CN213767920U - Ultrasonic antistatic structure for digital printing - Google Patents

Ultrasonic antistatic structure for digital printing Download PDF

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Publication number
CN213767920U
CN213767920U CN202022147190.3U CN202022147190U CN213767920U CN 213767920 U CN213767920 U CN 213767920U CN 202022147190 U CN202022147190 U CN 202022147190U CN 213767920 U CN213767920 U CN 213767920U
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China
Prior art keywords
dust cover
ultrasonic
connecting pipe
supersonic generator
cover
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CN202022147190.3U
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Chinese (zh)
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张翔
陈思睿
郝迪
张航
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Nanjing Smart Digital Printing Co ltd
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Nanjing Smart Digital Printing Co ltd
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Abstract

The utility model relates to an ultrasonic wave antistatic structure for digital printing is applied to the digital printing field, and it includes supersonic generator, supersonic generator is located the exit slot department of printing machine body, supersonic generator passes through the linkage unit with the printing machine body and is connected, the linkage unit includes connecting pipe and bottom plate, the bottom plate sets up on the printing machine body, the connecting pipe sets up on the bottom plate, the connecting pipe cover is located on supersonic generator. The method has the advantages that the possibility that the printing paper is adsorbed together due to static electricity is reduced, and the subsequent arrangement effect of the printing paper is facilitated.

