CN208392848U - Silk-screen printing sheet-fed cold wave machine - Google Patents
Silk-screen printing sheet-fed cold wave machine Download PDFInfo
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- CN208392848U CN208392848U CN201820852535.5U CN201820852535U CN208392848U CN 208392848 U CN208392848 U CN 208392848U CN 201820852535 U CN201820852535 U CN 201820852535U CN 208392848 U CN208392848 U CN 208392848U
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- foil
- cold wave
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- silk
- paper
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Abstract
The utility model discloses a kind of silk-screen printing sheet-fed cold wave machines, including the sequential connection silk-screen printing of paper feeding portion and gluing portion, UV light portion, cold wave portion and paper collection part.The utility model coats cold wave glue pattern by the way of silk-screen printing, registration of the cold wave glue pattern on paper, cold wave glue coated weight is larger, after being printed when cold wave, the alignment precision for gluing pattern and printing pattern is high, this applicability manufacturing cost is lower;Digitlization can be achieved in printing plate preparation simultaneously, to complete the requirement of digitlization thermoprint.
Description
Technical field
The utility model relates to print fields, more particularly to a kind of silk-screen printing sheet-fed cold wave machine.
Background technique
Cold wave printing apparatus used at present mainly installs cold wave unit additional on sheet-fed offset press.Using cold foil technology
When, to use two colour cell units of offset press.If carrying out cold wave and processing technology once being completed in colored printing, need
It is installed on multicolour offset presses more than six colour cells.As shown in Figure 1, a kind of existing cold wave printing apparatus, including paper feeding unit A,
Sizing unit B, cold wave unit C, printing element D and delivery unit E, equipment manufacturing cost are higher.
Utility model content
The technical problems to be solved in the utility model is that a kind of device structure compared with the prior art is simple, manufacturing cost
Low silk-screen printing sheet-fed cold wave machine.
In order to solve the above technical problems, silk-screen printing sheet-fed cold wave machine provided by the utility model, comprising: paper feeding portion 4,
Silk-screen printing and gluing portion 7, UV light portion 10, cold wave portion 33 and paper collection part 34;
The 4 sequential connection silk-screen printing of paper feeding portion and gluing portion 7, UV light portion 10, cold wave portion 33 and paper collection part 34.
Wherein, paper feeding portion 4 includes paper feeding platen 1 and autofeed head 3;
Printing 2, which is placed on paper feeding platen 1, is delivered to silk-screen printing and gluing portion 7 by autofeed head 3.
Wherein, silk-screen printing and gluing portion 7 include paper feeding platform 5, feeding mechanism 6, printing gumming mechanism 7-1 and paper delivery platform
8;
Printing 2 is transported to ultraviolet light after paper feeding platform 5, feeding mechanism 6, printing gumming mechanism 7-1 and paper delivery platform 8
Gu portion 10.
Wherein, UV light portion 10 includes air draught paper feeding conveyer belt 9 and UV light mechanism 10-1;
Printing 2 is adsorbed by air draught paper feeding conveyer belt 9, after the UV light mechanism 10-1 on air draught paper feeding conveyer belt 9
It is transported to cold wave portion 33.
