CN214398885U

CN214398885U - Modular chip burning machine

Info

Publication number: CN214398885U
Application number: CN202023322482.2U
Authority: CN
Inventors: 桂义勇
Original assignee: Suzhou Yongce Electronic Co ltd
Current assignee: Suzhou Yongce Electronic Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-10-15
Anticipated expiration: 2030-12-31

Abstract

The utility model discloses a modularized chip burning machine, which comprises a frame, a substrate and a shell, wherein the substrate and the shell are arranged on the frame, an X-axis mechanism, at least one burning mechanism, a feeding mechanism and a discharging mechanism are respectively arranged on the substrate, a spare material tray is arranged between the feeding mechanism and the burning mechanism and is arranged on the substrate, one end of the spare material tray, which is close to the feeding mechanism, is provided with a notch for embedding a conveyor belt of the feeding mechanism; the burning mechanism comprises a bottom plate with a mounting through hole in the center, a burner arranged on the bottom plate and a cover plate positioned above the burner; the lower surface of the bottom plate is connected with a plurality of first mounting bars for the guide pillars to penetrate through. The utility model discloses a to the accurate pushing down of burning ware, avoid the damage to the chip when improving the burning precision, can realize dismantling, replacing the whole of burning mechanism simultaneously to the adaptation is in the burning seat of the chip of unidimensional not and different models, the customer's of being convenient for selective use more.

Description

Modular chip burning machine

Technical Field

The utility model relates to a chip burns record technical field, especially relates to modularization chip burns record machine.

Background

The chip is a commonly used electronic component in the electronic industry at present, and has a plurality of manufacturing processes. Burning is one of the processes in manufacturing chips, points to be controlled during burning are required, along with the continuous development of science and technology, the integration level and the popularity of IC which can be burned are higher and higher, and the requirement on the production capacity of a chip burning machine is also higher and higher. The chip burning process generally comprises different links of feeding and discharging, material transferring and material burning, the existing burning equipment has incomplete functions, can not be compatible with various IC chip packages, and can meet the burning requirements by a plurality of types of burning equipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a modularization chip burning machine, this modularization chip burning machine have realized pushing down the precision of burning ware, avoid the damage to the chip when improving the burning precision, can realize whole dismantlement, the replacement to burning mechanism simultaneously to the adaptation is in the not unidimensional chip and the burning seat of different models, the selective use of the customer of being convenient for more.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a modularized chip burning machine comprises a rack, a substrate and a shell, wherein the substrate and the shell are arranged on the rack, and the substrate divides the space in the shell into an operation area positioned above the substrate and a control area positioned below the substrate;

the substrate is provided with an X-axis mechanism, at least one burning mechanism, a feeding mechanism and a discharging mechanism respectively, the feeding mechanism and the discharging mechanism are located at two ends of the burning mechanism respectively, the X-axis mechanism is located on the outer side of the burning mechanism, a Y-axis mechanism capable of moving along the X-axis direction is mounted on the X-axis mechanism, and a sucking mechanism is mounted on the Y-axis mechanism through a mounting seat capable of moving along the Y-axis direction, so that the sucking mechanism can move above the burning mechanism, the feeding mechanism and the discharging mechanism;

a spare material tray is arranged between the feeding mechanism and the burning mechanism and is arranged on the substrate, and a notch for embedding a conveyor belt of the feeding mechanism is formed in one end, close to the feeding mechanism, of the spare material tray;

the X-axis mechanism comprises 2X-axis slide rails arranged in parallel and an X-axis lead screw positioned between the 2X-axis slide rails, one end of the X-axis lead screw is connected with an X-axis motor, the other end of the X-axis lead screw is installed on a base plate through an X-axis bearing seat, grooves for embedding the X-axis slide rails and the X-axis bearing seat are respectively arranged on the upper surface of the base plate, and at least one positioning column is arranged in each groove and positioned outside the X-axis slide rails and the X-axis bearing seat;

the burning mechanism which is arranged on the base plate through a supporting seat comprises a base plate, a burner and a cover plate, wherein the center of the base plate is provided with an installation through hole, the burner is arranged on the base plate, the cover plate is positioned above the burner, the upper ends of at least two guide pillars are fixedly connected with the cover plate, the lower ends of the guide pillars penetrate through the base plate and are connected with a movable plate, a cylinder is arranged below the movable plate, and a piston rod of the cylinder is connected with the movable plate and used for driving the movable plate to move up and down;

the lower surface of the bottom plate is connected with a plurality of first mounting strips for guide pillars to penetrate through, the guide pillars are connected with the first mounting strips and the bottom plate through long linear guide rails penetrating through the first mounting strips and embedded into the bottom plate, and piston rods of the cylinders are fixedly connected with the lower surface of the movable plate.

