CN108545249A - A kind of laser processing Quick Response Code automatic production line packing machine - Google Patents

Abstract

The present invention provides a kind of laser processing Quick Response Code automatic production line packing machine, including organic frame, modeling disk for placing finished product Quick Response Code lamellule, charging tray for conveying finished product Quick Response Code lamellule, finished product Quick Response Code lamellule for will be located in charging tray is transferred to the take-off assembly in modeling disk, for the charging tray for being contained with finished product Quick Response Code lamellule to be delivered to the first pipeline that take-off assembly carries out material extracting operation, for driving take-off assembly along X-axis, Y-axis, Z-direction makees the first driving module of three dimensions movement, positioned at rack discharge one end for placing the packing box for moulding disk and the plastic sucking disc component that is transferred in packing box for disk will to be moulded, for driving plastic sucking disc component along Y-axis, second driving module of Z-direction movement.This programme have the advantage that for：This programme is by using above structure, simple in structure, high degree of automation and packaging operation stable quality.

Description

A kind of laser processing Quick Response Code automatic production line packing machine

Technical field

The present invention relates to laser process equipment technical fields, refer in particular to a kind of laser processing Quick Response Code automatic production line Use packing machine.

Background technology

With the variation of consumer electronics market demand, application of the metal material on electronic product is more and more extensive, uses The mode of laser processing marks Quick Response Code also more and more on consumer electronics, wherein relatively common application is exactly in product Surface markers Quick Response Code, for product back-tracing.

In order to improve the production efficiency for utilizing laser in metal material surface label Quick Response Code, it is necessary to arrive product woollen Product cost carries out pipeline automation processing, to adapt to the demand in market.Therefore for how to search out a kind of structure Simply, the packaging facilities that high degree of automation and packaging operation are stablized just is particularly important.

Invention content

In view of the deficiencies of the prior art, the present invention provides a kind of laser processing Quick Response Code automatic production line packing machine, Its simple in structure, high degree of automation of the packing machine and it can effectively realize packaging operation, work efficiency is high.

To achieve the above object, the technical solution taken is：

A kind of laser processing Quick Response Code automatic production line packing machine, it is characterised in that：Including organic frame, for placing The modeling disk of finished product Quick Response Code lamellule, is used to that the charging tray will to be located at the charging tray for conveying finished product Quick Response Code lamellule In finished product Quick Response Code lamellule be transferred to it is described modeling disk in take-off assembly, for the small metal of finished product Quick Response Code will to be contained with The charging tray of piece be delivered to the take-off assembly carry out material extracting operation the first pipeline, for drive the take-off assembly along X-axis, Y-axis, Z-direction make the first driving module of three dimensions movement, disk is moulded in the one end that discharges positioned at the rack for placing Packing box and for by mould disk be transferred in the packing box plastic sucking disc component, for driving the plastic sucking disc component along Y The second driving module that axis, Z-direction move.

A kind of laser processing Quick Response Code automatic production line packing machine as described above, it is characterised in that：Described first Pipeline includes main conveyor line and is connected two lifting devices in the main conveyor line front and rear ends respectively；

The main conveyor line includes carriage, two above and below carriage length direction setting is in the carriage Layer upper pipeline and lower pipeline and be respectively used for driving the upper pipeline and lower pipeline rotation upper driving motor and Lower driving motor.

A kind of laser processing Quick Response Code automatic production line packing machine as described above, it is characterised in that：The rack It is connected with the second pipeline, the second pipeline includes pallet and driving pallet back and forth into and out of the pallet drive component of rack, Pallet upper end offers the die cavity for keeping flat the modeling disk.

A kind of laser processing Quick Response Code automatic production line packing machine as described above, it is characterised in that：The rack Front side is equipped with third pipeline, and third pipeline includes the pedestal drive component that pedestal and driving pedestal move back and forth.

A kind of laser processing Quick Response Code automatic production line packing machine as described above, it is characterised in that：The feeding Component includes holder, and holder is equipped with bottom plate, multiple vacuum slots, multiple vacuum slot arrays are installed on bottom plate It is distributed on the bottom plate.

A kind of laser processing Quick Response Code automatic production line packing machine as described above, it is characterised in that：The plastic uptake Disk component includes link, and link lower end is provided with horizontal mounting plate and multiple intervals are mounted on the horizontal mounting plate Vacuum slot in surrounding.

A kind of laser processing Quick Response Code automatic production line packing machine as described above, it is characterised in that：The charging tray There are multiple first grooves that array is arranged, there are multiple second grooves that array is arranged on the modeling disk, the second groove and first recessed Slot array distribution is identical.

