CN109894844B

CN109894844B - Magnet assembling machine for mobile phone lifting camera support

Info

Publication number: CN109894844B
Application number: CN201910339299.6A
Authority: CN
Inventors: 罗宏兴
Original assignee: Dongguan Huajing Powder Metallurgy Co Ltd
Current assignee: Dongguan Huajing Powder Metallurgy Co Ltd
Priority date: 2019-04-25
Filing date: 2019-04-25
Publication date: 2023-11-07
Anticipated expiration: 2039-04-25
Also published as: CN109894844A

Abstract

The application provides a magnet assembling machine for a mobile phone lifting camera bracket, which comprises a control box and a workbench arranged on the top surface of the control box, wherein a supporting seat is arranged on the top surface of the workbench, a first placing mechanism and a second placing mechanism are respectively arranged at two ends of one side of the supporting seat, the first placing mechanism is used for placing a magnet, and the second placing mechanism is used for placing a workpiece on which the magnet is to be installed; the top surface of the supporting seat is provided with a magnet transfer mechanism, and the magnet transfer mechanism separates and transfers the magnet on the first placing mechanism to a mounting position corresponding to the second placing mechanism; a magnet pressing mechanism is arranged above the magnet transfer mechanism, and the magnet pressing mechanism presses the magnet on the magnet transfer mechanism into the workpiece on the second placing mechanism; the semi-automatic assembly of lifting type camera support magnet can be realized, the working efficiency is effectively improved, and the product quality is ensured.

Description

Magnet assembling machine for mobile phone lifting camera support

Technical Field

The application relates to the field of mobile phone assembly equipment, in particular to a mobile phone lifting camera support magnet assembly machine.

Background

With the continuous development of mobile phones, users have increasingly stricter modeling and functions of mobile phones, and in this case, a full-screen mobile phone is popular, and in order to realize a real full-screen, a lifting camera structure is pushed out, and a magnet is needed in the structure, so that a magnet block needs to be installed when the lifting camera support is assembled, but corresponding assembly equipment is lacking, and in the existing production process, manual installation is mainly needed.

Disclosure of Invention

In order to overcome the defects of the prior art, the technical problem to be solved by the application is to provide a mobile phone lifting camera support magnet assembling machine which can realize semi-automatic assembly of lifting camera support magnets, effectively improve the working efficiency and ensure the product quality.

To achieve the purpose, the application adopts the following technical scheme:

the application provides a magnet assembling machine for a mobile phone lifting camera bracket, which comprises a control box and a workbench arranged on the top surface of the control box, wherein a supporting seat is arranged on the top surface of the workbench, a first placing mechanism and a second placing mechanism are respectively arranged at two ends of one side of the supporting seat, the first placing mechanism is used for placing a magnet, and the second placing mechanism is used for placing a workpiece on which the magnet is to be installed;

the top surface of the supporting seat is provided with a magnet transfer mechanism, and the magnet transfer mechanism separates and transfers the magnet on the first placing mechanism to a mounting position corresponding to the second placing mechanism; the magnet pressing mechanism is arranged above the magnet transfer mechanism and presses the magnet on the magnet transfer mechanism into the workpiece on the second placing mechanism.

In a preferred technical scheme of the application, the first placement mechanism comprises a base, a first clamping block and a second clamping block which are arranged on the top surface of the base, wherein the first clamping block and the second clamping block are fixedly connected through screws, a plurality of magnet placement slots are formed between the first clamping block and the second clamping block, the magnet placement slots are used for placing stacked magnets, and a space is arranged between the bottom ends of the magnet placement slots and the top surface of the base.

