CN219005177U

CN219005177U - Automatic magnet and chip mounter

Info

Publication number: CN219005177U
Application number: CN202320027032.5U
Authority: CN
Inventors: 肖峰
Original assignee: Dongguan Jiusi Automation Technology Co ltd
Current assignee: Dongguan Jiusi Automation Technology Co ltd
Priority date: 2023-01-06
Filing date: 2023-01-06
Publication date: 2023-05-12
Anticipated expiration: 2033-01-06

Abstract

The utility model relates to the technical field of automatic production equipment, in particular to an automatic magnet mounting and chip mounter, which comprises a material loading track, a plurality of material loading jigs, a product loading mechanism, a product dispensing mechanism, a magnet mounting mechanism, an iron sheet sticking mechanism and a product unloading mechanism, wherein the material loading jigs are arranged on the material loading track in a sliding manner, the material loading track is arranged in a ring shape, and the product loading mechanism, the product dispensing mechanism, the magnet mounting mechanism, the iron sheet sticking mechanism and the product unloading mechanism are sequentially arranged around one side of the material loading track. According to the utility model, through the product feeding mechanism, the product dispensing mechanism, the magnet mounting mechanism, the iron sheet sticking mechanism and the product discharging mechanism, a plurality of procedures of automatic feeding, automatic dispensing, automatic magnet mounting, automatic iron sheet sticking, automatic discharging and the like of products are realized, the whole process is free from manual participation, the labor cost is reduced, the defective rate caused by manual work is avoided, and the production efficiency and the production quality of the products are improved.

Description

Automatic magnet and chip mounter

Technical Field

The utility model relates to the technical field of automatic production equipment, in particular to an automatic magnet mounting and chip mounter.

Background

In recent years, with the rapid development of the industry of electronic products and the update iteration of products, many electronic products tend to be manufactured with precision. At present, the manual production mode for the production and processing of the precise product can not meet the production standard of the existing product. For example, some products need to be subjected to multiple procedures such as dispensing, magnet installation, iron sheet sticking and the like in the production process, because the volumes of the magnets and the iron sheets are smaller, most of the manpower uses tweezers to clamp and feed materials, and the products are easy to be placed in place or missed in the face of variable working condition environments, and the production and working efficiency is seriously affected due to low efficiency; the manual production is time-consuming and labor-consuming, the labor cost is increased, the product is scrapped due to human errors, the production yield of the product is reduced, and the manufacturing cost is increased. Therefore, an effective solution is needed to improve the production efficiency and the production quality.

Disclosure of Invention

The utility model aims to provide automatic production equipment integrating a dispensing process, a magnet mounting process and an iron sheet sticking process for automatically mounting a magnet and a chip mounter aiming at the defects of the prior art, and replaces the traditional manual production mode, thereby improving the production efficiency and the production quality of products.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an automatic magnet mounting and chip mounter, which comprises a material loading track, a plurality of material loading jigs, a product loading mechanism, a product dispensing mechanism, a magnet mounting mechanism, an iron sheet sticking mechanism and a product unloading mechanism, wherein the material loading jigs are arranged on the material loading track in a sliding manner, the material loading track is annular, and the product loading mechanism, the product dispensing mechanism, the magnet mounting mechanism, the iron sheet sticking mechanism and the product unloading mechanism are sequentially arranged around one side of the material loading track.

The pushing driving device for pushing the carrying jig to move is arranged on the carrying rail, and the jig positioning device for stopping the carrying jig from moving is arranged on the carrying rail.

The feeding mechanism comprises a material storage rack arranged on one side of a material carrying track, a feeding plate arranged on the material storage rack in a moving mode, a feeding driving device used for driving the feeding plate to move and a feeding manipulator arranged on one side of the material storage rack, wherein a material pressing block used for pressing down a product is arranged in the material storage rack, a first discharging hole is formed in the lower portion of the material storage rack, and a bearing cavity used for bearing the product is formed in the feeding plate.