Compared with prior art, this programme have the advantage that for：This programme is by using above structure, structure letter Single, high degree of automation and packaging operation stable quality are specifically：The charging tray conveying that mobile conveying comes on first pipeline To after material extracting operation region, charging tray jack-up is reached material extracting operation region by lifting device, i.e. take-off assembly can be taken The region for expecting operation, after charging tray reaches material extracting operation region, take-off assembly action, by the finished product Quick Response Code little Jin on charging tray Belong to piece to draw and be transferred on modeling disk, after the completion of the finished product Quick Response Code lamellule transfer tasks on a charging tray, plastic sucking disc group Part starts to act, and the modeling disk for filling finished product Quick Response Code lamellule is transferred in packing box, realizes that the Quick Response Code of finished product is small Sheet metal is packaged packaging operation.

Description of the drawings

Fig. 1 is the packing machine dimensional structure diagram in the present embodiment.

Fig. 2 is another angle direction dimensional structure diagram of packing machine in the present embodiment.

Fig. 3 is the first pipeline fundamental diagram in the present embodiment.

Fig. 4 is the lifting device structural schematic diagram in the present embodiment.

Fig. 5 is the baffle plate assembly structural schematic diagram in the present embodiment.

Fig. 6 is the positioning component structural schematic diagram in the present embodiment.

Fig. 7 is the main conveyor line structural schematic diagram in the present embodiment.

Fig. 8 is the tray structure diagram in the present embodiment.

Fig. 9 is the take-off assembly structural schematic diagram in the present embodiment.

Figure 10 is the plastic sucking disc component structure diagram in the present embodiment.

Specific implementation mode

The present invention is further explained in the light of specific embodiments：

The present embodiment be for Quick Response Code lamellule packaging discharge operation process in, need will be located at pipeline at Product Quick Response Code lamellule is transferred in another modeling disk, and is transferred to the need for carrying out being packaged operation in subsequent carton by disk is moulded A kind of laser processing Quick Response Code automatic production line packing machine asked, and proposed, its simple in structure, automation journey of the packing machine Degree is high and can effectively realize packaging operation, and work efficiency is high.

It is the packet in the present embodiment with reference to shown in attached drawing 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9 and Figure 10 Installation dimensional structure diagram.

A kind of laser processing Quick Response Code automatic production line packing machine, including organic frame 1, for placing finished product Quick Response Code The modeling disk 9 of lamellule, the charging tray 8 for conveying finished product Quick Response Code lamellule, for the finished product in the charging tray 8 will to be located at Quick Response Code lamellule is transferred to the take-off assembly 3 in the modeling disk 9, the material for that will be contained with finished product Quick Response Code lamellule Disk 8 is delivered to take-off assembly 3 and carries out the first pipeline 2 of material extracting operation, for driving take-off assembly 3 along X-axis, Y-axis, Z axis side To the first driving module 4, the packing box for placing modeling disk 9 positioned at the discharging of the rack 1 one end for making three dimensions movement 11 and for by mould disk 9 be transferred in the packing box 11 plastic sucking disc component 6, for driving the plastic sucking disc component 6 along Y The second driving module 5 that axis, Z-direction move.

In the application, the first pipeline 2 includes main conveyor line and is connected two in main conveyor line front and rear ends respectively A lifting device 206.Two correspondences of lifting device 206 are moved up and down and are matched with upper pipeline and lower pipeline, realize charging tray 8 Circulation conveying work.

In the application, rack 1 is connected with the second pipeline, and the second pipeline includes pallet 1011 and driving pallet 1011 back and forth into and out of the pallet drive component (not shown) of rack 1, and 1011 upper end of pallet is offered for keeping flat modeling disk 9 Die cavity 10110.

Servo motor and leading screw transmission may be used in pallet driving assembly embodiment, cylinder piston rod can also be used to pass Dynamic, preferably cylinder piston rod is driven, and pallet 1011 is fixedly mounted on a tray both slid seat at this time, and tray both slid is pushed by cylinder Seat is back and forth into and out of rack 1.