In a preferred technical scheme of the application, the magnet transfer mechanism comprises a first sliding table cylinder, the first sliding table cylinder is arranged on the supporting seat, a mounting plate is arranged on a sliding table of the first sliding table cylinder, a magnet stripping plate is arranged on one side of the mounting plate, which is close to the first placement mechanism, and is arranged along the length direction of the supporting seat, the thickness of the magnet stripping plate is matched with the distance between the magnet placement slot hole and the base, a magnet clamping hole corresponding to the magnet placement slot hole is arranged on the magnet stripping plate, a plurality of rectangular guide holes are arranged on two opposite side walls of the magnet stripping plate corresponding to the magnet clamping hole, the opening direction of the guide holes is perpendicular to the opening direction of the magnet clamping hole, and the guide holes are partially overlapped with the magnet clamping hole;

the mounting panel is close to one end top surface fixed mounting of guiding hole has second slip table cylinder and fixing base, the fixing base is located the second slip table cylinder is close to one side of magnet stripper plate, the fixing base is close to correspond on the lateral wall of magnet stripper plate the guiding hole is equipped with a plurality of mounting holes, install the spring in the mounting hole, the one end of spring with the hole bottom fixed connection of mounting hole, the other end outstanding with the uncovered of mounting hole, and with push pedal fixed connection, the push pedal keep away from the one end of fixing base with guiding hole shape looks adaptation and smooth locating in the guiding hole, the push pedal with the top surface of spring coupling one end is equipped with the arch, the fixed L type hook that is equipped with a plurality of with the slip table of second slip table cylinder's tip with the L type hook that the push pedal corresponds, L type hook with the arch detain mutually, in order to right the spring realizes compressing and releasing.

In the preferred technical scheme of the application, a plurality of guide grooves are formed in the top of the side wall, close to the fixing seat, of the magnet stripping plate, the guide grooves correspond to the guide holes one by one, the width of each guide groove is matched with the width of each protrusion and the width of each L-shaped hook, and the protrusions and the L-shaped hooks slide along the guide grooves.

In a preferred technical scheme of the application, the second placing mechanism comprises a third sliding table cylinder and a clamping table, the moving direction of a sliding block of the third sliding table cylinder is perpendicular to the moving direction of a sliding table of the first sliding table cylinder, the clamping table is fixedly arranged on the top surface of the sliding table of the third sliding table cylinder and can move below the magnet stripping plate, and a plurality of clamping parts for clamping a workpiece to be processed are arranged on the clamping table and correspond to the magnet clamping holes one by one.

In a preferred technical scheme of the application, the magnet pressing mechanism comprises a fourth sliding table cylinder which is vertically arranged, the fourth sliding table cylinder is arranged on the top surface of the workbench through a bracket and is positioned above the supporting seat, a pressing block is arranged at the bottom of a sliding table of the fourth sliding table cylinder, the pressing block is positioned above the magnet stripping plate, a plurality of pressing plates are fixedly arranged on the bottom surface of the pressing block, the pressing plates are in one-to-one correspondence with the magnet clamping holes and are in shape adaptation, and the fourth sliding table cylinder pushes the pressing plates to penetrate through the magnet clamping holes.

In the preferred technical scheme of the application, a protective cover is arranged on the outer side of one end, close to the first placing mechanism, of the supporting seat, the protective cover is arranged on the top surface of the workbench, and the sliding table of the first sliding table cylinder, the mounting plate and the magnet stripping plate enter and exit the protective cover in the moving process.

The beneficial effects of the application are as follows:

according to the mobile phone lifting camera support magnet assembling machine, the first placing mechanism, the second placing mechanism, the magnet transferring mechanism and the magnet pressing mechanism are matched with each other, so that semi-automatic assembly of the lifting camera support magnet can be realized, the working efficiency is effectively improved, and the product quality is ensured; the first placing mechanism can facilitate the stacking and placing of the magnets, and a worker can supplement the magnets required by multiple processing at one time; the second placing mechanism can be used for conveniently placing and fixing the workpiece to be processed, and can automatically approach and separate from a processing area, so that the workpiece can be conveniently taken and placed; the magnet transfer mechanism can separate the magnets stacked on the first placement mechanism, so that the magnets at the bottommost layer are separated independently and transferred to the processing part of the second placement mechanism correspondingly, and then the magnet press-in mechanism is matched to complete the magnet press-fit installation action.

