CN112571968A - Ink station for digital printing equipment and working method thereof - Google Patents

Abstract

The invention discloses an ink station for digital printing equipment, which comprises an air exhaust structure and a lifting platform, wherein the air exhaust structure comprises an air exhaust head, an air exhaust pipe and an air exhaust pump, an ink pad is arranged on the air exhaust head, an air inlet is arranged on the ink pad, an air outlet is arranged at the bottom of the air exhaust head, the lifting platform comprises a support bottom plate, a sliding frame, a lead screw transmission structure and a lifting frame, the lead screw transmission structure comprises a transmission lead screw, a lead screw nut and a lead screw seat, the sliding frame comprises a sliding bottom plate, a sliding vertical plate and a lifting chute, the sliding bottom plate is connected with the lead screw nut through a sliding block, the lifting frame comprises a lifting top frame, a lifting guide plate, the lifting vertical plate and a lifting slide bar, two ends of the lifting slide bar are slidably connected in a pair of lifting chutes corresponding to the sliding bottom plate, at. The air exhaust structure is convenient to lift and good in stability, the labor intensity of workers is reduced, the working efficiency is improved, and the air exhaust effect is good.

Description

Ink station for digital printing equipment and working method thereof

Technical Field

The invention relates to an auxiliary facility of digital printing equipment, in particular to an ink station for the digital printing equipment and a working method thereof.

Background

When the digital printing equipment works, ink is pumped into the printing nozzle by the micro ink pump to be printed on paper, and the printing nozzle stops working or stops working in the process. The shower nozzle the inside can get into the air, lead to printing the very poor or shower nozzle of effect and block up, just need adopt the china ink station to draw out the air of shower nozzle the inside, because it can not reciprocate to print the shower nozzle, at present, china ink station's evacuation all adopts artifical support to reciprocate the air exhaust structure of china ink station and aims at printing the shower nozzle and carry out the evacuation, workman intensity of labour is big, work efficiency is low, and artifical support removes the black pad lift of filling up, the lift stability can not be ensured, a plurality of air exhaust structures and a plurality of alignment precision and the alignment uniformity of printing the shower nozzle are all relatively poor, influence the air exhaust structure to the air exhaust effect of printing the shower nozzle.

Disclosure of Invention

In order to solve the defects and shortcomings in the prior art, the invention provides the ink station for the digital printing equipment and the working method thereof, wherein the air extracting structure is lifted by adopting a lead screw transmission structure in cooperation with a sliding frame and a lifting frame, and the lifting guide upright post and the lifting guide block are matched with the lifting frame for lifting, so that the air extracting structure is convenient to lift and has good stability, the labor intensity of workers is reduced, the working efficiency is improved, the alignment precision and consistency of a plurality of air extracting structures and a plurality of printing spray heads are ensured, and meanwhile, an ink pad is matched with the air extracting head for extracting air from the printing spray heads, and the air extracting effect is ensured.

The technical scheme of the invention is as follows: an ink station for digital printing equipment comprises an air exhaust structure matched with a printing nozzle, and further comprises a lifting platform for driving the air exhaust structure to lift, wherein the air exhaust structure comprises an air exhaust head, an air exhaust pipe and an air exhaust pump, an ink pad matched with the printing nozzle is arranged on the air exhaust head, an air inlet matched with the air exhaust head is arranged on the ink pad, an air outlet connected with the air exhaust pipe is arranged at the bottom of the air exhaust head, the lifting platform comprises a support bottom plate, a sliding frame connected to the support bottom plate in a sliding manner, a lead screw transmission structure driving the sliding frame to slide and a lifting frame connected to the sliding frame in a lifting manner, the lead screw transmission structure comprises a transmission lead screw, a lead screw nut matched with the transmission lead screw and a lead screw seat, the sliding frame comprises a sliding bottom plate, sliding vertical plates arranged on two sides of the sliding bottom plate and at least one pair of lifting chutes arranged on, the lifting frame comprises a lifting top frame, a lifting guide plate arranged at one end of the lifting top frame, lifting vertical plates arranged at two sides of the lifting top frame and at least one lifting slide bar arranged between the two lifting vertical plates, wherein two ends of the lifting slide bar are slidably connected in a pair of lifting slide grooves corresponding to the lifting slide bar, at least one lifting guide stand column is arranged on the supporting bottom plate, and a lifting guide block matched with the lifting guide stand column is arranged on the lifting guide plate.

