CN116118340B

CN116118340B - Printing sheet structure for label processing

Info

Publication number: CN116118340B
Application number: CN202310048397.0A
Authority: CN
Inventors: 任朝忠; 任杰
Original assignee: Dongguan Zhipei Electromechanical Technology Co Ltd
Current assignee: Dongguan Zhipei Electromechanical Technology Co Ltd
Priority date: 2023-01-31
Filing date: 2023-01-31
Publication date: 2024-03-22
Anticipated expiration: 2043-01-31
Also published as: CN116118340A

Abstract

The invention discloses a printing plate structure for label processing, which comprises an upper die assembly, wherein the upper die assembly comprises an upper die plate, the outer surface of the upper die plate is connected with a plurality of groups of convex plates through threads in a threaded mode, a template printing piece is detachably arranged in a plurality of the convex plates and used for label printing, and the lower die assembly comprises a lower die plate. This printing piece structure that label processing was used can solve among the prior art effectively, when adopting unsmooth printing mode, needs to paste the lower surface at last mould in advance with the typeface template, and the upper mould lower surface generally can be attached eight at most, because current typeface template mostly adopts the double faced adhesive tape to paste, when attaching at every turn, all need carry out correction many times to typeface template position, complex operation, the precision is poor, when printing different typefaces in addition, need original typeface template dismantlement, when later re-use, still need reattach, very inconvenient problem.

Description

Printing sheet structure for label processing

Technical Field

The invention relates to the technical field of label processing, in particular to a printing sheet structure for label processing.

Background

The widespread use of labels and the continued development of label varieties naturally motivated the development of label printing technology. The label printing covers all printing modes such as flat, convex, concave, net and the like, and the application conditions of the label printing are different from country to country. However, as seen from the recent trend of global labels, flexographic printing, narrow-width rotary printing and digital printing become bright spots for refreshing label prints in the european and american countries, and also trend of label printing.

Label printing encompasses several main printing modes, different printing modes are selected according to different product properties in the plate making stage, and plate making processes are different for different printing modes. At present, the printing sheet structure used for label printing has certain defects, for example, when adopting a concave-convex printing mode, a font template needs to be attached to the lower surface of an upper die in advance, and the lower surface of the upper die can be attached with eight blocks at most generally.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects existing in the prior art, the invention provides a printing sheet structure for processing labels, which can effectively solve the problems that in the prior art, when a concave-convex printing mode is adopted, a font template is required to be attached to the lower surface of an upper die in advance, and eight blocks of printing templates can be attached to the lower surface of the upper die generally, and because most of the existing font templates are attached by double-sided adhesive tapes, the positions of the font templates need to be corrected for many times when each time of attachment, the operation is complicated, the precision is poor, when different fonts are printed, the original font templates need to be detached, and the original font templates need to be attached again when being reused later, and the printing is very inconvenient.

Technical proposal

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides a printing sheet structure for label processing, comprising:

the upper die assembly comprises an upper die plate, the outer surface of the upper die plate is connected with a plurality of groups of convex plates through screw threads, and a die plate printing piece is detachably arranged in a plurality of the convex plates and used for printing labels;

the lower die assembly comprises a lower die plate, the outer surfaces of the upper die plate and the lower die plate are connected with sliding blocks through screw threads of bolt groups, and one side of the lower die plate, which is close to the upper die plate, is designed to be a smooth surface;

the stencil printing piece comprises a base, a placing hole tightly attached to the outer surface of the base is formed in the protruding plate, a square groove is formed in one side, away from the protruding plate, of the base, and printing sheets are tightly attached to the inner wall of the square groove.

Further, the wrapping ring attached to the outer surface of the base is fixedly communicated with the top end of the placement hole, the high cushion block and the low cushion block are fixedly connected to the inner wall of the placement hole respectively, and the high-level hole and the low-level hole are formed in the inner wall of the placement hole respectively.

Further, each group of high cushion blocks, low cushion blocks, high-position holes and low-position holes are respectively provided with two high cushion block center symmetry distribution, two low-position holes are respectively distributed with low cushion block center symmetry distribution, and the low-position holes are positioned between adjacent high cushion blocks and high-position holes.

Further, shallow grooves and deep grooves which are clamped with the outer surfaces of the high cushion block and the low cushion block are respectively formed in one side, close to the placement hole, of the base, positioning pieces are arranged on the base through holes formed in the base, and high-position holes and inner walls of the low-position holes are respectively clamped with the outer surfaces of the positioning pieces.

