CN210854645U - Multi-station high-speed laminating slitting machine - Google Patents
Multi-station high-speed laminating slitting machine Download PDFInfo
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- CN210854645U CN210854645U CN201921588410.7U CN201921588410U CN210854645U CN 210854645 U CN210854645 U CN 210854645U CN 201921588410 U CN201921588410 U CN 201921588410U CN 210854645 U CN210854645 U CN 210854645U
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Abstract
The utility model belongs to the field of slitting machine, in particular to a multi-station high-speed laminating slitting machine, which comprises a first feeding roller (11), a second feeding roller (12), a third feeding roller (13), a fourth feeding roller (14), a first layer laminating mechanism (21), a second layer laminating mechanism (22), a third layer laminating mechanism (23), a slitting mechanism (3), a slitting roller shaft (31), a slitting cutting roller (32), a discharging guide roller (4) and a receiving roller (50); the utility model discloses it is rational in infrastructure, closely combine together laminating and two processes of slitting, increase and decrease laminating mechanism that can be nimble is suitable for different production situations for laminating and the speed of slitting accelerate greatly, improved holistic production efficiency.
Description
Technical Field
The utility model belongs to divide the strip machine field, specifically disclose a strip machine is divided in high-speed laminating of multistation.
Background
The slitting machine is widely applied to the packaging, label and paper rolling industries, and the slit coiled materials mainly comprise rolled paper, coated adhesive tapes, foam materials and a plurality of thin metal wires, and are cut into narrow coiled materials according to the longitudinal position. General these coiled materials all need to pass through the manual multilayer laminating of workman before dividing the strip machine and dividing the strip, and the manual installation of workman divides the strip machine to divide the strip after the laminating finishes again, and such work flow is wasted time and energy, and work efficiency is low, and two workshop sections are often not linked up and cause the interrupt, have wasted a large amount of human costs around two.
SUMMERY OF THE UTILITY MODEL
Not enough more than, the utility model discloses a strip machine is divided in high-speed laminating of multistation.
The technical scheme of the utility model as follows:
a multi-station high-speed laminating and slitting machine comprises a first feeding roller, a second feeding roller, a third feeding roller, a fourth feeding roller, a first-layer laminating mechanism, a second-layer laminating mechanism, a third-layer laminating mechanism, a slitting roller, a slitting and cutting roller, a discharging guide roller and a receiving roller; the first feeding roller and the second feeding roller are positioned at one end of the multi-station high-speed laminating and slitting machine, and a first laminating mechanism, a second laminating mechanism, a third laminating mechanism, a slitting mechanism, a discharging guide roller and a receiving roller are sequentially arranged along the material conveying direction; the third feeding roller is positioned between the first layer of laminating mechanism and the second layer of laminating mechanism; the fourth feeding roller is positioned between the second-layer laminating mechanism and the third-layer laminating mechanism; the slitting mechanism is a box-type mechanism, and the slitting roller and the slitting and cutting roller are both positioned in the slitting mechanism; the two ends of the slitting roller and the slitting and cutting roller are both erected on the box body of the slitting mechanism, and the slitting roller is located above the slitting and cutting roller. Put original material cover on a feed roller, treat that the first layer material cover of laminating is put on No. two feed rollers, get into one deck laminating mechanism together and suppress the laminating, the second layer material on No. three feed rollers is added again to semi-manufactured goods afterwards, get into two layers laminating mechanism together and suppress the laminating, the third layer material on No. four feed rollers is added again to semi-manufactured goods afterwards gets into three-layer laminating mechanism together and suppresses the laminating, get into the slitting mechanism afterwards, the cutter through slitting roll and slitting between the slitting cutting roller divides the strip, discharge through ejection of compact guide roll ejection of compact afterwards, the material after will dividing the strip by receiving the material roller is received at last. The utility model discloses compact structure unites two into one laminating and slitting process, has reduced artificial intervention, has promoted the speed of laminating slitting greatly to can increase and decrease the quantity of laminating mechanism according to the actual production condition, make the utility model discloses an suitability is better.