Second pipeline 101 is used to that empty modeling disk 9 to be placed in the die cavity of pallet 1010 and be sent into rack 1, to It receives and carries the lamellule transferred from charging tray 8.Pallet driving cylinder may be used in pallet drive component, and pallet drives Cylinder piston rod of taking offence is connected with balladeur train, and balladeur train is slidably matched with rack 1 by track, and pallet 1011 is located on balladeur train, and pallet drives Cylinder of taking offence pushes tray carriages and pallet 1011 as balladeur train moves back and forth together.Pallet 1011 is pushed in pallet driving cylinder When stretching rack 1 is outer, modeling disk 9 is transferred to by manually or mechanically device on pallet 1011, and modeling disk 9, which is placed in, to be touched in chamber 10110 not It can move horizontally, subsequent pallet 1011 drives modeling disk 9 to be transferred to together in rack 1 so that it is convenient to subsequently receive two dimension to modeling disk 9 Code lamellule.

In the application, 1 front side of rack is equipped with third pipeline 104, and third pipeline 104 includes pedestal 1041 and drives The pedestal drive component that dynamic pedestal 1041 moves back and forth.Pedestal drive component includes railroad shoe 1042, is slided in railroad shoe 1042 Be combined with pedestal 1041, be equipped in railroad shoe 1042 driving pedestal 1041, dynamic the 6th servo motor of return (do not show in figure Go out).Pedestal 1041 has a corral side 10410 to be used for placing packing box 11, packs for placing packing box 11,1041 upper end of pedestal The lower part of box 11 is sleeved in surrounding edge 10410.Third pipeline 104 is used to packing box 11 being delivered to specified station, receive from The modeling disk 9 drawn in rack 1 and Quick Response Code lamellule thereon, multiple modeling disks 9 and Quick Response Code lamellule thereon It is sequentially stacked in packing box 11 from the bottom up.

In the application, take-off assembly 3 includes holder 301, and holder 301 is equipped with bottom plate 302, is fixedly mounted on bottom plate 302 There are multiple vacuum slots 100,100 array distribution of multiple vacuum slots is on bottom plate 302；

To realize the three dimensions movement of take-off assembly 3, be correspondingly provided in rack 1 for for take-off assembly 3 from 1 charging tray 8 Top is moved to the first X-axis slide rail 303 of 9 top of modeling disk, the first Y-axis sliding rail 304 and first perpendicular drive cylinder 305, the first X Axis sliding rail 303 has two, and 304 both ends of the first Y-axis sliding rail are slidably connected with two article of first X-axis slide rail 303 and can be along the first X respectively Axis sliding rail 303 slides, and perpendicular drive cylinder 305 is mounted on by sliding support 306 on the first Y-axis sliding rail 304 and along the first Y-axis Sliding rail 304 slides, take-off assembly 3 be mounted on perpendicular drive 305 piston rod of cylinder and it is upper by the driving of perpendicular drive cylinder 305, Lower movement.

First driving module 4 moves for realizing 3 three dimensions of take-off assembly.First driving 4 structure of module be：Including One servo motor and the second servo motor (not shown), first servo motor are fixedly mounted in rack 1, the first servo electricity By ball leading screw driving between machine and the first Y-axis sliding rail 304, for driving the first Y-axis sliding rail 304 and being mounted on the first Y The second servo motor, sliding support 306 on axis sliding rail 304 slidably reciprocate along the first X-axis slide rail 101 together.Second servo electricity Machine is mounted on the pedestal of the first Y-axis sliding rail 304, by ball leading screw driving between the second servo motor and sliding support 306, For driving sliding support 306 and perpendicular drive cylinder 305 on sliding support 306, take-off assembly 3 are together along One Y-axis sliding rail 102 slidably reciprocates.Perpendicular drive cylinder 305 is completed absorption and is turned for driving take-off assembly 3 to move back and forth above and below Move the purpose of Quick Response Code lamellule.

In the application, plastic sucking disc component 6 includes link 601, and 601 lower end of link is provided with horizontal mounting plate 602 And multiple intervals are mounted on the vacuum slot 100 in 602 surrounding of the horizontal mounting plate.When work, vacuum slot 100 is utilized In vacuum adsorption force adsorb modeling 9 surrounding edge of disk, realize it is whole to modeling disk 9 draw, transfer and conveying operation.This implementation Vacuum slot in example uses vacuum slot structure in the prior art, completes normal adsorption operation.