Wherein, cold wave portion 33 includes impression cylinder 11, lower synchronous conveying roller 12, upper synchronous transport pinch roller 13, blanket cylinder
14, cold stamping mechanism 15, cross foil roller 16, be cold wave foil conveying mechanism 17, cold wave foil volume driving servo motor 18, driving gear 19, cold
Foil-stamping rolls up gas expansion shaft 20, cold wave electrochemical aluminum foil volume 21, driven gear 22, receives useless cold foil-stamping volume gas expansion shaft 23, useless cold foil-stamping volume
24, driven gear 25, driving gear 26, useless cold foil-stamping volume driving servo motor 27, cold wave electrochemical aluminum foil 28, cross foil axis 29, on
Transfer roller 30, lower transfer roller 31 and air draught collection conveyer belt 32;
Printing 2 is admitted between the lower synchronous conveying roller 12 being arranged above and below and upper synchronous transport pinch roller 13, cold stamping mechanism 15
On be also equipped with the blanket cylinder 14 and impression cylinder 11 being arranged vertically up and down, lower synchronous conveying roller 12 and upper synchronous transport pinch roller
13 synchronize to rotate towards each other printing 2 are sent between blanket cylinder 14 and impression cylinder 11, are equipped with cold wave above cold stamping mechanism 15
Foil conveying mechanism 17 has on cold wave foil conveying mechanism 17 two to roll up gas expansion shafts, cold wave by the cold wave foil that servo motor 18,27 drives
Foil rolls up gas expansion shaft 20 and installs cold wave electrochemical aluminum foil volume 21, receives the useless cold foil-stamping volume installation of gas expansion shaft 23 and recycles useless cold foil-stamping volume 24, cold
Boiling hot electrochemical aluminum foil 28 is crossed foil roller 16 and is crossed foil axis 29 around blanket cylinder 14 and be wrapped in the useless cold foil-stamping volume gas of receipts by more
Rise on axis 23, under the driving for receiving the driving servo motor 27 of useless cold foil-stamping volume gas expansion shaft 23, electrochemical aluminum foil 28 is synchronized to be wrapped in
It receives on useless cold foil-stamping volume gas expansion shaft 23, the printing 2 by cold wave processing enters the upload paper bowl 30 and lower transfer roller that are arranged above and below
Between 31, upload paper bowl 30 and lower transfer roller 31 synchronize under the clamping that rotates towards each other, it is defeated by air draught collection conveyer belt 32
It is sent to paper collection part 34.
Wherein, upper synchronous transport pinch roller 13 can adjust upward position in the side vertical with 2 traffic direction of printing, make synchronization
The both sides or the place without coating cold wave glue pattern that conveying pinch roller 13 is pressed in printing 2.
Wherein, the rotation linear velocity of blanket cylinder 14 and impression cylinder 11 is synchronous with the linear velocity of printing 2.
Wherein, driving servo motor 18 and receipts useless cold foil-stamping volume gas of the cold wave electrochemical aluminum foil 28 in cold wave foil volume gas expansion shaft 20
Rise axis 23 driving servo motor 27 control under the linear velocity that conveys and by between impression cylinder 11 and blanket cylinder 14
The movement linear velocity of printing 2 is identical.
When carrying out cold foil technology processing, printing (paper or printable fabric) 2 to be processed, which is stacked on paper feeding platen 1, forms paper
Heap, by the autofeed head 3 in paper feeding portion 4 by printing (paper or printable fabric) 2 through paper feeding platform 5 be transported to feeding mechanism 6 into
Row, which is positioned and is transmitted on silk-screen printing/upper glue machine frame 7-1, carries out silk-screen printing, and cold wave pattern passes through previously prepared silk screen
Version obtains.If what is used is not screen printing ink but the printing of cold wave glue, in printing (paper or printable fabric) 2
The pattern for being covered with cold wave glue will be applied.
Silk-screen printing/upper glue machine frame 7-1 is connected by transfer belt 8 with a UV light portion 10.In UV light portion
One air draught paper feeding conveyer belt 9 is installed on 10, between UV light mechanism 10-1 and air draught collection conveyer belt 32, is equipped with
One cold wave portion 15, the paper feeding portion side on cold stamping mechanism 15, be vertically installed with lower synchronous conveying roller 12 and several on it is same
Step conveying pinch roller 13.Upper synchronous transport pinch roller 13 can adjust upward position in the side vertical with page orientation, make to synchronize defeated
The both sides or the place without coating cold wave glue pattern for sending pinch roller 13 to be pressed in printing (paper or printable fabric) 2.At work,
Rotation, upper synchronous transport pinch roller 13 rotate clockwise lower synchronous conveying roller 12 counterclockwise.The linear velocity and air draught that they rotate are defeated
The linear velocity of paper conveyer belt 9 is identical.The blanket cylinder 14 being arranged vertically up and down and coining rolling are also equipped on cold stamping mechanism 15
Cylinder 11.Impression cylinder 11 rotates counterclockwise at work, and blanket cylinder 14 rotates clockwise.The linear velocity and suction that they rotate
The linear velocity of wind paper feeding conveyer belt 9 is identical.The dedicated blanket of cold wave is enclosed on blanket cylinder 14.
