CN205467911U - Automatic counting ink jet numbering machine is taken to SMT material - Google Patents

Abstract

The utility model provides an automatic counting ink jet numbering machine is taken to SMT material, including: workstation (1), fixed connection is in respectively workstation (1) both sides and the receipts material straining device (2) and supplementary receiving agencies (3) that are used for the pan feeding and receive material usefulness, locate the material that is used for passing feeding belt between receipts material straining device (2) and supplementary receiving agencies (3) on workstation (1) and take transport mechanism (4), locate and be used for on workstation (1) to take SMT material on transport mechanism (4) to bring the bar printer structure (6) that numeral that the line number word spouts the sign indicating number is spouted a yard printing mechanism (5) and is used for printing the bar code sign into through the material, and connection control receives material straining device (2), supplementary receiving agencies (3), transport mechanism (4) are taken to the material, control module (7) of a yard printing mechanism (5) and bar printer structure (6) are spouted to the digit. The utility model discloses it is showing and is improving to have reduced intensity of labour and manufacturing cost, messenger work efficiency.

Description

SMT material strip counts ink jet numbering machine automatically

[technical field]

This utility model relates to material strip coding field, particularly relates to a kind of SMT material strip and automatically counts ink jet numbering machine.

[background technology]

At present, the code spraying technology of SMT material strip is extensively applied in chip manufacturing industry field.In the production process of tradition SMT material strip, the coding of SMT material strip and counting mainly operate by the way of artificial.During artificial coding, owing to the involved material of SMT material strip, shape and width are the most different, and the character quantity printed is the most more, needs the production line corresponding to the configuration of each workflow, causes production cost higher.And made printing efficiency the lowest by manually carrying out operation, it is impossible to meet high-volume and print the demand of all size SMT material strip.Additionally, also need to be added up the quantity of SMT material strip after coding by special messenger after having printed so that labor intensity is relatively big, and work efficiency is relatively low.

[summary of the invention]

In sum, main purpose of the present utility model is to need by manually operating to solve the counting coding of existing SMT material strip, cause labor intensity compared with big, work efficiency is relatively low, and the more high technical problem of production cost.And provide a kind of SMT material strip automatically to count ink jet numbering machine.

For achieving the above object, this utility model provides a kind of SMT material strip automatically to count ink jet numbering machine, described SMT material strip automatically counts ink jet numbering machine and includes: workbench, be respectively fixedly connected with described workbench both sides and for pan feeding and rewinding rewinding strainer and auxiliary receiving mechanism, it is located on described workbench the material belt conveying mechanism for transmitting material strip between rewinding strainer and auxiliary receiving mechanism, it is located on described workbench and carries out the digital code-spraying printing mechanism of digital code-spraying and for printing the bar code printing mechanism of bar code mark for the SMT material strip on material belt conveying mechanism, and connect control rewinding strainer, auxiliary receiving mechanism, material belt conveying mechanism, digital code-spraying printing mechanism and the control module of bar code printing mechanism.

Described rewinding strainer includes: charging tray, the first driving motor, the first drive shaft and cantilever；Described first drive motor be installed on cantilever and with the first drive shaft drive connection；Described charging tray is coaxially connected in the first drive shaft.

Described auxiliary receiving mechanism includes: rewinding support, the second driving motor, shaft joint, auxiliary rewinding dish, shaping sheet, rewinding wheel hub, antivibrator and the drivewheel being located on antivibrator and the driven pulley being meshed with this drivewheel；Described rewinding is propped up and is set up in workbench side；Described second drives motor to be fixedly mounted on rewinding frame upper；Described shaft joint, auxiliary rewinding dish, shaping sheet, rewinding wheel hub and antivibrator are the most sequentially coaxially connected in the drive shaft of the second driving motor；Described second drives motor drive drivewheel and drive driven pulley and rewinding hub rotation simultaneously.

It is additionally provided with on described rewinding wheel hub for making material strip head enter the stub bar draw-in groove in rewinding wheel hub.

It is additionally provided with on described auxiliary receiving mechanism for guiding material strip to be entered the material strip guide mechanism in auxiliary receiving mechanism by material belt conveying mechanism.

Described material strip guide mechanism includes: bracing frame, material strip guide and drive cylinder, slide rail and material strip conductor；Support frame as described above and slide rail are respectively fixedly connected with on the table；Described material strip guide drive cylinder respectively with material strip conductor and slide rail drive connection.