Description

Ultrasonic antistatic structure for digital printing
Technical Field
The application relates to the field of digital printing prevention, in particular to an ultrasonic anti-static structure for digital printing.
Background
At present, digital printing is a novel printing technology for directly transmitting image and text information to a digital printing machine through the internet by using a prepress system for printing, belongs to printing according to needs, is plateless printing, and is a subject parallel to the traditional printing.
Chinese patent with official number CN205953154U discloses an improved generation's digital printing machine, it includes that the paper places the mouth, control structure, a connector, the lifting rope, the couple, the arrangement structure, printing machine exit slot and bottom plate, during the use, the operator controls through the display screen in the control structure, then through PLC transmission signal, the printing machine begins work, place the mouth at the paper and put into the paper, the printing paper discharges to the arrangement structure at the exit slot after the printing finishes, the arrangement mechanism arranges the printing paper in order, position through the adjustable arrangement mechanism of couple and lifting rope. However, when the printed paper is discharged from the paper outlet of the printer, the printed paper is often electrostatically attracted together, which makes it difficult to collate the printed paper.
In view of the above-mentioned related art, the inventors thought that there was a defect that when printed paper was discharged from the printer paper outlet, it would be electrostatically adsorbed together, resulting in difficulty in finishing.
SUMMERY OF THE UTILITY MODEL
In order to improve printing paper when discharging from the printing machine exit slot, often can lead to the defect that is difficult to arrange in order because of static absorption together, this application provides a structure is prevented static with ultrasonic wave for digital printing.
The application provides an ultrasonic wave antistatic structure for digital printing adopts following technical scheme:
the utility model provides an ultrasonic wave antistatic structure for digital printing, includes supersonic generator, supersonic generator is located the exit slot department of printing machine body, supersonic generator passes through the linkage unit with the printing machine body and is connected, the linkage unit includes connecting pipe and bottom plate, the bottom plate sets up on the printing machine body, the connecting pipe sets up on the bottom plate, the connecting pipe cover is located on supersonic generator.
Through adopting above-mentioned technical scheme, the connecting pipe is fixed supersonic generator in exit slot department, and supersonic generator vibration produces the ultrasonic wave, and the ultrasonic wave can be got rid of the electrified dirt particle that adsorbs on the printing paper to reduce the possibility that printing paper carried static, thereby reduce between the printing paper because static and adsorb the possibility together, make things convenient for the follow-up arrangement of printing paper.
Optionally, an opening used for taking out the ultrasonic generator is formed in the connecting pipe, a switch cover used for sealing the opening is arranged on the connecting pipe, one end of the switch cover is hinged to the connecting pipe, a first magnet is arranged at the other end of the switch cover, and a second magnet attracted with the first magnet is arranged on the connecting pipe.
By adopting the technical scheme, when the ultrasonic generator breaks down, an operator can open the switch cover, the ultrasonic generator can be conveniently and quickly taken out, the ultrasonic generator is placed into the connecting pipe and covered with the switch cover during installation, and the first magnet and the second magnet are attracted to finish installation.
Optionally, the inner side wall of the connecting pipe is provided with buffering cotton.
By adopting the technical scheme, because the ultrasonic generator can vibrate when in work, the buffering cotton can reduce the possibility of damage caused by the contact of the ultrasonic generator and the inner side wall of the connecting pipe when in vibration, and the service life of the ultrasonic generator is prolonged.
Optionally, the last cover of supersonic generator is equipped with the damping cotton, the damping cotton can be dismantled with supersonic generator through dismantling the subassembly and be connected, supersonic generator extends outside the damping cotton towards one side of exit slot.
Through adopting above-mentioned technical scheme, precision parts in the printing machine receive ultrasonic vibration for a long time and produce the damage easily, and the cotton possibility that influences precision parts in the printing machine of reducible ultrasonic wave of damping, simultaneously, supersonic generator exposes outside the damping is cotton towards one side of exit slot, has reduced the cotton possibility that influences supersonic generator to printing paper static electricity removal effect of damping.