The air extracting structure is supported and lifted by the lead screw transmission structure matched with the sliding frame and the lifting frame, so that the air extracting structure is convenient to lift and has good stability, the labor intensity of workers is reduced, the working efficiency is improved, the alignment precision and consistency of the plurality of air extracting structures and the plurality of printing spray heads are ensured, and meanwhile, the ink pad is matched with the air extracting head to extract air to the printing spray heads, so that the air extracting effect is ensured.

Preferably, the air pumping head is fixed on the lifting top frame through an air pumping head mounting plate, a circular through hole matched with an air outlet is formed in the air pumping head mounting plate, a connecting flange matched with the air pumping head is arranged at the top of the air pumping head mounting plate, a connecting lug matched with the connecting flange is arranged at the bottom of the air pumping head, and a filter screen is arranged on the air inlet.

The structure ensures that the installation of the air extracting head is firm and reliable, thereby ensuring that the air extracting head is matched with the ink pad to stably and reliably extract air to the printing nozzle.

Preferably, the sliding bottom plate is provided with a pair of outer guide sliding grooves and a pair of inner guide sliding grooves, the supporting bottom plate is provided with a pair of outer guide sliding seats matched with the outer guide sliding grooves and a pair of inner guide sliding seats matched with the inner guide sliding grooves, the outer guide sliding grooves are located on the outer side of the sliding vertical plate, the inner guide sliding grooves are located on the inner side of the sliding vertical plate, and the outer guide sliding grooves and the inner guide sliding grooves are distributed in a staggered mode from front to back.

The structure ensures that the sliding of the sliding frame on the supporting bottom plate is more stable and reliable, thereby ensuring that the lifting frame can lift on the sliding frame more stably and reliably.

Preferably, the outer guide sliding groove is located at the front side of the inner guide sliding groove, sliding lugs are arranged on two sides of the sliding bottom plate, and the outer guide sliding groove is arranged on the sliding lugs.

The structure is convenient for the arrangement of the inner and outer guide chutes, and ensures the compact, reasonable and reliable structure.

Preferably, driving motor is installed to the one end of transmission lead screw, driving motor passes through the motor frame and installs on supporting baseplate, the hand wheel is installed to the other end of transmission lead screw, the lift deflector is located the rear end of lift top frame.

The structure enables the ink pad to be directly driven to rotate through the driving motor to drive the transmission screw rod to drive the sliding frame to slide so as to realize automatic lifting of the ink pad, and the transmission screw rod can be driven to rotate by adopting a manual rotating hand wheel to drive the sliding frame to slide according to requirements.

Preferably, the supporting bottom plate is further provided with a limiting frame matched with the lifting guide block, the limiting frame comprises a limiting top plate and L-shaped support legs arranged on two sides of the limiting top plate, and the limiting top plate is arranged at the top of the lifting guide upright post.

The lifting of the lifting frame is ensured to be more stable, safe and reliable by the structure.

Preferably, one side of the supporting bottom plate is provided with a lifting travel switch, and one side of the lifting guide plate is provided with an induction sheet matched with the lifting travel switch; the lifting travel switch is installed on the supporting bottom plate through a switch installation frame, and a guide groove matched with the induction sheet is formed in the switch installation frame.

The structure can timely stop the action of the driving motor according to the lifting in place of the lifting frame, and further ensures the safety and reliability of the lifting; simultaneously, the installation of the lifting travel switch is facilitated, and the matching between the induction sheet and the lifting travel switch is more convenient and reliable.

Preferably, the lift spout includes the slope section, is located the spacing section of the upper level at slope section top and is located the spacing section of the lower level of slope section bottom, the spacing section of upper level is located the front side of the spacing section of upper level.

The structure further ensures that the lifting of the lifting frame is more stable and reliable.

Preferably, the number of the lifting sliding grooves is two, the number of the lifting sliding rods is two, the number of the lifting guide upright columns is two, and the number of the lifting guide blocks is two.

The structure further ensures that the lifting of the lifting frame is more stable and reliable.

A working method of an ink station for digital printing equipment comprises the following steps: the ink station is installed on an air pumping station of a printing nozzle of digital printing equipment, when the printing nozzle of the digital printing equipment needs to pump air, the printing nozzle is sent to the upper part of the ink station to correspond to the position of an ink pad, a driving motor rotates forwards to drive a transmission screw rod to rotate and drive a sliding frame to slide forwards, a lifting slide rod slides upwards on a lifting slide groove to drive a lifting frame to ascend so as to drive an air pumping head and the ink pad to ascend, when the ink pad and the printing nozzle are matched and sealed, the driving motor stops acting, and an air pumping structure starts to act to pump air to the printing nozzle; when the air exhaust structure finishes air exhaust, the driving motor reversely rotates to drive the transmission screw rod to rotate to drive the sliding frame to move backwards, and the lifting slide rod slides downwards on the lifting slide groove to drive the lifting frame to descend and reset.