Described material belt conveying mechanism includes: the 3rd drives motor, shaft joint, the first synchronization wheel, Timing Belt, the second synchronization wheel, the first ratchet, the second ratchet, axle rotation handle, press nips, pinch roller track, linear guides, slide block, location draw runner, limited block, regulation screw mandrel, the second drive shaft, the 3rd drive shaft, the first fiber sensing module, the second fiber sensing module, the first optical fiber mounting bracket and the second optical fiber mounting bracket；Wherein, the described 3rd motor fixed installation material strip pan feeding side on the table is driven；Described 3rd drive motor respectively with the shaft joint being coaxially mounted in the second drive shaft, first Tong Bus take turns and the first ratchet drive connection；Described axle revolves the end being fixedly connected on the second drive shaft；Described pinch roller track is fixedly installed on workbench, which is provided with press nips；Described second synchronizes wheel, the 3rd drive shaft and the second ratchet is respectively arranged between pinch roller track and material strip guide mechanism and is in transmission connection with press nips；Described Timing Belt is connected between the first synchronization wheel wheel Tong Bu with second；Described linear guides is fixing on the table, and described location draw runner is located on slide block and is slidably connected with linear guides；Described first optical fiber mounting bracket and the second optical fiber mounting bracket fixedly mount on the table, it are separately installed with the first fiber sensing module for being added up material strip quantity, material strip Negotiation speed, material strip by date and time and for monitoring the second fiber sensing module of material strip rewinding state.

It is additionally provided with, between described pinch roller track and press nips, the gap that feed strip passes.

Described digital code-spraying printing mechanism includes: printer mounting bracket, 4 wheel driven move electromechanical linear module and coding printhead；Described printer mounting bracket is located on workbench；Described 4 wheel driven galvanic electricity machine is fixedly mounted in printer mounting bracket；Described linear module and 4 wheel driven galvanic electricity machine drive connection also drive coding printhead to move axially.

The edge interval of described SMT material strip to be provided with some material strips lateral opening, lateral opening the first ratchet and the second ratchet with material belt conveying mechanism respectively of described material strip is connected.

The beneficial effects of the utility model are: SMT material strip of the present utility model counts ink jet numbering machine automatically can automatically carry out the operations such as such as SMT material strip transmission, SMT material strip digital code-spraying, SMT material strip bar code printing and rewinding by machine.SMT material strip is transmitted by material belt conveying mechanism, and carries out rewinding through guide mechanism output to auxiliary receiving mechanism.In SMT material strip transmitting procedure, by the first fiber sensing module, quantity, Negotiation speed, date and the time of material strip are added up；And carry out SMT material strip digital code-spraying by control module control ink jet-print head, and generate required character code or picture surface code.Additionally, the corresponding information of material strip after coding is sent to control module by the second fiber sensing module, and control rewinding strainer and assist receiving mechanism that the material strip after coding is carried out rewinding.Finally by bar code printing mechanism according to counting and the information of typing, print bar-code label, and be attached to the charging tray surface after counting coding for identification.Aforesaid operations process has only to a workman and operates, and significantly reduces labor intensity and production cost, makes work efficiency significantly improve.Owing to being additionally provided with for regulating the linear guides of SMT material strip width, slide block and regulation screw mandrel on counting ink jet numbering machine automatically, the coding needs of unlike material, shape and width S MT material strip therefore can be met.

[accompanying drawing explanation]

Fig. 1 is overall structure schematic perspective view of the present utility model；

Fig. 2 is internal structure schematic diagram of the present utility model；

Fig. 3 is structure top view of the present utility model；

Fig. 4 is the partial enlarged drawing of Fig. 2 in this utility model；

Fig. 5 is front view of the present utility model.

[detailed description of the invention]

The following example is to be explained further of the present utility model and supplement, and does not constitutes any limitation this utility model.

As shown in Fig. 1～Fig. 5, SMT material strip of the present utility model automatically counts ink jet numbering machine and includes: workbench 1, rewinding strainer 2, assists receiving mechanism 3, material belt conveying mechanism 4, digital code-spraying printing mechanism 5, bar code printing mechanism 6 and control module 7.

