CN217296571U - Coiled material output device for printing machine - Google Patents
Coiled material output device for printing machine Download PDFInfo
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- CN217296571U CN217296571U CN202220340028.XU CN202220340028U CN217296571U CN 217296571 U CN217296571 U CN 217296571U CN 202220340028 U CN202220340028 U CN 202220340028U CN 217296571 U CN217296571 U CN 217296571U
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Abstract
The utility model relates to the technical field of coiled material output devices, in particular to a coiled material output device for a printing machine, which comprises a frame, a storage mechanism, a first unreeling shaft, a second unreeling shaft, a paper cutting and receiving mechanism, a back gluing mechanism and a deviation correcting and receiving platform mechanism, wherein the storage mechanism, the first unreeling shaft, the second unreeling shaft, the paper cutting and receiving mechanism, the back gluing mechanism and the deviation correcting and receiving platform mechanism are arranged on the frame; in the non-stop output mode, the unwinding shaft I rotates to output the first paper, and the first paper is output after sequentially passing through the paper cutting and splicing mechanism, the back adhesive tape sticking mechanism and the storage mechanism; and in a stop output mode, the unwinding shaft I or the unwinding shaft II rotates to output paper and outputs the paper after passing through the deviation-correcting paper receiving table mechanism, and new paper is conveyed to the deviation-correcting paper receiving table mechanism to be bonded with the tail end of the old paper after a new coiled material is replaced. The paper output device has the advantages that two paper output requirements of stopping and not stopping are realized, two production requirements can be met by a manufacturer purchasing one device, and the production cost of the manufacturer is effectively reduced.
Description
Technical Field
The utility model belongs to the technical field of coiled material output device technique and specifically relates to indicate a coiled material output device that printing machine was used.
Background
A printer is a machine that prints text and images. Modern printing presses typically consist of mechanisms for plating, inking, stamping, feeding (including folding), etc. The working principle of the method is that characters and images to be printed are made into a printing plate, the printing plate is arranged on a printing machine, then ink is coated on the position, where the characters and the images are arranged, of the printing plate by a person or the printing machine, and then the printing plate is directly or indirectly transferred onto paper or other printing stocks (such as textiles, metal plates, plastics, leather, wood plates, glass and ceramics), so that printed matters identical to the printing plate are copied.
When a certain production order is produced in large batch, a rotary printing machine is often used for printing, unnecessary time is consumed by stopping and changing rolls in the operation process of the rotary printing machine, and a key for improving the production efficiency is how to reduce the time consumed by roll changing. Aiming at the problems, some printing machines capable of changing coiled materials without stopping the machine appear in the market, the printing machines are additionally provided with a storage mechanism, paper output by the coiled materials passes through the storage mechanism before being output in daily operation, the storage mechanism continues to output the paper when the coiled materials are changed so that the printing machines can normally operate, meanwhile, a paper receiving mechanism positioned between the storage mechanism and the coiled materials realizes automatic connection of the paper of another coiled material, and then a new coiled material connecting rod outputs the paper to the storage mechanism and then outputs the paper, so that the coiled materials are changed without stopping the machine;
however, after various different printing product requirements appear in the market, the machine needs to be adjusted when the coiled materials used by some printing products are replaced, and the machine needs to be stopped for operation when the coiled materials are replaced. The manufacturer can only purchase two devices in the face of different production requirements, one device can be stopped, the other device can be stopped to meet the production requirements, but only one device needs to be started when the two devices are purchased and the order quantity in daily production is not large, the other device is idle, and the daily maintenance cost is added, so that the production cost of the manufacturer is obviously increased.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to provide a coiled material output device that printing machine was used can realize shutting down and two kinds of output paper demands of not shutting down, and the producer purchases an equipment and just can satisfy two kinds of production demands, effectively reduces producer manufacturing cost.