Drawings

Fig. 1 is a schematic perspective view of a magnet assembly machine for a mobile phone lifting camera support according to an embodiment of the present application;

FIG. 2 is a schematic perspective view of a first placement mechanism provided in an embodiment of the present application;

FIG. 3 is a cross-sectional view of a first placement mechanism provided in an embodiment of the present application;

FIG. 4 is a schematic perspective view of a second placement mechanism provided in an embodiment of the present application;

fig. 5 is a schematic perspective view of a magnet transfer mechanism according to an embodiment of the present application;

fig. 6 is a schematic perspective view of a magnet stripper plate provided in an embodiment of the present application;

FIG. 7 is a schematic view of the mating structure of a magnet stripper plate, push plate, anchor seat, spring and L-hook provided in an embodiment of the present application;

fig. 8 is a schematic perspective view of a magnet press-in mechanism according to an embodiment of the present application.

In the figure:

100. a control box; 110. a work table; 120. a support base; 200. a first placement mechanism; 210. a base; 220. a first clamping block; 230. a second clamping block; 240. a magnet placement slot; 300. a second placement mechanism; 310. a third sliding table cylinder; 320. a clamping table; 321. a clamping part; 400. a magnet transfer mechanism; 410. a first slipway cylinder; 420. a mounting plate; 430. a magnet release plate; 431. a magnet clamping hole; 432. a guide hole; 433. a guide groove; 440. a second slipway cylinder; 450. a fixing seat; 451. a mounting hole; 460. a spring; 470. a push plate; 471. a protrusion; 480. an L-shaped hook; 500. a magnet press-in mechanism; 510. a fourth sliding table cylinder; 520. briquetting; 530. pressing in a plate; 600. and a protective cover.

Detailed Description

The technical scheme of the application is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1, in the embodiment of the application, a magnet assembling machine for a mobile phone lifting camera support is disclosed, which comprises a control box 100 and a workbench 110 arranged on the top surface of the control box 100, wherein a supporting seat 120 is arranged on the top surface of the workbench 110, a first placing mechanism 200 and a second placing mechanism 300 are respectively arranged at two ends of one side of the supporting seat 120, the first placing mechanism 200 is used for placing a magnet, and the second placing mechanism 300 is used for placing a workpiece on which the magnet is to be installed;

a magnet transfer mechanism 400 is provided on the top surface of the support base 120, and the magnet transfer mechanism 400 separates the magnets on the first placement mechanism 200 and transfers the magnets to the mounting positions corresponding to the second placement mechanism 300; a magnet press-in mechanism 500 is provided above the magnet transfer mechanism 400, and the magnet press-in mechanism 500 presses the magnet on the magnet transfer mechanism 400 into the workpiece placed on the second placement mechanism 300.

The mobile phone lifting camera support magnet assembling machine has the advantages that the first placing mechanism 200, the second placing mechanism 300, the magnet transferring mechanism 400 and the magnet pressing mechanism 500 are matched with each other, so that semi-automatic assembly of the lifting camera support magnet can be realized, the working efficiency is effectively improved, and the product quality is ensured; the first placing mechanism 200 can facilitate the stacking and placing of the magnets, and a worker can supplement the magnets required by multiple processing at one time; the second placing mechanism 300 can facilitate the placement and fixation of the workpiece to be processed, and can automatically approach and separate from the processing area, thereby facilitating the picking and placing of the workpiece; the magnet transfer mechanism 400 can separate the magnets stacked on the first placement mechanism 200, separate the magnets at the bottommost layer individually, transfer the magnets to the processing part of the second placement mechanism 300 correspondingly, and then complete the magnet press-fit mounting operation by matching with the magnet press-in mechanism 500.