Further, the draw-in groove has been seted up to the printing piece surface, inside sliding connection of base has the cardboard that laminates mutually with the draw-in groove inner wall, cardboard is kept away from draw-in groove one side and is run through the base and extend to in the through-hole, the cardboard surface is provided with the bent plate that is connected with the base inside.

Further, the locating piece comprises a locating rod, the outer surface of the locating rod is in sliding connection with the inside of the base, and the end face of the locating rod is fixedly connected with a powerful spring connected with the inner wall of the through hole.

Further, the locating lever surface fixedly connected with and the ejector pad of laminating mutually of through-hole inner wall, ejector pad is close to cardboard one side fixedly connected with magnetic force piece.

Furthermore, one side of the clamping plate, which is close to the pushing block, adopts a magnetic design, and the outer surface of the positioning rod is respectively clamped with the inner walls of the high-position hole and the low-position hole.

Advantageous effects

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

the invention is provided with a stencil printing piece and a placement hole, the pushing blocks on the positioning piece are stirred by both hands, the positioning rod is driven to move to one side of the clamping plate along the inside of the base, when the magnetic block is close to the clamping plate, the magnetic block is magnetically attracted to the clamping plate, then the pushing blocks are released, the strong spring drives the magnetic block and the clamping plate to move further away from the printing plate until the acting force of the strong spring and the acting force of the bending plate tend to be balanced, and the printing plate is stably placed in the square groove; when the bending elasticity of the bending plate overcomes the magnetic force between the clamping plate and the magnetic block, the clamping plate is quickly reset by the acting force of the bending plate, and the clamping plate slides into the clamping groove to bidirectionally clamp the printing sheet, so that the printing sheet, the clamping plate and the base are combined into a whole, and the accurate installation of the printing sheet is realized. Repeating the operation, hiding the locating rod in the base again, integrally rotating the stencil printing piece by a certain angle, clamping the deep groove at the bottom of the base in alignment with the high cushion block, clamping the shallow groove in the low cushion block, resetting the locating piece, clamping the locating rod in the low-position hole, and enabling the outer surface height of the printing plate to be lower than the outer surface height of the upper stencil at the moment, so that the stencil printing piece can be integrally hidden in the placement hole, and font printing of other stencil printing pieces is not affected.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic view of a three-dimensional structure of an embodiment of the present invention;

FIG. 2 is a schematic view of a three-dimensional structure of an upper module according to an embodiment of the present invention;

FIG. 3 is a schematic view of a partial three-dimensional separation structure of an upper module according to an embodiment of the present invention;

FIG. 4 is a schematic view showing a three-dimensional separation structure of a stencil printing member and a placement hole according to an embodiment of the present invention;

FIG. 5 is a schematic view of a three-dimensional partial cross-section of a base, a printing plate and a positioning member according to an embodiment of the present invention;

FIG. 6 is a schematic view of a three-dimensional multi-state partial cross-section of a base, a printing plate and a positioning member according to an embodiment of the present invention;

FIG. 7 is a schematic view of a three-dimensional partial cross-section of a stencil printing member according to an embodiment of the present invention;

fig. 8 is a partially enlarged schematic view of fig. 7 according to an embodiment of the present invention.

Reference numerals in the drawings represent respectively: 1. an upper die assembly; 11. an upper template; 12. a convex plate; 13. a stencil printing member; 131. a base; 132. a square groove; 133. printing a sheet; 1331. a clamping groove; 134. shallow grooves; 135. a deep groove; 136. a positioning piece; 1361. a positioning rod; 1362. a strong spring; 1363. a pushing block; 1364. a magnetic block; 137. a clamping plate; 138. a bending plate; 139. a through hole; 14. placing the hole; 141. a high cushion block; 142. a low pad; 143. a high-level hole; 144. a lower hole; 15. a wrapping ring; 2. a lower die assembly; 21. a lower template; 22. a sliding block.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Examples:

referring to fig. 1-8, the present invention provides a technical solution: a printed sheet structure for label processing comprising:

the upper die assembly 1, the upper die assembly 1 comprises an upper die plate 11, the outer surface of the upper die plate 11 is connected with a plurality of groups of convex plates 12 through screw threads, and a die plate printing piece 13 is detachably arranged in the plurality of convex plates 12 and used for printing labels;

the lower die assembly 2, the lower die assembly 2 comprises a lower die plate 21, the outer surfaces of the upper die plate 11 and the lower die plate 21 are connected with a sliding block 22 through screw threads of a bolt group, and one side of the lower die plate 21 close to the upper die plate 11 is designed to be a smooth surface;

the stencil printing member 13 includes a base 131, a placement hole 14 tightly attached to an outer surface of the base 131 is formed in the convex plate 12, a square groove 132 is formed on a side of the base 131 away from the convex plate 12, and a printing plate 133 is tightly attached to an inner wall of the square groove 132.