In order to solve the technical problem, the utility model adopts the following technical scheme:
a coiled material output device for a printing machine comprises a rack, a material storage mechanism arranged on the rack, a first unreeling shaft, a second unreeling shaft, a paper cutting and receiving mechanism, a back gluing mechanism and a deviation correcting and receiving table mechanism, wherein the unreeling shaft I, the unreeling shaft II, the paper cutting and receiving mechanism, the back gluing mechanism and the deviation correcting and receiving table mechanism are arranged on the rack;
the first unwinding shaft and the second unwinding shaft are used for sleeving the coiled material, and are respectively connected with a rotary power element for driving the first unwinding shaft and the second unwinding shaft to rotate;
in the non-stop output mode, the unwinding shaft I and the unwinding shaft II are respectively sleeved with coiled materials, the unwinding shaft I rotates to output the paper I, the paper I is output after sequentially passing through the paper cutting and splicing mechanism, the back surface rubberizing mechanism and the storage mechanism, when the coiled materials are replaced, the paper cutting and splicing mechanism cuts off the paper I, the storage mechanism continues to output the pre-stored paper I, and the unwinding shaft II rotates to output the paper II, enters the paper cutting and splicing mechanism and is bonded with the tail end of the paper I connected with the back surface rubberizing mechanism;
and in the shutdown output mode, the unwinding shaft I or the unwinding shaft II is sleeved with the coiled material to rotate and output the paper after passing through the deviation-correcting paper receiving table mechanism, when the coiled material is replaced, the shutdown is started, the deviation-correcting paper receiving table mechanism cuts off the paper, and after the new coiled material is replaced, the new paper is conveyed to the deviation-correcting paper receiving table mechanism to be bonded with the tail end of the old paper.
Preferably, the deviation-rectifying paper receiving table mechanism comprises a table body, two first rollers and a limiting sliding groove, wherein the first rollers are respectively arranged on two sides of the table body, and the limiting sliding groove is arranged on the upper side face of the table body.
Preferably, the paper cutting and splicing mechanism comprises a bracket, a partition plate and two paper cutting assemblies, wherein the partition plate is arranged on the bracket; the two paper cutting assemblies are positioned on two sides of the partition plate and are symmetrically arranged;
the paper cutting assembly comprises a connecting support, a rotating shaft, a paper pressing roller wheel, a paper pressing plate, a first power element, a second power element, a guide rail, a cutter piece, a roller and a third power element, wherein the rotating shaft is positioned on one side of the partition plate; wherein the cutter piece is located the top of pressing the paper running roller and the front end of cutter piece extends to one side of division board, and when the cutter piece removed along the guide rail, the front end of cutter piece removed along the division board, and the gyro wheel is located the front end of cutter piece.
Preferably, the cross section of the bracket is rectangular, and the bracket is provided with an accommodating space communicated with the upper side surface and the lower side surface; the partition plate is positioned in the middle of the accommodating space, and two ends of the partition plate are respectively connected with two inner walls of the bracket; the paper cutting assembly is located in the accommodating space.
Preferably, a handle is arranged on the back of the paper pressing plate; the handle is used for pushing the paper pressing plate to be turned up and erected along the rotating shaft, and the second power element is used for driving the paper pressing plate to be turned back and reset along the rotating shaft.
Preferably, after the paper pressing plate is turned up and erected along the rotating shaft, the front side surface of the paper pressing plate is opposite to the roller of the other paper cutting assembly, and the roller abuts against the front side surface of the paper pressing plate when moving along the partition plate.
Preferably, the back gluing mechanism comprises two second rollers and is used for driving a fourth power element of one of the second rollers to be close to the other second roller; the side wall surface of one of the rollers II is provided with an adhesive tape adsorption area and a plurality of adsorption holes arranged in the adhesive tape adsorption area.
The beneficial effects of the utility model reside in that:
the utility model provides a coiled material output device that printing machine was used, through improving coiled material output device, make it possess two kinds of operation modes, do not shut down output mode and the output mode of shutting down promptly, the producer only needs to purchase one equipment supporting with it and can satisfy the production demand of two kinds of different printing products, need not to purchase two equipment again, effectively reduces the daily maintenance cost of the acquisition cost of producer.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic front structural view of the present invention.
Fig. 3 is a schematic view of the three-dimensional structure of the middle paper cutting and receiving mechanism and the back gluing mechanism of the present invention.
Fig. 4 is a schematic perspective view of the paper cutting and splicing mechanism of the present invention.
Detailed Description
In order to facilitate the understanding of those skilled in the art, the present invention will be further described with reference to the following examples, which are not intended to limit the scope of the present invention.
