CN105564007A - Coating printing system of aluminum foil for producing medicine package - Google Patents

Abstract

The invention discloses a coating printing system of an aluminum foil for producing a medicine package. The coating printing system comprises a frame provided with a coating head, the coating head, a printing component, a drying component, two winding shafts rotationally mounted on the frame, a push part and a cutting component; an inlet is formed in one end, far from the cutting component, of the frame; the coating head is arranged between the cutting component and the inlet; the printing component is arranged between the coating head and the cutting component; the drying component is arranged between the printing component and the cutting component; the frame is provided with rectangular annular grooves corresponding to positions with the winding shafts; one ends of the two winding shafts are accommodated in the rectangular annular grooves, and can slide corresponding to the rectangular annular grooves; and the push part includes two extension rods arranged on the frame near a future use area, and push blocks fixedly arranged at one ends of the two extension rods. The coating printing system can synchronously perform a winding operation in the process of taking down an aluminum foil coil after winding, improves the production efficiency, and reduces the time cost.

Description

A kind of coating and printing system for the production of Key works Drug packing aluminium foil

Technical field

The present invention relates to mechanical field, particularly, relate to a kind of coating and printing system for the production of Key works Drug packing aluminium foil.

Background technology

In the production process of Key works Drug packing aluminium foil, usual need are first to aluminium foil side coating heat-seal adhesive, ink is made to be easy to be attached on aluminium foil through printing assembly structure again, ensure printing effect, after aluminium foil drying after printing, obtaining the aluminium foil of larger fabric width, through cutting into the rouleau of specification fabric width size, then pharmaceutical packing bag need be made into each rouleau through operations such as cutting, heat-sealings.In coating and printing system, aluminium foil after cutting carries out rolling through collecting shaft, after rolling completes, Scroll stops operating, again by manually by aluminium foil from after collecting shaft takes off, be positioned over while wait for and enter subsequent processing, after the aluminium foil on collecting shaft is all removed, then opening device carries out the work of next round splitting winding.So, intermittent rolling, get volume, greatly reduce production efficiency, increase time cost.

Summary of the invention

Technical problem to be solved by this invention is to provide the high coating and printing system for the production of Key works Drug packing aluminium foil of a kind of production efficiency.

The present invention's adopted technical scheme that solves the problem is:

A kind of coating and printing system for the production of Key works Drug packing aluminium foil, comprise frame, dispense tip, printing assembly, dry assembly, rotate two Scrolls be installed in described frame, push mechanism, and be located at described Scroll upstream cut assembly, described frame is provided with entrance away from described one end of cutting assembly, described coating and printing system is entered for aluminium foil, described dispense tip is located in described frame, and described dispense tip be arranged at described in cut between assembly and described entrance, for being coated with heat-seal adhesive to aluminium foil, described printing assembly is located in described frame, and described printing assembly is arranged at described dispense tip and describedly cuts between assembly, for ink being attached to the aluminium foil being coated with heat-seal adhesive, described oven dry assembly is located in described frame, and described oven dry assembly is located at described printing assembly and is describedly cut between assembly, for making the ink of aluminium foil surface dry, described assembly of cutting comprises running roller and point chipping, described running roller can be fixed in described frame rotationally, described point of chipping is fixed in described frame, reserved gap of advancing for aluminium foil between described running roller and described point of chipping, and one end of the described point of contiguous described running roller of chipping is provided with some spaced carving knives, for cutting aluminium foil, the position that described frame correspondence is provided with described Scroll offers rectangular ring groove, described two Scroll one end to be placed in described rectangular ring groove and can to slide by relatively described rectangular ring groove, two diagonal angle places of described rectangular ring groove are respectively equipped with workspace and stand-by district, a Scroll is positioned at workspace, another root Scroll is positioned at stand-by district, cut assembly described in described workspace is contiguous to arrange, and the level height of described workspace is higher than the level height in described stand-by district, described push mechanism comprises two expansion links being fixedly arranged on contiguous described stand-by district in described frame and the pushing block being fixedly arranged on described two expansion link one end, described pushing block is the arc pushing block with an opening, the Scroll being positioned at stand-by district is sheathed on the center of described arc pushing block, described arc pushing block is less than 3/4 circular arc.

As without particularly pointing out, some described in the application all refer to two or more.