Further, the strip machine is divided in the high-speed laminating of above-mentioned multistation, the surface of dividing the strip roll is equipped with a plurality of annular cutting grooves, divide the global of strip cutting roll to be equipped with a plurality of annular and cut the sword, the annular cuts the sword and corresponds with the annular cutting groove of top.
Furthermore, the strip machine is divided in the high-speed laminating of above-mentioned multistation both ends of dividing the strip cutting roller have elevating gear. At branch strip cutting roller both ends adding elevating gear for divide strip cutting roller can be along opening the groove oscilaltion at branch strip mechanism, with this can be very easy according to the thickness of the material of required cutting adjust the space between two upper and lower rollers, further increase the utility model discloses a production adaptability.
Further, the strip machine is divided in the high-speed laminating of above-mentioned multistation, three-layer laminating mechanism with divide and still be equipped with the feeding guide roll between the strip mechanism. The feeding guide roller is arranged, so that the tension of the material can be further increased, and the slitting is more accurate.
Further, the strip machine is divided in the high-speed laminating of above-mentioned multistation, the top of the inside of dividing the strip mechanism is equipped with the ultraviolet lamp. The ultraviolet lamp is arranged, so that bacteria on the surface of the material can be killed, and the material is prevented from growing mildews after being stored.
Furthermore, the multi-station high-speed laminating slitting machine is characterized in that a static removing device is further arranged above one side of a material outlet of the slitting mechanism.
Further, the strip machine is divided in the high-speed laminating of above-mentioned multistation, static-removing device is ion fan.
According to the above technical scheme, the utility model discloses following beneficial effect has:
(1) the utility model discloses compact structure unites two into one laminating and slitting process, has reduced artificial intervention, has promoted the speed of laminating slitting greatly to can increase and decrease the quantity of laminating mechanism according to the actual production situation, make the utility model discloses can adapt to various different production situations.
(2) The utility model discloses add elevating gear at branch strip cutting roller both ends for divide strip cutting roller can be along opening the groove oscilaltion at branch strip mechanism, with this can be very easy according to the space between two upper and lower rollers is adjusted to the thickness of the material of required cutting, can adapt to the needs of the product of various thickness.
(3) The utility model discloses the tension of well material is big, and the degree of accuracy of laminating slitting is high.
Drawings
Fig. 1 is a schematic diagram of embodiment 1 of the present invention;
FIG. 2 is a schematic diagram of embodiment 2 of the present invention;
fig. 3 is a partial schematic view of a slitting mechanism according to embodiment 2 of the present invention;
wherein: the device comprises a first feeding roller 11, a second feeding roller 12, a third feeding roller 13, a fourth feeding roller 14, a first layer attaching mechanism 21, a second layer attaching mechanism 22, a third layer attaching mechanism 23, a strip dividing mechanism 3, a strip dividing roller 31, a strip cutting roller 32, a discharge guide roller 4, a material receiving roller 5, an annular cutting groove 311, an annular cutting knife 321, a lifting device 33, an ultraviolet lamp 34, a static electricity removing device 35 and a feeding guide roller 6.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only some embodiments, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Example 1
As shown in fig. 1, the multi-station high-speed laminating and slitting machine comprises a first feed roller 11, a second feed roller 12, a third feed roller 13, a fourth feed roller 14, a first-layer laminating mechanism 21, a second-layer laminating mechanism 22, a third-layer laminating mechanism 23, a slitting mechanism 3, a slitting roller 31, a slitting and cutting roller 32, a discharging guide roller 4 and a receiving roller 5; the first feeding roller 11 and the second feeding roller 12 are positioned at one end of the multi-station high-speed laminating and slitting machine, and a first-layer laminating mechanism 21, a second-layer laminating mechanism 22, a third-layer laminating mechanism 23, a slitting mechanism 3, a discharging guide roller 4 and a receiving roller 5 are sequentially arranged along the material conveying direction; the third feeding roller 13 is positioned between the first-layer laminating mechanism 21 and the second-layer laminating mechanism 22; the fourth feeding roller 14 is positioned between the two-layer laminating mechanism 22 and the three-layer laminating mechanism 23; the slitting mechanism 3 is a box-shaped mechanism, and the slitting roller 31 and the slitting and cutting roller 32 are both positioned in the slitting mechanism 3; both ends of the slitting roller 31 and the slitting roller 32 are erected on the box body of the slitting mechanism 3, and the slitting roller 31 is positioned above the slitting roller 32.