As shown in fig. 1 to 4, a coiled material output device for a printing machine comprises a frame 1 and a storage mechanism 11 arranged on the frame 1, and further comprises a first unreeling shaft 12, a second unreeling shaft 13, a paper cutting and receiving mechanism 2, a back gluing mechanism 3 and a deviation-correcting and receiving table mechanism 4 which are arranged on the frame 1;
the first unwinding shaft 12 and the second unwinding shaft 13 are used for sleeving the coiled materials, and the first unwinding shaft 12 and the second unwinding shaft 13 are respectively connected with a rotating power element for driving the first unwinding shaft 12 and the second unwinding shaft 13 to rotate;
the coiled material output device can carry out a non-stop output mode and a stop output mode;
in the non-stop output mode, the unwinding shaft I12 and the unwinding shaft II 13 are respectively sleeved with coiled materials, the unwinding shaft I12 rotates to output the paper I, the paper I is output after sequentially passing through the paper cutting and splicing mechanism 2, the back surface gluing mechanism 3 and the storage mechanism 11, when the coiled materials are replaced, the paper cutting and splicing mechanism 2 cuts the paper I, the storage mechanism 11 continues to output the pre-stored paper I, and the unwinding shaft II 13 rotates to output the paper II, enters the paper cutting and splicing mechanism 2 and is bonded with the tail end of the paper I connected with the back surface gluing mechanism 3;
and in a shutdown output mode, the first unwinding shaft 12 or the second unwinding shaft 13 is sleeved with coiled material to rotate and output paper, the paper is output after passing through the deviation-correcting paper receiving table mechanism 4, when the coiled material is replaced, shutdown is started, the deviation-correcting paper receiving table mechanism 4 cuts off the paper, and the new paper is output to the deviation-correcting paper receiving table mechanism 4 to be bonded with the tail end of the old paper after the new coiled material is replaced.
In the actual operation process of the coiled material output device for the printing machine, an operator can select an operation mode, namely a non-stop output mode or a stop output mode;
the operation flow of the non-stop output mode is that a coiled material is sleeved on the unwinding shaft I12 and the unwinding shaft II 13 respectively, and when one coiled material is ready to be used up, a rod is connected to output paper; firstly, coiled paper I of an unwinding shaft I12 is used, and the output paper I sequentially passes through a paper cutting and splicing mechanism 2, a back gluing mechanism 3 and a storage mechanism 11 and then is output; when the thickness of the coiled material of the unwinding shaft I12 reaches a preset value, an alarm is given to remind an operator, the operator pulls out the head end of the paper II of the coiled material on the unwinding shaft II 13 to the paper cutting and splicing mechanism 2, then stops the rotation of the unwinding shaft I12, temporarily continues outputting the pre-stored paper I by the storage mechanism 11 to maintain the continuous operation of the equipment, further operates and cuts off the paper I between the back gluing mechanism 3 and the paper cutting and splicing mechanism 2, bonds the tail end of the paper I and the head end of the paper II which is pulled to the paper cutting and splicing mechanism 2 before through the gummed paper, then the unwinding shaft II 13 rotates and outputs the paper II to replace the paper I of the unwinding shaft I12 for continuous output, and the replacement process does not need to be stopped;
the stop output mode operation flow is that, the unwinding shaft I12 or the unwinding shaft II 13 is sleeved with a coiled material, then the coiled material is output after the paper is output to the deviation-correcting paper receiving table mechanism 4, when the coiled material is output, the alarm is given to remind an operator after the thickness reaches a preset value, the operator operates the stop, the blade is provided to cut off the paper on the upper side surface of the deviation-correcting paper receiving table mechanism 4 and replace a new coiled material, then the paper head of the new coiled material is pulled to the tail end of the deviation-correcting paper receiving table mechanism 4 and the tail end of the old paper to be bonded through an adhesive tape, and then after other operation adjustment is carried out, the continuous output is started.
Wherein the storing mechanism 11 has no obvious difference from the storing mechanism 11 of the prior art, and is not described in detail herein.
In this embodiment, the deviation-rectifying paper receiving table mechanism 4 includes a table body 41, two rollers 42 respectively installed on two sides of the table body 41, and a limiting chute arranged on the upper side of the table body 41.