Further, as shown in fig. 2 and 3, the first placement mechanism 200 includes a base 210, and a first clamping block 220 and a second clamping block 230 disposed on a top surface of the base 210, the first clamping block 220 and the second clamping block 230 are fixedly connected by a screw, a plurality of magnet placement slots 240 are formed between the first clamping block 220 and the second clamping block 230, the magnet placement slots 240 are used for placing stacked magnets, and a space is provided between a bottom end of the magnet placement slots 240 and a top surface of the base 210; the distance is slightly larger than the height of one magnet in a stacked state; the structural design can limit the placement direction and the placement position of the magnet, so that the magnet is convenient to uniformly place; the distance between the bottom end of the magnet placement slot 240 and the top surface of the base 210 is slightly larger than the height of one magnet, so that only the magnet at the bottommost layer can be stripped each time, and the normal reset of the subsequent magnet transfer mechanism 400 is not affected; it should be noted that, the top opening edge of the magnet placement slot 240 is provided with a chamfer, which can facilitate the placement of the magnet.

Further, as shown in fig. 5, 6 and 7, the magnet transferring mechanism 400 includes a first sliding table cylinder 410, the first sliding table cylinder 410 is mounted on the supporting seat 120, a mounting plate 420 is disposed on a sliding table of the first sliding table cylinder 410, a magnet stripping plate 430 is mounted on a side of the mounting plate 420, which is close to the first placement mechanism 200, the magnet stripping plate 430 is disposed along a length direction of the supporting seat 120, a thickness of the magnet stripping plate 430 is adapted to a distance between the magnet placement slot 240 and the base 210, a magnet clamping hole 431 corresponding to the magnet placement slot 240 is disposed on the magnet stripping plate 430, and a magnet can be just placed in the magnet clamping hole 431; a plurality of rectangular guide holes 432 are provided on the opposite side walls of the magnet stripping plate 430 corresponding to the magnet holding holes 431, the opening direction of the guide holes 432 is perpendicular to the opening direction of the magnet holding holes 431, and the guide holes 432 are partially overlapped with the magnet holding holes 431;

the mounting plate 420 is close to one end top surface fixed mounting of guiding hole 432 has second slip table cylinder 440 and fixing base 450, the fixing base 450 is located second slip table cylinder 440 is close to one side of magnet stripping plate 430, the fixing base 450 is close to correspond on the lateral wall of magnet stripping plate 430 the guiding hole 432 is equipped with a plurality of mounting holes 451, install spring 460 in the mounting hole 451, one end of spring 460 with the hole bottom fixed connection of mounting hole 451, the other end outstanding with the uncovered of mounting hole 451, and with push pedal 470 fixed connection, the one end that push pedal 470 kept away from fixing base 450 with guiding hole 432 shape looks adaptation, and the slip is located in guiding hole 432, push pedal 470 with the top surface of spring 460 connection one end is equipped with protruding 471, the fixed L type hook 480 that is equipped with of slip table of second slip table cylinder 440 with push pedal 470 corresponds, L type hook 480 with protruding 471 detain mutually to realize compressing and releasing to spring 460.