The product dispensing mechanism comprises a dispensing device movably arranged above the material carrying track and a dispensing displacement driving mechanism for driving the dispensing device to displace, wherein the dispensing displacement driving mechanism comprises a first linear module, a second linear module which is perpendicular to the first linear module, a dispensing support arranged on the second linear module, a first lifting block arranged on the dispensing support and a first driving cylinder arranged on the dispensing support and used for driving the first lifting block to lift, the first lifting block is slidably provided with a second lifting block and a second driving cylinder used for driving the second lifting block to lift, and the dispensing device is connected with the second lifting block.

The magnet mounting mechanism comprises a magnet feeding mechanism arranged on one side of the material carrying track, a magnet suction head movably arranged above the material carrying track and a first displacement driving mechanism for driving the magnet suction head to displace, wherein the first displacement driving mechanism comprises a third linear module, a fourth linear module which is perpendicular to the third linear module, a suction head support arranged on the fourth linear module, a third lifting block arranged on the suction head support and a third driving cylinder which is arranged on the suction head support and used for driving the third lifting block to lift; the third lifting block is provided with a first sliding block in a sliding manner, both sides of the first sliding block are provided with spring pieces, one end of each spring piece is connected with the suction head support, and the other end of each spring piece is connected with the first sliding block; the magnet suction head is connected with the first sliding block.

Further, the magnet mounting mechanism further comprises a suction head rotation driving device which is arranged on the first sliding block and used for driving the magnet suction head to rotate.

Further, magnet feed mechanism includes the material loading supporting seat, rotates the rolling disc that sets up on the material loading supporting seat, sets up a plurality of storage tank group on the rolling disc, sets up layering in the storage tank group, is used for driving the first rotation drive arrangement of rolling disc pivoted, rotates and sets up in the material receiving disc of material loading supporting seat and be used for driving the second rotation drive arrangement of material receiving disc pivoted, the rolling disc is equipped with the second discharge gate with the storage tank group intercommunication, the circumference of material receiving disc is provided with a plurality of and holds the silo, it corresponds the setting with the second discharge gate to hold the silo.

The iron sheet pasting mechanism comprises an iron sheet feeding mechanism arranged on one side of the material carrying track, an iron sheet suction head movably arranged above the material carrying track and a second displacement driving mechanism for driving the iron sheet suction head to displace.

The automatic magnet and chip mounter further comprises a magnet detection mechanism arranged between the magnet installation mechanism and the iron sheet sticking mechanism and an iron sheet detection mechanism arranged between the iron sheet sticking mechanism and the product unloading mechanism.

The automatic magnet mounting and mounting machine further comprises a magnet pressure maintaining mechanism arranged between the magnet mounting mechanism and the iron sheet mounting mechanism.

The utility model has the beneficial effects that:

the utility model provides an automatic magnet mounting and chip mounter, wherein a material loading jig moves annularly on an annular material loading track and sequentially passes through a product feeding mechanism, a product dispensing mechanism, a magnet mounting mechanism, an iron sheet sticking mechanism and a product unloading mechanism. The product feeding mechanism transfers the product to be processed to the material loading jig, the material loading jig carries the product and then moves to the product dispensing mechanism under the guide of the material loading guide rail, and at the moment, the product dispensing mechanism dispenses the product carried by the material loading jig; after dispensing is completed, the product loaded by the material loading jig for dispensing is moved to the magnet mounting mechanism, and at the moment, the magnet mounting mechanism mounts the magnet on the product at the position where the product is dispensed, so that the magnet is mounted on the product; after the magnets are installed, the product with the magnets is carried by the carrying jig and moves to the iron sheet attaching mechanism, and at the moment, the iron sheet attaching mechanism attaches the iron sheet to the magnets corresponding to the product; and finally, the carrying jig transfers the product with the iron sheet attached to a product unloading mechanism, and the product is unloaded to complete the magnet installation and remove the product with the iron sheet attached from the carrying jig, so that the unloading of the product is completed. According to the utility model, through the product feeding mechanism, the product dispensing mechanism, the magnet mounting mechanism, the iron sheet sticking mechanism and the product discharging mechanism, a plurality of procedures of automatic feeding, automatic dispensing, automatic magnet mounting, automatic iron sheet sticking, automatic discharging and the like of products are realized, the whole process is free from manual participation, the labor cost is reduced, the defective rate caused by manual work is avoided, and the production efficiency and the production quality of the products are improved.