The blade is provided to cut off the paper on the upper side of the table body 41 along the limit sliding groove, and the limit sliding groove is beneficial to cutting out a straight line by the blade.
In this embodiment, the paper cutting and splicing mechanism 2 includes a bracket 21, a partition plate 22 and two paper cutting assemblies, wherein the partition plate 22 is mounted on the bracket 21; the two paper cutting assemblies are positioned on two sides of the partition plate 22 and are symmetrically arranged;
the paper cutting assembly comprises a rotating shaft 23 connected with the support 21 and positioned on one side of the partition plate 22, a paper pressing roller 24 and a paper pressing plate 25 which are arranged on the rotating shaft 23, a first power element 26 used for driving the rotating shaft 23 to be close to and far away from the partition plate 22, a second power element used for driving the paper pressing plate 25 to swing along the rotating shaft 23, a guide rail 27 connected with the support 21 and arranged opposite to the partition plate 22, a cutter piece 28 arranged on the guide rail 27, a roller 29 arranged on the cutter piece 28, and a third power element used for driving the cutter piece 28 to reciprocate along the guide rail 27; wherein the cutter 28 is located above the platen roller 24 and the front end of the cutter 28 extends to one side of the partition plate 22, when the cutter 28 moves along the guide rail 27, the front end of the cutter 28 moves along the partition plate 22, and the roller 29 is located at the front end of the cutter 28. The third power element is preferably a cylinder, and is not shown in the drawing.
Two paper cutting assemblies are arranged and used for corresponding to the unwinding shaft I12 and the unwinding shaft II 13; in actual operation, the first paper output by the first unreeling shaft 12 passes through one of the paper cutting assemblies and then is conveyed to the back gluing mechanism 3 and the storing mechanism 11 for outputting, and the first paper passes between the paper pressing roller 24 and the partition plate 22 of the paper cutting assembly and is tightly propped against the partition plate 22 by the paper pressing roller 24; when the coiled material is changed, the head end of the paper sheet two of the coiled material of the unreeling shaft two 13 is pulled out to pass through the paper pressing roller 24 and the partition plate 22 of the other paper cutting assembly and then is coiled into the back gluing mechanism 3, at the moment, the paper sheet between the paper cutting assembly and the back gluing mechanism 3 is in a tension shape, then the cutter piece 28 of the paper cutting assembly cuts off the paper sheet two to enable the end part of the paper sheet two extending out of the paper cutting assembly to be flat, the adhesive tape is attached to the end part of the paper sheet two, the lower half part of the adhesive tape is attached to the paper sheet two, the upper half part of the adhesive tape is exposed, the paper pressing plate 25 is swung up along the rotating shaft 23 to be turned up, and the paper sheet two is leaned against the paper pressing plate 25 which is up;
at this time, the first unreeling shaft 12 stops rotating and outputting, the first paper is temporarily output by the storage mechanism 11, the cutter piece 28 of the paper cutting assembly corresponding to the first paper cuts off the first paper, the tail end of the first paper hanging from the back gluing mechanism 3 is pushed to the paper pressing plate 25 erected on the opposite side along the path of the roller 29 when the cutter piece 28 cuts off, the tail end of the first paper is glued to the upper half part of the glue paper, and at this time, the tail end of the first paper and the head end of the second paper are connected through the glue paper, so that the coiled material receiving rod is changed without stopping to output the first paper.
The cutter member 28 moves the roller 29, the lower end portion of the roller 29 abuts against the partition plate 22 during the movement to cut the paper, and the upper end portion of the roller 29 pushes the end portion of the paper close to the paper pressing plate 25 on the opposite side during the cutting to adhere the end portion of the paper to the upper half portion of the adhesive paper.
In this embodiment, the cross section of the bracket 21 is rectangular, and the bracket 21 is provided with an accommodating space communicating the upper side surface and the lower side surface; the partition plate 22 is positioned in the middle of the accommodating space, and two ends of the partition plate are respectively connected with two inner walls of the bracket 21; the paper cutting assembly is located in the accommodating space.
The bracket 21 is designed in such a shape, so that the layout of the paper cutting assembly and the up-and-down connection and sliding of the paper are facilitated.
