the manual assembling buffer station 15 is arranged on one side of the manual assembling microphone and battery station and is used for assembling a buffer on the mobile phone embedded frame 5; the automatic screw locking mechanism 16 is arranged on one side of the manual assembly buffer station 15 and used for locking screws to be locked of the mobile phone embedded frame, and the automatic battery rolling mechanism 17 is arranged on one side of the automatic screw locking mechanism 16 and used for automatically rolling the battery on the mobile phone embedded frame; and the manual blanking station 18 is arranged on one side of the automatic battery rolling mechanism 17 and is used for manually blanking the assembled mobile phone embedded frame.

As shown in fig. 4, the relay station 3 includes a first table 31, a first X-axis driving device 32, a first Y-axis driving device 33, and a first Y-axis moving stage 34, the first Y-axis driving device 33 is mounted on the first table 31, the first Y-axis moving stage 34 is mounted on the first Y-axis driving device 33, the first X-axis driving device 32 is mounted on the first Y-axis moving stage 34, the first Y-axis driving device 32 can drive the first Y-axis moving stage 34 and the first X-axis driving device 32 to move in the Y-axis direction, and the first X-axis driving device 32 is used for driving the tray 4 to move in the X-axis direction.

As shown in fig. 5, the automatic screw locking mechanism 16 includes a second workbench 161, a first screw locking mechanism 162, a second screw locking mechanism 163 and a yard gun scanning mechanism 164, the first screw locking mechanism 162 is installed on the left side of the second workbench 161, the second screw locking mechanism 163 is installed on the right side of the second workbench 161, the yard gun scanning mechanism 164 is installed on the second workbench 161 and is located on the left side of the first screw locking mechanism 162, the first screw locking mechanism 162 can lock the screws on the mobile phone embedded frame 5 along the X-axis, the Y-axis and the Z-axis directions alone, the second screw locking mechanism 163 can lock the screws on the mobile phone embedded frame 5 along the X-axis, the Y-axis and the Z-axis directions alone, and the yard gun scanning mechanism 164 is used for acquiring the information of the mobile phone embedded frame 5.

As shown in fig. 6, the camera mechanism 9 after automatic pressure maintaining includes a pressing cylinder 91, a linear guide 92, a weight block 93, a pressing head 94, a bottom plate 95 and a mounting base 96, the mounting base 96 is vertically mounted on the bottom plate 95, the linear guide 92 is mounted on the mounting base 96, the weight block 93 is mounted on the linear guide 92 through a lifting plate, the pressing head 94 is mounted at the lower end of the weight block 93, and the pressing cylinder 91 can drive the lifting plate to drive the weight block 93 and the pressing head 94 to move up and down.

When the invention works, firstly, the conveyor line 1 conveys an empty tray 4 to the manual feeding station 6, the mobile phone embedded frame 5 to be assembled is manually placed on the empty tray 4, then the conveyor line 1 continuously conveys the mobile phone embedded frame 5 on the tray 4 to the automatic code sweeping mechanism 7, the automatic code sweeping mechanism 7 automatically scans the two-dimensional code on the mobile phone embedded frame 5, after code sweeping, the conveyor line 1 continuously conveys the mobile phone embedded frame 5 on the tray 4 to the manual post-assembly camera station 8, the worker assembles the post-camera on the mobile phone embedded frame 5, the conveyor line 1 continuously conveys the mobile phone embedded frame 5 on the tray 4 to the automatic pressure-maintaining camera mechanism 9 and automatically pressure-maintaining the post-camera on the mobile phone embedded frame 5, the conveyor line 1 continuously conveys the mobile phone embedded frame 5 on the tray 4 to the manual assembly mobile load balancer station 10, and manually assembles the mobile load balancer on the mobile phone embedded frame 5, the conveyor line 1 continuously conveys the mobile phone embedded frame 5 on the tray 4 to a manual antenna cable assembling station 11, the antenna cable is assembled on the mobile phone embedded frame 5 manually, the conveyor line 1 continuously conveys the mobile phone embedded frame 5 on the tray 4 to a manual GPS assembling station 12, the GPS is assembled on the mobile phone embedded frame 5 manually, the conveyor line 1 continuously conveys the mobile phone embedded frame 5 on the tray 4 to a manual earphone socket and front camera and antenna assembling station 13, the earphone socket and front camera and antenna are assembled on the mobile phone embedded frame 5 manually, the conveyor line 1 continuously conveys the mobile phone embedded frame 5 on the tray 4 to a manual microphone and battery assembling station 14, the microphone and battery are assembled on the mobile phone embedded frame 5 manually, the conveyor line 1 continuously conveys the mobile phone embedded frame 5 on the tray 4 to a manual buffer assembling station 15, and the buffer is assembled on the mobile phone embedded frame manually, the conveying line 1 continues to convey the mobile phone embedded frame 5 on the tray 4 to come to the automatic screw locking mechanism 16, the mobile phone embedded frame is locked by screws to be locked, the conveying line 1 continues to convey the mobile phone embedded frame 5 on the tray 4 to come to the automatic battery rolling mechanism 17, batteries are automatically rolled on the mobile phone embedded frame 5, finally the conveying line 1 continues to convey the mobile phone embedded frame 5 on the tray 4 to come to a manual blanking station, the assembled mobile phone embedded frame 5 is blanked manually, the empty tray 4 after blanking comes to the backflow line 2 under the conveying of the transfer table 3, the backflow line 2 finally conveys the empty tray 4 to the manual feeding station 6, and the work is circulated. Compared with the prior art, the assembly line for the mobile phone embedded frame 5 can greatly improve the assembly efficiency of the mobile phone embedded frame 5 and can also reduce the labor intensity of workers.

