CN207972423U - Spray printing mechanism and printing equipment - Google Patents
Spray printing mechanism and printing equipment Download PDFInfo
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- CN207972423U CN207972423U CN201721923480.4U CN201721923480U CN207972423U CN 207972423 U CN207972423 U CN 207972423U CN 201721923480 U CN201721923480 U CN 201721923480U CN 207972423 U CN207972423 U CN 207972423U
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- 238000007639 printing Methods 0.000 title claims abstract description 221
- 230000007246 mechanism Effects 0.000 title claims abstract description 161
- 239000007921 spray Substances 0.000 title claims abstract description 116
- 238000007641 inkjet printing Methods 0.000 claims abstract description 3
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims description 61
- 230000007723 transport mechanism Effects 0.000 claims description 36
- 235000010585 Ammi visnaga Nutrition 0.000 claims description 21
- 244000153158 Ammi visnaga Species 0.000 claims description 21
- 238000006073 displacement reaction Methods 0.000 claims description 12
- 230000004044 response Effects 0.000 abstract description 8
- 239000000203 mixture Substances 0.000 abstract description 2
- 238000010586 diagram Methods 0.000 description 27
- 238000000034 method Methods 0.000 description 8
- 230000005540 biological transmission Effects 0.000 description 7
- 230000008569 process Effects 0.000 description 7
- 239000007788 liquid Substances 0.000 description 5
- 238000002360 preparation method Methods 0.000 description 3
- 230000008859 change Effects 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 230000008901 benefit Effects 0.000 description 1
- 230000001680 brushing effect Effects 0.000 description 1
- 244000309464 bull Species 0.000 description 1
- 238000011065 in-situ storage Methods 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
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- 238000004519 manufacturing process Methods 0.000 description 1
- 230000009467 reduction Effects 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
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Abstract
A kind of spray printing mechanism of the utility model exposure and printing equipment, wherein spray printing mechanism include:One ontology;The one side in ontology is arranged in an at least nozzle, wherein the nozzle that can be arranged by a plurality of sprinkler compositions at least two arranges, and the nozzle of several column row constitute at least one nozzle group;And a steering module, it is set to ontology, is turned to controlling ontology;And exposure has a kind of printing equipment carrying out ink jet printing using spray printing mechanism;Thereby, so that the utility model is adjusted the direction of ontology by steering module, the printing work of more multi-mode can be completed in response to the size and spray printing range that coordinate object to be printed.
Description
Technical field
The utility model relates to a kind of printing technology, in particular to a kind of printing side of modifiable nozzle group
To thereby the jet printer of the printing work of more multi-mode can be completed in response to the size and spray printing range that coordinate object to be printed
Structure and printing equipment.
Background technology
Since previously, an example as liquid injection device, it is known to ink jet type printing equipment.It is set in ink jet type printing
In standby, a plurality of nozzles of ink jettable are equipped with, the objects such as general paper, corrugated paper can be printed by those nozzles
Operation makes the surface of the object that can form such as word, geometric figure pattern.
In general, a plurality of nozzles of ink jet type printing equipment are arranged in a manner of particular arrangement on the surface of an ontology,
When ink jet type printing equipment carries out planographic work, object to be printed can be set on the pedestal equipped with transport mechanism, is passed through
When so that object to be printed is transported to below ontology by the drive of transport mechanism, it can be printed through a plurality of nozzles.
Although however, the ontology with a plurality of nozzles of current ink jet type printing equipment can in a limited area into
Line position is moved to execute presswork to object to be printed, but the ontology can not be turned to, thus, be shaped to particular arrangement
A plurality of nozzles of mode carry out presswork be limited, for have large scale and tool directionality and continuity pattern or
The operation of special print publishing demand will be unable to execute.
Utility model content
The technical issues of the utility model is solved is providing a kind of print direction of modifiable nozzle, thereby can be in response to
Coordinate size and the spray printing range of object to be printed to complete the spray printing mechanism and printing equipment of the printing work of more multi-mode.
Technological means used by the utility model is as described below.
Purpose according to the present utility model proposes a kind of spray printing mechanism, including:One ontology;At least one nozzle, the nozzle
The one side in the ontology is arranged;And a steering module, it is set to the ontology, is turned to controlling the ontology.
According to above-mentioned technical characteristic, the nozzle that can be arranged by a plurality of sprinkler compositions at least two arranges, wherein adjacent to each other should
Nozzle arranges in a manner of non-alignment side by side, so that this of the nozzle row of a plurality of nozzles of nozzle row and adjacent another row is multiple
Several nozzles form dislocation configuration, and the nozzle of several column row constitute at least one nozzle group.
According to above-mentioned technical characteristic, can be configured along the ontology by a plurality of nozzles.
According to above-mentioned technical characteristic, the control of the diverted module of ontology can carry out 90 degree of steering.
According to above-mentioned technical characteristic, the steering module includes a drive component.