Further, arbitrary expansion link comprises body and can the extrusome that stretches of opposing body, described body one end is fixedly arranged on the position in contiguous described stand-by district in described frame, the other end coordinates with described extrusome is sheathed, and described pushing block is fixedly connected with described extrusome one end relative to described body.

Further, described coating and printing system comprises the retention member be fixedly connected with frame, and described retention member is corresponding with the position of described workspace, is positioned at the Scroll of workspace for fixing.

Further, described retention member has a U-shaped end, and the other end being positioned at the Scroll of workspace can be contained in the atrium of described U-shaped end.

Further, described coating and printing system comprises the control system be electrically connected mutually with described dispense tip, described printing assembly, described oven dry assembly, described running roller and described Scroll.

To sum up, coating and printing system of the present invention is by arranging two Scrolls and corresponding rectangular ring groove that match, described coating and printing system is taken off in the process of aluminum foil coil after rolling completes can also carry out wind-up operation simultaneously, enhance productivity, reduce time cost.

Accompanying drawing explanation

Fig. 1 is the structural representation of the coating and printing system shown in present pre-ferred embodiments;

Fig. 2 is the enlarged diagram at A place in Fig. 1;

Mark and corresponding parts title in accompanying drawing: coating and printing system 100, frame 10, cut assembly 40, Scroll 50, retention member 60, rectangular ring groove 31, workspace 311, stand-by district 312, running roller 41, point chipping 42, first Scroll 51, second Scroll 52, aluminium foil 1, push mechanism 70, expansion link 71, pushing block 72, body 711, extrusome 712.

Detailed description of the invention

Below in conjunction with embodiment and accompanying drawing, the present invention is described in further detail, but embodiments of the present invention are not limited thereto.

Embodiment 1

Refer to Fig. 1-2, coating and printing system 100 shown in present pre-ferred embodiments, be convenient to the production efficiency improving Key works Drug packing aluminium foil, comprise frame 10, dispense tip, printing assembly, oven dry assembly, cut assembly 40, Scroll 50, retention member 60, push mechanism 70 and control system (not shown).

Described frame 10 is provided with entrance away from described one end of cutting assembly 40, enters described coating and printing system 100 for described aluminium foil 1.

Described dispense tip is located in described frame 10, and described dispense tip be arranged at described in cut between assembly 40 and described entrance, for the sealing of aluminium foil 1 coated heat.

Described printing assembly is located in described frame 10, and described printing assembly is arranged at described dispense tip and describedly cuts between assembly 40, for ink being attached to the aluminium foil 1 being coated with heat-seal adhesive, thus the side being coated with heat-seal adhesive in this aluminium foil 1 prints out the pattern of needs.

Described oven dry assembly is located in described frame 10, and described oven dry assembly is located at described printing assembly and is describedly cut between assembly 40, makes that the ink on aluminium foil 1 surface is dry, sizing.

Described assembly 40 of cutting comprises running roller 41 and point chipping 42, reserved gap of advancing for aluminium foil 1 between described running roller 41 and point chipping 42.Described running roller 41 is fixed in described frame 10 rotationally, described point of chipping 42 is fixed in described frame 10, and one end of the described point of contiguous described running roller 41 of chipping 42 is provided with some spaced carving knife (not shown), for aluminium foil 1 being cut into the rouleau of some different fabric widths, the distance between adjacent two carving knives can design as required.Describedly cut the upstream that described Scroll 50 is located at by assembly 40, aluminium foil through described cut assembly 40 cut after rolling on described Scroll 50.

In described frame 10, the corresponding position being provided with described Scroll 50 offers rectangular ring groove 31, and described Scroll 50 can slide along described rectangular ring groove 31.Described rectangular ring groove 31 is provided with workspace 311 and stand-by district 312, when described Scroll 50 is positioned at workspace 311, described Scroll 50 rotates rolling, when described Scroll 50 is positioned at stand-by district 312, staff can take off aluminum foil coil in waiting to enter next operation on one side from described Scroll 50.In the present embodiment, described workspace 311 and stand-by district 312 are arranged at two diagonal angle places of described rectangular ring groove 31 respectively, cut assembly 40 described in described workspace 311 is more contiguous to arrange, and the level height of described workspace 311 is higher than the level height in described stand-by district 312.

