CN116620918A - Coiled material belt core divides rolling rubberizing machine - Google Patents

Abstract

The invention relates to a coiled material belt core separating and rubberizing machine, which realizes the function of separating a large coil into small coils through a reasonable wire arrangement device, a buffer device, a coil core supply device, a clamping device, a coil material device, a material pressing device, a material shearing device, a first rubberizing device, a second rubberizing device, an adjusting device and a material receiving disc, and the buffer device can play a role of pre-unreeling buffer coiled materials of coiled materials, effectively avoids the defect of poor coil unreeling and flattening effects caused by the asynchronism of the clamping device and the wire arrangement device, and can realize stable and reliable feeding and coiling of the coil cores and the coiled materials by matching with the coil core supply device and the coil material device.

Description

Coiled material belt core divides rolling rubberizing machine

Technical Field

The invention relates to the technical field of coiled material unreeling, in particular to a coiled material cored unreeling rubberizing machine.

Background

A coil separator (non-adhesive material tape) is an apparatus for separating and winding a coil of a large-diameter coil into coils of a plurality of small-diameter coils, wherein the coil separating, shearing and sub-packaging are involved, and a coil separator commonly used at present is, for example, chinese patent publication No. CN214795592U, which provides an automatic coil separating device for sub-packaging a coil of a large-diameter coil into a plurality of small-diameter coils, the automatic coil separating device includes a winding station, and the automatic coil separating device further includes: the cutting device is used for cutting off the coiled material after the small-diameter winding drum is packaged, the adhesive tape pasting device is used for pasting adhesive tape on the tail end of the cut coiled material, the tail pressing roller device is used for pasting the tail end of the coiled material to the small-diameter winding drum, and the integrated turret and the turret driver are integrated, and the turret driver enables the integrated turret to move in a direction away from or close to the winding station. According to the prior art, after the fixed-length coiling of the automatic coiling device is completed, the turret driver drives the integrated turret to approach the coiling station, so that the cutting device, the adhesive tape pasting device and the tail material compression roller device arranged on the integrated turret complete the coiling work of the small-diameter coiling block, manual operation of operators is not needed, the coiling efficiency is improved, and potential safety hazards are eliminated; but the structure is too simple, the reliability and the stability are poor in the prior art, such as poor adhesive tape pasting effect in the adhesive tape pasting device, failure in pasting the adhesive tape can not be stabilized, error in pasting can easily occur, and the thickness of the coiled material is not self-adaptive in the material tail compression roller device, the coiled material is easy to excessively squeeze to influence the rotation of the material coiling device, and the like. The above-mentioned prior art is the separator of core, and to the separator of coil of strip core, mainly there are the unable stable positioning problem with the core of coiled material in the beginning of, and divide the automation problem of rolling up the flow, still do not have fine solution at present.

Disclosure of Invention

The invention aims to solve the technical problem of providing a coil strip core coil-separating rubberizing machine with reliable structure and high stability aiming at the defects of the prior art.

The embodiment of the invention provides a coiled material belt core separating and rubberizing machine which comprises a wire arranging device and a wire arranging device, wherein the wire arranging device is used for flattening coiled materials; the buffer device is coupled with the wire arranging device and is used for receiving coiled materials; a winding core supply device for providing winding cores; the clamping device is coupled with the buffer device and the winding core supply device and is used for pushing by clamping the coiled material and the winding core; the coiling device is coupled with the clamping device and is used for receiving the coiled material and the coiling core pushed by the limiting clamping device and coiling the coiled material in a rotating mode; the material pressing device is coupled with the material rolling device and is used for jacking the coiled material rolled on the material rolling device to limit the rolling effect; the material shearing device is coupled with the material coiling device and the material clamping device and is used for shearing the coiled material coiled by the material coiling device between the coiled material coiling device and the material clamping device; the first rubberizing device is coupled with the coiling device and is used for pasting and fixing the adhesive tape at the tail end of the coiled material coiled by the coiling device so as to fix the coiling effect; the second rubberizing device is coupled with the clamping device and is used for sticking the initial end of the coiled material on the surface of the coiled core through an adhesive tape; and the adjusting device is coupled with the adjusting device clamping device, the second rubberizing device and the cutting device and is used for adjusting the initial end of the coiled material to the rubberizing position on the adjusting device clamping device so that the second rubberizing device of the adjusting device can paste the initial end of the coiled material on the surface of the coil core through the adhesive tape. The beneficial effects of above-mentioned technical scheme are through whole reasonable line device, buffer storage device, core supply arrangement, the clamp material device, the coil stock device, press the material device, cut the material device, first rubberizing device, second rubberizing device and adjusting device realize the function of dividing into the roll of a small roll, and buffer storage device can play the buffering coiled material of unreeling in advance to the coiled material, effectively avoid causing the defect that the coiled material is unreeled and is flattened effectually because of clamp material device and reason line device appear asynchronism, and clamp material device can cooperate core supply arrangement and coil stock device to realize the stable and reliable pay-off and the coil stock to core and coiled material, first rubberizing device and second rubberizing device realize the rubberizing to coiled material top and terminal effectively, can be applicable to, for example, the branch of coiled material for medical use (the coiled material for medical use can not contact metal, it is more convenient with the mode of rubberizing location), adjusting device can solve the defect that the coiled material is passed through the sticky tape and is pasted the coiled material on the core because of the top of cutting the coiled material exceeds the core, thereby realize the reliable structure and the stronger tape core of coiled material divides rubberizing machine.

