CN215827979U - Composite material punching and laminating mechanism - Google Patents
Composite material punching and laminating mechanism Download PDFInfo
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- CN215827979U CN215827979U CN202121171105.5U CN202121171105U CN215827979U CN 215827979 U CN215827979 U CN 215827979U CN 202121171105 U CN202121171105 U CN 202121171105U CN 215827979 U CN215827979 U CN 215827979U
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Abstract
The utility model provides a composite material punching and laminating mechanism, which enables a whole rolling structure to quickly adjust an angle to a reasonable position relative to a punching and laminating part after the material belt deflects in an angle direction before punching and laminating, and adjusts the angle of the material belt without stopping, so that the efficiency of the whole punching and laminating process is improved. The device comprises a mounting fixing plate, an annular winding bottom plate, a winding mechanism and a punching and fitting mechanism; a circular cavity is arranged in the central area of the mounting fixing plate, and the annular furling bottom plate is arranged in a plane rotation mode according to the circle center of the circular cavity; a vertical plate is fixedly arranged on the annular furling bottom plate, and a furling mechanism is integrated on the front surface of the vertical plate; the winding mechanism comprises a coil stock discharging mechanism and a coil stock receiving mechanism; the coil discharging mechanism is arranged at one side of the vertical plate, and the coil receiving mechanism is arranged at the other side of the vertical plate; the punching and attaching mechanism is arranged at the center of the connecting line area of the coil material feeding mechanism and the coil material receiving mechanism.
Description
Technical Field
The utility model relates to the technical field of film product transportation, in particular to a composite material punching and laminating mechanism.
Background
In the die cutting industry, the condition of secondary punching and then laminating can be met when several materials are laminated. The in-process that current coil stock sent into die-cut sword position along the feed roll after peeling off from the type membrane, the material area probably can take place angular migration, so need shut down and reset the material area position, just can punch once more afterwards for whole die-cut is attached and is paid inefficiency.
Disclosure of Invention
In order to solve the problems, the utility model provides a composite material punching and laminating mechanism which enables the angle of the whole rolling structure to be quickly adjusted to a reasonable position relative to a punching and laminating part after the material belt is found to deflect in the angle direction before punching and laminating, and enables the angle of the material belt to be adjusted without stopping, so that the efficiency of the whole punching and laminating process is improved.
Combined material dashes type laminating mechanism, its characterized in that: the device comprises a mounting fixing plate, an annular winding bottom plate, a winding mechanism and a punching and fitting mechanism;
a circular cavity is formed in the central area of the mounting and fixing plate, and the annular furling bottom plate is arranged in a plane rotation mode according to the circle center of the circular cavity;
a vertical plate is fixedly arranged on the annular furling bottom plate, and a furling mechanism is integrated on the front surface of the vertical plate;
the winding mechanism comprises a coil stock discharging mechanism and a coil stock receiving mechanism; the coil discharging mechanism is arranged at one side of the vertical plate, and the coil receiving mechanism is arranged at the other side of the vertical plate;
the punching and laminating mechanism is arranged at the center of a connecting line area of the coil discharging mechanism and the coil receiving mechanism, the punching and laminating mechanism is fixedly arranged in the front area of the vertical plate and is positioned in the circular cavity, the punching and laminating mechanism comprises a machine base, a punching power device and a cutting die, a material deflection sensor is arranged at the position of the machine base, facing the coil discharging mechanism, and the front surface of the material deflection sensor is used for sensing whether a material strip penetrates through the surface in parallel or not, and the material strip penetrates through the lower part of the cutting die and is connected to the coil receiving mechanism;
a plurality of guide limiting plates are annularly distributed between the annular furling bottom plate and the mounting fixing plate, and the guide limiting plates enable the annular furling bottom plate to only rotate relative to the circular cavity of the mounting fixing plate.