The above description is not intended to limit the technical scope of the present invention, and any modification, equivalent change and modification of the above embodiments according to the technical spirit of the present invention are still within the technical scope of the present invention.

Claims (4)

1. The utility model provides a frame assembly line is inlayed to cell-phone which characterized in that: the mobile phone embedded frame processing device comprises a conveying line and a return line, wherein the return line is arranged on the rear side of the conveying line, the front end and the rear end of the conveying line and the rear end of the return line are respectively connected with each other through a transfer table, a tray is conveyed on the conveying line, and the tray can be used for placing a mobile phone embedded frame to be processed; the conveying line is sequentially provided with the following components in an assembly sequence:

the manual loading station is arranged on one side of the transfer table and used for manually placing the mobile phone embedded frame to be assembled on an empty tray, and the tray can convey the mobile phone embedded frame to other assembling stations;

the automatic code scanning mechanism is arranged on one side of the manual feeding station and used for automatically scanning the two-dimensional code on the mobile phone embedded frame;

the camera station after manual assembly is arranged on one side of the automatic code scanning mechanism and used for a worker to assemble the rear camera on the mobile phone embedded frame;

the automatic pressure maintaining rear camera mechanism is arranged on one side of a camera station after manual assembly and is used for automatically maintaining the pressure of a rear camera on a mobile phone embedded frame;

the station for manually assembling the mobile load balancer is arranged on one side of the camera mechanism after automatic pressure maintaining and is used for manually assembling the mobile load balancer on the mobile phone embedded frame;

the manual antenna cable assembling station is arranged on one side of the manual load balancer assembling station and is used for manually assembling the antenna cable on the mobile phone embedded frame;

the manual GPS assembling station is arranged on one side of the manual antenna cable assembling station and is used for manually assembling the GPS on the mobile phone embedded frame;

the manual assembly earphone socket, the front camera and the antenna station are arranged on one side of the manual assembly GPS station and are used for manually assembling the earphone socket, the front camera and the antenna on the mobile phone embedded frame;

the microphone and battery manual assembly station is arranged on one side of the earphone socket and the front camera and antenna manual assembly station and is used for manually assembling the microphone and the battery on the mobile phone embedded frame;

the manual assembling buffer station is arranged on one side of the manual assembling microphone and battery station and is used for assembling the buffer on the mobile phone embedded frame;

the automatic screw locking mechanism is arranged on one side of the manual assembly buffer station and used for locking the screws to be locked of the mobile phone embedded frame.

The automatic battery rolling mechanism is arranged on one side of the automatic screw locking mechanism and used for automatically rolling the battery on the mobile phone embedded frame;

and the manual blanking station is arranged on one side of the automatic rolling battery mechanism and is used for manually blanking the assembled mobile phone embedded frame.

2. The assembly line for the bezel of a cellular phone as recited in claim 1, wherein: the transfer table comprises a first workbench, a first X-axis driving device, a first Y-axis driving device and a first Y-axis moving table, the first Y-axis driving device is installed on the first workbench, the first Y-axis moving table is installed on the first Y-axis driving device, the first X-axis driving device is installed on the first Y-axis moving table, the first Y-axis driving device can drive the first Y-axis moving table and the first X-axis driving device to move along the Y-axis direction, and the first X-axis driving device is used for driving the tray to move along the X-axis direction.

3. The assembly line for the bezel of a cellular phone as recited in claim 1, wherein: automatic lock screw mechanism includes second workstation, first lock screw mechanism, second lock screw mechanism and sweeps a yard rifle mechanism, first lock screw mechanism installs the left side at the second workstation, the right side at the second workstation is installed to second lock screw mechanism, sweep a yard rifle mechanism and install on the second workstation, and be located the left side of first lock screw mechanism, first lock screw mechanism can follow X axle, Y axle and Z axle direction motion alone and inlay the screw locking on the frame with the cell-phone, second lock screw mechanism can follow X axle, Y axle and Z axle direction motion alone and inlays the screw locking on the frame with the cell-phone, sweep a yard rifle mechanism and be used for obtaining the information that the frame was inlayed to the cell-phone.

4. The assembly line for the bezel of a cellular phone as recited in claim 1, wherein: automatic camera mechanism behind pressurize includes pushes down cylinder, linear guide rail, balancing weight, pressure head, bottom plate and installation base member, the vertical installation on the bottom plate of installation base member, linear guide rail is installed on the installation base member, the balancing weight passes through the lifter plate and installs on linear guide rail, the lower extreme at the balancing weight is installed to the pressure head, it can drive the lifter plate to drive balancing weight and pressure head and be elevating movement to push down the cylinder.

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