According to above-mentioned technical characteristic, the driving component include a steering motor and a plurality of tooth sectors, a plurality of turns
It is engaged with each other to gear and connects steering motor and ontology, the control of a plurality of diverted motors of tooth sector is rotated with band
Dynamic ontology is turned to.
According to above-mentioned technical characteristic, the driving component includes a cylinder and swing arm, control of the swing arm through the cylinder into
Row turn is to drive the ontology to be turned to.
According to above-mentioned technical characteristic, the nozzle includes a plurality of nozzles.
According to above-mentioned technical characteristic, aspect that the ontology is rectangle.
Via above-mentioned, the utility model is mainly provided with a steering module to link the ontology with a plurality of nozzle groups, makes
The control for obtaining the permeable steering module of ontology is turned to, and then changes the print direction of a plurality of nozzle groups, thus, institute
The printing work of more multi-mode can be completed in response to the size and spray printing range of object to be printed by stating spray printing mechanism.In addition, by
By the arrangement mode of the nozzle set by the utility model, can be carried out efficient using minimum nozzle quantity
Presswork, while making the pattern printed that can not break the most completely.
Purpose according to the present utility model, and propose a kind of print carrying out ink jet printing using spray printing mechanism as described above
Brush equipment, it includes:One pedestal is located at the lower section of spray printing mechanism;An at least position adjusting mechanism, the position adjusting mechanism connect
Spray printing mechanism is tied, is moved and is positioned in a manner of lateral X-axis, lateral Y-axis or longitudinal Z axis to control spray printing mechanism;And
One transport mechanism, is set on pedestal, is printed by spray printing mechanism with conveying object to be printed.
According to above-mentioned technical characteristic, the position adjusting mechanism includes:One cross bar is set to the top of pedestal;One belt
Component is set to cross bar;One pedestal links belt component;One the first adjustment module, base body and spray printing mechanism, the first adjustment
Module can carry out displacement with respect to pedestal, to drive spray printing mechanism to be moved with lateral Y direction;One second adjustment module, connection the
One adjustment module and spray printing mechanism, second adjustment module can carry out displacement with respect to pedestal, to drive spray printing mechanism with longitudinal Z axis side
To movement;And one third adjust module, link belt component, third adjustment module control belt component curl up, to drive seat
Body carries out displacement, and then spray printing mechanism is driven to be moved with lateral X-direction.Wherein, it is adjusted by the first adjustment module, second
Mould preparation group and third adjustment module can control spray printing mechanism in a region carry out lateral displacement with length travel to be held to object
Row presswork.
According to above-mentioned technical characteristic, the pedestal includes one first tooth pick division, and the first adjustment module includes then one and first
The first gear of tooth pick division engagement.
According to above-mentioned technical characteristic, the position adjusting mechanism further includes:Two tracks, each track are respectively arranged at pedestal
Opposite two sides;Two supporting racks, each supporting rack are respectively arranged on each track, to support fixed transverse rod;And one the 4th adjustment
Module connects at least one supporting rack, is moved in the enterprising line position of track with controlling two supporting racks, and then drive cross bar with respect to base
Seat is moved with lateral Y direction.
Among the above, the horizontal position set by the modifiable spray printing mechanism of module is adjusted by the described 4th;If with plural number
A position adjusting mechanism, and when each position adjustment mechanism is connected separately with spray printing mechanism, then can be according to using the 4th adjustment module
The adjacent mutual spacing distance of spray printing mechanism is adjusted according to set printing mode or the size of object to be printed, thereby can more into
One step raising efficiency, and can effectively energy saving and reduction risk.
According to above-mentioned technical characteristic, each supporting rack, which separately includes one, can be embedded in the second gear of track.
According to above-mentioned technical characteristic, the position adjusting mechanism further includes one the 5th adjustment module, connects at least one
Support, the 5th adjustment module can control the partial structure of supporting rack to carry out length travel, to drive cross bar to rise or fall.Its
In, the height and position set by spray printing mechanism can be changed according to the thickness of object to be printed by adjusting module by the described 5th.
According to above-mentioned technical characteristic, the 5th adjustment module includes one second tooth pick division and a third gear, and second
Tooth pick division is connected to supporting rack, and third gear engages the second tooth pick division, and the is pushed when third gear is driven to be rotated
Two tooth pick divisions are so that the partial structure of supporting rack carries out length travel.
According to above-mentioned technical characteristic, the position adjusting mechanism is the mechanical arm being set to by the side of pedestal.
According to above-mentioned technical characteristic, the printing equipment further includes a suction mechanism, is set to the inside of pedestal, and transmit
Mechanism is equipped with plurality of openings, and the suction mechanism is transmitted by plurality of openings draw gas with adsorbing transport mechanism
Object, can thereby allow object during transmission and printing it is more stable without will produce offset the problem of.
According to above-mentioned technical characteristic, the transport mechanism is belt or crawler belt comprising plurality of openings.
According to above-mentioned technical characteristic, the transport mechanism includes:One workbench, is set on pedestal, and workbench is equipped with
Plurality of openings;And a plurality of idler wheels, each idler wheel are respectively arranged among each trepanning, a plurality of idler wheels carry out object when rotation
Conveying.