It is further characterized in that:
a plurality of groups of first positioning round points are annularly distributed on the upper surface of the annular furling bottom plate, corresponding second positioning round points are arranged on the periphery of the mounting and fixing plate corresponding to the first positioning round points, and the first positioning round points and the second positioning round points are used for rotary positioning operation;
an upper convex driving block is fixedly arranged on the central area of the annular furling bottom plate towards the front end and used for radially rotating the annular furling bottom plate;
the coil stock discharging mechanism specifically comprises a first feeding reel, a second feeding reel and a release film winding shaft, wherein the first feeding reel and the second feeding reel are used for respectively conveying coil stocks, so that the whole mechanism can perform continuous operation of continuous material feeding;
when the feeding of one feeding reel is close to the end, the tail end of the coiled material is quickly connected with the starting end of the other feeding reel, so that continuous operation of continuous feeding is ensured;
a first guide roller set is arranged between a feeding area corresponding to the first feeding scroll and the second feeding scroll and a release film winding shaft, a second guide roller set is also arranged at the output rear end of the first guide roller set of the first feeding scroll and the second feeding scroll, and a material deflection sensor is arranged at the output rear end of the second guide roller set;
a material belt guide plane is arranged on the second guide roller set, a CCD camera is arranged right above the material belt guide plane and used for capturing the shape of a material, and the travelling accuracy and reliability of a subsequent material belt are ensured;
the rear part of the coil output of the punching and laminating mechanism is provided with a third guide roller set, the rear part of the coil output of the third guide roller set is provided with the coil receiving mechanism, and the third guide roller set is used for guiding and winding the coil output by the punching and laminating mechanism;
stepping torsion motors are respectively arranged on the release film winding shaft and the coil material receiving mechanism, so that the coil material is wound in a stepping mode, and stepping punching of the punching and laminating mechanism is facilitated;
a punching power device and a cutting die are arranged on the base of the punching and laminating mechanism from top to bottom, and the punching power device carries out stepping punching and completes punching and laminating operations on the coil stock at the corrected position through the cutting die.
After adopting above-mentioned technical scheme, the front surface that the material deflected the sensing is used for responding to the material and takes whether there is the parallel this surface of passing, if the position exists different spacing distance around, then report to the police and indicate, the manual work rotates annular roll-up bottom plate, adjust to the parallel front surface that passes the material deflection sensor in material area, it makes and finds that the material area has the angle direction before die-cut laminating and deflects the back, die-cut laminating part fast speed adjusting angle to reasonable position relatively of whole rolling structure, the incessant carries out the material and takes angular adjustment, make the process efficiency that whole die-cut subsides were paid improve.
Drawings
FIG. 1 is a schematic top view of the present invention;
FIG. 2 is a schematic perspective view of the present invention;
the names corresponding to the sequence numbers in the figure are as follows:
the device comprises a mounting fixing plate 10, a circular cavity 11, a second positioning round point 12, an annular furling bottom plate 20, a guiding limiting plate 21, a first positioning round point 22, an upper convex driving block 23, a dial gauge 24, a punching and attaching mechanism 30, a machine base 31, a punching power device 32, a cutting die 33, a material deflection sensor 34, a front surface 341, a winding mechanism 40, a first feeding winding shaft 41, a second feeding winding shaft 42, a release film winding shaft 43, a first guiding roller group 44, a second guiding roller group 45, a material belt guiding plane 46, a CCD camera 47, a third guiding roller group 48, a material winding mechanism 49 and a vertical plate 50.
Detailed Description
The composite material punching and fitting mechanism is shown in figures 1 and 2: the device comprises a mounting fixing plate 10, an annular furling bottom plate 20, a winding mechanism 40 and a punching and fitting mechanism 30; a circular cavity 11 is arranged in the central area of the mounting fixing plate 10, and the annular furling bottom plate 20 is arranged in a plane rotation mode according to the circle center of the circular cavity 11; a vertical plate 50 is fixedly arranged on the annular furling bottom plate 20, and a furling mechanism is integrated on the front surface of the vertical plate 50; the winding mechanism 40 comprises a coil discharging mechanism and a coil receiving mechanism 49; the coil discharging mechanism is arranged at one side of the vertical plate 50, and the coil receiving mechanism 49 is arranged at the other side of the vertical plate 50;
the punching and attaching mechanism 30 is arranged at the center of a connecting line area of the coil discharging mechanism and the coil receiving mechanism, the punching and attaching mechanism is fixedly arranged in the front area of the vertical plate 50 and is positioned in the circular cavity 11, the punching and attaching mechanism 30 comprises a base 31, a punching power device 32 and a cutting die 33, a material deflection sensor 34 is arranged at the position of the base 31 facing the coil discharging mechanism, the front surface 341 of the material deflection sensor 34 is used for sensing whether a material strip passes through the surface in parallel, and the material strip penetrates through the lower part of the cutting die 33 and is connected to the coil receiving mechanism;
a guiding limit plate is annularly distributed between the annular furling bottom plate 20 and the installation fixing plate 10, and the guiding limit plate enables the annular furling bottom plate 20 to only rotate relative to the circular cavity 11 of the installation fixing plate 10.