When in work: put original material cover on feed roller 11 No. one, treat that the first layer material cover of laminating is put on feed roller 12 No. two, get into one deck laminating mechanism 21 together and suppress the laminating, the second layer material on No. three feed roller 13 is added again to semi-manufactured goods afterwards, get into two layers of laminating mechanism 22 together and suppress the laminating, the third layer material on No. four feed roller 14 is added again to semi-manufactured goods afterwards gets into three-layer laminating mechanism 23 together and suppresses the laminating, get into slitting mechanism 3 afterwards, through slitting roll 31 and the cutter between slitting cutting roller 32, divide the strip, discharge through ejection of compact guide roll 4 afterwards, the material after will dividing by receiving material roller 5 is received at last.
Example 2
As shown in fig. 2 and 3, the multi-station high-speed laminating and slitting machine comprises a first feed roller 11, a second feed roller 12, a third feed roller 13, a fourth feed roller 14, a first-layer laminating mechanism 21, a second-layer laminating mechanism 22, a third-layer laminating mechanism 23, a slitting mechanism 3, a slitting roller 31, a slitting and cutting roller 32, a discharging guide roller 4, a receiving roller 5, an annular cutting groove 311, an annular cutting knife 321, a lifting device 33, an ultraviolet lamp 34, a static removing device 35 and a feeding guide roller 6; the first feeding roller 11 and the second feeding roller 12 are positioned at one end of the multi-station high-speed laminating and slitting machine, and a first-layer laminating mechanism 21, a second-layer laminating mechanism 22, a third-layer laminating mechanism 23, a slitting mechanism 3, a discharging guide roller 4 and a receiving roller 5 are sequentially arranged along the material conveying direction; the third feeding roller 13 is positioned between the first-layer laminating mechanism 21 and the second-layer laminating mechanism 22; the fourth feeding roller 14 is positioned between the two-layer laminating mechanism 22 and the three-layer laminating mechanism 23; the slitting mechanism 3 is a box-shaped mechanism, and the slitting roller 31 and the slitting and cutting roller 32 are both positioned in the slitting mechanism 3; both ends of the slitting roller 31 and the slitting and cutting roller 32 are erected on the box body of the slitting mechanism 3, and the slitting roller 31 is positioned above the slitting and cutting roller 32; specifically, the surface of the slitting roller 31 is provided with a plurality of annular cutting grooves 311, the circumferential surface of the slitting roller 32 is provided with a plurality of annular cutting knives 321, and the annular cutting knives 321 correspond to the upper annular cutting grooves 311; further, the strip cutting roller 32 has lifting devices 33 at both ends; it is worth pointing out that a feeding guide roller 6 is arranged between the three-layer laminating mechanism 23 and the slitting mechanism 3; further, an ultraviolet lamp 34 is arranged above the inside of the slitting mechanism 3; in particular, a static removing device 35, particularly preferably an ion fan, is further arranged above one side of the material outlet of the slitting mechanism 3.