According to above-mentioned technical characteristic, the printing equipment further includes:One feed mechanism, is set to one end of pedestal, and send
Expect that mechanism includes that object to be printed can be sent to a plurality of revolving rods of transport mechanism;And a receiving mechanism, it is set to
The opposite other end of pedestal, to receive the object being completed for printing that transport mechanism is conveyed.
The printing process of technical characteristic according to the present utility model is suitable for printing equipment as described above, wherein described
Printing process comprises the steps of:Come the position of adjust automatically spray printing mechanism according to the size and print range of object to be printed, and
Printing orientation of the steering of control ontology with positioning nozzle relative to the conveying direction of transport mechanism is adjusted via steering module;
Object to be printed is conveyed through transport mechanism;And spray printing mechanism is automatically controlled with lateral X-axis and Y direction movement or in origin
Positioning to carry out presswork to object to be printed.
According to above-mentioned technical characteristic, the printing process further includes the following steps:Object to be printed is passed by feed mechanism
It send to transport mechanism.
According to above-mentioned technical characteristic, the printing process further includes the following steps:By suction mechanism draw gas, to inhale
It is transmitted in attached fixed transmission mechanism.
According to above-mentioned technical characteristic, the printing process further includes the following steps:Conveyer is received by receiving mechanism
The print object that structure is conveyed.
Technique effect caused by the utility model:The print direction of nozzle is changed, it thereby can be in response to cooperation object to be printed
The size and spray printing range of part complete the spray printing mechanism and printing equipment of the printing work of more multi-mode.
Description of the drawings
Fig. 1 is the schematic diagram of the spray printing mechanism of the utility model.
Fig. 2 is the first schematic diagram of the first embodiment of the printing equipment of the utility model.
Fig. 3 is the second schematic diagram of the first embodiment of the printing equipment of the utility model.
Fig. 4 is another implementation schematic diagram of the spray printing mechanism of the first embodiment of the printing equipment of the utility model.
Fig. 5 is another implementation schematic diagram of the steering module of the first embodiment of the printing equipment of the utility model.
Fig. 6 is the third schematic diagram of the first embodiment of the printing equipment of the utility model.
Fig. 7 is the 4th schematic diagram of the first embodiment of the printing equipment of the utility model.
Fig. 8 is the schematic diagram of the second embodiment of the printing equipment of the utility model.
Fig. 9 is the schematic diagram of the first embodiment of the transport mechanism of the printing equipment of the utility model.
Figure 10 is the schematic diagram of the second embodiment of the transport mechanism of the printing equipment of the utility model.
Figure 11 is the schematic diagram that the first printing mode is executed using the printing equipment of the first embodiment of the utility model.
Figure 12 is that the printing equipment of the utility model uses the position adjusting mechanism and inkjet mechanism of multiple first embodiments
Execute the schematic diagram of the first printing mode.
Figure 13 is to execute the first of second of printing mode using the printing equipment of the first embodiment of the utility model to show
It is intended to.
Figure 14 is to execute the second of second of printing mode using the printing equipment of the first embodiment of the utility model to show
It is intended to.
Figure 15 is that the printing equipment of the utility model uses the position adjusting mechanism and inkjet mechanism of multiple first embodiments
Execute the schematic diagram of the third printing mode.
Figure 16 is that the printing equipment of the utility model uses the position adjusting mechanism and inkjet mechanism of multiple first embodiments
Execute the schematic diagram of the 4th kind of printing mode.
Figure 17 is the flow chart of the printing process of the utility model.
Figure number explanation:
10 spray printing mechanisms
11 ontologies
12 nozzle groups
121 nozzles arrange
1211 nozzles
12111 nozzles
13 steering modules
131 steering motors
132 tooth sectors
133 cylinders
134 swing arms
20 pedestals
30 position adjusting mechanisms
31 cross bars
32 belt components
33 pedestals
331 first tooth pick divisions
34 the first adjustment modules
341 first gears
35 second adjustment modules
36 thirds adjust module
37 tracks
38 supporting racks
381 second gears
39 the 4th adjustment modules
310 the 5th adjustment modules
3101 second tooth pick divisions
3102 third gears
40 transport mechanisms
401 trepannings
41 workbench
42 idler wheels
50 suction mechanisms
60 feed mechanisms
61 revolving rods
70 receiving mechanisms
A objects to be printed
B has printed object
C, C1, C2 pattern
S1 ~ S3 steps.