In the specific implementation: the guide limiting plate comprises an upper limiting plate and a lower limiting plate, the annular furling bottom plate is arranged in the central area of the circular cavity, the lower limiting plate is used for supporting the annular furling bottom plate, and the upper limiting plate is used for guiding the rotating profile of the annular furling bottom plate.
In another embodiment, the circular cavity is internally convex to form a circular supporting platform, the circular furling bottom plate is supported in the circular supporting platform, and the guide limiting plate is only annularly distributed on the periphery of the circular furling bottom plate.
In a preferred embodiment, as shown in fig. 1 and fig. 2, the annular furling bottom plate 20 is supported at the periphery of the circular cavity 11, the annular furling bottom plate 20 is arranged corresponding to the upper surface of the mounting fixing plate 10 in a supporting way, and a plurality of guiding limit plates 21 of the annular cloth around the outer ring of the annular furling bottom plate are arranged; the radial outer end of the guide limit plate 21 is fixedly connected to the installation bottom plate 10, and the limit contour formed by the plurality of guide limit plates 21 ensures that the annular furling bottom plate 20 is arranged in a plane revolving manner around the circle center of the circular cavity 11.
Specific examples, see fig. 1 and 2: a plurality of groups of first positioning round points 22 are annularly distributed on the upper surface of the annular furling bottom plate 20, corresponding second positioning round points 12 are arranged on the periphery of the mounting and fixing plate 10 corresponding to the first positioning round points 22, and the first positioning round points 22 and the second positioning round points 12 are used for rotary positioning operation;
an upper convex driving block 23 is fixedly arranged on the annular furling bottom plate 20, the upper convex driving block 23 is used for performing radial rotation on the annular furling bottom plate 20, and a dial gauge 24 is further arranged on the upper surface of the annular furling bottom plate 20 and used for positioning operation;
the coil discharging mechanism comprises a first feeding reel 41, a second feeding reel 42 and a release film winding shaft 43, wherein the first feeding reel 41 and the second feeding reel 42 are used for respectively conveying coils, so that the whole mechanism can perform continuous operation;
in the specific implementation process, when the feeding of one feeding reel is close to the end, the tail end of the coiled material is quickly connected with the starting end of the other feeding reel, so that continuous operation of continuous feeding is ensured;
a first guide roller set 44 is arranged between the feeding areas corresponding to the first feeding reel 41 and the second feeding reel 42 and the release film winding shaft 43, a second guide roller set 45 is further arranged at the output rear end of the first guide roller set 44 of the first feeding reel 41 and the second feeding reel 42, and a material deflection sensor 34 is arranged at the output rear end of the second guide roller set 45;
a material belt guide plane 46 is arranged on the second guide roller group 45, a CCD camera 47 is arranged right above the material belt guide plane 46, and the CCD camera 47 is used for capturing the shape of the material;
a third guide roller set 48 is arranged at the rear part of the coil output of the punching and laminating mechanism 30, a coil receiving mechanism 49 is arranged at the rear part of the coil output of the third guide roller set 48, and the third guide roller set 48 is used for guiding and winding the coil output by the punching and laminating mechanism 30;
stepping torque motors are respectively arranged on the release film winding shaft 43 and the coil material receiving mechanism 49, so that the coil material is wound in a stepping manner, and stepping punching of the punching and laminating mechanism is facilitated;
the base 31 of the punching and bonding mechanism 30 is provided with a punching power device 32 and a cutting die 33 from top to bottom, the punching power device 32 performs stepping punching on the coil stock at the corrected position through the cutting die to complete punching and bonding operation, and the punching power device 32 is a vertical servo module in specific implementation.
In specific implementation, the carrier is provided with a die cavity of the die cutting and attaching mechanism 30, the material is attached to the carrier after being cut by the cutting die 33, and then the carrier is taken out step by step.
The working process is as follows: the material comprises an upper carrier film, a middle PSA and a bottom release film, the material is manually placed into a first feeding scroll and a second feeding scroll (the two feeding scrolls are used alternately to realize non-stop material change), the material release film is wound on a release film winding shaft, a stepping torsion motor is arranged at the back of the release film winding shaft, used for rolling, the film-carrying and PSA penetrate through the first guide roller group, the lower part of a cutting die of the punching and laminating mechanism and the third guide roller group, and finally the waste film of the film-carrying PSA is wound on the coil material receiving mechanism, a torsion motor is arranged behind the waste coil material receiving mechanism, setting the interval according to a program, winding and advancing, taking a picture of the material shape through a CCD on the material belt guide plane every time the interval is walked, and the material deviation rectifying sensor is used for constantly rectifying the signal, if the material deviation is generated, an alarm is sent, the servo module is vertically descended to drive the cutting die to punch and paste the shape of the material, and finally the material is attached to a carrier arranged in a die cavity of the punching power device.