Drawings

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

FIG. 2 is a schematic perspective view of another view of the present utility model;

FIG. 3 is a top view of the present utility model;

FIG. 4 is a schematic structural view of a product loading mechanism of the present utility model;

FIG. 5 is a schematic structural view of a product dispensing mechanism of the present utility model;

FIG. 6 is a schematic view of a loading rail according to the present utility model;

FIG. 7 is a top view of the loading rail of the present utility model;

fig. 8 is a schematic structural view of a magnet feeding mechanism according to the present utility model;

FIG. 9 is a schematic view of a magnetic tip and a first displacement driving mechanism according to the present utility model;

fig. 10 is a schematic structural view of the magnet holding mechanism of the present utility model.

Detailed Description

The utility model will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the utility model. The present utility model will be described in detail below with reference to the accompanying drawings.

In the description of the embodiments of the present utility model, it should be noted that, if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate an azimuth or a positional relationship based on that shown in the drawings, or an azimuth or a positional relationship in which the product of the present utility model is conventionally put when used, it is merely for convenience of describing the present utility model and simplifying the description, and it does not indicate or imply that the apparatus or element to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

As shown in fig. 1 to 10, the automatic magnet and chip mounter provided by the utility model comprises a loading track 1, a plurality of loading jigs 11, a product loading mechanism 2, a product dispensing mechanism 3, a magnet mounting mechanism 4, an iron sheet sticking mechanism 5 and a product unloading mechanism 6 which are slidably arranged on the loading track 1, wherein the loading track 1 is in a ring shape, and the product loading mechanism 2, the product dispensing mechanism 3, the magnet mounting mechanism 4, the iron sheet sticking mechanism 5 and the product unloading mechanism 6 are sequentially arranged around one side of the loading track 1.

In practical application, the carrying jig 11 moves annularly on the annular carrying track 1 and sequentially passes through the product feeding mechanism 2, the product dispensing mechanism 3, the magnet mounting mechanism 4, the iron sheet attaching mechanism 5 and the product discharging mechanism 6. The product feeding mechanism 2 transfers the product to be processed to the carrying jig 11, the carrying jig 11 carries the product and then moves to the product dispensing mechanism 3 under the guidance of the carrying guide rail, and at the moment, the product dispensing mechanism 3 dispenses the product carried by the carrying jig 11; after dispensing is completed, the product loaded by the material loading jig 11 and dispensed is moved to the magnet mounting mechanism 4, and at the moment, the magnet mounting mechanism 4 mounts the magnet on the position where the product is dispensed, so that the magnet is mounted on the product; after the magnets are installed, the product with the magnets is carried by the carrying jig 11 and moved to the iron sheet attaching mechanism 5, and at the moment, the iron sheet attaching mechanism 5 attaches the iron sheets to the magnets corresponding to the product; finally, the carrying jig 11 transfers the iron sheet-finished product to the product unloading mechanism 6, and the product is unloaded and the magnet installation is finished and the iron sheet-finished product is removed from the carrying jig 11, so that the unloading of the product is finished. According to the utility model, through the product feeding mechanism 2, the product dispensing mechanism 3, the magnet mounting mechanism 4, the iron sheet sticking mechanism 5 and the product discharging mechanism 6, a plurality of procedures of automatic feeding, automatic dispensing, automatic magnet mounting, automatic iron sheet sticking, automatic discharging and the like of products are realized, the whole process does not need to be manually participated, the labor cost is reduced, the reject ratio caused by manpower is avoided, and the production efficiency and the production quality of the products are improved.