As it is shown on figure 3, described rewinding strainer 2 is fixedly connected at the pan feeding of workbench 1.Specifically, described rewinding strainer 2 includes: charging tray 21, first drives motor the 22, first drive shaft 23 and cantilever 24.In the present embodiment, described cantilever 24 is fixedly connected on workbench 1；Described first drives motor can use any known driving motor；Described first drive motor 22 be arranged on cantilever 24 and with the first drive shaft 23 drive connection；Described charging tray 21 is coaxially connected in the first drive shaft 23.It is to be noted that the material strip of charging tray 21 needs manually to be inserted by material strip head in the material strip entrance of material belt conveying mechanism 4 when pan feeding, operation thereafter all can be by operating automatically.

Such as Fig. 2, shown in Fig. 3, described auxiliary receiving mechanism 3 is used for receiving material strip, and it is fixedly connected at the discharging of workbench 1.Described auxiliary receiving mechanism 3 includes: rewinding support 31, second drives motor 32, shaft joint 33, auxiliary rewinding dish 34, shaping sheet 35, rewinding wheel hub 36, antivibrator 37 and the drivewheel (not shown) being located on antivibrator 37 and the driven pulley (not shown) being meshed with this drivewheel.Workbench 1 side is located at by described rewinding support 31；Described second drives motor 32 to be fixedly mounted on rewinding support 31 top；In the present embodiment, described second drives motor 32 can use any known driving motor；Described shaft joint 33, auxiliary rewinding dish 34, shaping sheet 35, rewinding wheel hub 36 and antivibrator 37 are the most sequentially coaxially connected in the drive shaft of the second driving motor 32；Described second drives motor 32 drive drivewheel and drive driven pulley and rewinding wheel hub 36 to rotate simultaneously.Described antivibrator 37 is used for tightening up material strip in rewinding wheel hub 36.Described rewinding wheel hub 36 is additionally provided with for making material strip head enter the stub bar draw-in groove 361 in rewinding wheel hub 36.Such as Fig. 2, described auxiliary receiving mechanism 3 is additionally provided with for guiding material strip to be entered the material strip guide mechanism 38 in auxiliary receiving mechanism by material belt conveying mechanism 4.Specifically, described material strip guide mechanism 38 includes: bracing frame 381, material strip guide and drive cylinder 382, slide rail 383 and material strip conductor 384.Support frame as described above 381 and slide rail 383 are respectively fixedly connected with on workbench 1；Described material strip guide drive cylinder 382 respectively with material strip conductor 384 and slide rail 383 drive connection.Described control module 7 controls material strip guiding and drives cylinder 382 to shrink and drive material strip conductor 384 close to the auxiliary rewinding dish 34 of auxiliary receiving mechanism, guides the head of material strip to enter in the stub bar draw-in groove 361 of rewinding wheel hub 36.Now, second drives motor 32 to drive drivewheel, and drivewheel drives driven pulley and connected rewinding wheel hub 36 to rotate simultaneously.Material strip shaping sheet 35, auxiliary rewinding dish 34 constraint under, fitly stacking is wound on rewinding wheel hub 36.

As shown in Figure 1 and Figure 2, described workbench 1 can use any known workbench.In the present embodiment, the rewinding of SMT material strip, transmission, digital code-spraying and bar code printing all operate on workbench 1.It is additionally provided with on described workbench 1 for controlling rewinding strainer 2, auxiliary receiving mechanism 3, material belt conveying mechanism 4, digital code-spraying printing mechanism 5 and the control module 7 of bar code printing mechanism 6.Specifically, described control module 7 includes host computer (not shown) and the control button 71 electrically connected with host computer and display screen 72.Described control button 71 includes power key 711, start key 712, reset key 713, advance key 714, back spacer 715 and jerk/stop key 716.Described power key 711 is used for controlling host computer opening and closing；Described start key 712 is used for carrying out automatic material pulling, automatically detection sky material position, coding and stopping and drawing the operations such as material.Described reset key 713 is for resetting to equipment, and after pressing SR, computer interface parameter returns to preset value；Described advance key 714 and back spacer 715 are for Non-follow control pan feeding and rewinding operation；Described jerk/stop key 716 is used for stopping pan feeding or rewinding operation.Be additionally provided with louvre 11 on described workbench 1, this louvre 11 can by host computer produce conduct heat away go out, described workbench 1 is additionally provided with for when work complete or machine break down remind workman process alarm lamp 12.