Optionally, the disassembling component comprises a first fixing piece and a second fixing piece, the vibration reduction cotton is located between the first fixing piece and the second fixing piece, at least two extension springs are arranged on the first fixing piece, one end, deviating from the first fixing piece, of each extension spring is connected with the second fixing piece, and the vibration reduction cotton is located between any two extension springs.
Through adopting above-mentioned technical scheme, when needs are pulled down the damping cotton from supersonic generator, the operator pulls open first stationary blade and second stationary blade to take off from the damping cotton, then with the damping cotton take off from supersonic generator can, during the installation, pull open first stationary blade and second stationary blade, and the cover is established at the damping cotton, loose after hand, extension spring's pulling force drives first stationary blade and second stationary blade and presss from both sides tightly, thereby fixes the damping cotton on supersonic generator.
Optionally, one side that the damping cotton deviates from ground is equipped with the dust cover, the dust cover can be dismantled with the printing machine body through fixed subassembly and be connected, fixed subassembly includes the fixed block, the fixed block is located one side of printing machine body towards the dust cover, the fixed block is seted up flutedly towards one side of dust cover, the dust cover is equipped with the lug with recess matched with towards one side of fixed block, the fixed block deviates from the port that is used for lug roll-off recess at the one end on ground at the recess.
Through adopting above-mentioned technical scheme, the reducible dust of dust cover falls into the cotton possibility of going into of damping, when needs pull down the dust cover, with the lug from the recess roll-off can, during the installation, with the lug slide in the recess can, easy dismounting is swift.
Optionally, be equipped with the clearance unit that is used for clearing up the dust cover on the dust cover, the clearance unit is filled up including clearance board and clearance, the clearance is filled up and is located the one side of clearance board towards the dust cover, the clearance is filled up and is contradicted with one side that the dust cover deviates from ground, the clearance board passes through sliding assembly and dust cover sliding connection.
Through adopting above-mentioned technical scheme, when dust accumulation was more on the dust guard, the operator slided the clearance board, and the clearance board drives the clearance and fills up the slip, and the clearance fills up and contradicts with the dust cover, and the clearance fills up and clears up the dust cover at gliding in-process.
Optionally, the sliding assembly includes a connecting plate and a first slider, the first slider is located on one side of the connecting plate facing the dust cover, the dust cover is provided with a first sliding groove along the length direction of the dust cover, and the first slider slides in the first sliding groove.
Through adopting above-mentioned technical scheme, when operator sliding connection board, first slider slides in first spout, and dustproof pad can be followed dust cover length direction and slided and clear up the dust cover.
Optionally, an opening for sliding the first sliding block out of the first sliding groove is formed in one end of the first sliding groove of the dust cover, a limiting piece is connected to the dust cover in a sliding mode, and the opening is opened or closed by sliding the limiting piece.
Through adopting above-mentioned technical scheme, when the clearance pad needs the clearance after using for a long time, the operator can slide spacing piece from the opening, with first slider roll-off in the first spout, can pull down clearance pad and clearance board from the shield, the convenient clearance to the clearance pad, during the installation, in sliding first slider into first spout to it can to slide spacing piece to the opening seals the opening.
In summary, the present application includes at least one of the following beneficial technical effects:
1. the ultrasonic wave emitted by the ultrasonic generator can remove charged dust particles adsorbed on the printing paper, so that the possibility of adsorption of the printing paper due to static electricity is reduced, and the subsequent arrangement of the printing paper is facilitated;
2. the vibration damping cotton can reduce the possibility that the ultrasonic wave influences precision parts in the printing machine;
3. the dust cover can reduce the possibility of dust falling onto the damping cotton.
Drawings
Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.
Fig. 2 is a schematic structural diagram of a connection unit according to an embodiment of the present application.
Fig. 3 is an enlarged view of a portion a in fig. 2.
FIG. 4 is a schematic structural view of a dust cap according to an embodiment of the present application.
FIG. 5 is an enlarged view of the portion B in FIG. 4
