CN108705204B - Automatic laser device of cell-phone medium plate with synchronous material function of grabbing - Google Patents

Abstract

The invention discloses an automatic laser device of a mobile phone middle plate with a synchronous material grabbing function, which comprises a frame, a switchable feeding mechanism, a switchable discharging mechanism, a positioning mechanism, a laser mechanism and a synchronous material grabbing and sucking mechanism, wherein the frame is provided with a laser mechanism; the synchronous grabbing and sucking mechanism can synchronously complete the procedures of feeding, positioning, laser and discharging of the mobile phone middle plate, so that the working efficiency of the laser device is further improved; and the synchronous grabbing and sucking mechanism can realize the function of moving up and down and left and right only by arranging the X-axis driving device and the Z-axis driving device, so that the arrangement of the driving device is greatly reduced, the whole space of the device is saved, and the power consumption of a laser device can be reduced. In addition, through the feeding mechanism and the discharging mechanism, the working state of continuous feeding and discharging can be provided for the device, and the feeding and discharging efficiency can be further improved.

Description

Automatic laser device of cell-phone medium plate with synchronous material function of grabbing

Technical Field

The invention relates to the technical field of laser devices, in particular to an automatic laser device for a mobile phone middle plate with a synchronous material grabbing function.

Background

In the existing mobile phone middle plate laser technology, the middle plate is placed on a laser machine for laser, and manual feeding and discharging are generally adopted, so that the production efficiency is low, and damage to a human body is possibly caused in the laser process. Therefore, manufacturers producing the equipment all use mechanical arms and other automation devices to carry out automation operation on workpieces, but a plurality of automation devices are needed to be arranged in the existing laser setting with automatic feeding and discharging to finish the machining process of a middle plate; resulting in greater overall power consumption of the device. And moreover, synchronous operation cannot be performed among a plurality of automation devices, so that the production efficiency cannot be further improved. Therefore, a further improvement on the existing automatic laser device for the mobile phone middle plate is needed.

Disclosure of Invention

In view of the above, the invention aims at overcoming the defects in the prior art, and mainly aims to provide an automatic mobile phone middle plate laser device with a synchronous material grabbing function, which is reasonable in structural arrangement and effectively solves the problems of large overall power consumption and production efficiency of the traditional mobile phone middle plate laser device.

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

automatic laser device of cell-phone medium plate with synchronous material function of grabbing, including:

the machine frame is provided with a switchable feeding mechanism mounting platform, a switchable discharging mechanism mounting platform, a positioning mechanism mounting platform and a laser mechanism mounting platform, and is used for synchronously grabbing and sucking the mechanism mounting platform;

the switchable feeding mechanism is assembled on the switchable feeding mechanism mounting platform; the switchable feeding mechanism comprises a first feeding bin and a second feeding bin which can be switched into a feeding station, a feeding pushing mechanism is arranged beside the feeding station, and the feeding pushing mechanism lifts a bottom plate of the first feeding bin or the second feeding bin to move upwards step by step;

the switchable discharging mechanism is assembled on the switchable discharging mechanism mounting platform; the switchable discharging mechanism comprises a first discharging bin and a second discharging bin which can be switched into a discharging station, a discharging descending mechanism is arranged beside the discharging station, and the discharging descending mechanism lifts a bottom plate of the first discharging bin or the second discharging bin to move downwards step by step;

the positioning mechanism is assembled on the positioning mechanism mounting platform; the positioning mechanism comprises a positioning platform, a fixed block and a movable block which are arranged on the positioning platform, and a containing cavity for accurately positioning the middle plate is defined by the fixed block and the movable block;

the laser mechanism is assembled on the laser mechanism mounting platform and comprises a laser head and a laser platform, and the laser head is arranged above the laser platform; the laser platform is arranged in a disc shape, and a plurality of middle plate fixing jigs are arranged on the laser platform at intervals in a surrounding mode; the bottom of the laser platform is connected with an indexing table capable of realizing the rotation of the laser platform;

the synchronous grabbing and sucking mechanism is assembled on a synchronous grabbing and sucking mechanism mounting platform and comprises a movable frame, an X-axis driving device and a Z-axis driving device which drive the translation frame body to move back and forth from left to right, a first sucking piece, a second sucking piece and a third sucking piece which are arranged on the movable frame at intervals, when the first sucking piece corresponds to a feeding station, the second sucking piece synchronously corresponds to a positioning platform, and meanwhile, the third sucking piece corresponds to a laser platform; when the first suction piece moves from the feeding station to the positioning platform, the second suction piece synchronously moves from the positioning platform to the laser platform, and meanwhile, the third suction piece synchronously moves from the laser platform to the discharging station.