The top end of the placement hole 14 is fixedly communicated with a wrapping ring 15 attached to the outer surface of the base 131, the circumference fixing and protecting effects are achieved, the inner wall of the placement hole 14 is fixedly connected with a high cushion block 141 and a low cushion block 142 respectively, and the inner wall of the placement hole 14 is provided with a high hole 143 and a low hole 144 respectively.

Each group of high cushion blocks 141, low cushion blocks 142, high-level holes 143 and low-level holes 144 are provided with two, the two high-level holes 143 are distributed with the high cushion blocks 141 being central symmetry, the two low-level holes 144 are distributed with the low cushion blocks 142 being central symmetry, and the low-level holes 144 are positioned between the adjacent high cushion blocks 141 and the high-level holes 143.

The base 131 is provided with a shallow groove 134 and a deep groove 135 which are respectively engaged with the outer surfaces of the high cushion block 141 and the low cushion block 142 on the side close to the placing hole 14, the base 131 is provided with a positioning piece 136 through a through hole 139 formed in the base 131, and the outer surface of the positioning piece 136 is respectively engaged with the inner walls of the high hole 143 and the low hole 144.

The clamping groove 1331 is formed in the outer surface of the printing sheet 133, the clamping plate 137 attached to the inner wall of the clamping groove 1331 is connected inside the base 131 in a sliding mode, one side, away from the clamping groove 1331, of the clamping plate 137 penetrates through the base 131 and extends into the through hole 139, and a bent plate 138 connected with the inside of the base 131 is arranged on the outer surface of the clamping plate 137. Utilize square groove 132, setting element 136 and cardboard 137 cooperation, realize printing piece 133 quick location installation, and the installation in-process need not manual long-term maintenance to in cardboard 137 and the combination of draw-in groove 1331, in the hidden base 131, other modes can't interfere, stability is strong.

The positioning piece 136 comprises a positioning rod 1361, the outer surface of the positioning rod 1361 is in sliding connection with the inside of the base 131, and the end face of the positioning rod 1361 is fixedly connected with a powerful spring 1362 connected with the inner wall of the through hole 139.

The outer surface of the positioning rod 1361 is fixedly connected with a push block 1363 which is attached to the inner wall of the through hole 139, and one side of the push block 1363 close to the clamping plate 137 is fixedly connected with a magnetic block 1364.

The magnetic design is adopted on one side of the clamping plate 137 close to the pushing block 1363, and the magnetic force of the magnetic block 1364 and the clamping plate 137 are utilized to attract the printing plate 133, and the strong spring 1362 is matched, so that stable installation of the printing plate 133 (the clamping plate 137 is completely hidden in the base 131) can be realized, and quick installation and position adjustment of the stencil printing piece 13 (the positioning rod 1361 is completely hidden in the base 131) can be synchronously realized. The outer surface of the positioning rod 1361 is respectively engaged with the inner walls of the high-level hole 143 and the low-level hole 144. The shallow groove 134 at the bottom of the base 131 is aligned with the high cushion block 141 to be clamped in, the positioning piece 136 is reset, the positioning rod 1361 is clamped in the high hole 143, and the two are matched to realize the installation (printing state) of the stencil printing piece 13. The deep groove 135 at the bottom of the base 131 is aligned with the high cushion block 141 to be clamped in, the base 131 slides downwards along the inner wall of the placement hole 14, the shallow groove 134 is clamped in the low cushion block 142, the reset positioning piece 136 and the positioning rod 1361 are clamped in the low position hole 144, and at the moment, the height of the outer surface of the printing piece 133 is lower than that of the outer surface of the upper template 11, so that the whole stencil printing piece 13 can be hidden in the placement hole 14.

Referring to fig. 1 to 8, the structure of the printing sheet used for printing the current label has certain defects, for example, when adopting a concave-convex printing mode, a font template needs to be attached to the lower surface of an upper die in advance, and the lower surface of the upper die can be attached to eight blocks at most, because most of the existing font templates are attached by double-sided tape, the positions of the font templates need to be corrected for many times when each time of attachment is carried out, the operation is complicated, the precision is poor, and when different fonts are printed, the original font template needs to be detached, and when the original font template is used again later, the original font template needs to be attached again, and the printing sheet is very inconvenient;

in order to overcome the above-described drawbacks, the present invention provides a printed sheet structure for label processing.