It is correspondingly provided in rack 1 and modeling disk 9 is moved to above packing box 11 from tray 1011 for plastic sucking disc component 6 Second Y-axis sliding rail and Z axis slide rail 604；Z axis slide rail 604 is slidably mounted on by Y-axis sliding rack 605 on the second Y-axis sliding rail, even Frame 601 is connect to be slidably mounted in Z axis slide rail 604；

Second driving module 5 includes being moved for realizing 6 space of plastic sucking disc component.Second driving 5 structure of module be：Including 4th servo motor and the 5th servo motor, the 4th servo motor are mounted in rack 1, the 4th servo motor and Z axis slide rail 604 Between by ball leading screw driving, the plastic sucking disc component 6 one for driving Z axis slide rail 604 and in Z axis slide rail 604 It rises and moves back and forth along the second Y-axis sliding rail.5th servo motor be mounted on Z axis slide rail 604 pedestal on, the 5th servo motor with By ball leading screw driving between plastic sucking disc component 6, for driving plastic sucking disc component 6 to move back and forth along about 604 Z axis slide rail, Height is moved up and down to control plastic sucking disc component 6 by controlling the 5th servo motor, realization is successively placed multiple modeling disks 9 and packed In box 11.

In the application, charging tray 8 has multiple first grooves 801 that array is arranged, and moulds have array to be arranged on disk 9 multiple second Groove 901, the second groove 901 are identical as 801 array distribution of the first groove.The structure design facilitates take-off assembly 3 rapidly and efficiently Finished product Quick Response Code lamellule in charging tray 8 is transferred in modeling disk 9 by ground.

The lifting cylinder that in the application, lifting device 206 includes hoisting frame 2061, is vertically installed on hoisting frame 2061 2062, it is connected with 2062 top of the lifting cylinder and is in horizontally disposed promotion platform 2063, is located on promotion platform 2063 The belt conveyor line 2064 at end, is used for the servo motor (not shown) of 2064 reciprocal gap of drive belt pipeline operation Stop the baffle plate assembly 2065 of the charging tray 8 and the positioning component 2066 for being positioned to the charging tray 8.

The positioning pin that positioning component 2066 includes Locating driver cylinder 20661, is driven by Locating driver cylinder 20661 20662, Locating driver cylinder 20661 is fixedly mounted on by support plate 20663 and is promoted on platform 2063, wherein 8 one of charging tray It is provided on side and 20663 matched location hole 802 of the positioning pin.It is convenient after being positioned to charging tray 8 to draw work on charging tray 8 Workpiece is accurately put into charging tray by part by suction nozzle.

Baffle plate assembly 2065 is set in 2064 one end of belt conveyor line, and baffle plate assembly 2065 includes mounting base 20651, vertical It the jacking cylinder 20652 that is fixedly mounted in mounting base 20651 and is fixedly mounted on 20652 piston rod top of jacking cylinder For to charging tray 8 keep out the baffle 20653 of position-limiting action, mounting base 20651 is fixedly mounted in rack 1.Baffle 20653 be the L-shaped baffle arrangement in a longitudinal section.

Main conveyor line include carriage 2001, along 2001 length direction of carriage be arranged in carriage it is bilevel Upper pipeline 2002 and lower pipeline 2003 and the upper drive for being respectively used for driving pipeline 2002 and the rotation of lower pipeline 2003 Dynamic motor 2004 and lower driving motor 2005.

When work, charging tray 8 is conveyed into the belt conveyor line on the lifting device 206 of front end by lower pipeline 2003 On 2064, the servo motor of 2064 reciprocal gap of drive belt pipeline operation drives belt conveyor line 2064 to rotate forward drive Charging tray 8 moves, and when charging tray 8 is in contact with the baffle plate assembly 2065 on 2064 end of belt conveyor line, baffle 20653 is real Now to charging tray 8 keep out and position-limiting action, while positioning component 2066 act, Locating driver cylinder 20661 push positioning pin 20662 enter in the location hole 802 being located on charging tray 8, complete to position charging tray 8.After the completion of 8 positioning operation of charging tray, it is located at Lifting cylinder 2062 on the lifting device 206 of front end acts, and drives the promotion platform on the lifting device 206 of front end 2063 move up, and charging tray 8 is promoted to splicing station, and the lamellule of well cutting is sent on charging tray 8 by manipulator at this time；

After the completion of splicing, it is located at 2064 reciprocal gap of the drive belt pipeline operation on the lifting device 206 of front end Servo motor drives belt conveyor line 2064 to rotate backward, and charging tray 8 is driven to be conveyed into pipeline 2002, and upper pipeline 2002 will Charging tray 8 is sent into mark station and carries out laser marking；