In some embodiments, the coil stock apparatus includes a rotary drive for driving a coil stock cartridge into a core in place, a telescoping drive for driving the coil stock cartridge into rotation to effect the coiling of the coil stock, and a coil stock cartridge. The technical scheme has the beneficial effects that carry winding and unwinding blanking are realized through the telescopic winding chuck, the winding core is sleeved on the winding chuck, the winding function with the core can be realized, and the winding mechanism has higher structural reliability and stability.

In some embodiments, the first rubberizing device comprises a rubberizing first driver, a rubberizing second driver, a winding and unwinding roller, a rubberizing pressure head, a cutter and a blower, wherein the winding and unwinding roller is used for winding and unwinding the whole rolled adhesive tape roll, the blower is used for providing blowing so as to enable the end part of the longitudinally suspended adhesive tape to swing below the rubberizing pressure head, the rubberizing first driver is used for driving the rubberizing pressure head to descend so as to press the end part of the horizontally suspended adhesive tape onto the surface of a coiled material, the rubberizing second driver is used for driving the unwinding roller to synchronously descend along with the rubberizing pressure head during rubberizing and to lift and reset after rubberizing so as to release the adhesive tape roll for a preset length, and the cutter is used for cutting off the rubberized adhesive tape. The technical scheme has the beneficial effects that the adhesive tape is kept transversely through the air blower, so that the adhesive tape can be reliably and stably adhered to the preset coiled material position under the action of the adhesive tape adhering pressure head, and the reliability and stability of adhesive tape adhering at the tail end of the coiled core are greatly improved.

In some embodiments, the second rubberizing device comprises a rubberizing third driver, a tape roller, a rubberizing fourth driver, an adhesive pressure head, an air blower, a rolling driver, a pressing roller and a cutter, wherein the rubberizing third driver is used for driving the tape roller and the air blower to lift, the rubberizing fourth driver is used for driving the adhesive driver, the adhesive pressure head, the rolling driver, the pressing roller and the cutter to lift integrally, the adhesive driver is used for driving the adhesive pressure head to press the adhesive tape which is yawed on a coiled material starting end and a coiled material core which are clamped and fixed in the clamping device, the cutter is used for cutting the adhesive tape, and the rolling driver is used for driving the pressing roller to press the cut adhesive tape on the coiled material starting end and the coiled material core. The adhesive tape is fixed on the winding core in a glue pasting mode through the initial end of the coiled material sheared by the shearing device so as to prepare for winding, and the adhesive tape has higher structural reliability and stability.

In some embodiments, the adjustment device is a driver for driving the adjustment device clamping device to move to adjust the clamping position when cutting the material, or is a swingable puller between the adjustment device clamping device and the buffer device. The technical scheme has the beneficial effects that the starting end of the coiled material after cutting the coiled material is positioned at the rubberizing position on the winding core through the adjusting device, so that the second rubberizing device can paste and fix the starting end of the coiled material and the winding core, and the coil winding device has higher structural reliability and stability.

In some embodiments, the buffer device comprises a buffer bracket, a fixed roller arranged at the upper part of the buffer bracket, and a movable roller arranged at the lower part of the buffer bracket, wherein the movable roller is assembled on a sliding rod longitudinally arranged between the upper part and the lower part of the buffer bracket in a lifting and sliding manner through a sliding block. The technical scheme has the beneficial effects that the movable roller and the fixed roller are matched through the buffer device to buffer coiled materials with a certain length, so that the buffer device has higher structural reliability and stability.

In some embodiments, the device further comprises a receiving tray coupled to the coiling device for receiving the coiled material falling from the coiling device. The technical scheme has the beneficial effects that the collection of small rolls for completing the roll separation is realized through the material receiving disc, the automatic discharging is realized, and the structure reliability and the stability are higher.

In some embodiments, the core supply device comprises a core discharge groove, a distributor, a material carrying chuck and a pusher, wherein the core discharge groove is used for stacking the cores, the distributor is connected with a discharge hole of the core discharge groove and is used for conveying the cores one by one, the material carrying chuck is used for carrying the cores in the distributor to a supply outlet, and the pusher is used for pushing the cores positioned at the supply outlet into the material clamping device. The technical scheme has the beneficial effects that the roll cores are supplied to the clamping device through automatic roll core material distribution, feeding and pushing, and the structure reliability and stability are higher.