Printing (paper or printable fabric) 2 is delivered to UV light machine by 8 He of transfer belt, air draught paper feeding conveyer belt 9
Structure 10-1, under the irradiation of ultraviolet source, make cold wave pattern in printing (paper or printable fabric) 2 glue generate half it is solid and
Viscosity.By the printing (paper or printable fabric) 2 in UV light portion 10 by air draught paper feeding conveyer belt 9, it is sent into and is arranged above and below
Between lower synchronous conveying roller 12 and upper synchronous transport pinch roller 13, the phase synchronous with upper synchronous transport pinch roller 13 of synchronous transport roller 12 instantly
To when rotation, so that it may which printing (paper or printable fabric) 2 to be sent between blanket cylinder 14 and impression cylinder 11.Blanket cylinder
14 and impression cylinder 11 rotation linear velocity it is synchronous with the linear velocity of printing (paper or printable fabric) 2.
Cold wave foil conveying mechanism 17 is installed above cold wave portion 15.Installation subtracts there are two band on cold wave foil conveying mechanism 17
The servo motor 18 and 27 of fast case 35.Driving gear 19 and 26 is separately installed in the output shaft end of two reduction gearboxes.Actively
Two cold wave foil volume gas expansion shafts are separately installed with above gear 19 and 26, wherein a cold wave foil volume gas expansion shaft 20 installs cold wave
Electrochemical aluminum foil volume 21 receives useless cold foil-stamping for another and rolls up gas expansion shaft 23, and useless cold foil-stamping volume 24 is recycled in installation.Gas expansion shaft is rolled up in cold wave foil
Driven gear 22 is installed on 20, is engaged with driving gear 19.Driven gear is installed on receiving useless cold foil-stamping volume gas expansion shaft 23
25, it is engaged with driving gear 26.Cold wave foil volume hollow core shaft 36 is through on cold wave foil volume gas expansion shaft 20 and by tensioner in gas expansion shaft
On.With the rotation of cold wave foil volume gas expansion shaft 20, the cold wave electrochemical aluminum foil 28 being unfolded by several foil rollers 16 excessively and crosses foil axis
29 bypass blanket cylinder 14 and are wrapped in the cold wave foil volume hollow core shaft 36 for receiving tensioner on useless cold foil-stamping volume gas expansion shaft 23.
When cold wave foil volume driving servo motor 18 with reduction gearbox 35 rotates under the control of servo drive system, pass through master
Moving gear 19 drives driven gear 22 to rotate, and driven gear 22 is fixed together with cold wave foil volume gas expansion shaft 20, to drive cold
Foil-stamping is rolled up gas expansion shaft 20 and is rotated.And cold wave electrochemical aluminum foil volume 21 expansion of the tensioner on cold wave foil volume gas expansion shaft 20 is transferred out
It goes.The linear velocity that conveys and through over-voltage under driving servo motor 18 control of cold wave foil volume gas expansion shaft 20 of cold wave electrochemical aluminum foil 28
The movement linear velocity of printing paper (or printable fabric) 2 printed between roller 11 and blanket cylinder 14 is identical.In impression cylinder 11
Under the action of 14 relative pressure of blanket cylinder, the plated film on cold wave electrochemical aluminum foil 28 is bonded to printing (paper or printable fabric)
It applies and is covered on the pattern position of cold wave glue on 2, to complete the cold transfer of electrochemical aluminium film.It is useless cold boiling hot with reduction gearbox 35 simultaneously
When foil volume driving servo motor 27 rotates under the control of servo drive system, 25 turns of driven gear are driven by driving gear 26
Dynamic, driven gear 25 is fixed together with useless cold foil-stamping volume gas expansion shaft 23 is received, and rolls up 23 turns of gas expansion shaft to drive and receive useless cold foil-stamping
It is dynamic.Electrochemical aluminum foil 28 that the volume expansion of gas expansion shaft 20 of cold wave foil is sent out and after cold wave, which synchronizes to be wrapped in, receives useless cold foil-stamping volume
On gas expansion shaft 23 in the cold wave foil volume hollow core shaft 36 of tensioner, useless cold foil-stamping volume 24 is formed.
Paper collection part side in cold wave portion 15 is vertically installed with and uploads paper bowl 30 and lower transfer roller 31.Under at work
Transfer roller 31 rotates counterclockwise, uploads paper bowl 30 and rotates clockwise.The linear velocity and impression cylinder 11 and rubber that they rotate are rolled
The linear velocity that cylinder 14 moves toward one another is identical.Upload paper bowl 30 can be moved up and down along vertical direction, make upload paper bowl 30 and under pass
Pressure between paper bowl 31 can be adjusted according to (paper or the printable fabric) 2 of different-thickness.