In this technical scheme, set up the pushing drive arrangement 12 that is used for pushing the removal of carrying tool 11 on carrying the material track 1, be provided with the tool positioner 13 that is used for stopping carrying tool 11 to remove on carrying the material track 1. Specifically, the pushing driving device 12 is a cooperation of a pushing block and a driving cylinder. A push drive 12 is provided at each right angle of the loading rail 1. The driving cylinder drives the pushing block to move, and the moving pushing block pushes the material carrying jig 11 to move on the material carrying track 1. In operation, the jig positioning device 13 is used for stopping the material carrying jig 11, and preventing the material carrying jig 11 from position deviation to affect product dispensing, magnet installation, iron sheet sticking and other processing. One side of the material carrying jig 11 is provided with a positioning groove, and the jig positioning device 13 comprises a driving cylinder arranged on one side of the material carrying rail 1 and a stop block connected with a piston rod of the driving cylinder, and the stop block is matched with the positioning groove in shape. When the device works, the driving cylinder drives the stop block to move until the stop block is embedded into the positioning groove of the material carrying jig 11, so that the stop of the material carrying jig 11 is realized; otherwise, the stop block is retracted, and the material carrying jig 11 can move.

In this technical scheme, product feed mechanism 2 is including setting up in the storage rack 21 in one side of carrying track 1, remove the charge plate 23 that sets up in storage rack 21 for the pay-off drive arrangement 25 that drive charge plate 23 removed and set up the one side material loading manipulator 26 of storage rack 21, be provided with the material pressing piece 22 that is used for pushing down the product in the storage rack 21, the below of storage rack 21 is provided with first discharge gate, the charge plate 23 is provided with the chamber 24 that bears that is used for bearing the product.

In practical application, a plurality of products to be processed are stacked in the storage rack 21, and the pressing block 22 is used for pressing the products in the storage rack 21. When the bearing cavity 24 of the feeding plate 23 is positioned at the first discharge hole of the feeding frame 21, the stacked products fall onto the bearing cavity 24 of the feeding plate 23 under the gravity action of the pressing block 22; then, the feeding driving device 25 drives the feeding plate 23 to move out of the storage rack 21, at this time, the feeding plate 23 transfers the product to the outside of the storage rack 21, and then the feeding manipulator 26 transfers the product on the feeding plate 23 to the loading fixture 11. When the empty feed plate 23 is returned to the magazine 21 under the drive of the feed drive 25, the next product falls under the weight of the presser 22 onto the carrying chamber 24 of the feed plate 23. The product feeding mechanism 2 realizes uninterrupted feeding of products, effectively improves the feeding efficiency of the products, and solves the problem of time and labor waste of traditional manual feeding.

In this technical scheme, product point gum machine constructs 3 including the activity set up in the point gum machine 31 of carrying the top of material track 1 and be used for driving the point gum machine 31 to displace the point gum displacement actuating mechanism 32, point gum displacement actuating mechanism 32 includes first straight line module 321, with the second straight line module 322 of first straight line module 321 perpendicular setting, set up the point gum support 323 on second straight line module 322, set up the first elevating block 324 on the point gum support 323 and set up and be used for driving the first actuating cylinder 325 that elevating block 324 goes up and down, slide on the first elevating block 324 and be provided with the second actuating cylinder 327 that is used for driving the second elevating block 326 to go up and down, point gum machine 31 is connected with the second elevating block 326.