Such as Fig. 2, shown in Fig. 4, described material belt conveying mechanism 4 is for by material strip transmitted in both directions between rewinding strainer 2 and auxiliary receiving mechanism 3, and it is located on workbench 1 and between rewinding strainer 2 and auxiliary receiving mechanism 3.Specifically, described material belt conveying mechanism 4 includes: the 3rd drives motor 41, shaft joint 42, first to synchronize wheel 43, Timing Belt the 44, second synchronization wheel the 45, first ratchet the 46, second ratchet 47, axle rotation 48, press nips 49, pinch roller track 50, linear guides 51, slide block 52, location draw runner 53, limited block 54, regulation screw mandrel the 55, second drive shaft the 56, the 3rd drive shaft the 57, first fiber sensing module the 58, second fiber sensing module the 59, first optical fiber mounting bracket 60 and the second optical fiber mounting bracket 61.Wherein, described 3rd drives motor can use any known driving motor, described 3rd drives the material strip pan feeding side that is fixedly mounted on workbench 1 of motor 41, and the described 3rd drives that motor 41 is Tong Bus with the shaft joint 42, first being coaxially mounted in the second drive shaft 56 respectively takes turns 43 and first ratchet 46 drive connection.What the edge of described SMT material strip was spaced is provided with the lateral opening (not shown) of some material strips, lateral opening the first ratchet 46 and the second ratchet 47 with material belt conveying mechanism respectively of described material strip is connected, when rotary shaft rotation is 48, manually material strip head can be inserted machine material strip entrance.Described axle revolves the end being fixedly connected on the second drive shaft 56 48；The rotation of this axle is for manually inserting material strip entrance or right hand inlet port on the left of machine by material strip head, depending on visual material strip direction.Described pinch roller track 50 is fixedly installed on workbench 1, which is provided with press nips 49；Described press nips 49 is made up of multiple pinch rollers, and SMT material strip is sent to after it for being sent to assist receiving mechanism 3 when pan feeding by SMT material strip, or coding printing and bar code printing complete when rewinding rewinding strainer 2 rewinding.The gap (not shown) that feed strip passes it is additionally provided with between described pinch roller track 50 and press nips 49.Described second synchronization wheel the 45, the 3rd drive shaft 57 and the second ratchet 47 are respectively arranged between pinch roller track 50 and material strip guide mechanism 38 and are in transmission connection with press nips 49.Described Timing Belt 44 is connected between the first synchronization wheel 43 wheel 45 Tong Bu with second.Described linear guides 51 is fixed on workbench 1, and described location draw runner 53 is located on slide block 52 and is slidably connected with linear guides 51.Owing to being additionally provided with for regulating the linear guides of SMT material strip width, slide block and regulation screw mandrel on counting ink jet numbering machine automatically, the coding needs of unlike material, shape and width S MT material strip therefore can be met.Described first optical fiber mounting bracket 60 and the second optical fiber mounting bracket 61 are fixedly mounted on workbench 1, being provided with the first fiber sensing module 58 in described first optical fiber mounting bracket 60, the first fiber sensing module 58 is for adding up by the time material strip quantity, material strip Negotiation speed and material strip；Being provided with the second fiber sensing module 59 in described second optical fiber mounting bracket 61, the second fiber sensing module 59 is used for monitoring material strip rewinding state, and sends the information monitored to control module 7.

Such as Fig. 4, described digital code-spraying printing mechanism 5 carries out digital code-spraying for the SMT material strip on material belt conveying mechanism 4, and it is installed on the table.Described digital code-spraying printing mechanism 5 includes: printer mounting bracket 511,4 wheel driven galvanic electricity machine 512, linear module 513 and coding printhead 514；Described printer mounting bracket 511 is located on workbench 1；Described 4 wheel driven galvanic electricity machine 512 is fixedly mounted in printer mounting bracket 511；Described linear module 513 and 4 wheel driven galvanic electricity machine 512 drive connection also drive coding printhead 514 to move axially.In order to make the installation of digital code-spraying printing mechanism 5 and safeguard convenient, digital code-spraying printing mechanism 5 still further comprises first connecting rod 515, second connecting rod the 516, first contiguous block the 517, second contiguous block the 518, first tightening knob the 519, second tightening knob the 520, the 3rd tightening knob 521 and coding print driver 522；Described coding printhead 514 is connected with linear module 513 by first connecting rod 515, second connecting rod the 516, first contiguous block the 517, second contiguous block 518 respectively, and respectively by the first tightening knob the 519, second tightening knob 520 and the 3rd tightening knob 521 rotational fastener, described coding print driver 522 respectively with 4 wheel driven galvanic electricity machine 512 and linear module 513 drive connection, for control 4 wheel driven galvanic electricity machine 512 work.