The magnet transfer mechanism 400 has a main function of stripping the magnets stacked in the first placement mechanism 200 and transferring the magnets to the processing positions corresponding to the second placement mechanism 300; the magnet stripping plate 430 is arranged, the distance between the magnet placing slot 240 and the base 210 can be adaptively entered, the magnet clamping holes 431 on the magnet stripping plate 430 correspond to the magnet placing slot 240, in the stripping process, the magnet at the bottommost layer in the magnet placing slot 240 falls into the magnet clamping holes 431, the magnet stripping plate 430 is driven by the first sliding table cylinder 410 to be far away from the first placing mechanism 200, so that the magnet entering the magnet clamping holes 431 is stripped from the stacking state and moves to the position of the second placing mechanism 300 along with the magnet stripping plate 430; it should be noted that, when the magnet enters the magnet holding hole 431, the magnet holding hole 431 serves to limit the placement position of the magnet, and the magnet is mainly held in the magnet holding hole 431 under the action of the spring 460 and the push plate 470, specifically: firstly, the piston rod of the second sliding table cylinder 440 and the sliding table are in an extending state, namely, the L-shaped hook 480 and the protrusion 471 only mutually support and do not exert pressure on the spring 460, at this time, the push plate 470 is in an extending free state, and the push plate 470 blocks the magnet clamping hole 431; when the magnet stripping plate 430 moves to the preset position of the first placing mechanism 200, the magnet clamping hole 431 corresponds to the position of the magnet placing slot 240, the second sliding table cylinder 440 is started to retract the piston rod and the sliding table, the L-shaped hook 480 is buckled with the protrusion 471 and the compression spring 460, the push plate 470 releases the blocking of the magnet clamping hole 431, after the sliding table of the second sliding table cylinder 440 moves for a preset distance, the second sliding table cylinder 440 is reset, the L-shaped hook 480 is loosened to be matched with the protrusion 471, the spring 460 is reset, the push plate 470 is stressed to clamp the magnet dropping from the magnet clamping hole 431, the whole clamping process is continued until the magnet stripping plate 430 moves to the corresponding position of the second placing mechanism 300, and the second sliding table cylinder 440 is started again when the magnet pressing mechanism 500 is started, and the clamping of the magnet is loosened; and finally, the push plate 470 is in a state of blocking the magnet holding hole 431 when the magnet peeling plate 430 returns to the first placing mechanism 200.

Further, the top of the side wall of the magnet stripping plate 430, which is close to the fixing seat 450, is provided with a plurality of guide grooves 433, the guide grooves 433 are in one-to-one correspondence with the guide holes 432, the width of the guide grooves 433 is adapted to the widths of the protrusions 471 and the L-shaped hooks 480, and the protrusions 471 and the L-shaped hooks 480 slide along the guide grooves 433; the guide groove 433 is designed to limit the movement of the protrusion 471 and the L-shaped hook 480, preventing the spring 460 from being irregularly deformed to be damaged.

Further, as shown in fig. 4, the second placing mechanism 300 includes a third sliding table cylinder 310 and a clamping table 320, the moving direction of the sliding block of the third sliding table cylinder 310 is perpendicular to the moving direction of the sliding table of the first sliding table cylinder 410, the clamping table 320 is fixedly installed on the top surface of the sliding table of the third sliding table cylinder 310 and is movable below the magnet stripping plate 430, the clamping table 320 is provided with a plurality of clamping portions 321 for clamping the workpiece to be processed, and the clamping portions 321 are in one-to-one correspondence with the magnet clamping holes 431; the structural design can facilitate the placement of workpieces to be processed, and particularly under the cooperation of the third sliding table cylinder 310, the clamping part 321 and the workpieces can be automatically close to or far away from a processing area, so that the workpieces can be conveniently taken and placed by workers, and the operation is convenient.

Further, as shown in fig. 8, the magnet pressing mechanism 500 includes a fourth sliding table cylinder 510 vertically disposed, the fourth sliding table cylinder 510 is mounted on the top surface of the working table 110 through a bracket and is located above the supporting seat 120, a pressing block 520 is mounted at the bottom of a sliding table of the fourth sliding table cylinder 510, the pressing block 520 is located above the magnet stripping plate 430, a plurality of pressing plates 530 are fixedly disposed on the bottom surface of the pressing block 520, the pressing plates 530 are in one-to-one correspondence with the magnet clamping holes 431 and are adapted in shape, and the fourth sliding table cylinder 510 pushes the pressing plates 530 to penetrate through the magnet clamping holes 431; the structural design can realize stable pressing action, so that the magnet accurately falls into the installation position; it should be noted that, the bottom edge of the pressing plate 530 is provided with a chamfer to facilitate insertion into the magnet holding hole 431.