Description of reference numerals: 1. a printer body; 2. a paper outlet; 3. an ultrasonic generator; 4. a connection unit; 41. a connecting pipe; 411. an opening; 412. a switch cover; 42. a first magnet; 43. a second magnet; 44. a base plate; 5. buffering cotton; 6. vibration damping cotton; 7. disassembling the assembly; 71. a first fixing sheet; 72. a second fixing sheet; 722. a cushion pad; 73. an extension spring; 8. a dust cover; 9. a fixing assembly; 91. a fixed block; 911. a groove; 912. a port; 92. a bump; 10. a cleaning unit; 101. cleaning the plate; 102. cleaning the pad; 11. a sliding assembly; 111. a connecting plate; 112. a first slider; 113. a first chute; 114. opening the gap; 12. a limiting sheet; 13. a second chute; 14. and a second slider.
Detailed Description
The present application is described in further detail below with reference to figures 1-5.
The embodiment of the application discloses digital printing prevents static structure with ultrasonic wave.
Referring to fig. 1 and 2, the ultrasonic antistatic structure for digital printing comprises an ultrasonic generator 3, the ultrasonic generator 3 is horizontally arranged at a paper outlet 2 of a printer body 1, the ultrasonic generator 3 emits ultrasonic waves to reduce static electricity on printing paper discharged from the paper outlet 2, the ultrasonic generator 3 is detachably connected with the printer body 1 through two connecting units 4, vibration damping cotton 6 is arranged on the ultrasonic generator 3, the vibration damping cotton 6 can reduce the possibility that the ultrasonic waves damage precision components in the printer body 1, the ultrasonic generator 3 is detachably connected with the vibration damping cotton 6 through two detaching components 7, a dust cover 8 is horizontally arranged above the ultrasonic generator 3, the dust cover 8 is used for reducing the possibility that dust falls on the vibration damping cotton 6, and the dust cover 8 is detachably connected with the printer body 1 through two fixing components 9, be equipped with cleaning unit 10 on the dust cover 8, cleaning unit 10 is used for the dust on the clearance dust cover 8, and cleaning unit 10 passes through sliding assembly 11 and dust cover 8 sliding connection.
Referring to fig. 2 and 3, the damping cotton 6 is located on the side of the ultrasonic generator 3 facing away from the floor, the side facing the printer body 1, and the side facing away from the printer body 1. The detaching assembly 7 comprises a first fixing plate 71 and a second fixing plate 72, the first fixing plate 71 and the second fixing plate 72 are both in a U shape, two extension springs 73 are arranged between the first fixing plate 71 and the second fixing plate 72, one ends of the two extension springs 73 are fixedly connected with the first fixing plate 71, the other ends of the two extension springs are fixedly connected with the second fixing plate 72, the damping cotton 6 is positioned between the two extension springs 73, and a cushion 722 is arranged on one side of the second fixing plate 72 facing the bottom of the ultrasonic generator 3.
Referring to fig. 1 and 2, the connection unit 4 includes a bottom plate 44 and a connection pipe 41, one end of the bottom plate 44 is fixedly connected to the printer body 1, one side of the bottom plate 44 away from the ground is fixedly connected to the connection pipe 41, the connection pipe 41 is sleeved outside the vibration damping cotton 6 and the ultrasonic generator 3, one side of the connection pipe 41 away from the ground is provided with an opening 411, the connection pipe 41 is hinged to the opening 411 to form a switch cover 412, the opening 411 is closed by the switch cover 412, one side of the switch cover 412 facing the connection pipe 41 is provided with a first magnet 42, the connection pipe 41 is provided with a second magnet 43, the first magnet 42 is attracted to the second magnet 43, and the buffer cotton 5 is bonded to the inner side wall of the connection pipe 41 and one side of the switch cover 412 facing the ultrasonic generator 3.
Referring to fig. 2 and 3, during installation, an operator wraps the vibration reduction cotton 6 on the ultrasonic generator 3, exposes one side of the ultrasonic generator 3 facing a printing opening, pulls the first fixing piece 71 and the second fixing piece 72, sleeves the first fixing piece 71 and the second fixing piece 72 on the vibration reduction cotton 6 and the ultrasonic generator 3, loosens hands, pulls the first fixing piece 71 and the second fixing piece 72 tightly by the tension spring 73, so that the vibration reduction cotton 6 is clamped on the ultrasonic generator 3 by the first fixing piece 71 and the second fixing piece 72, then puts the ultrasonic generator 3 and the vibration reduction cotton 6 into the connecting pipe 41, closes the switch cover 412, and opens the ultrasonic generator 3 after installation, and the ultrasonic generator 3 vibrates to generate ultrasonic waves. The cushion cotton 5 can reduce the possibility of damage caused by direct contact with the connecting pipe 41 when the ultrasonic generator 3 vibrates, and the cushion 722 can reduce the possibility of damage caused by direct contact with the second fixing piece 72 when the ultrasonic generator 3 vibrates, thereby prolonging the service life of the ultrasonic generator 3. When the ultrasonic generator 3 has a fault and needs to be repaired, the switch cover 412 is opened, the ultrasonic generator 3 is taken out, then the first fixing piece 71 and the second fixing piece 72 are pulled and taken down from the vibration reduction cotton 6, and then the vibration reduction cotton 6 is taken down from the ultrasonic generator 3, so that the ultrasonic generator 3 can be disassembled, the repair is convenient, and at the moment, the vibration reduction cotton 6 can be replaced.