In this embodiment, a handle 20 is provided on the back of the paper pressing plate 25; the handle 20 is used for pushing the paper pressing plate 25 to turn up and stand along the rotating shaft 23, and the second power element is used for driving the paper pressing plate 25 to turn back and return along the rotating shaft 23. The turning-up of the paper pressing plate 25 is realized by pushing through the manual holding handle 20, so that the turning-up angle of the paper pressing plate 25 is controlled to be matched with the cutter piece 28 and the roller 29 on the opposite side; the return of the platen 25 is effected by the driving of a second power element, preferably an air cylinder, which is not visible in the drawings.
In this embodiment, after the paper pressing plate 25 is turned up and erected along the rotating shaft 23, the front side surface of the paper pressing plate 25 is opposed to the roller 29 of the other paper cutting unit and the roller 29 abuts against the front side surface of the paper pressing plate 25 while moving along the partition plate 22. The paper pressing plate 25 is erected for paper abutment and cooperates with the roller 29 to securely adhere the paper to the upper half of the tape.
In this embodiment, the back gluing mechanism 3 includes two second rollers 31, and is configured to drive one of the second rollers 31 to approach the fourth power element 32 of the other second roller 31; the side wall surface of one of the rollers 31 is provided with an adhesive paper adsorption area 33 and a plurality of adsorption holes 34 arranged in the adhesive paper adsorption area 33. Prevent to adsorb adhesive tape district 33 with the adhesive tape, the back of adhesive tape is inhaled by absorption hole 34 tightly, and when the junction of paper one and paper two was through back rubberizing mechanism 3, the adhesive tape adhesion of back rubberizing mechanism 3 was to the paper one and the paper two on the other side that the junction does not have the adhesive tape to make the connection of paper one and paper two further firm.
In the description of the present invention, it should be noted that, for the orientation words, such as the terms "center", "lateral (X)", "longitudinal (Y)", "vertical (Z)", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., it indicates that the orientation and positional relationship are based on the orientation or positional relationship shown in the drawings, and it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and should not be construed as limiting the specific scope of the present invention.
Furthermore, if the terms "first" and "second" are used for descriptive purposes only, they are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. Thus, the definition of "a first" or "a second" feature may explicitly or implicitly include one or more of the features, and in the description of the invention, "a plurality" means two or more unless specifically defined otherwise.
In the present invention, unless otherwise expressly specified or limited, the terms "assembled", "connected", and "connected", if any, are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; mechanical connection is also possible; the two elements can be directly connected or connected through an intermediate medium, and the two elements can be communicated with each other. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to specific situations.
The above-mentioned embodiments only express a plurality of embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.
Claims (7)
1. Coiled material output device that printing machine was used, including frame (1) and install storage mechanism (11) in frame (1), its characterized in that: the automatic paper cutting and splicing machine also comprises a first unwinding shaft (12), a second unwinding shaft (13), a paper cutting and splicing mechanism (2), a back gluing mechanism (3) and a deviation-correcting and paper-splicing table mechanism (4) which are arranged on the rack (1);
the unwinding shaft I (12) and the unwinding shaft II (13) are both used for sleeving the coiled materials, and the unwinding shaft I (12) and the unwinding shaft II (13) are respectively connected with a rotary power element used for driving the same to rotate;
the coiled material output device can carry out a non-stop output mode and a stop output mode;
in the non-stop output mode, the unwinding shaft I (12) and the unwinding shaft II (13) are respectively sleeved with coiled materials, the unwinding shaft I (12) rotates to output the paper I to sequentially pass through the paper cutting and splicing mechanism (2), the back surface rubberizing mechanism (3) and the storage mechanism (11) and then output, when the coiled materials are replaced, the paper cutting and splicing mechanism (2) cuts off the paper I, the storage mechanism (11) continues to output the pre-stored paper I, and the unwinding shaft II (13) rotates to output the paper II to enter the paper cutting and splicing mechanism (2) to be bonded with the tail end of the paper I connected with the back surface rubberizing mechanism (3);
and (3) stopping the machine in an output mode, wherein the unwinding shaft I (12) or the unwinding shaft II (13) is sleeved with coiled materials to rotate and output the paper, the paper is output after passing through the deviation-correcting paper receiving table mechanism (4), when the coiled materials are replaced, the machine is stopped, the deviation-correcting paper receiving table mechanism (4) cuts off the paper, and the new paper is output to the deviation-correcting paper receiving table mechanism (4) to be adhered to the tail end of the old paper after the new coiled materials are replaced.