The air extracting structure is supported and lifted by the lead screw transmission structure matched with the sliding frame and the lifting frame, so that the air extracting structure is convenient to lift and has good stability, the labor intensity of workers is reduced, the working efficiency is improved, the alignment precision and consistency of the plurality of air extracting structures and the plurality of printing spray heads are ensured, and meanwhile, the ink pad is matched with the air extracting head to extract air to the printing spray heads, so that the air extracting effect is ensured.

Drawings

FIG. 1 is a schematic view of the present invention with the pump tube and pump removed from the view at one angle;

FIG. 2 is a schematic view of the present invention with the pump tube and pump removed from the view at another angle;

FIG. 3 is a schematic view of the lifting platform of the present invention at one angle;

FIG. 4 is a schematic view of another angle of the elevating platform of the present invention;

FIG. 5 is a schematic structural view of the sliding vertical plate of the present invention;

in the figure, 1, a supporting bottom plate, 2, a transmission screw rod, 3, a screw rod seat, 4, a sliding bottom plate, 5, a sliding vertical plate, 6, a lifting sliding groove, 7, a sliding block, 8, a lifting top frame, 9, a lifting guide plate, 10, a lifting vertical plate, 11, a lifting sliding rod, 12, a lifting guide upright post, 13, a lifting guide block, 14, an outer guide sliding groove, 15, an inner guide sliding groove, 16, an outer guide sliding seat, 17, an inner guide sliding seat, 18, a sliding lug, 19, a driving motor, 20, a hand wheel, 21, a limit top plate, 22, an L-shaped supporting leg, 23, a lifting travel switch, 24, a sensing piece, 25, a switch mounting frame, 26, a guide groove, 27, a motor frame, 28, an inclined section, 29, an upper horizontal limiting section, 30, a lower horizontal limiting section, 31, an ink pad, 32, an air suction head, 33, an air suction head mounting plate, 34, an air inlet, 35, an air outlet, 36, a, 38. filter screen, 39 circular through hole.

Detailed Description

The present invention will be described in further detail with reference to the attached drawings, but the present invention is not limited thereto.