Specific implementation mode
It is respectively the schematic diagram and the utility model of the spray printing mechanism of the utility model also referring to Fig. 1 and Fig. 3
Second schematic diagram of the first embodiment of printing equipment.It includes an ontology 11, extremely that the spray printing mechanism 10 of the utility model is main
A few nozzle group 12 and a steering module 13.In a preferable state sample implementation, ontology 11 may be designed as rectangular structure,
But not limited to this;It is equipped with a plurality of nozzle groups 12 being arranged, in embodiment, nozzle group in the one side of the ontology 11
12 quantity is at least four groups, wherein three groups of nozzle group 12 can load the trichromatic ink of carmetta, yellow and cyan respectively
Liquid, to carry out spray printing by forming for three groups of nozzle groups 12 and go out color pattern, and another group of nozzle group 12 then can spray printing go out it is black
Color.Wherein the one of the utility model is technically characterized in that each nozzle group 12 separately includes the nozzle row 121 of at least two row, respectively
Nozzle row 121 are all made of the nozzles 1211 of a plurality of interval configurations, and the nozzle row 121 of at least two row adjacent to each other with
Non-alignment mode is side by side so that a plurality of sprays of a plurality of nozzles 1211 of nozzle row 121 and the nozzle row 121 of adjacent another row
First 1211 form dislocation configuration, and thereby, the utility model can carry out efficient print using minimum nozzle quantity
Brush operation, while making the pattern printed that can not break the most completely.Wherein, each nozzle 1211 include it is a plurality of can spray printing
Go out the nozzle 12111 of black liquid.
Please refer to another implementation signal of the spray printing mechanism of the first embodiment for the printing equipment that Fig. 4 is the utility model
Figure, the main spray printing mechanism 10 of the utility model includes an ontology 11, at least one nozzle 1211 and a steering module 13.
In one preferable state sample implementation, ontology 11 may be designed as rectangular structure, and but not limited to this;In the one side of the ontology 11
Equipped with a plurality of nozzles 1211 being arranged, in embodiment, the quantity of nozzle 1211 is at least four groups, wherein three groups of spray
First 1211 can load the trichromatic black liquid of carmetta, yellow and cyan respectively, to come by forming for three groups of nozzles 1211
Spray printing goes out color pattern, and another group of nozzle 1211 then can spray printing go out black.A plurality of nozzles 1211 are configured at this with interval
Body, thereby, the utility model can carry out efficient presswork, while making print using minimum nozzle quantity
Brushing out the pattern come can not break the most completely.Wherein, each nozzle 1211 include it is a plurality of can spray printing go out the nozzle of black liquid
12111。
The utility model is most important to be technically characterized in that, it includes one that the ontology 11 of the utility model, which links steering module 13,
Drive component, and the first structure embodiment of steering module as shown in figure 3, the driving component include a steering motor 131 and
A plurality of tooth sectors 132, a plurality of tooth sectors 132 are engaged with each other and connect steering motor 131 and ontology 11, work as turning horse
It can control one of tooth sector 132 to be rotated when being operated up to 131, and then driven by the tooth sector of the rotation 132
Remaining tooth sector 132 rotates, and thereby can control ontology 11 to carry out 90 degree of steering counterclockwise or clockwise, to become
The print direction of more a plurality of nozzle groups 12, thus, which the spray printing mechanism 10 of the utility model can be in response to various objects to be printed
The printing work of more multi-mode is completed in size, spray printing range and the direction of part.
Please refer to another implementation signal of the steering module of the first embodiment for the printing equipment that Fig. 5 is the utility model
The ontology 11 of figure, another structural representation of the utility model steering module, the utility model links steering module 13, the steering mould
Group 13 includes a drive component, and the driving component includes a cylinder 133 and swing arm 134, and the swing arm 134 is through the cylinder 133
Control is rotated to drive the ontology 11 to be turned to, and can control swing arm 134 to carry out turn, Jin Eryou when cylinder 133 is made
The swing arm 134 of the turn can control ontology 11 to carry out 90 degree of steering counterclockwise or clockwise, to change a plurality of sprays
Head group 12 print direction, thus, the spray printing mechanism 10 of the utility model can in response to various objects to be printed size it is big
The printing work of more multi-mode is completed in small, spray printing range and direction.
After above-mentioned, then referring to Fig. 2, its for the first embodiment of the printing equipment of the utility model the first schematic diagram.
As shown, the printing equipment of the utility model includes mainly at least one such as above-mentioned spray printing mechanism 10, a pedestal 20, at least
One position adjusting mechanism 30 and a transport mechanism 40.The pedestal 20 is located at the lower section of spray printing mechanism 10;In the position of this embodiment
Adjustment mechanism 30 is set set on the upper of pedestal 20 and links spray printing mechanism 10, the effect of the position adjustment machine 30 is to control spray printing
Mechanism 10 is in a manner of lateral X-axis, lateral Y-axis or longitudinal Z axis in being moved and positioned on pedestal 20;The transport mechanism 40
It is set on pedestal 20, can be used to convey object to be printed and printed by spray printing mechanism 10.