In practical applications, the first linear module 321 and the second linear module are vertically arranged, so that the dispensing support 323 can be driven to move back and forth and left and right on a plane, thereby driving the dispenser 31 to move back and forth and left and right. The first driving cylinder 325 drives the first lifting block 324 to lift and lower, and further drives the dispenser 31 to lift and lower. The structure is simple and compact in design, stable and reliable in operation, and the three-axis linkage of the dispenser 31 can be realized. Under the driving of the first linear module 321 and the second linear module, the dispenser 31 moves to the position of the product to be glued, and then the first driving cylinder 325 drives the first lifting block 324 to descend to the preset height together with the dispenser 31; then, the second driving cylinder 327 drives the second lifting block 326 to lift, so as to drive the dispenser 31 to perform a dispensing operation.

In this solution, the magnet mounting mechanism 4 includes a magnet feeding mechanism 41 disposed on one side of the loading rail 1, a magnet suction head 42 movably disposed above the loading rail 1, and a first displacement driving mechanism 43 for driving the displacement of the magnet suction head 42, where the first displacement driving mechanism 43 includes a third linear module 431, a fourth linear module 432 disposed perpendicular to the third linear module 431, a suction head support 433 disposed on the fourth linear module 432, a third lifting block 434 disposed on the suction head support 433, and a third driving cylinder 435 disposed on the suction head support 433 and used for driving the third lifting block 434 to lift; the third lifting block 434 is slidably provided with a first sliding block 436, both sides of the first sliding block 436 are provided with a spring member 437, one end of the spring member 437 is connected with the suction head support 433, and the other end of the spring member 437 is connected with the first sliding block 436; the magnet suction head 42 is connected to a first slide block 436.

In practical application, under the cooperation of the third linear module 431 and the fourth linear module 432, the suction head support 433 can move back and forth and left and right on the same plane, so as to drive the magnet suction head 42 to move. The third driving cylinder 435 drives the third lifting block 434 to lift and lower the magnet suction head 42. When the magnet feeding mechanism 41 works, external magnets are fed one by one, and then the first displacement driving mechanism 43 drives the magnet suction head 42 to suck the magnets conveyed by the magnet feeding mechanism 41; after the magnets are sucked, the first displacement driving mechanism 43 drives the magnet suction heads 42 to move the magnets to the positions corresponding to the products of the loading jig 11 for installation. When the magnet suction head 42 descends and touches the product, the first sliding block 436 and the spring member 437 can play a role of elastic buffer protection, so as to prevent the magnet suction head 42 from making hard contact with the product to cause the product to be pressed.

In this embodiment, the magnet mounting mechanism 4 further includes a suction head rotation driving device 44 disposed on the first sliding block 436 and configured to drive the rotation of the magnet suction head 42. Specifically, the suction head rotation driving device 44 is a driving motor. The suction head rotation driving device 44 drives the magnet suction head 42 to rotate, so that the installation angle and the position of the magnet are adjusted by the magnet suction head 42, and the magnet can be more perfectly installed on the corresponding position of the product.

In this technical scheme, magnet feed mechanism 41 includes material loading supporting seat 411, rotates the rolling disc 412 that sets up on material loading supporting seat 411, sets up a plurality of stock chest group 413 on rolling disc 412, sets up the layering 414 in stock chest group 413, is used for driving rolling disc 412 pivoted first rotation drive arrangement 415, rotates the holding plate 416 that sets up in material loading supporting seat 411 and is used for driving holding plate 416 pivoted second rotation drive arrangement 418, rolling disc 412 is equipped with the second discharge gate with stock chest group 413 intercommunication, the circumference of holding plate 416 is provided with a plurality of stock chest 417, stock chest 417 corresponds the setting with the second discharge gate.

In practice, a plurality of magnets are stacked in the magazine 413, and the bead 414 is used to apply gravity to the magnets stacked in the magazine. Under the action of gravity, the magnet at the lowest position of the storage tank set 413 falls into the material bearing tank 417 of the material bearing disk 416 through the second material outlet. Each time when the magnet suction head 42 sucks a magnet on the material receiving tray 416, the second rotation driving device 418 drives the material receiving tray 416 to rotate a position of the material receiving slot 417, so that the magnet at the lowest position of the material storage slot 413 falls into the material receiving slot 417 of the material receiving tray 416 through the second material outlet. Thus, each time the tray 416 is rotated, the magnet on the tray 416 is replenished so that the magnet tip 42 can pick up one magnet at a time.