Described bar code printing mechanism 6 is used for printing bar code mark, and it is located on described workbench 1 and is connected with control module 7.Described bar code printer 6, according to counting and the information of typing, prints bar-code label, for being manually attached to charging tray surface as mark.

Working method of the present utility model is as follows:

First manually by first drive shaft 23 being installed to rewinding strainer 2 of charging tray 21, material strip head on charging tray is slowly inserted by the material strip entrance of material belt conveying mechanism 4, rotary shaft is revolved 48 counterclockwise, it is connected until the first ratchet 46 of material belt conveying mechanism is lateral opening with material strip, when rotary shaft rotation is 48, SMT material strip can be driven to rotate.Manually material strip head is inserted material strip entrance or right hand inlet port on the left of machine, depending on material strip direction.Under the first ratchet 46 drives, SMT material strip arrives the first fiber sensing module 58 through press nips 49, this first fiber sensing module 58 can be added up by the time to material strip quantity, material strip Negotiation speed and material strip, when this product arrives digital code-spraying printing mechanism 5, control module 7 controls coding printhead 514 and prints, and generates required character code or picture surface code；When material strip enters the working region of the second fiber sensing module 59, the second fiber sensing module 59 obtains the status information of SMT material strip.When the head of SMT material strip is through the second fiber sensing module 59, control module 7 provides control signal, material strip guides and drives cylinder 382 contraction to drive material strip conductor 384 close to auxiliary receiving mechanism 3, guides the head of material strip to enter in the stub bar draw-in groove 361 of rewinding wheel hub 36；Second drives motor 32 to drive the drivewheel of antivibrator, and drivewheel simultaneously drives driven pulley and connected rewinding wheel hub 36 rotates.Material strip shaping sheet 35, auxiliary rewinding dish 34 constraint under, fitly stacking is wound on rewinding wheel hub 36.Last of entire volume material strip is expected after the first fiber sensing module 58, machine down；Last material of entire volume material strip is after the second fiber sensing module 59, and machine stops operating, and rotates backward after system delay again, finally, by rewinding strainer 2 rewinding band.Material strip is wound in charging tray 21 by former sequential volume.Bar code printer 6, according to counting and the information of typing, prints bar-code label, for being manually attached to charging tray surface as mark.Aforesaid operations process has only to a workman and operates, and significantly reduces labor intensity and production cost, makes work efficiency significantly improve.

Although this utility model being disclosed by above example, but scope of the present utility model is not limited thereto, under conditions of conceiving without departing from this utility model, above each component can be replaced with the similar or equivalent element that art personnel understand.

Claims (10)