It is respectively the of the printing equipment of the utility model also referring to Fig. 2 and Fig. 3 and Fig. 6, wherein Fig. 3 and Fig. 6 again
The second schematic diagram and third schematic diagram of one embodiment.For in detail, the position adjusting mechanism 30 of first embodiment includes one
Cross bar 31, a belt component 32, a pedestal 33, a first adjustment module 34, a second adjustment module 35, a third adjust module
36, two tracks, 37, two supporting racks 38, one the 4th adjustment module 39 and one the 5th adjustment module 310.Each track 37 divides
It is not set to opposite two sides of pedestal 20, and each supporting rack 38 is respectively equipped with a second gear 381 so that each supporting rack 38 is distinguished
It is embedded at the upper of each track 37 by second gear 381, as shown in Figure 4.The cross bar 31 is solid through two connections of supporting rack 38
It is fixed, so that cross bar 31 is configured at the top of pedestal 20.Belt component 32 is set to cross bar 31, and belt component 32 provides pedestal 33
Into joining line.The ontology 11 of 34 base body 33 of the first adjustment module and spray printing mechanism 10, wherein the pedestal 33 includes one
One tooth pick division 331, the first adjustment module 34 then contain the first gear 341 that can be used to engage with the first tooth pick division 331, such as scheme
Shown in 3 and Fig. 4, when the first adjustment module 34 operate to control first gear 341 when being rotated on the first tooth pick division 331, it is described
The first adjustment module 34 can carry out horizontal displacement with respect to pedestal 33, use and spray printing mechanism 10 is driven to be moved with lateral Y direction.The
Two adjustment modules 35 connect the first adjustment module 34 and the ontology 11 of spray printing mechanism 10, and the second adjustment module 35 can be opposite
Pedestal 33 carries out vertical displacement, to drive spray printing mechanism 10 to be moved with longitudinal Z-direction.Third adjusts module 36 and links belt group
Part 32 can control belt component 32 to curl up operating through third adjustment module 36, and using can drive pedestal 33 with belt group
Part 32 carries out horizontal displacement, and then spray printing mechanism 10 is driven to be moved with lateral X-direction.4th adjustment module 39 connection at least one
A supporting rack 38 so that two supporting racks 38 through the 4th adjustment module 39 control can in carrying out horizontal displacement on track 37,
And then cross bar 31 is driven to be moved with lateral Y direction together with components opposite bases 20 such as belt component 32, pedestal 33, spray printing mechanisms 10
It is dynamic.5th adjustment module 310 connects at least one supporting rack 38, as shown in figure 4, the 5th adjustment module 310 includes one
Second tooth pick division 3101 and a third gear 3102, second tooth pick division 3101 are connected to the partial structure of supporting rack 38, and
Third gear 3102 engages the second tooth pick division 3101, when the 5th adjustment running of module 310 is so that third gear 3102 is rotated
When, the third gear 3102 is can pass through to push the partial structure of the supporting rack 38 equipped with the second tooth pick division 3101, is allowed described
The partial structure of supporting rack 38 carries out vertical displacement, and then cross bar 31 is driven to rise or fall.
Among the above, the printing equipment of the utility model, can be automatically according to be printed when executing the preparation operation before printing
The printings such as size, print format of object demand utilizes the 4th adjustment module 39 to change the horizontal position set by spray printing mechanism 10
It sets and changes the height and position set by spray printing mechanism 10 using the 5th adjustment module 310, while also using steering module
13 adjust the steering of ontology 11;After preparation operation, then module 36 is adjusted using the first adjustment module 34 and third
Come control spray printing mechanism 10 in a region carry out lateral displacement and using second adjustment module 35 come control spray printing mechanism 10 into
Row length travel to object to execute presswork.
Continue please refer to Fig. 7, is the 4th schematic diagram of the first embodiment of the printing equipment of the utility model.This reality
A suction mechanism 50, a feed mechanism 60 and a receiving mechanism 70 are further comprised with novel printing equipment.The air-breathing
Mechanism 50 is set to the inside of pedestal 20, and plurality of openings 401 that when running can be equipped with via transport mechanism 40 is drawn
Gas, the object that thereby adsorbable transport mechanism 40 is transmitted make object more stable during transmission and printing
The problem of without will produce offset.Feed mechanism 60 is set to one end of pedestal 20, and feed mechanism 60 includes a plurality of rotations
Object A to be printed can be positioned on a plurality of revolving rods 61 by bull stick part 61, user, and then will be waited for through revolving rod 61
Print object A is sent to transport mechanism 40.Receiving mechanism 70 is set to the opposite other end of pedestal 20, can be used to receive conveyer
The object of the print B that structure 40 is conveyed.
Again referring to Fig. 8, it is the schematic diagram of the second embodiment of the printing equipment of the utility model.In second embodiment
In, the position adjusting mechanism 30 of the printing equipment of the utility model is designed as mechanical arm, may be disposed at the side of pedestal 20
Side, to control the level and height and position of spray printing mechanism 10.
Among the above, the transport mechanism 40 of the printing equipment of first embodiment and second embodiment can be equipped with described a plurality of
The belt or crawler belt of trepanning 401, as shown in Figure 9;Alternatively, the transport mechanism 40 may include a workbench 41 and a plurality of idler wheels
42, as shown in Figure 10, wherein workbench 41 is set on pedestal 20, and workbench 41 is equipped with plurality of openings 401, each idler wheel 42
It is respectively arranged among each trepanning 401, can be used to convey object when a plurality of idler wheels 42 are rotated.