Cold wave portion 15 is connected by air draught collection conveyer belt 32 with paper collection part 34.There is collection platen 36 on paper collection part, it can
To collect the later finished product printing of stacking cold-hot stamping.
Printing (paper or printable fabric) 2 by cold wave processing enters the upload paper bowl 30 and lower transfer roller of vertical arrangement
Between 31, paper bowl 30 and lower transfer roller 31 are being uploaded, is being synchronized under the clamping rotated towards each other, by air draught collection conveyer belt 32, quilt
It is transported on the collection platen 36 of paper collection part 34, is stacked to printing pile 35.
The utility model coats cold wave glue pattern by the way of silk-screen printing, and cold wave glue pattern is determined on paper
Position is accurate, and cold wave glue coated weight is larger, and after being printed when cold wave, the alignment precision of gluing pattern and printing pattern is high, raw
It is lower to produce manufacturing cost;Digitlization can be achieved in printing plate preparation simultaneously, to complete the requirement of digitlization thermoprint.
Detailed description of the invention
Present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments:
Fig. 1 is a kind of existing cold-hot stamping device structure schematic diagram.
Fig. 2 is the structural schematic diagram of the utility model.
Fig. 3 is the side view of cold wave foil conveying mechanism
Description of symbols
Paper feeding unit A
Sizing unit B
Cold wave unit C
Printing element D
Delivery unit E
Paper feeding platen 1
Printing 2
Autofeed head 3
Paper feeding portion 4
Paper feeding platform 5
Feeding mechanism 6
Silk-screen printing and gluing portion 7
Print gumming mechanism 7-1
Paper delivery platform 8
Air draught paper feeding conveyer belt 9
UV light portion 10
UV light mechanism 10-1
Print roller 11
Lower synchronous conveying roller 12
Upper synchronous transport pinch roller 13
Blanket cylinder 14
Cold stamping mechanism 15
Cross foil roller 16
Cold wave foil conveying mechanism 17
Cold wave foil volume driving servo motor 18
Driving gear 19
Cold wave foil rolls up gas expansion shaft 20
Cold wave electrochemical aluminum foil volume 21
Driven gear 22
Receive useless cold foil-stamping volume gas expansion shaft 23
Useless cold foil-stamping volume 24
Driven gear 25
Driving gear 26
Useless cold foil-stamping volume driving servo motor 27,
Cold wave electrochemical aluminum foil 28
Cross foil axis 29
Upload paper bowl 30
Lower transfer roller 31
Air draught collection conveyer belt 32
Cold wave portion 33
Paper collection part 34
Reduction gearbox 35
Cold wave foil rolls up hollow core shaft 36
Specific embodiment
As shown in Figure 2 and Figure 3, one embodiment of silk-screen printing sheet-fed cold wave machine provided by the utility model, comprising: paper feeding
4 sequential connection silk-screen printing of portion and gluing portion 7, UV light portion 10, cold wave portion 33 and paper collection part 34.
Paper feeding portion 4 includes paper feeding platen 1 and autofeed head 3, and printing 2 is placed on paper feeding platen 1 by autofeed head 3
It is delivered to silk-screen printing and gluing portion 7.
Wherein, printing 2 is transported to after paper feeding platform 5, feeding mechanism 6, printing gumming mechanism 7-1 and paper delivery platform 8
UV light portion 10;Printing 2 is adsorbed by air draught paper feeding conveyer belt 9, by the UV light mechanism on air draught paper feeding conveyer belt 9
Cold wave portion 33 is transported to after 10-1, printing 2 is admitted to the lower synchronous conveying roller 12 and upper synchronous transport pinch roller 13 being arranged above and below
Between, the blanket cylinder 14 and impression cylinder 11 being arranged vertically up and down, lower synchronous conveying roller 12 are also equipped on cold stamping mechanism 15
And upper synchronous transport pinch roller 13 synchronizes to rotate towards each other and printing 2 is sent between blanket cylinder 14 and impression cylinder 11, cold stamping mechanism
15 top cold wave foil conveying mechanism 17 is installed, have on cold wave foil conveying mechanism 17 two by servo motor 18,27 drive it is cold
Foil-stamping rolls up gas expansion shaft, and cold wave foil rolls up gas expansion shaft 20 and installs cold wave electrochemical aluminum foil volume 21, receives useless cold foil-stamping volume gas expansion shaft 23 and installs back
Useless cold foil-stamping volume 24 is received, cold wave electrochemical aluminum foil 28 is crossed foil roller 16 and crossed foil axis 29 around blanket cylinder 14 and be wound by more
On receiving useless cold foil-stamping volume gas expansion shaft 23, under the driving for receiving the driving servo motor 27 of useless cold foil-stamping volume gas expansion shaft 23, anodized aluminium
Foil 28, which is synchronized to be wrapped in, to be received on useless cold foil-stamping volume gas expansion shaft 23, and the printing 2 by cold wave processing enters the upload being arranged above and below
Between paper bowl 30 and lower transfer roller 31, upload paper bowl 30 and lower transfer roller 31 synchronize under the clamping that rotates towards each other, by air draught
Collection conveyer belt 32 is transported to paper collection part 34.