Specifically, firstly, the outer surfaces of an upper template 11 on an upper die assembly 1 and a lower template 21 on a lower die assembly 2 are both connected with a sliding block 22 through bolt groups in a threaded manner, quick installation and demoulding are realized by means of clamping sliding of the sliding block 22 and external equipment, secondly, eight groups of convex plates 12 are connected with the lower surface of the upper template 11 through thread groups in a threaded manner, a template printing piece 13 is detachably arranged in each group of convex plates 12, and a printing sheet 133 on the template printing piece 13 is used for label printing.

The printed sheet 133 is assembled to distinguish the attachment of the double sided tape of the existing font template:

firstly, a printing piece 133 is wholly upwards placed, then a pushing block 1363 on a positioning piece 136 is pushed by two hands to drive a positioning rod 1361 to move towards one side of a clamping plate 137 along the inside of a base 131, a strong spring 1362 is elastically deformed until the clamping plate 137 is close to the clamping plate 137, one side of the clamping plate 137 close to the pushing block 1363 adopts a magnetic design, the clamping plate 137 is magnetically attracted by the magnetic block 1364 to drive the clamping plate 137 to move towards one side of the magnetic block 1364, the two clamping plates are combined into a whole, a bending plate 138 is elastically deformed, then the pushing block 1363 is released, the strong spring 1362 drives the magnetic block 1364 and the clamping plate 137 to move further away from the printing piece 133 until the acting force of the strong spring 1362 and the acting force of the bending plate 138 tend to be balanced (the magnetic force between the clamping plate 137 and the magnetic block 1364 is larger than the elastic force of the strong spring 1362 and the bending plate 138), and the clamping plate 137 is completely hidden inside the base 131;

then, the printing sheet 133 is stably placed in the square groove 132 (the clamping plate 137 does not interfere with the installation of the printing sheet 133, the hiding of the clamping plate 137 does not need to be maintained manually, the movement of the clamping plate 137 is only affected by the magnetic block 1364, other modes cannot interfere, and the stability is strong);

finally, the reverse toggle pushing block 1363 moves to one side of the positioning rod 1361 (the reset direction), drives the magnetic block 1364 and the clamping plate 137 to further move away from the printing plate 133 (the elastic force of the compressed strong spring 1362 plays a good labor-saving role), the bending plate 138 is further elastically deformed, when the bending elastic force of the bending plate 138 overcomes the magnetic force between the clamping plate 137 and the magnetic block 1364, the clamping plate 137 is rapidly reset under the action of the force of the bending plate 138, the clamping plate 137 slides into the clamping groove 1331 to bidirectionally clamp the printing plate 133, the clamping plate 137 and the base 131 are combined into a whole, the pushing block 1363 is loosened, and the positioning piece 136 is integrally reset (at the moment, the distance between the magnetic block 1364 and the clamping plate 137 is far, and the distance is not interfered).

To sum up, utilize square groove 132, setting element 136 and cardboard 137 cooperation, realize printing piece 133 quick location installation, and the installation in-process need not manual long-term maintenance to in cardboard 137 and the combination of draw-in groove 1331, in hidden base 131, other modes can't interfere, stability is strong.

Because the convex plates 12 are provided with eight groups, two stencil printing pieces 13 with different fonts are arranged on each group of convex plates 12, and in order to ensure that the stencil printing pieces 13 are not interfered with each other, the positions of the stencil printing pieces 13 need to be adjusted (wherein the stencil printing pieces 13 are not directly taken down because the stencil printing pieces 13 are always arranged on the upper stencil 11, the fonts are relatively fixed, the repeated disassembly confusion is prevented, the repeated disassembly and the installation are troublesome, the overall stress of the upper stencil 11 is kept balanced, and after all, the stencil printing pieces need to be mutually extruded with the lower stencil 21);

after the corresponding placement of the print sheet 133, the print font of the stencil printing member 13 is mounted:

the pushing block 1363 on the positioning piece 136 is manually fluctuated again, the above operation is repeated, the balance between the acting force of the strong spring 1362 and the acting force of the bending plate 138 is realized (the magnetic force between the clamping plate 137 and the magnetic block 1364 is larger than the elastic force of the strong spring 1362 and the bending plate 138), at the moment, the clamping plate 137 is completely hidden inside the base 131, and the positioning rod 1361 is also completely hidden inside the base 131. The invention uses the magnetic attraction of the magnetic block 1364 and the clamping plate 137 and cooperates with the strong spring 1362, not only can realize the stable installation of the printing piece 133 (the clamping plate 137 is completely hidden in the base 131), but also can synchronously realize the quick installation and the position adjustment of the stencil printing piece 13 (the positioning rod 1361 is completely hidden in the base 131), then the shallow groove 134 at the bottom of the base 131 is aligned with the high cushion block 141 to be clamped in, the positioning piece 136 is reset, the positioning rod 1361 is clamped in the high hole 143, and the two cooperate to realize the installation (printing state) of the stencil printing piece 13.