As shown in fig. 1-5, an ink station for digital printing equipment comprises an air extraction structure matched with a printing nozzle and a lifting platform for driving the air extraction structure to lift, wherein the air extraction structure comprises an air extraction head 32, an air extraction pipe and an air extraction pump, an ink pad 31 matched with the printing nozzle is arranged on the air extraction head 32, an air inlet 34 matched with the air extraction head 32 is arranged on the ink pad 31, and an air outlet 35 connected with the air extraction pipe is arranged at the bottom of the air extraction head 32. The lifting platform comprises a supporting bottom plate 1, a sliding frame connected on the supporting bottom plate 1 in a sliding manner, a lead screw transmission structure driving the sliding frame to slide and a lifting frame connected on the sliding frame in a lifting manner, wherein the lead screw transmission structure comprises a transmission lead screw 2, a lead screw nut matched with the transmission lead screw 2 and a lead screw seat 3, the sliding frame comprises a sliding bottom plate 4, sliding vertical plates 5 arranged at two sides of the sliding bottom plate 4 and two pairs of lifting sliding chutes 6 arranged on the sliding vertical plates 5, the sliding bottom plate 5 is connected with the lead screw nut through a slide block 7, the lifting frame comprises a lifting top frame 8, a lifting guide plate 9 arranged at one end of the lifting top frame 8, lifting vertical plates 10 arranged at two sides of the lifting top frame 8 and two lifting slide bars 11 arranged between the two lifting vertical plates 10, two ends of each lifting slide bar 11 are connected in a pair of lifting sliding, the lifting guide plate 9 is provided with a lifting guide block 10 matched with the lifting guide upright post 9. The air extracting head 32 is fixed on the lifting top frame 8 through an air extracting head mounting plate 33, a circular through hole 39 matched with the air outlet 35 is arranged on the air extracting head mounting plate 33, a connecting flange 36 matched with the air extracting head 32 is arranged at the top of the air extracting head mounting plate 33, and a connecting lug 37 matched with the connecting flange 36 is arranged at the bottom of the air extracting head 32. A filter screen 38 is provided on the air inlet 34. The sliding bottom plate 4 is provided with a pair of outer guide sliding chutes 14 and a pair of inner guide sliding chutes 15, the supporting bottom plate 1 is provided with a pair of outer guide sliding seats 16 matched with the outer guide sliding chutes 14 and a pair of inner guide sliding seats 16 matched with the inner guide sliding chutes 15, the outer guide sliding chutes 14 are positioned on the outer side of the sliding vertical plate 5, the inner guide sliding chutes 15 are positioned on the inner side of the sliding vertical plate 5, and the outer guide sliding chutes 14 and the inner guide sliding chutes 15 are distributed in a staggered manner from front to back. The outer guide runner 14 is located at the front side of the inner guide runner 15, sliding lugs 18 are provided at both sides of the sliding bottom plate 4, and the outer guide runner 14 is provided on the sliding lugs 18. A driving motor 19 is installed at one end of the transmission screw rod 2, the driving motor 19 is installed on the supporting bottom plate through a motor frame 27, a hand wheel 20 is installed at the other end of the transmission screw rod 2, and the lifting guide plate 9 is located at the rear end of the lifting top frame 8. The supporting base plate 1 is further provided with a limiting frame matched with the lifting guide block 13, the limiting frame comprises a limiting top plate 21 and L-shaped support legs 22 arranged on two sides of the limiting top plate 21, and the limiting top plate 21 is arranged at the top of the lifting guide upright post 12. One side of the supporting bottom plate 1 is provided with a lifting travel switch 23, and one side of the lifting guide plate 9 is provided with an induction sheet 24 matched with the lifting travel switch 23. The lifting travel switch 23 is mounted on the support base plate 1 through a switch mounting bracket 25, and a guide groove 26 matched with the induction sheet 24 is arranged on the switch mounting bracket 25. The lifting chute 6 comprises an inclined section 28, an upper horizontal limiting section 29 positioned at the top of the inclined section 28 and a lower horizontal limiting section 30 positioned at the bottom of the inclined section 28, wherein the upper horizontal limiting section 29 is positioned at the front side of the lower horizontal limiting section 30.

A working method of an ink station for digital printing equipment comprises the following steps: the ink station is installed on an air pumping station of a printing nozzle of digital printing equipment, when the printing nozzle of the digital printing equipment needs to pump air, the printing nozzle is sent to the upper part of the ink station to correspond to the position of an ink pad, a driving motor rotates forwards to drive a transmission screw rod to rotate and drive a sliding frame to slide forwards, a lifting slide rod slides upwards on a lifting slide groove to drive a lifting frame to ascend so as to drive an air pumping head and the ink pad to ascend, when the ink pad and the printing nozzle are matched and sealed, the driving motor stops acting, and an air pumping structure starts to act to pump air to the printing nozzle; when the air exhaust structure finishes air exhaust, the driving motor reversely rotates to drive the transmission screw rod to rotate to drive the sliding frame to move backwards, and the lifting slide rod slides downwards on the lifting slide groove to drive the lifting frame to descend and reset.

The air pumping head, the air pumping pipe and the air pumping pump are conventional parts purchased from the market and are assembled and connected by themselves (so that the parts are not shown in the drawing), when in connection, one end of the air pumping pipe is connected to an air outlet of the air pumping head, and the other end of the air pumping pipe is connected to the air pumping pump.

The lifting travel switch and the induction sheet are conventional components purchased in the market, so detailed description is omitted.

The ink pad is specially used for being matched with the printing spray head, so that the matching tightness of the air suction head and the printing spray head is better, and the air suction effect is ensured.

The air extracting structure is supported and lifted by the lead screw transmission structure matched with the sliding frame and the lifting frame, so that the air extracting structure is convenient to lift and has good stability, the labor intensity of workers is reduced, the working efficiency is improved, the alignment precision and consistency of the plurality of air extracting structures and the plurality of printing spray heads are ensured, and meanwhile, the ink pad is matched with the air extracting head to extract air to the printing spray heads, so that the air extracting effect is ensured.