As a preferred embodiment: the rack is provided with a sliding rail, the sliding rail is provided with a plurality of slidable mounting blocks, and the feeding mechanism mounting platform and the discharging mechanism mounting platform are connected with the mounting blocks; and a slide rail driving mechanism is arranged at the bottom of the slide rail.

As a preferred embodiment: the upper ends of the first feeding bin and the second feeding bin are provided with material shortage sensors, and the bottoms of the first discharging bin and the second discharging bin are provided with full material sensors.

As a preferred embodiment: the feeding pushing mechanism and the discharging descending mechanism are respectively provided with a base, a driving motor, a support arm and a sliding block, and the driving motor is arranged at one side of the base; the two sides of the support arm are provided with first sliding grooves, the sliding block is provided with a pulley and a mounting concave part, and the pulley is arranged in the first sliding grooves; the bottom plate is connected with the mounting concave.

As a preferred embodiment: the first feeding bin, the second feeding bin, the first discharging bin and the second discharging bin are all bin structures formed by surrounding a first plate, a second plate and positioning strips arranged on two sides of the first plate and the second plate.

As a preferred embodiment: second sliding grooves are formed in two sides of the X-axis driving device, and sliding hooks are arranged in two sides of the bottom of the Z-axis driving device; the Z-axis driving device is arranged in the second sliding groove through the sliding hook so as to realize left-right movement.

As a preferred embodiment: the Z-axis driving device is characterized in that sliding convex parts are arranged on two sides of the Z-axis driving device, a sliding concave part is arranged on the movable frame, and the sliding concave part is arranged on the sliding convex part and can be connected in a vertical sliding mode.

As a preferred embodiment: the fixed blocks are two blocks arranged on the left side and the rear side of the positioning platform, and the movable blocks are two blocks arranged on the front side and the right side of the positioning platform; the movable block is moved towards the fixed block by arranging a driving cylinder.

As a preferred embodiment: the fixing piece and the fixing column for fixing the middle plate of the mobile phone are arranged on the periphery of the middle plate fixing jig.

As a preferred embodiment: the frame is provided with a computer control system for controlling the laser device to work and a display panel for displaying the working state of the laser device; the bottom of the frame is provided with an adjusting foot for adjusting the levelness of the frame.

Compared with the prior art, the invention has obvious advantages and beneficial effects, and in particular, the technical scheme can be as follows: the first suction piece, the second suction piece and the third suction piece which are arranged at intervals of the synchronous material grabbing suction mechanisms can synchronously complete the procedures of feeding, positioning, laser and discharging of the mobile phone middle plate, so that the working efficiency of the laser device is further improved; and the synchronous grabbing and sucking mechanism can realize the function of moving up and down and left and right only through the X-axis driving device and the Z-axis driving device, so that the setting of the driving device is greatly reduced, the whole space of the device is saved, and the power consumption of the laser device can be reduced. In addition, through the feeding mechanism and the discharging mechanism, the working state of continuous feeding and discharging can be provided for the device, and the feeding and discharging efficiency can be further improved.

In order to more clearly illustrate the structural features and efficacy of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and examples.

Drawings

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

FIG. 2 is a schematic view of the feeding device and the feeding pushing mechanism according to the preferred embodiment of the present invention.

FIG. 3 is a schematic view of a synchronous grabbing suction mechanism according to a preferred embodiment of the present invention.

FIG. 4 is a schematic diagram of a laser platform according to a preferred embodiment of the present invention.

FIG. 5 is a schematic view of a positioning mechanism according to a preferred embodiment of the present invention.

FIG. 6 is a schematic view of a feed pushing mechanism according to a preferred embodiment of the present invention.

The attached drawings are used for identifying and describing:

10. frame 101 and slide rail

1011. Mounting block 11 and feeding mechanism mounting platform

12. Discharging mechanism mounting platform 13 and positioning mechanism mounting platform

14. Laser mechanism mounting platform 15 and synchronous grabbing and sucking mechanism mounting platform

16. Adjusting foot 17 and computer control system

18. Display panel 20 and feeding mechanism

21. First feed bin 22, second feed bin

23. Feeding pushing mechanism 30 and discharging mechanism

31. First discharge bin 32, second discharge bin

33. Discharging descending mechanism 41 and base

42. Drive motor 43, arm

431. First chute 44, slide block

441. Pulley 442 and mounting recess

51. Bottom plate 52, first plate

53. Second plate 54, positioning strip

55. Unfilled sensor 56 and filled sensor

60. Positioning mechanism 61 and positioning platform

611. Fixed block 612 and movable block

6121. Actuating cylinder 613 and accommodation chamber

70. Laser mechanism 71 and laser head

72. Laser platform 73, medium plate fixing jig

731. Fixing piece 732 and fixing column

74. Indexing table 80 and synchronous grabbing and sucking mechanism

81. Movable frame 811 and sliding concave portion

82. X-axis driving device 821, second chute

83. Z-axis driving device 831 and sliding hook

832. Sliding projection 84, first suction member

85. A second suction member 86, a third suction member.

Detailed Description

Referring to fig. 1 to 6, a specific structure of a preferred embodiment of the present invention is shown, which includes a frame 10, a switchable feeding mechanism 20, a switchable discharging mechanism 30 positioning mechanism 60, a laser mechanism 70, and a synchronous grabbing and sucking mechanism 80.

Wherein: the machine frame 10 is provided with a switchable feeding mechanism mounting platform 11, a switchable discharging mechanism mounting platform 12, a positioning mechanism mounting platform 13, a laser mechanism mounting platform 14 and a synchronous grabbing and sucking mechanism mounting platform 15; in this embodiment, an adjusting foot 16 for adjusting the levelness of the stand 10 is arranged at the bottom of the stand 10; the adjusting foot margin 16 arranged through the device can be used for conveniently adjusting the levelness of the whole device, and the levelness requirement of the device on a place is reduced. More specifically, the frame 10 is provided with a computer control system 17 for controlling the operation of the laser device and a display panel 18 for displaying the operation state of the laser device.

The switchable feeding mechanism 20 is assembled on the switchable feeding mechanism mounting platform 11; the switchable feeding mechanism 20 comprises a first feeding bin 21 and a second feeding bin 22 which can be switched into a feeding station, a feeding pushing mechanism 23 is arranged beside the feeding station, and the feeding pushing mechanism 23 lifts a bottom plate 51 of the first feeding bin 21 or the second feeding bin 22 to move upwards step by step; the switchable discharging mechanism 30 is assembled on the installation platform 12 of the switchable discharging mechanism 30; the switchable discharging mechanism 30 comprises a first discharging bin 31 and a second discharging bin 32 which can be switched into a discharging station, a discharging descending mechanism 33 is arranged beside the discharging station, and the discharging descending mechanism 33 lifts a bottom plate 51 of the first discharging bin 31 or the second discharging bin 32 to move downwards step by step; specifically, the feeding pushing mechanism 23 and the discharging lowering mechanism 33 each have a base 41, a driving motor 42, a support arm 43 and a slider 44, wherein the driving motor 42 is disposed at one side of the base 41; the two sides of the support arm 43 are provided with a first chute 431, the sliding block 44 is provided with a pulley 441 and a mounting recess 442, and the pulley 441 is arranged in the first chute 431 to realize the up-and-down movement of the sliding block 44. And the bottom plate 51 is connected to the mounting recess 442.

In this embodiment, a sliding rail 101 is disposed on the frame 10, and a sliding rail driving mechanism (not shown) is disposed at the bottom of the sliding rail 101; the sliding rail 101 is provided with a plurality of slidable mounting blocks 1011, and the feeding mechanism mounting platform 11 and the discharging mechanism mounting platform 12 are arranged on the mounting blocks 1011; and the left-right movement of the feeding mechanism mounting platform 11 and the discharging mechanism mounting platform 12 is realized through a slide rail driving mechanism arranged at the bottom of the slide rail 101. In more detail, the first feeding bin 21, the second feeding bin 22, the first discharging bin 31 and the second discharging bin 32 are all bin structures formed by surrounding a first plate 52 and a second plate 53 which are arranged on two sides and positioning strips 54 which are arranged on two sides of the first plate 52 and the second plate 53. The upper ends of the first feeding bin 21 and the second feeding bin 22 are provided with a material shortage sensor 55, and the bottoms of the first discharging bin 31 and the second discharging bin 32 are provided with a full material sensor 56. The function of conveniently identifying whether full or insufficient materials exist or not can be achieved through the arranged material shortage sensor 55 and the full material sensor 56; for example, when the first feeding bin 21 is in the working state, the bottom plate 51 moves the middle plate of the mobile phone step by step upwards in the first feeding bin 21; when the bottom plate 51 moves upwards and touches the material shortage sensor 55, the first feeding bin 21 is recognized to be in a material shortage state, and the computer control system 17 controls the second feeding bin 22 to be switched to the feeding station to continue feeding work.