Referring to fig. 1 and 4, the two fixing assemblies 9 are symmetrically distributed along the central axis of the dust cover 8, the fixing assemblies 9 include fixing blocks 91, and one side of each fixing block 91, which is far away from the dust cover 8, is fixedly connected with the printer body 1.
Referring to fig. 4 and 5, a groove 911 is formed in one side of the fixing block 91 facing the dust cover 8, a protrusion 92 is arranged on one side of the dust cover 8 facing the fixing block 91, the protrusion 92 slides in the groove 911, a port 912 is formed in one end, facing away from the ground, of the fixing block 91, and the protrusion 92 slides out of the groove 911 from the port 912. During the installation, the operator with the lug 92 slide in recess 911 can, with lug 92 roll-off recess 911, can accomplish the dismantlement of dust cover 8, convenient and fast.
Referring to fig. 4 and 5, the cleaning unit 10 includes a cleaning plate 101 and a cleaning pad 102, the cleaning pad 102 is located on a side of the cleaning plate 101 facing the dust cover 8, the cleaning pad 102 is adhered to the cleaning plate 101, and the cleaning pad 102 is abutted against a side of the dust cover 8 facing away from the ground. The sliding assembly 11 comprises a connecting plate 111, a first sliding groove 113 is formed in the dust cover 8 along the length direction of the dust cover, a first sliding block 112 is arranged on one side, facing the dust cover 8, of the connecting plate 111, the first sliding block 112 slides in the first sliding groove 113, a notch 114 is formed in one end of the first sliding groove 113 of the dust cover 8, and the first sliding block 112 slides out of the notch 114. The position of the opening 114 of the dust cover 8 is provided with a limiting piece 12, one side of the limiting piece 12 facing the dust cover 8 is provided with a second sliding block 14, one side of the dust cover 8 facing the limiting piece 12 is provided with a second sliding groove 13, the second sliding block 14 slides in the second sliding groove 13, the second sliding groove 13 is perpendicular to the first sliding groove 113, when the limiting piece 12 slides to the bottom of the second sliding groove 13, the opening 114 is sealed by the limiting piece 12, and when the limiting piece 12 slides upwards to the top of the second sliding groove 13, the opening 114 is opened by the limiting piece 12.
Referring to fig. 4 and 5, an operator slides the connecting plate 111 to drive the cleaning pad 102 to slide on the dust cover 8, and the dust cover 8 is cleaned in the sliding process of the cleaning pad 102. When the cleaning pad 102 needs to be cleaned after being used for a long time, an operator slides the limiting piece 12 upwards to open the notch 114, slides the first sliding block 112 out of the first sliding groove 113 from the notch 114, namely, the cleaning plate 101 and the cleaning pad 102 are detached from the dust cover 8, so that the cleaning pad 102 is convenient to clean, and during installation, the first sliding block 112 slides into the first sliding groove 113 from the notch 114, then slides the limiting piece 12 downwards, and seals the notch 114.
The implementation principle of the ultrasonic antistatic structure for digital printing in the embodiment of the application is as follows: during installation, an operator wraps the vibration reduction cotton 6 on the ultrasonic generator 3, then the vibration reduction cotton 6 is clamped on the ultrasonic generator 3 through the first fixing piece 71, the second fixing piece 72 and the extension spring 73, the ultrasonic generator 3 and the vibration reduction cotton 6 are placed into the connecting pipe 41 together, the switch cover 412 is closed, the ultrasonic generator 3 is opened, the ultrasonic generator 3 can work, the ultrasonic generator 3 vibrates to generate ultrasonic waves, the ultrasonic waves remove charged dust particles adsorbed on printing paper, the possibility that the printing paper carries static electricity is reduced, the phenomenon that the printing paper is adsorbed together due to the static electricity is reduced, and subsequent arrangement of the printing paper is facilitated. The operator then slides the tab 92 into the recess 911 to complete the installation of the dust cap 8, and when the dust cap 8 has accumulated a certain amount of dust, the operator slides the connector plate 111 to clean the dust cap 8 via the cleaning pad 102. When certain dust is accumulated on the surface of the cleaning pad 102 and needs to be cleaned, an operator slides the limiting piece 12 away from the notch 114, slides the first sliding block 112 out of the first sliding groove 113, and then detaches the cleaning plate 101 and the cleaning pad 102 to clean the cleaning pad 102.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides an ultrasonic wave antistatic structure for digital printing which characterized in that: including supersonic generator (3), supersonic generator (3) are located exit slot (2) department of printing machine body (1), supersonic generator (3) are connected through coupling unit (4) with printing machine body (1), coupling unit (4) include connecting pipe (41) and bottom plate (44), bottom plate (44) set up on printing machine body (1), connecting pipe (41) set up on bottom plate (44), supersonic generator (3) are located to connecting pipe (41) cover.