In this technical solution, the iron sheet attaching mechanism 5 includes an iron sheet feeding mechanism 51 disposed at one side of the loading rail 1, an iron sheet suction head 52 movably disposed above the loading rail 1, and a second displacement driving mechanism 53 for driving the displacement of the iron sheet suction head 52.

In this embodiment, the iron sheet feeding mechanism 51 includes a vibrating tray disposed on one side of the loading rail 1, an iron sheet bearing seat disposed at a discharge end of the vibrating tray, and a fourth driving cylinder for driving the iron sheet bearing seat to move. The structure of the second displacement driving mechanism 53 is the same as that of the first displacement driving mechanism 43, and will not be described here.

In practical application, the second displacement driving mechanism 53 drives the iron sheet suction head 52 to move to the outlet position of the iron sheet feeding mechanism 51, and the iron sheet suction head 52 sucks the iron sheet and then moves to the iron sheet patch position corresponding to the product of the material loading jig 11 under the driving of the second displacement driving mechanism 53; finally, the second displacement driving mechanism 53 drives the iron piece suction head 52 to suck down to attach the iron piece to the product.

In this technical scheme, automatic installation magnet and chip mounter still include set up magnet detection mechanism 14 between magnet installation mechanism 4 and subsides iron sheet mechanism 5 and set up the iron sheet detection mechanism 15 between subsides iron sheet mechanism 5 and product discharge mechanism 6. In this embodiment, the magnet detecting mechanism 14 includes a first detecting support disposed on the loading rail 1 and a magnet sensor disposed on the first detecting support. The iron sheet detection mechanism 15 comprises a second detection support arranged on the material carrying track 1 and an iron sheet sensor arranged on the second detection support.

In practical application, the magnet detecting mechanism 14 is used for detecting whether the magnets are all installed on the product, and if the detection is qualified, the next step is continued; otherwise, if the detection is failed, the product is classified as defective and is moved out to the loading jig 11. The iron sheet detecting means 15 is used for attaching iron sheets to the products.

In this technical scheme, automatic installation magnet and chip mounter still include set up magnet pressurize mechanism 16 between magnet installation mechanism 4 and iron sheet mechanism 5. The magnet pressure maintaining mechanism 16 comprises a pressure maintaining support 161 arranged on the material carrying track 1, a pressure maintaining block 162 arranged on the pressure maintaining support 161 in a sliding manner, a fifth driving cylinder 164 for driving the pressure maintaining block 162 to lift and a flexible pressure maintaining head 163 arranged on the pressure maintaining block 162.

In this embodiment, the product unloading mechanism 6 includes an unloading manipulator 61 disposed at one side of the loading rail 1 and a conveyor belt mechanism 62 for conveying products. In practical application, after the processes of dispensing, mounting magnets and attaching iron sheets are completed, the product is transferred to the material taking position of the material unloading manipulator 61 by the material loading jig 11, and then the material unloading manipulator 61 is taken out from the material loading jig 11 and transferred to the conveying belt mechanism 62 for unloading.

The present utility model is not limited to the preferred embodiments, but is intended to be limited to the following description, and any modifications, equivalent changes and variations in light of the above-described embodiments will be apparent to those skilled in the art without departing from the scope of the present utility model.

Claims

1. An automatic installation magnet and chip mounter, its characterized in that: including carrying material track, sliding a plurality of carrier tool, product feed mechanism, product point gum machine constructs, magnet installation mechanism, subsides iron sheet mechanism and product shedding mechanism that set up on carrying the material track, it is annular and establishes to carry the material track, product feed mechanism, product point gum machine construct, magnet installation mechanism, subsides iron sheet mechanism and product shedding mechanism encircle in proper order and carry one side of material track and establish.