The positioning mechanism 60 is assembled on the positioning mechanism mounting platform 13; the positioning mechanism 60 comprises a positioning platform 61, a fixed block 611 and a movable block 612 which are arranged on the positioning platform 61, and a containing cavity 613 for precisely positioning the middle plate is defined by the fixed block 611 and the movable block 612; in this embodiment, the fixed block 611 is two blocks disposed on the left side and the rear side of the positioning platform 61, and the movable block 612 is two blocks disposed on the front side and the right side of the positioning platform 61; the movable block 612 is moved toward the fixed block 611 by providing a driving cylinder 6121. Through the positioning mechanism 60, the mobile phone middle plate can be accurately positioned before laser processing, so that the precision of the mobile phone middle plate is ensured.

The laser mechanism 70 is assembled on the laser mechanism mounting platform 14, the laser mechanism 70 comprises a laser head 71 and a laser platform 72, and the laser head 71 is arranged above the laser platform 72; the laser platform 72 is in a disc type arrangement, and a plurality of middle plate fixing jigs 73 are arranged on the laser platform 72 at intervals in a surrounding mode; the bottom of the laser platform 72 is connected with an index table 74 capable of realizing the rotation of the laser platform 72; more specifically, the middle plate fixing jig 73 is provided with fixing pieces 731 and fixing columns 732 for fixing the middle plate of the mobile phone on the peripheral side. Through the fixing piece 731 and the fixing column 732, the mobile phone middle plate can be fixed conveniently and rapidly.

The synchronous grabbing and sucking mechanism 80 is assembled on the synchronous grabbing and sucking mechanism mounting platform 15, the synchronous grabbing and sucking mechanism 80 comprises a movable frame 81, an X-axis driving device 82 and a Z-axis driving device 83 which drive the movable frame 81 to move back and forth left and right, a first sucking piece 84, a second sucking piece 85 and a third sucking piece 86 which are arranged on the movable frame 81 at intervals, when the first sucking piece 84 corresponds to a feeding station, the second sucking piece 85 synchronously corresponds to the positioning platform 61, and meanwhile, the third sucking piece 86 corresponds to the laser platform 72; as the first suction member 84 moves from the infeed station to the positioning stage 61, the second suction member 85 moves synchronously from the positioning stage 61 to the laser stage 72, while the third suction member 86 moves synchronously from the laser stage 72 to the outfeed station. Specifically, the two sides of the X-axis driving device 82 are provided with second sliding grooves 821, and the two sides of the bottom of the Z-axis driving device 83 are provided with sliding hooks 831; the Z-axis driving device 83 is disposed in the second chute 821 by the sliding hook 831 to achieve a left-right movement. The Z-axis driving device 83 is provided with sliding protrusions 832 on both sides, the movable frame 81 is provided with sliding recesses 811, and the sliding recesses 811 are provided on the sliding protrusions 832 and are slidably connected up and down.

The design focus of the invention is that: through the synchronous grabbing and sucking mechanism 80, the first sucking piece 84, the second sucking piece 85 and the third sucking piece 86 which are arranged at intervals of the synchronous grabbing and sucking mechanism 80 can synchronously complete the procedures of feeding, positioning, laser and discharging of the mobile phone middle plate, so that the working efficiency of the laser device is further improved; and the synchronous grabbing and sucking mechanism 80 can realize the function of moving up and down and left and right only through the X-axis driving device 82 and the Z-axis driving device 83, so that the setting of the driving device is greatly reduced, the whole space of the device is saved, and the power consumption of a laser device can be reduced. In addition, through the feeding mechanism 20 and the discharging mechanism 30, the working state of non-intermittent feeding and discharging can be provided for the feeding mechanism, and the feeding and discharging efficiency can be further improved.

The foregoing description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present invention are still within the scope of the technical solutions of the present invention.

Claims (8)

1. Automatic laser device of cell-phone medium plate with synchronous material function of grabbing, its characterized in that: comprises the following steps:

the machine frame is provided with a switchable feeding mechanism mounting platform, a switchable discharging mechanism mounting platform, a positioning mechanism mounting platform and a laser mechanism mounting platform, and is used for synchronously grabbing and sucking the mechanism mounting platform;

the switchable feeding mechanism is assembled on the switchable feeding mechanism mounting platform; the switchable feeding mechanism comprises a first feeding bin and a second feeding bin which can be switched into a feeding station, a feeding pushing mechanism is arranged beside the feeding station, and the feeding pushing mechanism lifts a bottom plate of the first feeding bin or the second feeding bin to move upwards step by step;