It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.
Claims (10)
1. Combined material dashes type laminating mechanism, its characterized in that: the device comprises a mounting fixing plate, an annular winding bottom plate, a winding mechanism and a punching and fitting mechanism;
a circular cavity is formed in the central area of the mounting and fixing plate, and the annular furling bottom plate is arranged in a plane rotation mode according to the circle center of the circular cavity;
a vertical plate is fixedly arranged on the annular furling bottom plate, and a furling mechanism is integrated on the front surface of the vertical plate;
the winding mechanism comprises a coil stock discharging mechanism and a coil stock receiving mechanism; the coil discharging mechanism is arranged at one side of the vertical plate, and the coil receiving mechanism is arranged at the other side of the vertical plate;
the punching and laminating mechanism is arranged at the center of a connecting line area of the coil discharging mechanism and the coil receiving mechanism, the punching and laminating mechanism is fixedly arranged in the front area of the vertical plate and is positioned in the circular cavity, the punching and laminating mechanism comprises a machine base, a punching power device and a cutting die, a material deflection sensor is arranged at the position of the machine base, facing the coil discharging mechanism, and the front surface of the material deflection sensor is used for sensing whether a material strip penetrates through the surface in parallel or not, and the material strip penetrates through the lower part of the cutting die and is connected to the coil receiving mechanism;
a plurality of guide limiting plates are annularly distributed between the annular furling bottom plate and the mounting fixing plate, and the guide limiting plates enable the annular furling bottom plate to only rotate relative to the circular cavity of the mounting fixing plate.
2. The composite punch-type conformable mechanism of claim 1, wherein: the upper surface of annular roll-up bottom plate encircles and has a plurality of first location dot of group, the installation fixed plate correspond to the periphery of first location dot all is provided with corresponding second location dot, first location dot and second location dot are used for the rotation location operation.
3. The composite punch-type conformable mechanism of claim 1, wherein: and an upper convex driving block is fixedly arranged on the central area of the annular furling bottom plate towards the front end and is used for radially rotating the annular furling bottom plate.
4. The composite punch-type conformable mechanism of claim 1, wherein: the coil stock drop feed mechanism specifically includes first material loading spool, second material loading spool, leaves type membrane rolling axle, first material loading spool, second material loading spool are used for carrying the material book respectively.
5. The composite punch-type conformable mechanism of claim 4, wherein: when the feeding of one feeding reel is close to the end, the tail end of the roll material is quickly connected with the starting end of the other feeding reel.
6. The composite punch-type conformable mechanism of claim 4, wherein: the material handling device is characterized in that a first guide roller set is arranged between a material loading area corresponding to the first material loading scroll and the second material loading scroll and a release film winding shaft, a second guide roller set is further arranged at the output rear end of the first guide roller set of the first material loading scroll and the second material loading scroll, and a material deflection sensor is arranged at the output rear end of the second guide roller set.
7. The composite punch-type conformable mechanism of claim 6, wherein: the second guide roller group is provided with a material belt guide plane, a CCD camera is arranged right above the material belt guide plane and used for capturing the shape of a material.
8. The composite punch-type conformable mechanism of claim 1, wherein: the rear portion of die-cut laminating mechanism's coil stock output is provided with third guide roller set, the rear portion of third guide roller set's coil stock output is provided with coil stock receiving mechanism, third guide roller set is used for leading the rolling with the coil stock that die-cut laminating mechanism exported.
9. The composite punch-type conformable mechanism of claim 4, wherein: be provided with step-by-step torsion motor on from type membrane rolling axle, coil stock receiving agencies respectively.
10. The composite punch-type conformable mechanism of claim 1, wherein: a punching power device and a cutting die are arranged on the base of the punching and attaching mechanism from top to bottom.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121171105.5U CN215827979U (en) | 2021-05-28 | 2021-05-28 | Composite material punching and laminating mechanism |
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Application Number | Priority Date | Filing Date | Title |
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CN202121171105.5U CN215827979U (en) | 2021-05-28 | 2021-05-28 | Composite material punching and laminating mechanism |
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CN215827979U true CN215827979U (en) | 2022-02-15 |
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CN202121171105.5U Active CN215827979U (en) | 2021-05-28 | 2021-05-28 | Composite material punching and laminating mechanism |
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2021
- 2021-05-28 CN CN202121171105.5U patent/CN215827979U/en active Active
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