Debugging is not printed, hide locating lever 1361 in base 131 once more, the stencil printing piece 13 makes progress a section distance (shallow slot 134 breaks away from high cushion 141), then rotate certain angle with stencil printing piece 13 is whole, the deep slot 135 of base 131 bottom aims at high cushion 141 card and goes into, base 131 slides down along placing hole 14 inner wall, shallow slot 134 card goes into low cushion 142, the setting element 136 resets, locating lever 1361 card goes into in the low level hole 144, the printing piece 133 surface height is less than upper template 11 surface height this moment, can realize that stencil printing piece 13 is whole to be hidden in placing hole 14, and then do not influence the typeface printing of other stencil printing pieces 13.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; these modifications or substitutions do not depart from the essence of the corresponding technical solutions from the protection scope of the technical solutions of the embodiments of the present invention.

Claims

1. A printed sheet structure for label processing, comprising:

the upper die assembly (1), the upper die assembly (1) comprises an upper die plate (11), the outer surface of the upper die plate (11) is connected with a plurality of groups of convex plates (12) through screw thread groups, and a template printing piece (13) is detachably arranged in a plurality of the convex plates (12) and used for printing labels;

the lower die assembly (2), the lower die assembly (2) comprises a lower die plate (21), the outer surfaces of the upper die plate (11) and the lower die plate (21) are respectively connected with a sliding block (22) through bolt groups in a threaded manner, and one side, close to the upper die plate (11), of the lower die plate (21) is designed to be a smooth surface;

the stencil printing piece (13) comprises a base (131), a placing hole (14) tightly attached to the outer surface of the base (131) is formed in the protruding plate (12), a square groove (132) is formed in one side, away from the protruding plate (12), of the base (131), and a printing sheet (133) is tightly attached to the inner wall of the square groove (132);

the device comprises a base (131), a clamping plate (137) and a clamping plate (137), wherein the inner wall of the placing hole (14) is fixedly connected with a high cushion block (141) and a low cushion block (142) respectively, a high hole (143) and a low hole (144) are formed in the inner wall of the placing hole (14) respectively, the clamping plate (137) which is attached to the inner wall of the clamping plate (1331) is arranged on one side of the base (131) close to the placing hole (14) respectively, a shallow groove (134) and a deep groove (135) which are clamped with the outer surfaces of the high cushion block (141) and the low cushion block (142) are formed in the base (131) respectively, a positioning piece (136) is arranged on the outer surface of the base (131) through a through hole (139) formed in the base, a high hole (143) and a low hole (144) are formed in the outer surface of the positioning piece (136) respectively, a clamping groove (1331) is formed in the outer surface of the printing plate (133), the base (131) is connected with the clamping plate (137) which is attached to the inner wall of the clamping plate (137) in a sliding mode, and one side of the clamping plate (137) is far away from the clamping groove (1331) and extends into the through hole (139).

Wherein, setting element (136) is including locating lever (1361), locating lever (1361) surface and inside sliding connection of base (131), locating lever (1361) terminal surface fixedly connected with is connected with powerful spring (1362) of through-hole (139) inner wall, locating lever (1361) surface fixedly connected with ejector pad (1363) that laminate mutually with through-hole (139) inner wall, ejector pad (1363) are close to cardboard (137) one side fixedly connected with magnetic force piece (1364), cardboard (137) are close to ejector pad (1363) one side and adopt magnetic design, locating lever (1361) surface respectively with high-order hole (143) and high-order hole (144) inner wall looks block.

2. A printed sheet structure for label processing according to claim 1, wherein: the top end of the placement hole (14) is fixedly communicated with a wrapping ring (15) attached to the outer surface of the base (131).

3. A printed sheet structure for label processing according to claim 2, wherein: every group Gao Diankuai (141), low cushion (142), high-order hole (143) and low-order hole (144) all are provided with two, two high-order hole (143) are with high cushion (141) central symmetry distribution, two low-order hole (144) are with low cushion (142) central symmetry distribution, low-order hole (144) are located between adjacent high cushion (141) and high-order hole (143).