2. The automatic magnet and chip mounter according to claim 1, wherein: the pushing device is characterized in that a pushing driving device for pushing the carrying jig to move is arranged on the carrying rail, and a jig positioning device for stopping the carrying jig from moving is arranged on the carrying rail.

3. The automatic magnet and chip mounter according to claim 1, wherein: the product feeding mechanism comprises a material storage rack arranged on one side of a material carrying track, a feeding plate arranged on the material storage rack in a moving mode, a feeding driving device used for driving the feeding plate to move and a material feeding manipulator arranged on one side of the material storage rack, a material pressing block used for pressing down products is arranged in the material storage rack, a first discharging hole is formed in the lower portion of the material storage rack, and a bearing cavity used for bearing the products is formed in the feeding plate.

4. The automatic magnet and chip mounter according to claim 1, wherein: the product dispensing mechanism comprises a dispensing device movably arranged above the material carrying track and a dispensing displacement driving mechanism for driving the dispensing device to displace, wherein the dispensing displacement driving mechanism comprises a first linear module, a second linear module perpendicular to the first linear module, a dispensing support arranged on the second linear module, a first lifting block arranged on the dispensing support and a first driving cylinder arranged on the dispensing support and used for driving the first lifting block to lift, the first lifting block is slidably provided with a second lifting block and a second driving cylinder used for driving the second lifting block to lift, and the dispensing device is connected with the second lifting block.

5. The automatic magnet and chip mounter according to claim 1, wherein: the magnet mounting mechanism comprises a magnet feeding mechanism arranged on one side of the material carrying track, a magnet suction head movably arranged above the material carrying track and a first displacement driving mechanism for driving the magnet suction head to displace, wherein the first displacement driving mechanism comprises a third linear module, a fourth linear module which is perpendicular to the third linear module, a suction head support arranged on the fourth linear module, a third lifting block arranged on the suction head support and a third driving cylinder which is arranged on the suction head support and used for driving the third lifting block to lift; the third lifting block is provided with a first sliding block in a sliding manner, both sides of the first sliding block are provided with spring pieces, one end of each spring piece is connected with the suction head support, and the other end of each spring piece is connected with the first sliding block; the magnet suction head is connected with the first sliding block.

6. The automatic magnet and chip mounter according to claim 5, wherein: the magnet mounting mechanism further comprises a suction head rotation driving device which is arranged on the first sliding block and used for driving the magnet suction head to rotate.

7. The automatic magnet and chip mounter according to claim 5, wherein: magnet feed mechanism includes the material loading supporting seat, rotates the rolling disc that sets up on the material loading supporting seat, sets up a plurality of storage tank group on the rolling disc, sets up layering in the storage tank group, is used for driving the first rotation drive arrangement of rolling disc pivoted, rotates and sets up in the material-bearing disc of material loading supporting seat and be used for driving the second rotation drive arrangement of material-bearing disc pivoted, the rolling disc is equipped with the second discharge gate with storage tank group intercommunication, the circumference of material-bearing disc is provided with a plurality of and holds the silo, hold the silo and correspond the setting with the second discharge gate.

8. The automatic magnet and chip mounter according to claim 1, wherein: the iron sheet sticking mechanism comprises an iron sheet feeding mechanism arranged on one side of the material carrying track, an iron sheet suction head movably arranged above the material carrying track and a second displacement driving mechanism for driving the iron sheet suction head to displace.

9. The automatic magnet and chip mounter according to claim 1, wherein: the automatic magnet mounting and chip mounter further comprises a magnet detection mechanism arranged between the magnet mounting mechanism and the iron sheet sticking mechanism and an iron sheet detection mechanism arranged between the iron sheet sticking mechanism and the product unloading mechanism.

10. The automatic magnet and chip mounter according to claim 1, wherein: the automatic magnet mounting and mounting machine further comprises a magnet pressure maintaining mechanism arranged between the magnet mounting mechanism and the iron sheet mounting mechanism.