2. The web output apparatus for a printing press according to claim 1, wherein: the deviation-rectifying paper receiving table mechanism (4) comprises a table body (41), two first rollers (42) respectively arranged on two sides of the table body (41), and a limiting sliding groove arranged on the upper side face of the table body (41).
3. The web output apparatus for a printing press according to claim 1, wherein: the paper cutting and splicing mechanism (2) comprises a bracket (21), a partition plate (22) arranged on the bracket (21) and two paper cutting assemblies; the two paper cutting assemblies are positioned on two sides of the partition plate (22) and are symmetrically arranged;
the paper cutting assembly comprises a connecting support (21), a rotating shaft (23) positioned on one side of a partition plate (22), a paper pressing roller (24) and a paper pressing plate (25) arranged on the rotating shaft (23), a first power element (26) used for driving the rotating shaft (23) to be close to and far away from the partition plate (22), a second power element used for driving the paper pressing plate (25) to swing along the rotating shaft (23), a guide rail (27) connected with the connecting support (21) and arranged opposite to the partition plate (22), a cutter piece (28) arranged on the guide rail (27), a roller (29) arranged on the cutter piece (28) and a third power element used for driving the cutter piece (28) to reciprocate along the guide rail (27); wherein the cutter (28) is positioned above the paper pressing roller (24) and the front end of the cutter (28) extends to one side of the partition plate (22), when the cutter (28) moves along the guide rail (27), the front end of the cutter (28) moves along the partition plate (22), and the roller (29) is positioned at the front end of the cutter (28).
4. A web output for a printing press as defined in claim 3 wherein: the cross section of the bracket (21) is rectangular, and the bracket (21) is provided with an accommodating space communicated with the upper side surface and the lower side surface; the partition plate (22) is positioned in the middle of the accommodating space, and two ends of the partition plate are respectively connected with two inner walls of the bracket (21); the paper cutting assembly is located in the accommodating space.
5. A web output for a printing press as defined in claim 3 wherein: a handle (20) is arranged on the back of the paper pressing plate (25); the handle (20) is used for pushing the paper pressing plate (25) to turn up and stand along the rotating shaft (23), and the second power element is used for driving the paper pressing plate (25) to turn back and reset along the rotating shaft (23).
6. The web output apparatus for a printing press according to claim 5, wherein: after the paper pressing plate (25) is turned up and erected along the rotating shaft (23), the front side surface of the paper pressing plate (25) is opposite to the roller (29) of the other paper cutting assembly, and the roller (29) abuts against the front side surface of the paper pressing plate (25) when moving along the partition plate (22).
7. The web output apparatus for a printing press according to claim 1, wherein: the back gluing mechanism (3) comprises two second rollers (31) and a fourth power element (32) which is used for driving one second roller (31) to be close to the other second roller (31); the side wall surface of one of the rollers (31) is provided with an adhesive tape adsorbing area (33) and a plurality of adsorbing holes (34) which are arranged in the adhesive tape adsorbing area (33).
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CN202220340028.XU CN217296571U (en) | 2022-02-18 | 2022-02-18 | Coiled material output device for printing machine |
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CN202220340028.XU CN217296571U (en) | 2022-02-18 | 2022-02-18 | Coiled material output device for printing machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN116553245A (en) * | 2023-07-07 | 2023-08-08 | 阿姆斯壮地面材料(中国)有限公司 | Be used for production line to stop line to trade and roll up and two storage device of connection |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN116553245A (en) * | 2023-07-07 | 2023-08-08 | 阿姆斯壮地面材料(中国)有限公司 | Be used for production line to stop line to trade and roll up and two storage device of connection |
CN116553245B (en) * | 2023-07-07 | 2023-09-29 | 阿姆斯壮地面材料(中国)有限公司 | Be used for production line to stop line to trade and roll up and two storage device of connection |
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