After the completion of mark, upper pipeline 2002 transfers out charging tray 8 on the lifting device 206 of rear end from rear end On belt conveyor line 2064, the servo motor on the lifting device 206 of rear end drives belt conveyor line 2064 to rotate backward Charging tray 8 is driven to move, when charging tray 8 is in contact with the baffle plate assembly 2065 on 2064 end of belt conveyor line, after being located at Baffle 20653 on the lifting device 206 at end realize to charging tray 8 keep out and position-limiting action, while being filled positioned at the promotion of rear end The positioning component 2066 set on 206 acts, and the Locating driver cylinder 20661 on lifting device 206 pushes positioning pin 20662 to enter In the location hole 802 on charging tray 8, complete to reposition charging tray 8；

Subsequent take-off assembly 3 takes the good lamellule of mark away from charging tray 8；

Then, the lifting cylinder 2062 being located on the lifting device 206 of rear end acts, and drives the lifting device positioned at rear end Promotion platform 2063 on 206 moves down, and charging tray 8 is dropped to transfer station, watching on the lifting device 206 of rear end Taking motor drives belt conveyor line 2064 to rotate forward, and drives charging tray 8 to be moved to lower pipeline 2003, lower pipeline 2003 is again Empty tray 8 is transferred on the belt conveyor line 2064 on the lifting device 206 of front end, is prepared for splicing next time；

Repeatedly, 8 circulation conveying of charging tray is realized.

In the application, servo motor can also be replaced with stepper motor.

The examples of implementation of the above are only the preferred embodiments of the invention, and the implementation model of the present invention is not limited with this It encloses, therefore changes made by all shapes according to the present invention, principle, should all cover within the scope of the present invention.

Claims (7)

1. a kind of laser processing Quick Response Code automatic production line packing machine, it is characterised in that：Including organic frame (1), for putting It is set to the modeling disk (9) of product Quick Response Code lamellule, the charging tray (8) for conveying finished product Quick Response Code lamellule, for that will be located at Finished product Quick Response Code lamellule in the charging tray (8) is transferred to the take-off assembly (3) moulded in disk (9), for that will hold There is the charging tray (8) of finished product Quick Response Code lamellule to be delivered to the first pipeline that the take-off assembly (3) carries out material extracting operation (2), for drive the take-off assembly (3) along X-axis, Y-axis, Z-direction as three dimensions move first driving module (4), Positioned at the rack (1) discharging one end institute is transferred to for placing to mould the packing box (11) of disk (9) and be used to that disk (9) will to be moulded State the plastic sucking disc component (6) in packing box (11), for driving that the plastic sucking disc component (6) moves along Y-axis, Z-direction Two driving modules (5).

2. a kind of laser processing Quick Response Code automatic production line packing machine according to claim 1, it is characterised in that：Institute The first pipeline (2) is stated to include main conveyor line and be connected two promotion dresses in the main conveyor line front and rear ends respectively It sets (206)；

The main conveyor line includes carriage (2001), is arranged in the carriage along the carriage (2001) length direction Interior bilevel upper pipeline (2002) and lower pipeline (2003) and be respectively used for driving the upper pipeline (2002) and The upper driving motor (2004) and lower driving motor (2005) of lower pipeline (2003) rotation.

3. a kind of laser processing Quick Response Code automatic production line packing machine according to claim 1, it is characterised in that：Institute State rack (1) and be connected with the second pipeline, the second pipeline includes pallet (1011) and driving pallet (1011) come back into, Go out the pallet drive component of rack (1), pallet (1011) upper end offers the die cavity (10110) for keeping flat the modeling disk (9).

4. a kind of laser processing Quick Response Code automatic production line packing machine according to claim 3, it is characterised in that：Institute It states and is equipped with third pipeline (104) on front side of rack (1), third pipeline (104) includes pedestal (1041) and driving pedestal (1041) the pedestal drive component moved back and forth.

5. a kind of laser processing Quick Response Code automatic production line packing machine according to claim 4, it is characterised in that：Institute It includes holder (301) to state take-off assembly (3), and holder (301) is equipped with bottom plate (302), is installed on bottom plate (302) multiple Vacuum slot (100), multiple vacuum slot (100) array distributions are on the bottom plate (302).

6. a kind of laser processing Quick Response Code automatic production line packing machine according to claim 3, it is characterised in that：Institute It includes link (601) to state plastic sucking disc component (6), and link (601) lower end is provided with horizontal mounting plate (602) and multiple Interval is mounted on the vacuum slot (100) in the horizontal mounting plate (602) surrounding.

7. a kind of laser processing Quick Response Code automatic production line packing machine according to claim 1, it is characterised in that：Institute Multiple first grooves (801) that charging tray (8) has array to be arranged are stated, there are multiple second grooves that array is arranged on the modeling disk (9) (901), the second groove (901) is identical as the first groove (801) array distribution.