1. null1. a SMT material strip counts ink jet numbering machine automatically，It is characterized in that，Described SMT material strip automatically counts ink jet numbering machine and includes: workbench (1)，It is respectively fixedly connected with in described workbench (1) both sides and is used for pan feeding and the rewinding strainer (2) of rewinding and auxiliary receiving mechanism (3)，It is located at the upper material belt conveying mechanism (4) for transmitting material strip between rewinding strainer (2) and auxiliary receiving mechanism (3) of described workbench (1)，It is located at upper being used for of described workbench (1) and carries out the digital code-spraying printing mechanism (5) of digital code-spraying and for printing the bar code printing mechanism (6) of bar code mark to the SMT material strip on material belt conveying mechanism (4)，And connect control rewinding strainer (2)、Auxiliary receiving mechanism (3)、Material belt conveying mechanism (4)、The control module (7) of digital code-spraying printing mechanism (5) and bar code printing mechanism (6).
2. 2. SMT material strip as claimed in claim 1 counts ink jet numbering machine automatically, it is characterised in that described rewinding strainer (2) including: charging tray (21), the first driving motor (22), the first drive shaft (23) and cantilever (24)；Described first drive motor (22) be installed on cantilever (24) upper and with the first drive shaft (23) drive connection；Described charging tray (21) is coaxially connected in the first drive shaft (23).
3. 3. SMT material strip as claimed in claim 1 counts ink jet numbering machine automatically, it is characterized in that, described auxiliary receiving mechanism (3) including: rewinding support (31), second drives motor (32), shaft joint (33), auxiliary rewinding dish (34), shaping sheet (35), rewinding wheel hub (36), antivibrator (37) and be located at the drivewheel on antivibrator (37) and the driven pulley being meshed with this drivewheel；Described rewinding support (31) is located at workbench (1) side；Described second drives motor (32) to be fixedly mounted on rewinding support (31) top；Described shaft joint (33), auxiliary rewinding dish (34), shaping sheet (35), rewinding wheel hub (36) and antivibrator (37) are the most sequentially coaxially connected in the drive shaft of the second driving motor (32)；Described second drives motor (32) drive drivewheel and drive driven pulley and rewinding wheel hub (36) to rotate simultaneously.
4. 4. SMT material strip as claimed in claim 3 counts ink jet numbering machine automatically, it is characterised in that be additionally provided with on described rewinding wheel hub (36) for making material strip head enter the stub bar draw-in groove (361) in rewinding wheel hub (36).
5. 5. SMT material strip as claimed in claim 3 counts ink jet numbering machine automatically, it is characterised in that be additionally provided with on described auxiliary receiving mechanism (3) for guiding material strip to be entered the material strip guide mechanism (38) in auxiliary receiving mechanism by material belt conveying mechanism (4).
6. 6. SMT material strip as claimed in claim 5 counts ink jet numbering machine automatically, it is characterised in that described material strip guide mechanism (38) including: bracing frame (381), material strip guide and drive cylinder (382), slide rail (383) and material strip conductor (384)；Support frame as described above (381) and slide rail (383) are respectively fixedly connected with on workbench (1)；Described material strip guide drive cylinder (382) respectively with material strip conductor (384) and slide rail (383) drive connection.
7. 7. SMT material strip as claimed in claim 5 counts ink jet numbering machine automatically, it is characterized in that, described material belt conveying mechanism (4) including: the 3rd drives motor (41), shaft joint (42), first synchronizes wheel (43), Timing Belt (44), second synchronizes wheel (45), first ratchet (46), second ratchet (47), axle rotation is (48), press nips (49), pinch roller track (50), linear guides (51), slide block (52), location draw runner (53), limited block (54), regulation screw mandrel (55), second drive shaft (56), 3rd drive shaft (57), first fiber sensing module (58), second fiber sensing module (59), first optical fiber mounting bracket (60) and the second optical fiber mounting bracket (61)；Wherein, the described 3rd the material strip pan feeding side that motor (41) is fixedly mounted on workbench (1) is driven；Described 3rd drive motor (41) respectively with the shaft joint (42) being coaxially mounted in the second drive shaft (56), first Tong Bus take turns (43) and the first ratchet (46) drive connection；The rotation of described axle is fixedly connected on (48) end of the second drive shaft (56)；Described pinch roller track (50) is fixedly installed on workbench (1), which is provided with press nips (49)；Described second synchronizes wheel (45), the 3rd drive shaft (57) and the second ratchet (47) is respectively arranged between pinch roller track (50) and material strip guide mechanism (38) and is in transmission connection with press nips (49)；Described Timing Belt (44) is connected between the first synchronization wheel (43) wheel (45) Tong Bu with second；Described linear guides (51) is fixed on workbench (1), and described location draw runner (53) is located at slide block (52) and above and is slidably connected with linear guides (51)；Described first optical fiber mounting bracket (60) and the second optical fiber mounting bracket (61) are fixedly mounted on workbench (1), it are separately installed with the first fiber sensing module (58) for being added up material strip quantity, material strip Negotiation speed, material strip by date and time and for monitoring second fiber sensing module (59) of material strip rewinding state.
8. 8. SMT material strip as claimed in claim 7 counts ink jet numbering machine automatically, it is characterised in that be additionally provided with, between described pinch roller track (50) and press nips (49), the gap that feed strip passes.
9. 9. SMT material strip as claimed in claim 1 counts ink jet numbering machine automatically, it is characterized in that, described digital code-spraying printing mechanism (5) including: printer mounting bracket (511), 4 wheel driven galvanic electricity machine (512), linear module (513) and coding printhead (514)；Described printer mounting bracket (511) is located on workbench (1)；Described 4 wheel driven galvanic electricity machine (512) is fixedly mounted in printer mounting bracket (511)；Described linear module (513) and 4 wheel driven galvanic electricity machine (512) drive connection also drive coding printhead (514) to move axially.
10. 10. SMT material strip as claimed in claim 7 counts ink jet numbering machine automatically, it is characterized in that, the edge interval of described SMT material strip to be provided with some material strips lateral opening, lateral opening the first ratchet (46) and the second ratchet (47) with material belt conveying mechanism respectively of described material strip is connected.