When in work: putting original material cover on feed roller 11 No. one, the first layer material cover of waiting to laminate is put on feed roller 12 No. two, get into one deck laminating mechanism 21 together and suppress the laminating, the second layer material on No. three feed roller 13 is added again to semi-manufactured goods afterwards, get into two layers of laminating mechanism 22 together and suppress the laminating, the third layer material on No. four feed roller 14 is added again to semi-manufactured goods afterwards gets into three-layer laminating mechanism 23 together and suppresses the laminating, get into slitting mechanism 3 through feeding guide roll 6 afterwards, annular cutting knife 321 between slitting roll 31 and slitting cutting roller 32 carries out the slitting, discharge through ejection of compact guide roll 4 afterwards, static is detached through electrostatic devices 35, receive the material after the slitting by receiving material roller 5 at last.
The above is only a preferred embodiment of the present invention, and the protection scope of the present invention can not be limited thereby, and the simple equivalent changes and modifications made according to the claims and the utility model also belong to the protection scope of the present invention.
Claims (7)
1. A multi-station high-speed laminating and slitting machine is characterized by comprising a first feeding roller (11), a second feeding roller (12), a third feeding roller (13), a fourth feeding roller (14), a first-layer laminating mechanism (21), a second-layer laminating mechanism (22), a third-layer laminating mechanism (23), a slitting mechanism (3), a slitting roller (31), a slitting and cutting roller (32), a discharging guide roller (4) and a receiving roller (5); the first feeding roller (11) and the second feeding roller (12) are positioned at one end of the multi-station high-speed laminating and slitting machine, and a first laminating mechanism (21), a second laminating mechanism (22), a third laminating mechanism (23), a slitting mechanism (3), a discharging guide roller (4) and a material collecting roller (5) are sequentially arranged along the material conveying direction; the third feeding roller (13) is positioned between the first layer of laminating mechanism (21) and the second layer of laminating mechanism (22); the fourth feeding roller (14) is positioned between the second-layer laminating mechanism (22) and the third-layer laminating mechanism (23); the slitting mechanism (3) is a box-shaped mechanism, and the slitting roller (31) and the slitting and cutting roller (32) are both positioned in the slitting mechanism (3); the two ends of the slitting roller (31) and the slitting and cutting roller (32) are erected on a box body of the slitting mechanism (3), and the slitting roller (31) is located above the slitting and cutting roller (32).
2. The multi-station high-speed laminating and slitting machine as claimed in claim 1, wherein a plurality of annular cutting grooves (311) are formed in the surface of the slitting roller (31), a plurality of annular cutting knives (321) are arranged on the circumferential surface of the slitting roller (32), and the annular cutting knives (321) correspond to the annular cutting grooves (311) on the upper side.
3. A multi-station high-speed laminating and slitting machine according to claim 2, wherein lifting devices (33) are arranged at two ends of the slitting and cutting roller (32).
4. A multi-station high-speed laminating and slitting machine as claimed in claim 1, wherein a feed guide roller (6) is further arranged between the three-layer laminating mechanism (23) and the slitting mechanism (3).
5. A multi-station high-speed laminating and slitting machine as claimed in claim 1, wherein an ultraviolet lamp (34) is arranged above the inside of the slitting mechanism (3).
6. A multi-station high-speed laminating and slitting machine as claimed in claim 1, wherein a static electricity removing device (35) is further arranged above one side of the material outlet of the slitting mechanism (3).
7. A multi-station high-speed laminating and slitting machine according to claim 6, wherein the static removing device (35) is an ion fan.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921588410.7U CN210854645U (en) | 2019-09-24 | 2019-09-24 | Multi-station high-speed laminating slitting machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921588410.7U CN210854645U (en) | 2019-09-24 | 2019-09-24 | Multi-station high-speed laminating slitting machine |
Publications (1)
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CN210854645U true CN210854645U (en) | 2020-06-26 |
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CN201921588410.7U Active CN210854645U (en) | 2019-09-24 | 2019-09-24 | Multi-station high-speed laminating slitting machine |
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CN (1) | CN210854645U (en) |
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2019
- 2019-09-24 CN CN201921588410.7U patent/CN210854645U/en active Active
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