One end of described Scroll 50 is slidably disposed in described rectangular ring groove 31, and is rotationally connected with described frame 10.Described Scroll 50 comprises the first Scroll 51 and the second Scroll 52.During normal work, rotation rolling is carried out in the workspace 311 that arbitrary Scroll among both described first Scroll 51 and the second Scroll 52 is positioned at rectangular ring groove 31, and the stand-by district 312 that another Scroll is positioned at rectangular ring groove 31 is in stand-by state, staff can take off aluminum foil coil from this Scroll, two Scrolls can not be positioned at workspace 311 simultaneously, can not be positioned at stand-by district 312 simultaneously.So, can the Scroll 50 of rotation mutually by arranging two, make a Scroll when staff takes off aluminum foil coil, another root Scroll still can be in the state of rolling, and so, circulation is carried out, and greatly can save time, enhance productivity.

Described retention member 60 is fixedly arranged in described frame 10, corresponding with the position of the workspace 311 of rectangular ring groove 31.Described retention member 60 has a U-shaped end, and the other end being positioned at arbitrary Scroll 50 of position, workspace 311 can be contained in the atrium of described U-shaped end, guarantees this Scroll during turning held stationary, prevents from rocking thus affect rolling quality.After rolling completes, open described retention member 60 and described Scroll is separated in the U-shaped end of described retention member 60, thus be convenient to this Scroll and slide into stand-by district 312.

Described push mechanism 70 comprises two expansion links 71 and pushing block 72.The axis of described expansion link 71 parallels with the axis of described Scroll 50.Arbitrary expansion link 71 comprises body 711 and can the flexible extrusome 712 of opposing body 711, and described body 711 one end is fixedly arranged on the position in contiguous described stand-by district 312 in frame 10, and the other end coordinates with described extrusome 712 is sheathed.Described pushing block 72 is fixedly connected with described extrusome 712 one end relative to described body 711.Described pushing block 72 has arcuate shape, so that more press close to the shape of described aluminum foil coil, make the stressed of coiled material evenly, the length of described arc pushing block 72 is no more than 3/4 circular arc, and the Scroll 50 being in stand-by district 312 enters the center of described arc pushing block 72 by the opening part of described arc pushing block 72.The both ends of described arc pushing block 72 are fixedly connected with the extrusome 712 of two expansion links 71 respectively.By described extrusome 712 relative to the stretching out of described body 711/or retract thus realize the moving of axis direction of described pushing block 72 along described Scroll 50.Making the discharging operations of the aluminum foil coil on described Scroll 50 easier by being provided with described push mechanism 70, no longer needing artificial force to be taken off, and mechanically just can realize.

Described control system and described dispense tip, described printing assembly and dry assembly and be electrically connected, for controlling described dispense tip, described printing assembly and drying the unlatching/of assembly or stop.Described control system and described running roller 41 are electrically connected, for control the unlatching/of described running roller 41 or stop, the rotating speed of described running roller 41 and then control the gait of march of described aluminium foil 1.Described control system and described Scroll 50 are electrically connected, for control the rotation/of described Scroll 50 or stop, the rotating speed of described Scroll 50 to be to guarantee the quality of aluminium foil rolling, the slip etc. of the relative described rectangular ring groove 31 of described Scroll 50 with the rotational speed matches of described running roller 41.Described control system and described retention member 60 are electrically connected, and clamp described Scroll 50 or away from described Scroll 50 for controlling retention member 60.

During use, dispense tip is opened by operating described control system, printing assembly, dry assembly, and make to be positioned at the first Scroll 51/ of workspace 311 or the second Scroll 52 rotates, now, the other end of described first Scroll 51/ or the second Scroll 52 is contained in the atrium of the U-shaped end of described retention member 60, aluminium foil 1 is entered by the entrance of described frame 10, after the sealing of described dispense tip coated heat, after entering described printing assembly printed patterns, enter after drying the interior oven dry of assembly, assembly 40 is cut described in entering, advance in gap between described running roller 41 and point chipping 42, cut rear rolling on described first Scroll 51/ or the second Scroll 52, after rolling completes, stop being positioned at the first Scroll 51/ of workspace 311 or the second Scroll 52 rotates, operate described control system and make to be positioned at the first Scroll 51/ of workspace 311 or the second Scroll 52 moves to stand-by district 312 along described rectangular ring groove 31, the second Scroll 52/ or the first Scroll 51 that are positioned at stand-by district 312 move to workspace 311 along described rectangular ring groove 31 simultaneously, now, the second Scroll 52/ or the first Scroll 51 that are positioned at workspace 311 can repeat the wind-up operation that aforesaid operations carries out aluminium foil again, and staff also can simultaneously from be positioned at first Scroll 51/ in stand-by district 312 or the second Scroll 52 by complete rolling aluminum foil coiling under, wait enters subsequent processing, so, used by the rotation of two Scrolls, make described coating and printing system 100 after completing rolling, while staff takes off aluminum foil coil, still wind-up operation can be proceeded, significantly improve operating efficiency, reduce time cost.