The further improved scheme in the technical scheme is as follows:

1. in the above scheme, the Y-axis mechanism includes a Y-axis motor, a Y-axis lead screw with one end connected with the Y-axis motor, two Y-axis slide rails arranged in parallel, a plurality of Y-axis slide blocks movably mounted on the Y-axis slide rails, and a Y-axis mount base connected with the X-axis mechanism.

2. In the above scheme, the device further comprises a calibration mechanism, the calibration mechanism further comprises an upper camera and a lower camera, the upper camera is mounted on the material suction mechanism, and the lower camera is mounted on the substrate and is arranged opposite to the upper camera.

3. In the above scheme, a first sensor is respectively arranged at two ends of an X-axis slide rail of the X-axis mechanism, and a first blocking piece corresponding to the first sensor is connected to the material sucking mechanism.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

1. the utility model discloses modularization chip burns record machine, it has realized the full process automation operation of chip material loading, burning record, unloading in the chip burns record process, and the precision is high, can circulate the operation, has improved the precision, efficiency and the degree of automation of chip burning record; in addition, the whole burning mechanism can be detached and replaced, so that the burning mechanism is suitable for chips with different sizes and even burning seats with different models, and is more convenient for customers to select and use.

2. The utility model discloses modularization chip burns the recorder, be provided with the recess that supplies X axle slide rail, X axle bearing frame embedding on the upper surface of its base plate respectively, be provided with at least one reference column in the recess and outside X axle slide rail, X axle bearing frame, both can simplify the overall arrangement, and be convenient for to the quick installation of actuating mechanism again, require greatly reduced to installer's specialty; in addition, the two ends of an X-axis sliding rail of the X-axis mechanism are respectively provided with a first sensor, the sucking mechanism is connected with a first blocking piece corresponding to the first sensor, the sucking mechanism can be prevented from being damaged to personnel by rushing out of the operating platform, and data can be fed back to the control center to determine an operation origin, so that the burning precision of the chip is ensured.

3. The utility model discloses modularization chip burns record machine, its bottom plate lower surface is connected with the first mounting bar that a plurality of supplied the guide pillar to pass, through one between guide pillar and first mounting bar, the bottom plate run through first mounting bar and imbed the long linear guide rail in the bottom plate and be connected, the piston rod of cylinder is connected with the lower fixed surface of fly leaf, can avoid the cylinder to carry out the pull-down in-process to the mounting panel and produce the skew, rock, guarantees the straightness that hangs down of pull-down in-process motion, realizes pushing down the precision of burning record ware, avoids the damage to the chip when improving the burning record precision.

4. The utility model discloses modularization chip burns record machine, its feed mechanism with burn and be provided with a reserve charging tray between the mechanism, reserve charging tray is installed on the base plate, reserve charging tray is close to one of feed mechanism and serves the breach that opens the conveyer belt that supplies feed mechanism and imbed, and reserve magazine can complement the quantity of the unqualified product that produces in the effect of burning of once complete, guarantees the integrality of chip quantity and need not the manual work and complement in the ejection of compact charging tray, further improves degree of automation, reduces the manpower and uses, improves production efficiency.

Drawings

FIG. 1 is a schematic structural view of the modular chip burner of the present invention;

FIG. 2 is a schematic view of the internal structure of the modular chip burner of the present invention;

FIG. 3 is a schematic structural view of an X-axis mechanism and a Y-axis mechanism of the modular chip writer of the present invention;

FIG. 4 is a schematic structural view of the groove and the positioning post of the modular chip burner of the present invention;

FIG. 5 is a schematic view of the structure of the burning mechanism of the modular chip burner of the present invention;

FIG. 6 is the schematic view of the local structure of the burning mechanism of the modular chip burner of the present invention.

In the above drawings: 1. a substrate; 2. an X-axis mechanism; 201. an X-axis motor; 202. an X-axis lead screw; 203. an X-axis slide rail; 206. an X-axis bearing seat; 3. a Y-axis mechanism; 301. a Y-axis motor; 302. a Y-axis lead screw; 303. a Y-axis slide rail; 306. A Y-axis mounting base; 4. a material sucking mechanism; 5. a burning mechanism; 6. a calibration mechanism; 601. mounting a camera; 602. a lower camera; 7. a first sensor; 10. a mounting seat; 12. A base plate; 13. a cover plate; 14. a burner; 15. a movable plate; 16. a guide post; 17. a cylinder; 18. a support plate; 19. a pull rod; 20. a long linear guide rail; 21. a frame; 22. a housing; 23. a Y feed mechanism; 24. a discharging mechanism; 26. a spare material tray; 28. a groove; 29. a positioning column; 37. a first mounting bar.