2. The ultrasonic antistatic structure for digital printing according to claim 1, wherein: offer opening (411) that is used for taking out supersonic generator (3) on connecting pipe (41), be equipped with on connecting pipe (41) and be used for closing switch cover (412) of opening (411), the one end of switch cover (412) is articulated with connecting pipe (41), the other end of switch cover (412) is equipped with first magnet (42), be equipped with on connecting pipe (41) with the second magnet (43) of first magnet (42) mutual actuation.
3. The ultrasonic antistatic structure for digital printing according to claim 1, wherein: the inner side wall of the connecting pipe (41) is provided with buffer cotton (5).
4. The ultrasonic antistatic structure for digital printing according to claim 1, wherein: the cover is equipped with damping cotton (6) on supersonic generator (3), damping cotton (6) can be dismantled with supersonic generator (3) through dismantling subassembly (7) and be connected, supersonic generator (3) extend outside damping cotton (6) towards one side of exit slot (2).
5. The ultrasonic antistatic structure for digital printing according to claim 4, wherein: dismantle subassembly (7) and include first stationary blade (71) and second stationary blade (72), damping cotton (6) are located between first stationary blade (71) and second stationary blade (72), be equipped with two at least extension spring (73) on first stationary blade (71), extension spring (73) deviate from the one end of first stationary blade (71) and link to each other with second stationary blade (72), damping cotton (6) are located between two arbitrary extension spring (73).
6. The ultrasonic antistatic structure for digital printing according to claim 4, wherein: one side that damping cotton (6) deviate from ground is equipped with dust cover (8), dust cover (8) can be dismantled through fixed subassembly (9) and printing machine body (1) and be connected, fixed subassembly (9) include fixed block (91), fixed block (91) are located one side of printing machine body (1) towards dust cover (8), fixed block (91) are seted up fluted (911) towards one side of dust cover (8), dust cover (8) are equipped with lug (92) with recess (911) matched with towards one side of fixed block (91), port (912) that are used for lug (92) roll-off recess (911) are offered to fixed block (91) in recess (911) the one end that deviates from ground.
7. The ultrasonic antistatic structure for digital printing according to claim 6, wherein: be equipped with cleaning unit (10) that is used for clearing up dust cover (8) on dust cover (8), cleaning unit (10) are including clearance board (101) and clearance pad (102), clearance pad (102) are located clearance board (101) towards one side of dust cover (8), clearance pad (102) contradict with one side that dust cover (8) deviate from ground, clearance board (101) are through slip subassembly (11) and dust cover (8) sliding connection.
8. The ultrasonic antistatic structure for digital printing according to claim 7, wherein: the sliding assembly (11) comprises a connecting plate (111) and a first sliding block (112), the first sliding block (112) is located on one side, facing the dust cover (8), of the connecting plate (111), the dust cover (8) is provided with a first sliding groove (113) along the length direction of the dust cover, and the first sliding block (112) slides in the first sliding groove (113).
9. The ultrasonic antistatic structure for digital printing according to claim 8, wherein: the dustproof cover (8) is provided with a notch (114) used for sliding the first sliding block (112) out of the first sliding groove (113) at one end of the first sliding groove (113), the dustproof cover (8) is connected with a limiting sheet (12) in a sliding mode, and the notch (114) is opened or closed through sliding the limiting sheet (12).
CN202022147190.3U 2020-09-25 2020-09-25 Ultrasonic antistatic structure for digital printing Active CN213767920U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022147190.3U CN213767920U (en) 2020-09-25 2020-09-25 Ultrasonic antistatic structure for digital printing

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022147190.3U CN213767920U (en) 2020-09-25 2020-09-25 Ultrasonic antistatic structure for digital printing

Publications (1)

Publication Number Publication Date
CN213767920U true CN213767920U (en) 2021-07-23

Family

ID=76906610

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Application Number Title Priority Date Filing Date
CN202022147190.3U Active CN213767920U (en) 2020-09-25 2020-09-25 Ultrasonic antistatic structure for digital printing

Country Status (1)

Country Link
CN (1) CN213767920U (en)

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