Further, a protection cover 600 is disposed on the outer side of the support base 120 near one end of the first placement mechanism 200, the protection cover 600 is mounted on the top surface of the workbench 110, and the sliding table of the first sliding table cylinder 410, the mounting plate 420 and the magnet stripping plate 430 enter and exit the protection cover 600 in the moving process; the movable magnet stripping plate 430 is protected, so that the magnet stripping plate 430 is prevented from deviating due to the fact that workers bump by mistake in the process of taking and placing workpieces, and the accuracy of subsequent processing is guaranteed.

Working principle:

when the application is used for magnet installation, firstly, a worker is required to manually stack the magnet stacks in the magnet placing slots 240 of the first placing mechanism 200 and fix a workpiece to be processed on the clamping part 321 of the second placing mechanism 300; then starting equipment, the third sliding table cylinder 310 drives the clamping table 320 to move to a processing area, the first sliding table cylinder 410 drives the magnet stripping plate 430 to move to a preset position in the direction of the first placing mechanism 200, the magnet clamping hole 431 corresponds to the magnet placing slot 240, then starting the second sliding table cylinder 440 to finish blanking and clamping of the magnet, then starting the first sliding table cylinder 410 to move to a preset position in the direction of the second placing mechanism 300 to finish stripping and conveying of the magnet, finally starting the fourth sliding table cylinder 510, the fourth sliding table cylinder 510 drives the pressing block 520 and the pressing plate 530 to press down, the magnet in the magnet clamping hole 431 is pressed into a processing workpiece, the pressing action is maintained for a preset duration, after the preset duration is reached, the fourth sliding table cylinder 510 is reset, the third sliding table cylinder 310 moves out the workpiece which is finished being installed, and a worker can replace the next batch of workpieces to be processed, and the assembly is finished; it should be noted that, the first sliding table cylinder 410, the second sliding table cylinder 440, the third sliding table cylinder 310, and the fourth sliding table cylinder 510 are all communicated with the air pump installed behind the control box 100 via the multi-electric valve, and are all electrically connected with the controller inside the control box 100.

While the application has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the application. The application is not to be limited by the specific embodiments disclosed herein, but rather, embodiments falling within the scope of the appended claims are intended to be embraced by the application.

Claims

1. The utility model provides a cell-phone lift camera support magnet kludge, includes control box (100) and locates workstation (110) of control box (100) top surface, its characterized in that:

the top surface of the workbench (110) is provided with a supporting seat (120), two ends of one side of the supporting seat (120) are respectively provided with a first placing mechanism (200) and a second placing mechanism (300), the first placing mechanism (200) is used for placing a magnet, and the second placing mechanism (300) is used for placing a workpiece on which the magnet is to be installed;

a magnet transfer mechanism (400) is arranged on the top surface of the supporting seat (120), and the magnet transfer mechanism (400) separates the magnets on the first placing mechanism (200) and transfers the magnets to the corresponding installation position of the second placing mechanism (300); a magnet pressing mechanism (500) is arranged above the magnet transfer mechanism (400), and the magnet pressing mechanism (500) presses a magnet on the magnet transfer mechanism (400) into a workpiece on the second placing mechanism (300);

the first placement mechanism (200) comprises a base (210), a first clamping block (220) and a second clamping block (230) which are arranged on the top surface of the base (210), wherein the first clamping block (220) and the second clamping block (230) are fixedly connected through screws, a plurality of magnet placement slots (240) are formed between the first clamping block (220) and the second clamping block (230), the magnet placement slots (240) are used for placing stacked magnets, a space is arranged between the bottom ends of the magnet placement slots (240) and the top surface of the base (210), the space between the bottom ends of the magnet placement slots (240) and the top surface of the base (210) is slightly larger than the height of one magnet, and the edges of the top openings of the magnet placement slots (240) are provided with chamfers;