the switchable discharging mechanism is assembled on the switchable discharging mechanism mounting platform; the switchable discharging mechanism comprises a first discharging bin and a second discharging bin which can be switched into a discharging station, a discharging descending mechanism is arranged beside the discharging station, and the discharging descending mechanism lifts a bottom plate of the first discharging bin or the second discharging bin to move downwards step by step;

the positioning mechanism is assembled on the positioning mechanism mounting platform; the positioning mechanism comprises a positioning platform, a fixed block and a movable block which are arranged on the positioning platform, and a containing cavity for accurately positioning the middle plate is defined by the fixed block and the movable block;

the laser mechanism is assembled on the laser mechanism mounting platform and comprises a laser head and a laser platform, and the laser head is arranged above the laser platform; the laser platform is arranged in a disc shape, and a plurality of middle plate fixing jigs are arranged on the laser platform at intervals in a surrounding mode; the bottom of the laser platform is connected with an indexing table capable of realizing the rotation of the laser platform;

the synchronous material grabbing and sucking mechanism is assembled on a synchronous material grabbing and sucking mechanism mounting platform and comprises a movable frame, an X-axis driving device and a Z-axis driving device which drive the movable frame to move back and forth left and right, a first sucking piece, a second sucking piece and a third sucking piece which are arranged on the movable frame at intervals, when the first sucking piece corresponds to a feeding station, the second sucking piece synchronously corresponds to a positioning platform, and meanwhile, the third sucking piece corresponds to a laser platform; when the first suction piece moves from the feeding station to the positioning platform, the second suction piece synchronously moves from the positioning platform to the laser platform, and meanwhile, the third suction piece synchronously moves from the laser platform to the discharging station;

the rack is provided with a sliding rail, the sliding rail is provided with a plurality of slidable mounting blocks, and the feeding mechanism mounting platform and the discharging mechanism mounting platform are connected with the mounting blocks; the bottom of the sliding rail is provided with a sliding rail driving mechanism;

the feeding pushing mechanism and the discharging descending mechanism are respectively provided with a base, a driving motor, a support arm and a sliding block, and the driving motor is arranged at one side of the base; the two sides of the support arm are provided with first sliding grooves, the sliding block is provided with a pulley and a mounting concave part, and the pulley is arranged in the first sliding grooves; the bottom plate is connected with the mounting concave.

2. The automatic laser device with synchronous grabbing function for mobile phone middle plates according to claim 1, wherein the automatic laser device is characterized in that: the upper ends of the first feeding bin and the second feeding bin are provided with material shortage sensors, and the bottoms of the first discharging bin and the second discharging bin are provided with full material sensors.

3. The automatic laser device with synchronous grabbing function for mobile phone middle plates according to claim 1, wherein the automatic laser device is characterized in that: the first feeding bin, the second feeding bin, the first discharging bin and the second discharging bin are all bin structures formed by surrounding a first plate, a second plate and positioning strips arranged on two sides of the first plate and the second plate.

4. The automatic laser device with synchronous grabbing function for mobile phone middle plates according to claim 1, wherein the automatic laser device is characterized in that: second sliding grooves are formed in two sides of the X-axis driving device, and sliding hooks are arranged in two sides of the bottom of the Z-axis driving device; the Z-axis driving device is arranged in the second sliding groove through the sliding hook so as to realize left-right movement.

5. The automatic laser device with synchronous grabbing function for mobile phone middle plates according to claim 1, wherein the automatic laser device is characterized in that: the Z-axis driving device is characterized in that sliding convex parts are arranged on two sides of the Z-axis driving device, a sliding concave part is arranged on the movable frame, and the sliding concave part is arranged on the sliding convex part and can be connected in a vertical sliding mode.

6. The automatic laser device with synchronous grabbing function for mobile phone middle plates according to claim 1, wherein the automatic laser device is characterized in that: the fixed blocks are two blocks arranged on the left side and the rear side of the positioning platform, and the movable blocks are two blocks arranged on the front side and the right side of the positioning platform; the movable block is moved towards the fixed block by arranging a driving cylinder.

7. The automatic laser device with synchronous grabbing function for mobile phone middle plates according to claim 1, wherein the automatic laser device is characterized in that: the fixing piece and the fixing column for fixing the middle plate of the mobile phone are arranged on the periphery of the middle plate fixing jig.

8. The automatic laser device with synchronous grabbing function for mobile phone middle plates according to claim 1, wherein the automatic laser device is characterized in that: the frame is provided with a computer control system for controlling the laser device to work and a display panel for displaying the working state of the laser device; the bottom of the frame is provided with an adjusting foot for adjusting the levelness of the frame.