Then, please refer to Figure 11, to execute first using the printing equipment of the first embodiment of the utility model
The schematic diagram of kind printing mode.As shown, in this printing mode, the length of the ontology 11 of setting spray printing mechanism 10 is smaller
One avris is vertical with the conveying direction of transport mechanism 40, and this printing equipment is carrying out printing work according to the first printing mode
When industry, the lower sections for being delivered to spray printing mechanism 10 object A to be printed are positioned through transport mechanism 40, so that object A to be printed is quiet
It sets motionless, then controls spray printing mechanism 10 and object A to be printed printed to form such as word, geometry with X-direction movement
The pattern C of figure etc..
Then, it is that the printing equipment of the utility model uses the position of multiple first embodiments please refer to Figure 12
Adjustment mechanism and inkjet mechanism execute the schematic diagram of the first printing mode.In this figure, the utility model is equipped with two first
Position adjusting mechanism 30 described in embodiment, each position adjustment mechanism 30 are separately connected a spray printing mechanism 10, each spray printing mechanism
10 equally can all adopt X-axis move mode in such a mode is printed, and before executing presswork, it can first penetrate position and adjust
4th adjustment module 39 of mechanism 30 is used to move cross bar 31 and adjusts the spacing distance of two spray printing mechanisms 10 to each other;Its
In, through spray printing mechanism the formed multiple spot spray printing station of multiple adjustable spacing, it can reach following three advantage:It 1, can be in response to being sprayed
The size adjusting spray printing mechanism spacing for printing object to shorten transport mechanism backlash, while being carried out through multiple spray printing mechanisms
Printing, can effectively promote operating efficiency.2, the area that leaks out of air suction mechanism can be reduced, there is energy-conserving action.3, when a certain spray printing
When mechanism operation exception or failure, its affiliated spray printing station can be closed, and in period to be repaired, remaining spray printing station still can normally be made
Industry, and then reduce halt production risk.
Continue also referring to Figure 13 and Figure 14, is respectively to be held using the printing equipment of the first embodiment of the utility model
First schematic diagram and the second schematic diagram of second of printing mode of row.As shown, in this printing mode, spray printing mechanism 10 passes through
90 degree of the steering of ontology 11, the avris for keeping the length of the ontology 11 of spray printing mechanism 10 smaller and transmission are controlled by steering module 13
The conveying direction of mechanism 40 is parallel;When this printing equipment carries out presswork according to second of printing mode, through transmission
Mechanism 40 is constantly conveyed object A to be printed with the direction of Y-axis, so that object A to be printed is passed through spray printing mechanism 10, is then controlled
Spray printing mechanism 10 is only moved in situ with Z axis longitudinal direction and forms pattern C to carry out printing to object A to be printed, as shown in figure 14.
5 are please referred to Fig.1 again, are that the printing equipment of the utility model uses the position adjusting mechanism of multiple first embodiments
And inkjet mechanism executes the schematic diagram of the third printing mode.As shown, in this printing mode, it is equipped with two first implementations
Position adjusting mechanism 30 described in example and spray printing mechanism 10, when executing presswork, transport mechanism 40 is constantly by object to be printed
Part A is conveyed with the direction of Y-axis, so that object A to be printed passes through each spray printing mechanism 10;And position is then distinguished by each spray printing mechanism 10
It is vertically moved in a manner of as you were in left and right Two Areas to be printed to object A to be printed, makes to be completed for printing
The left and right Two Areas of object be respectively formed by the pattern C1 and pattern C2 of 10 spray printings of each spray printing mechanism.
6 are please referred to Fig.1 again, are that the printing equipment of the utility model uses the position adjusting mechanism of multiple first embodiments
And inkjet mechanism executes the schematic diagram of the 4th kind of printing mode.As shown, in this printing mode, it is equipped with two first implementations
Position adjusting mechanism 30 described in example and spray printing mechanism 10, when executing presswork, transport mechanism 40 is to be printed by two simultaneously
Object A is delivered to the lower section of each spray printing mechanism 10, and each spray printing mechanism 10 is then moved with respectively to the object to be printed of its target
Part A carries out the presswork of left and right Two Areas so that the left and right Two Areas that the object of printing is completed can be formed by
The pattern C1 and pattern C2 of 10 spray printings of same spray printing mechanism.
7 are please referred to Fig.1, is the flow chart of the printing process of the utility model, it includes following steps:Step S1:According to
Come the position of adjust automatically spray printing mechanism according to the size and print range of object to be printed, and control is adjusted originally via steering module
The steering of body is to position printing orientation of a plurality of nozzle groups relative to the conveying direction of transport mechanism;Step S2:Through transmission
Mechanism conveys object to be printed;And step S3:Spray printing mechanism is automatically controlled with lateral X-axis and Y direction movement or in original point position
To carry out presswork to object to be printed.