In sum, coating and printing system 100 of the present invention is by arranging the first Scroll 51 and the second Scroll 52 matched, described coating and printing system is taken off in the process of aluminum foil coil after rolling completes can also carry out wind-up operation simultaneously, enhance productivity, reduce time cost.

As mentioned above, the present invention can be realized preferably.

The above; it is only preferred embodiment of the present invention; not any pro forma restriction is done to the present invention; according to technical spirit of the present invention; within the spirit and principles in the present invention; the any simple amendment that above embodiment is done, equivalently replace and improve, within the protection domain all still belonging to technical solution of the present invention.

Claims (5)

1. the coating and printing system for the production of Key works Drug packing aluminium foil, it is characterized in that, comprise frame, dispense tip, printing assembly, dry assembly, rotate two Scrolls be installed in described frame, push mechanism, and be located at described Scroll upstream cut assembly, described frame is provided with entrance away from described one end of cutting assembly, described coating and printing system is entered for aluminium foil, described dispense tip is located in described frame, and described dispense tip be arranged at described in cut between assembly and described entrance, for being coated with heat-seal adhesive to aluminium foil, described printing assembly is located in described frame, and described printing assembly is arranged at described dispense tip and describedly cuts between assembly, for ink being attached to the aluminium foil being coated with heat-seal adhesive, described oven dry assembly is located in described frame, and described oven dry assembly is located at described printing assembly and is describedly cut between assembly, for making the ink of aluminium foil surface dry, described assembly of cutting comprises running roller and point chipping, described running roller can be fixed in described frame rotationally, described point of chipping is fixed in described frame, reserved gap of advancing for aluminium foil between described running roller and described point of chipping, and one end of the described point of contiguous described running roller of chipping is provided with some spaced carving knives, for cutting aluminium foil, the position that described frame correspondence is provided with described Scroll offers rectangular ring groove, described two Scroll one end to be placed in described rectangular ring groove and can to slide by relatively described rectangular ring groove, two diagonal angle places of described rectangular ring groove are respectively equipped with workspace and stand-by district, a Scroll is positioned at workspace, another root Scroll is positioned at stand-by district, cut assembly described in described workspace is contiguous to arrange, and the level height of described workspace is higher than the level height in described stand-by district, described push mechanism comprises two expansion links being fixedly arranged on contiguous described stand-by district in described frame and the pushing block being fixedly arranged on described two expansion link one end, described pushing block is the arc pushing block with an opening, the Scroll being positioned at stand-by district is sheathed on the center of described arc pushing block, described arc pushing block is less than 3/4 circular arc.

2. the coating and printing system for the production of Key works Drug packing aluminium foil according to claim 1, it is characterized in that, described coating and printing system comprises the retention member be fixedly connected with frame, and described retention member is corresponding with the position of described workspace, is positioned at the Scroll of workspace for fixing.

3. the coating and printing system for the production of Key works Drug packing aluminium foil according to claim 2, is characterized in that, described retention member has a U-shaped end, and the other end being positioned at the Scroll of workspace can be contained in the atrium of described U-shaped end.

4. the coating and printing system for the production of Key works Drug packing aluminium foil according to claim 1, it is characterized in that, described coating and printing system comprises the control system be electrically connected mutually with described dispense tip, described printing assembly, described oven dry assembly, described running roller and described Scroll.

5. the coating and printing system for the production of Key works Drug packing aluminium foil according to claim 1, it is characterized in that, arbitrary expansion link comprises body and can the extrusome that stretches of opposing body, described body one end is fixedly arranged on the position in contiguous described stand-by district in described frame, the other end coordinates with described extrusome is sheathed, and described pushing block is fixedly connected with described extrusome one end relative to described body.