It is further improved above-described embodiment, upper synchronous transport pinch roller 13 can be on the direction vertical with 2 traffic direction of printing
Position is adjusted, the both sides or the place without coating cold wave glue pattern for so that synchronous transport pinch roller 13 is pressed in printing 2.
It is further improved above-described embodiment, the linear speed of the rotation linear velocity and printing 2 of blanket cylinder 14 and impression cylinder 11
Degree synchronizes.
It is further improved above-described embodiment, driving servo motor 18 of the cold wave electrochemical aluminum foil 28 in cold wave foil volume gas expansion shaft 20
With receive the driving servo motor 27 of useless cold foil-stamping volume gas expansion shaft 23 control under the linear velocity that conveys and by impression cylinder 11 and
The movement linear velocity of printing 2 between blanket cylinder 14 is identical.
The utility model is described in detail above by specific embodiment and embodiment, but these are not structure
At limitations of the present invention.In the case where not departing from the utility model principle, those skilled in the art can also be made
Many modification and improvement, these also should be regarded as the protection scope of the utility model.
Claims (8)
1. a kind of silk-screen printing sheet-fed cold wave machine characterized by comprising paper feeding portion (4), silk-screen printing and gluing portion (7),
UV light portion (10), cold wave portion (33) and paper collection part (34);
Paper feeding portion (4) sequential connection silk-screen printing and gluing portion (7), UV light portion (10), cold wave portion (33) and paper collection part
(34)。
2. silk-screen printing sheet-fed cold wave machine as described in claim 1, it is characterised in that: paper feeding portion (4) include paper feeding platen (1)
With autofeed head (3);
Printing (2), which is placed on paper feeding platen (1), is delivered to silk-screen printing and gluing portion (7) by autofeed head (3).
3. silk-screen printing sheet-fed cold wave machine as described in claim 1, it is characterised in that: silk-screen printing and gluing portion (7) include
Paper feeding platform (5), feeding mechanism (6), printing gumming mechanism (7-1) and paper delivery platform (8);
Printing (2) is transported to after paper feeding platform (5), feeding mechanism (6), printing gumming mechanism (7-1) and paper delivery platform (8)
UV light portion (10).
4. silk-screen printing sheet-fed cold wave machine as described in claim 1, it is characterised in that: UV light portion (10) include that air draught is defeated
Paper conveyer belt (9) and UV light mechanism (10-1);
Printing (2) is adsorbed by air draught paper feeding conveyer belt (9), by the UV light mechanism (10- on air draught paper feeding conveyer belt (9)
1) cold wave portion (33) are transported to after.