In above-mentioned flow, further includes and object to be printed is sent to transport mechanism by feed mechanism, is inhaled by suction mechanism
The object that is transmitted in attached fixed transmission mechanism and receive that transport mechanism conveyed by receiving mechanism be completed for printing
Object.
Claims (20)
1. a kind of spray printing mechanism, which is characterized in that include:
One ontology (11);
At least one nozzle (1211), the nozzle (1211) are arranged in the one side of the ontology (11);And
One steering module (13) is set to the ontology (11), is turned to controlling the ontology (11).
2. spray printing mechanism as described in claim 1, which is characterized in that be made of the spray of at least two row a plurality of nozzles (1211)
Head row (121), wherein adjacent to each other nozzle row (121) in a manner of non-alignment side by side so that this of nozzle row (121) is multiple
Several nozzles (1211) and a plurality of nozzles (1211) of the nozzle row (121) of adjacent another row form dislocation configuration, and
The nozzle row (121) of the several column form at least one nozzle group (12).
3. spray printing mechanism as described in claim 1, which is characterized in that matched along the ontology (11) by a plurality of nozzles (1211)
It sets.
4. the spray printing mechanism as described in claims 1 to 3 is any, which is characterized in that the ontology (11) is through the steering module (13)
Control carry out 90 degree of steering.
5. the spray printing mechanism as described in claims 1 to 3 is any, which is characterized in that the steering module (13) includes a driving group
Part.
6. spray printing mechanism as claimed in claim 5, which is characterized in that the drive component is comprising a steering motor (131) and again
Several tooth sectors (132), a plurality of tooth sectors (132) are engaged with each other and connect the steering motor (131) and the ontology
(11), which is rotated to drive the ontology (11) to carry out
It turns to.
7. spray printing mechanism as claimed in claim 5, which is characterized in that the drive component includes at least a cylinder (133) and one
Swing arm (134), control of the swing arm (134) through the cylinder (133) carry out turn to drive the ontology (11) to be turned to.
8. the spray printing mechanism as described in claims 1 to 3 is any, which is characterized in that the nozzle (1211) includes a plurality of sprays
Mouth (12111).
9. it is a kind of using it is at least one claim 1 to 8 it is any as described in spray printing mechanism carry out ink jet printing printing set
It is standby, which is characterized in that include:
One pedestal (20) is located at the lower section of the spray printing mechanism (10);
An at least position adjusting mechanism (30), which links the spray printing mechanism (10), to control the spray printing
Mechanism (10) is moved and is positioned in a manner of lateral X-axis, lateral Y-axis or longitudinal Z axis;And
One transport mechanism (40) is set on the pedestal (20), is printed by the spray printing mechanism (10) with conveying object to be printed
Brush.
10. printing equipment as claimed in claim 9, which is characterized in that the position adjusting mechanism (30) includes:One cross bar
(31), it is set to the top of the pedestal (20);One belt component (32) is set to the cross bar (31);One pedestal (33), connection should
Belt component (32);One the first adjustment module (34) connects the pedestal (33) and the spray printing mechanism (10), the first adjustment module
(34) the opposite pedestal (33) carries out displacement, to drive the spray printing mechanism (10) to be moved with lateral Y direction;One second adjustment mould
Group (35) connects the first adjustment module (34) and the spray printing mechanism (10), and the second adjustment module (35) is with respect to the pedestal
(33) displacement is carried out, to drive the spray printing mechanism (10) to be moved with longitudinal Z-direction;And one third adjustment module (36), even
Tie the belt component (32), third adjustment module (36) controls the belt component (32) and curls up, with drive the pedestal (33) into
Line position is moved, and then the spray printing mechanism (10) is driven to be moved with lateral X-direction.
11. printing equipment as claimed in claim 10, which is characterized in that the pedestal (33) includes one first tooth pick division (331),
The first adjustment module (34) includes then a first gear (341) engaged with first tooth pick division (331).
12. the printing equipment as described in claim 10 or 11, which is characterized in that the position adjusting mechanism (30) includes:Two
Track (37), respectively the track (37) be respectively arranged at opposite two sides of the pedestal (20);Two supporting racks (38), the respectively supporting rack
(38) it is respectively arranged on the respectively track (37), which is fixed with support;And one the 4th adjustment module (39), be connected to
Few one supporting rack (38) is moved with controlling two supporting racks (38) in the enterprising line position of the track (37), and then driving should
Cross bar (31) is moved relative to the pedestal (20) with lateral Y direction.
13. printing equipment as claimed in claim 12, which is characterized in that respectively the supporting rack (38) has separately included one and has been embedded in
The second gear (381) of the track (37).
14. printing equipment as claimed in claim 12, which is characterized in that the position adjusting mechanism (30) includes one the 5th adjustment
Module (310), connects at least one supporting rack (38), and the 5th adjustment module (310) controls the portion of the supporting rack (38)
Part structure carries out length travel, to drive the cross bar (31) to rise or fall.