Detailed Description

Example 1: a modularized chip burner comprises a frame 21, a substrate 1 and a shell 22, wherein the substrate 1 is arranged on the frame 21, and the space in the shell 22 is divided into an operation area above the substrate 1 and a control area below the substrate 1 by the substrate 1;

the substrate 1 is respectively provided with an X-axis mechanism 2, at least one burning mechanism 5, a feeding mechanism 23 and a discharging mechanism 24, the feeding mechanism 23 and the discharging mechanism 24 are respectively positioned at two ends of the burning mechanism 5, the X-axis mechanism 2 is positioned at the outer side of the burning mechanism 5, the X-axis mechanism 2 is provided with a Y-axis mechanism 3 capable of moving along the X-axis direction, and a material sucking mechanism 4 is arranged on the Y-axis mechanism 3 through an installation seat 10 capable of moving along the Y-axis direction, so that the material sucking mechanism 4 can move above the burning mechanism 5, the feeding mechanism 23 and the discharging mechanism 24;

a spare material tray 26 is arranged between the feeding mechanism 23 and the burning mechanism 5, the spare material tray 26 is arranged on the substrate 1, and a notch for embedding a conveyor belt of the feeding mechanism 23 is formed in one end, close to the feeding mechanism 23, of the spare material tray 26;

the X-axis mechanism 2 comprises 2X-axis slide rails 203 arranged in parallel and an X-axis lead screw 202 positioned between the 2X-axis slide rails 203, one end of the X-axis lead screw 202 is connected with an X-axis motor 201, the other end of the X-axis lead screw 202 is installed on the substrate 1 through an X-axis bearing seat 206, grooves 28 for the X-axis slide rails 203 and the X-axis bearing seat 206 to be embedded are respectively formed in the upper surface of the substrate 1, and at least one positioning column 29 is arranged in the grooves 28 and positioned outside the X-axis slide rails 203 and the X-axis bearing seat 206;

the burning mechanism 5 which is arranged on the substrate 1 through a supporting seat 11 comprises a bottom plate 12 with a central mounting through hole, a burner 14 arranged on the bottom plate 12 and a cover plate 13 positioned above the burner 14, the upper ends of at least two guide posts 16 are fixedly connected with the cover plate 13, the lower ends of the guide posts 16 penetrate through the bottom plate 12 and are connected with a movable plate 15, an air cylinder 17 is arranged below the movable plate 15, and a piston rod of the air cylinder 17 is connected with the movable plate 15 and used for driving the movable plate 15 to move up and down;

the lower surface of the bottom plate 12 is connected with a plurality of first mounting bars 37 for the guide post 16 to pass through, the guide post 16 is connected with the first mounting bars 37 and the bottom plate 12 through a long linear guide rail 20 which penetrates through the first mounting bars 37 and is embedded into the bottom plate 12, and a piston rod of the air cylinder 17 is fixedly connected with the lower surface of the movable plate 15.

The Y-axis mechanism 3 comprises a Y-axis motor 301, a Y-axis lead screw 302 with one end connected with the Y-axis motor 301, two Y-axis slide rails 303 arranged in parallel, a plurality of Y-axis slide blocks movably mounted on the Y-axis slide rails 303, and a Y-axis mounting base 306 connected with the X-axis mechanism 2.

There is also a calibration mechanism 6, the calibration mechanism 6 further includes an upper camera 601 and a lower camera 602, the upper camera 601 is mounted on the suction mechanism 4, and the lower camera 602 is mounted on the substrate 1 and is disposed opposite to the upper camera 601.

Example 2: a modularized chip burner comprises a frame 21, a substrate 1 and a shell 22, wherein the substrate 1 is arranged on the frame 21, and the space in the shell 22 is divided into an operation area above the substrate 1 and a control area below the substrate 1 by the substrate 1;

the burning mechanism 5 comprises a bottom plate 12 with a mounting through hole in the center, a burner 14 mounted on the bottom plate 12 and a cover plate 13 positioned above the burner 14, the upper ends of at least two guide posts 16 are fixedly connected with the cover plate 13, the lower ends of the guide posts 16 penetrate through the bottom plate 12 and are connected with a movable plate 15, an air cylinder 17 is mounted below the movable plate 15, and a piston rod of the air cylinder 17 is connected with the movable plate 15 and used for driving the movable plate 15 to move up and down;

Two ends of the X-axis slide rail 203 of the X-axis mechanism 2 are respectively provided with a first sensor 7, and the material suction mechanism 4 is connected with a first blocking piece corresponding to the first sensor 7.