5. silk-screen printing sheet-fed cold wave machine as described in claim 1, it is characterised in that: cold wave portion (33) include impression cylinder
(11), lower synchronous conveying roller (12), upper synchronous transport pinch roller (13), blanket cylinder (14), cold stamping mechanism (15), excessively foil roller
(16), cold wave foil conveying mechanism (17), cold wave foil volume driving servo motor (18), driving gear (19), cold wave foil roll up gas expansion shaft
(20), cold wave electrochemical aluminum foil volume (21), driven gear (22), receive useless cold foil-stamping volume gas expansion shaft (23), useless cold foil-stamping volume (24), from
Moving gear (25), driving gear (26), cold wave electrochemical aluminum foil (28), cross foil axis at useless cold foil-stamping volume driving servo motor (27)
(29), paper bowl (30), lower transfer roller (31) and air draught collection conveyer belt (32) are uploaded;
Printing (2) is admitted between the lower synchronous conveying roller (12) being arranged above and below and upper synchronous transport pinch roller (13), cold stamping mechanism
(15) blanket cylinder (14) and impression cylinder (11) being arranged vertically up and down are also equipped on, lower synchronous conveying roller (12) and upper same
Step conveying pinch roller (13) synchronizes to rotate towards each other and printing (2) is sent between blanket cylinder (14) and impression cylinder (11), cold wave machine
Cold wave foil conveying mechanism (17) is installed above structure (15), have on cold wave foil conveying mechanism (17) two by servo motor (18,
27) the cold wave foil driven rolls up gas expansion shaft, and cold wave foil rolls up gas expansion shaft (20) installation cold wave electrochemical aluminum foil volume (21), receives useless cold foil-stamping volume
Useless cold foil-stamping volume (24) is recycled in gas expansion shaft (23) installation, and cold wave electrochemical aluminum foil (28) crosses foil roller (16) by more and crosses foil axis
(29) blanket cylinder (14) are bypassed and are wrapped in and are received on useless cold foil-stamping volume gas expansion shaft (23), useless cold foil-stamping volume gas expansion shaft (23) is received
Driving servo motor (27) driving under, electrochemical aluminum foil (28), which is synchronized to be wrapped in, to be received on useless cold foil-stamping volume gas expansion shaft (23),
Printing (2) by cold wave processing enters between the upload paper bowl (30) being arranged above and below and lower transfer roller (31), is uploading paper bowl
(30) with lower transfer roller (31) synchronize under the clamping that rotates towards each other, by air draught collection conveyer belt (32), be transported to paper collection part
(34)。
6. silk-screen printing sheet-fed cold wave machine as claimed in claim 5, it is characterised in that: upper synchronous transport pinch roller (13) can with
The vertical side of printing (2) traffic direction adjusts upward position.
7. silk-screen printing sheet-fed cold wave machine as claimed in claim 5, it is characterised in that: blanket cylinder (14) and impression cylinder
(11) rotation linear velocity is synchronous with the linear velocity of printing (2).
8. silk-screen printing sheet-fed cold wave machine as claimed in claim 5, it is characterised in that: cold wave electrochemical aluminum foil (28) is in cold wave foil
It rolls up the driving servo motor (18) of gas expansion shaft (20) and receives the control of the driving servo motor (27) of useless cold foil-stamping volume gas expansion shaft (23)
The lower linear velocity conveyed of system and the movement linear velocity phase by the printing (2) between impression cylinder (11) and blanket cylinder (14)
Together.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201820852535.5U CN208392848U (en) | 2018-06-04 | 2018-06-04 | Silk-screen printing sheet-fed cold wave machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201820852535.5U CN208392848U (en) | 2018-06-04 | 2018-06-04 | Silk-screen printing sheet-fed cold wave machine |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN208392848U true CN208392848U (en) | 2019-01-18 |
Family
ID=65135132
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201820852535.5U Active CN208392848U (en) | 2018-06-04 | 2018-06-04 | Silk-screen printing sheet-fed cold wave machine |
Country Status (1)
| Country | Link |
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| CN (1) | CN208392848U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110053353A (en) * | 2019-04-22 | 2019-07-26 | 南安市世润机械科技有限公司 | A kind of silk-screen printing sheet-fed cold wave machine |
| CN110435282A (en) * | 2019-07-22 | 2019-11-12 | 牛志纲 | A kind of part 3D Grating Film is automatically bonded assembly line and its technique |
| CN112157989A (en) * | 2020-09-29 | 2021-01-01 | 东台世恒机械科技有限公司 | Longitudinal foil collecting cabinet of stamping machine |
-
2018
- 2018-06-04 CN CN201820852535.5U patent/CN208392848U/en active Active
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110053353A (en) * | 2019-04-22 | 2019-07-26 | 南安市世润机械科技有限公司 | A kind of silk-screen printing sheet-fed cold wave machine |
| CN110435282A (en) * | 2019-07-22 | 2019-11-12 | 牛志纲 | A kind of part 3D Grating Film is automatically bonded assembly line and its technique |
| CN112157989A (en) * | 2020-09-29 | 2021-01-01 | 东台世恒机械科技有限公司 | Longitudinal foil collecting cabinet of stamping machine |
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