the magnet transfer mechanism (400) comprises a first sliding table cylinder (410), the first sliding table cylinder (410) is installed on the supporting seat (120), a mounting plate (420) is arranged on a sliding table of the first sliding table cylinder (410), a magnet stripping plate (430) is installed on one side, close to the first placing mechanism (200), of the mounting plate (420), the magnet stripping plate (430) is arranged along the length direction of the supporting seat (120), the thickness of the magnet stripping plate (430) is matched with the distance between the magnet placing slot holes (240) and the base (210), magnet clamping holes (431) corresponding to the magnet placing slot holes (240) are formed in the magnet stripping plate (430), a plurality of rectangular guide holes (432) are formed in two opposite side walls of the magnet stripping plate (430) corresponding to the magnet clamping holes (431), the opening direction of the guide holes (432) is perpendicular to the opening direction of the magnet clamping holes (431), and the guide holes (432) are overlapped with the magnet clamping holes (431);

the mounting plate (420) is close to one end top surface fixed mounting of guiding hole (432) has second slip table cylinder (440) and fixing base (450), fixing base (450) are located second slip table cylinder (440) are close to one side of magnet stripper plate (430), fixing base (450) are close to correspond on the lateral wall of magnet stripper plate (430) guiding hole (432) are equipped with a plurality of mounting holes (451), install spring (460) in mounting hole (451), one end of spring (460) with the hole bottom fixed connection of mounting hole (451), the outstanding opening of spring (460) other end opening of mounting hole (451) and with push pedal (470) fixed connection, one end that push pedal (470) kept away from fixing base (450) with guiding hole (432) shape looks adaptation, and the smooth locating in guiding hole (432), push pedal (470) with top surface that spring (460) connects one end is equipped with arch (471), the tip of second cylinder (440) be equipped with a plurality of slip tables corresponding with push pedal (471) with compression hook (480) and release type (L) in order to realize.

2. The mobile phone lifting camera support magnet assembly machine according to claim 1, wherein:

the magnet stripping plate (430) is close to the top of the side wall of the fixing seat (450) and is provided with a plurality of guide grooves (433), the guide grooves (433) are in one-to-one correspondence with the guide holes (432), the width of each guide groove (433) is matched with the width of each protrusion (471) and the width of each L-shaped hook (480), and each protrusion (471) and each L-shaped hook (480) slide along each guide groove (433).

3. The mobile phone lifting camera support magnet assembly machine according to claim 2, wherein:

the second placing mechanism (300) comprises a third sliding table cylinder (310) and a clamping table (320), the moving direction of a sliding block of the third sliding table cylinder (310) is perpendicular to the moving direction of a sliding table of the first sliding table cylinder (410), the clamping table (320) is fixedly installed on the top surface of the sliding table of the third sliding table cylinder (310) and can move to the lower portion of the magnet stripping plate (430), a plurality of clamping portions (321) for clamping a workpiece to be machined are arranged on the clamping table (320), and the clamping portions (321) correspond to the magnet clamping holes (431) one by one.

4. A handset lifting camera support magnet assembly machine according to claim 3, wherein:

magnet mechanism (500) of impressing includes fourth slip table cylinder (510) of vertical setting, fourth slip table cylinder (510) are in through support mounting workstation (110) top surface, just be located the top of supporting seat (120), briquetting (520) are installed to the bottom of the slip table of fourth slip table cylinder (510), briquetting (520) are located the top of magnet stripper plate (430), the fixed polylith board (530) of impressing that is equipped with in bottom surface of briquetting (520), impress board (530) with magnet card holds hole (431) one-to-one, and shape looks adaptation, fourth slip table cylinder (510) propelling movement impress board (530) run through magnet card holds hole (431).

5. A handset lifting camera support magnet assembly machine according to claim 3, wherein:

the support base (120) is close to one end outside of first placing mechanism (200) is equipped with protection casing (600), protection casing (600) are installed workstation (110) top surface, the slip table of first slip table cylinder (410), mounting panel (420) and magnet stripper plate (430) are in and out in the removal in-process protection casing (600).