Claims (10)

1. The utility model provides an ink station for digital printing equipment, prints the structure of bleeding of shower nozzle including the cooperation, its characterized in that: the ink station further comprises a lifting platform for driving the air exhaust structure to lift, the air exhaust structure comprises an air exhaust head, an air exhaust pipe and an air exhaust pump, the air exhaust head is provided with an ink pad matched with a printing nozzle, the ink pad is provided with an air inlet matched with the air exhaust head, the bottom of the air exhaust head is provided with an air outlet connected with the air exhaust pipe, the lifting platform comprises a support base plate, a sliding frame connected on the support base plate in a sliding manner, a screw drive structure driving the sliding frame to slide and a lifting frame connected on the sliding frame in a lifting manner, the screw drive structure comprises a drive screw, a screw nut matched with the drive screw and a screw rod seat, the sliding frame comprises a sliding base plate, sliding vertical plates arranged on two sides of the sliding base plate and at least one pair of lifting sliding chutes arranged on the sliding vertical plates, the sliding base plate is connected, The lifting guide plate is installed at one end of the lifting top frame, the lifting vertical plates are installed at two sides of the lifting top frame, and at least one lifting slide bar is arranged between the two lifting vertical plates.

2. An ink station for a digital printing apparatus as claimed in claim 1, wherein: the gas extraction head is fixed on the lifting top frame through a gas extraction head mounting plate, a circular through hole matched with a gas outlet is formed in the gas extraction head mounting plate, a connecting flange matched with the gas extraction head is arranged at the top of the gas extraction head mounting plate, a connecting lug matched with the connecting flange is arranged at the bottom of the gas extraction head, and a filter screen is arranged on the gas inlet.

3. An ink station for a digital printing apparatus as claimed in claim 1, wherein: the sliding bottom plate is provided with a pair of outer guide sliding grooves and a pair of inner guide sliding grooves, the supporting bottom plate is provided with a pair of outer guide sliding seats matched with the outer guide sliding grooves and a pair of inner guide sliding seats matched with the inner guide sliding grooves, the outer guide sliding grooves are located on the outer side of the sliding vertical plate, the inner guide sliding grooves are located on the inner side of the sliding vertical plate, and the outer guide sliding grooves and the inner guide sliding grooves are distributed in a staggered mode from front to back.

4. An ink station for a digital printing apparatus according to claim 3, wherein: the outer guide sliding groove is located on the front side of the inner guide sliding groove, sliding lugs are arranged on two sides of the sliding bottom plate, and the outer guide sliding groove is arranged on the sliding lugs.

5. An ink station for a digital printing apparatus as claimed in claim 1, wherein: the lifting guide plate is arranged at the rear end of the lifting top frame.

6. An ink station for a digital printing apparatus as claimed in claim 1, wherein: the supporting base plate is further provided with a limiting frame matched with the lifting guide block, the limiting frame comprises a limiting top plate and L-shaped support legs arranged on two sides of the limiting top plate, and the limiting top plate is arranged at the top of the lifting guide stand column.

7. An ink station for a digital printing apparatus as claimed in claim 1, wherein: a lifting travel switch is arranged on one side of the supporting bottom plate, and an induction sheet matched with the lifting travel switch is arranged on one side of the lifting guide plate; the lifting travel switch is installed on the supporting bottom plate through a switch installation frame, and a guide groove matched with the induction sheet is formed in the switch installation frame.

8. An ink station for a digital printing apparatus as claimed in claim 1, wherein: the lifting sliding groove comprises an inclined section, an upper horizontal limiting section and a lower horizontal limiting section, the upper horizontal limiting section is located at the top of the inclined section, the lower horizontal limiting section is located at the bottom of the inclined section, and the upper horizontal limiting section is located on the front side of the lower horizontal limiting section.

9. An ink station for a digital printing apparatus as claimed in claim 1, wherein: the number of the lifting sliding grooves is two, the number of the lifting sliding rods is two, the number of the lifting guide upright posts is two, and the number of the lifting guide blocks is two.

10. A method of operating an ink station for a digital printing apparatus as claimed in claim 1, characterized in that: the method comprises the following steps: the ink station is installed on an air pumping station of a printing nozzle of digital printing equipment, when the printing nozzle of the digital printing equipment needs to pump air, the printing nozzle is sent to the upper part of the ink station to correspond to the position of an ink pad, a driving motor rotates forwards to drive a transmission screw rod to rotate and drive a sliding frame to slide forwards, a lifting slide rod slides upwards on a lifting slide groove to drive a lifting frame to ascend so as to drive an air pumping head and the ink pad to ascend, when the ink pad and the printing nozzle are matched and sealed, the driving motor stops acting, and an air pumping structure starts to act to pump air to the printing nozzle; when the air exhaust structure finishes air exhaust, the driving motor reversely rotates to drive the transmission screw rod to rotate to drive the sliding frame to move backwards, and the lifting slide rod slides downwards on the lifting slide groove to drive the lifting frame to descend and reset.

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