15. printing equipment as claimed in claim 14, which is characterized in that the 5th adjustment module (310) includes one second
Tooth pick division (3101) and a third gear (3102), second tooth pick division (3101) are connected to the supporting rack (38), and the third
Gear (3102) engages second tooth pick division (3101), when this third gear (3102) is driven rotated when push this second
Tooth pick division (3101) is so that the partial structure of the supporting rack (38) carries out length travel.
16. printing equipment as claimed in claim 9, which is characterized in that the position adjusting mechanism (30) is to be set to the pedestal
(20) the mechanical arm by side.
17. printing equipment as claimed in claim 9, which is characterized in that include a suction mechanism (50), be set to the pedestal
(20) inside, and the transport mechanism (40) is equipped with plurality of openings (401), the suction mechanism (50) is by the plurality of openings
(401) draw gas is to adsorb the object that the transport mechanism (40) is transmitted.
18. printing equipment as claimed in claim 17, which is characterized in that the transport mechanism (40) is to include the plurality of openings
(401) belt or crawler belt.
19. printing equipment as claimed in claim 17, which is characterized in that the transport mechanism (40) includes:One workbench (41),
It is set on the pedestal (20), and the workbench (41) is equipped with the plurality of openings (401);And a plurality of idler wheels (42), respectively should
Idler wheel (42) is respectively arranged among the respectively trepanning (401), which carries out the conveying of object when rotation.
20. printing equipment as claimed in claim 17, which is characterized in that include:One feed mechanism (60), is set to the pedestal
(20) one end, and the feed mechanism (60) includes a plurality of swingles that object to be printed is sent to the transport mechanism (40)
Part (61);And a receiving mechanism (70), it is set to the opposite other end of the pedestal (20), to receive transport mechanism (40) institute
The object of conveying being completed for printing.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721923480.4U CN207972423U (en) | 2017-12-29 | 2017-12-29 | Spray printing mechanism and printing equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721923480.4U CN207972423U (en) | 2017-12-29 | 2017-12-29 | Spray printing mechanism and printing equipment |
Publications (1)
Publication Number | Publication Date |
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CN207972423U true CN207972423U (en) | 2018-10-16 |
Family
ID=63768644
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201721923480.4U Expired - Fee Related CN207972423U (en) | 2017-12-29 | 2017-12-29 | Spray printing mechanism and printing equipment |
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CN (1) | CN207972423U (en) |
Cited By (6)
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CN109895504A (en) * | 2019-01-21 | 2019-06-18 | 李骏鹏 | A kind of showerhead base of draw-bar box type spray drawing machine |
CN109986890A (en) * | 2017-12-29 | 2019-07-09 | 长声工业股份有限公司 | Spray printing mechanism and printing equipment and its printing process |
CN110254048A (en) * | 2019-07-02 | 2019-09-20 | 海明联合能源集团矩网科技有限公司 | New stamp printer |
WO2021052059A1 (en) * | 2019-09-19 | 2021-03-25 | 海明联合能源集团矩网科技有限公司 | Rotary printing integrated ink box specifically for seal printing |
CN113561661A (en) * | 2021-07-22 | 2021-10-29 | 海明联合能源集团矩网科技有限公司 | Gear-driven seal printer |
CN114347662A (en) * | 2021-11-25 | 2022-04-15 | 司志涛 | Digital printing system and digital printing method based on corrugated board |
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2017
- 2017-12-29 CN CN201721923480.4U patent/CN207972423U/en not_active Expired - Fee Related
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109986890A (en) * | 2017-12-29 | 2019-07-09 | 长声工业股份有限公司 | Spray printing mechanism and printing equipment and its printing process |
CN109895504A (en) * | 2019-01-21 | 2019-06-18 | 李骏鹏 | A kind of showerhead base of draw-bar box type spray drawing machine |
CN110254048A (en) * | 2019-07-02 | 2019-09-20 | 海明联合能源集团矩网科技有限公司 | New stamp printer |
US11390069B2 (en) | 2019-07-02 | 2022-07-19 | Haiming United Energy Group Juwang Technology Co., Ltd. | Seal printer |
WO2021052059A1 (en) * | 2019-09-19 | 2021-03-25 | 海明联合能源集团矩网科技有限公司 | Rotary printing integrated ink box specifically for seal printing |
US11518178B2 (en) | 2019-09-19 | 2022-12-06 | Haiming United Energy Group Matrixnets Tech Co Ltd | Rotary printing integrated ink box for seal printing |
CN113561661A (en) * | 2021-07-22 | 2021-10-29 | 海明联合能源集团矩网科技有限公司 | Gear-driven seal printer |
CN114347662A (en) * | 2021-11-25 | 2022-04-15 | 司志涛 | Digital printing system and digital printing method based on corrugated board |
CN114347662B (en) * | 2021-11-25 | 2023-08-22 | 司志涛 | Digital printing system and digital printing method based on corrugated board |
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