When the modularized chip burning machine is adopted, the automatic operation of the whole processes of chip loading, burning and discharging in the chip burning process is realized, the precision is high, the operation can be circulated, and the precision, the efficiency and the automation degree of the chip burning are improved; in addition, the integral disassembly and replacement of the burning mechanism can be realized so as to be adapted to chips with different sizes and even burning seats with different models, and the selection and the use of customers are more convenient;

in addition, the layout can be simplified, the driving mechanism can be conveniently and rapidly installed, and the requirement on the professional degree of an installer is greatly reduced; furthermore, the standby material box can complement the number of unqualified products generated in one complete burning action, the completeness of the number of chips in the discharging material tray is ensured without manual complementation, the automation degree is further improved, the manpower use is reduced, and the production efficiency is improved;

in addition, the device can avoid the deviation and the shaking generated in the process that the cylinder pulls down the mounting plate, ensure the verticality of movement in the pulling down process, realize the accurate pressing of the burner and avoid the damage to the chip while improving the burning precision;

in addition, the device can prevent the device from being rushed out of the operating platform to cause injury to personnel, and can feed back data to the control center to determine the operation origin, so that the burning precision of the chip is ensured.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims

1. The utility model provides a modularization chip burns recorder which characterized in that: the device comprises a rack (21), and a substrate (1) and a shell (22) which are arranged on the rack (21), wherein the substrate (1) divides the space in the shell (22) into an operation area which is positioned above the substrate (1) and a control area which is positioned below the substrate (1);

the substrate (1) is respectively provided with an X-axis mechanism (2), at least one burning mechanism (5), a feeding mechanism (23) and a discharging mechanism (24), the feeding mechanism (23) and the discharging mechanism (24) are respectively positioned at two ends of the burning mechanism (5), the X-axis mechanism (2) is positioned at the outer side of the burning mechanism (5), the X-axis mechanism (2) is provided with a Y-axis mechanism (3) capable of moving along the X-axis direction, and a material sucking mechanism (4) is arranged on the Y-axis mechanism (3) through an installation seat (10) capable of moving along the Y-axis direction, so that the material sucking mechanism (4) can move above the burning mechanism (5), the feeding mechanism (23) and the discharging mechanism (24);

a standby material tray (26) is arranged between the feeding mechanism (23) and the burning mechanism (5), the standby material tray (26) is arranged on the substrate (1), and a notch for embedding the conveyor belt of the feeding mechanism (23) is formed in one end, close to the feeding mechanism (23), of the standby material tray (26);

the X-axis mechanism (2) comprises 2X-axis sliding rails (203) arranged in parallel and an X-axis screw rod (202) located between the 2X-axis sliding rails (203), one end of the X-axis screw rod (202) is connected with an X-axis motor (201), the other end of the X-axis screw rod (202) is installed on the substrate (1) through an X-axis bearing seat (206), grooves (28) for the X-axis sliding rails (203) and the X-axis bearing seat (206) to be embedded are respectively formed in the upper surface of the substrate (1), and at least one positioning column (29) is arranged in each groove (28) and located on the outer sides of the X-axis sliding rails (203) and the X-axis bearing seats (206);

the burning mechanism (5) which is arranged on the substrate (1) through a supporting seat (11) comprises a bottom plate (12) with a central mounting through hole, a burner (14) arranged on the bottom plate (12) and a cover plate (13) positioned above the burner (14), the upper ends of at least two guide posts (16) are fixedly connected with the cover plate (13), the lower ends of the guide posts (16) penetrate through the bottom plate (12) and are connected with a movable plate (15), an air cylinder (17) is arranged below the movable plate (15), and a piston rod of the air cylinder (17) is connected with the movable plate (15) and used for driving the movable plate (15) to move up and down;

the lower surface of the bottom plate (12) is connected with a plurality of first mounting strips (37) for guide pillars (16) to penetrate, the guide pillars (16) are connected with the first mounting strips (37) and the bottom plate (12) through long linear guide rails (20) penetrating through the first mounting strips (37) and embedded into the bottom plate (12), and piston rods of the air cylinders (17) are fixedly connected with the lower surface of the movable plate (15).

2. The modular chip burner of claim 1, wherein: the Y-axis mechanism (3) comprises a Y-axis motor (301), a Y-axis screw rod (302) with one end connected with the Y-axis motor (301), two Y-axis slide rails (303) arranged in parallel, a plurality of Y-axis slide blocks movably mounted on the Y-axis slide rails (303) and a Y-axis mounting seat (306) connected with the X-axis mechanism (2).

3. The modular chip burner of claim 1, wherein: and the calibration mechanism (6) is also provided, the calibration mechanism (6) further comprises an upper camera (601) and a lower camera (602), the upper camera (601) is arranged on the material suction mechanism (4), and the lower camera (602) is arranged on the substrate (1) and is arranged opposite to the upper camera (601).

4. The modular chip burner of claim 1, wherein: two ends of an X-axis sliding rail (203) of the X-axis mechanism (2) are respectively provided with a first sensor (7), and a first blocking piece corresponding to the first sensor (7) is connected to the material sucking mechanism (4).