In some embodiments, the clamping device comprises a feed driver, a slide rail, a slide table, a chuck driver and a clamping head, wherein the chuck driver is assembled on the slide table, the slide table is slidably assembled on the slide rail, the feed driver is used for driving the slide table to slide along the slide rail, and the chuck driver is used for driving the clamping head to clamp and unclamp. The technical scheme has the beneficial effects that feeding of the winding cores and the coiled materials is realized through the feeding of the clamping head by the clamping driver, and the reliability and the stability of the structure are improved.

In some embodiments, the clamping device further comprises a supporting platform, and the supporting platform is controlled to lift by a supporting driver to be used for supporting the suspended coiled material when the first rubberizing device rubberizs. The beneficial effects of above-mentioned technical scheme are that support when realizing the coiled material rubberizing through supporting platform initiative lifting and the rubberizing pressure head cooperation of first rubberizing device to rubberizing has improved reliability and stability of rubberizing greatly to supporting platform sets up on clamping device, follows clamping device overall movement, can avoid blocking the feeding of clamping device.

The details of one or more embodiments of the invention are set forth in the accompanying drawings and the description below to provide a more thorough understanding of the other features, objects, and advantages of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

fig. 1 is a block diagram of a roll core split taping machine according to an embodiment of the present invention.

Fig. 2 is a block diagram of a winding core discharge chute according to an embodiment of the present invention.

Fig. 3 is a block diagram of a dispenser according to an embodiment of the present invention.

Fig. 4 is a structural view of a carrier head according to an embodiment of the present invention.

Fig. 5 is a block diagram of a pusher according to an embodiment of the present invention.

Fig. 6 is a structural diagram of a clamping device according to an embodiment of the present invention.

Fig. 7 is a structural view of a coil stock apparatus according to an embodiment of the present invention.

Fig. 8 is a structural diagram of a pressing device according to an embodiment of the present invention.

Fig. 9 is a structural view of a material shearing device according to an embodiment of the present invention.

Fig. 10 is a block diagram of a first rubberizing device according to an embodiment of the invention.

Fig. 11 is a structural view of a second rubberizing device according to an embodiment of the invention.

In the figure, 1, a wire arranging device; 2. a buffer device; 3. a winding core supply device; 4. a clamping device; 5. a coiling device; 6. a pressing device; 7. a material shearing device; 8. a first rubberizing device; 9. a second rubberizing device; 10. a receiving tray; 11. a feed driver; 12. a slide rail; 13. a sliding table; 14. a chuck driver; 15. a clamping head; 16. a support platform; 17. a support driver; 18. a winding core discharging groove; 19. a distributor; 20. a material carrying chuck; 21. a pusher; 22. a rotary driver; 23. a telescopic drive; 24. a coil chuck; 25. pinch roller; 26. a shearing driver; 27. a cutting knife; 28. a rubberizing first driver; 29. a rubberizing second driver; 30. sticking a glue pressure head; 31. a cutter; 32. a blower; 33. a third driver for rubberizing; 34. a fourth driver for rubberizing; 35. a glue driver; 36. a viscose pressure head; 37. an air blower; 38. a roll-in driver; 39. a press roller; 40. and (5) cutting the knife.

Detailed Description

The present invention will be described and illustrated with reference to the accompanying drawings and examples in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention. All other embodiments, which can be made by a person of ordinary skill in the art based on the embodiments provided by the present invention without making any inventive effort, are intended to fall within the scope of the present invention. Moreover, it should be appreciated that while such a development effort might be complex and lengthy, it would nevertheless be a routine undertaking of design, fabrication, or manufacture for those of ordinary skill having the benefit of this disclosure, and thus should not be construed as having the benefit of this disclosure.

Reference in the specification to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is to be expressly and implicitly understood by those of ordinary skill in the art that the described embodiments of the invention can be combined with other embodiments without conflict.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The terms "a," "an," "the," and similar referents in the context of the invention are not to be construed as limiting the quantity, but rather as singular or plural. The terms "comprising," "including," "having," and any variations thereof, are intended to cover a non-exclusive inclusion; for example, a process, method, system, article, or apparatus that comprises a list of steps or modules (elements) is not limited to only those steps or elements but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus. The terms "connected," "coupled," and the like in connection with the present invention are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. The term "plurality" as used herein means greater than or equal to two. "and/or" describes an association relationship of an association object, meaning that there may be three relationships, e.g., "a and/or B" may mean: a exists alone, A and B exist together, and B exists alone. The terms "first," "second," "third," and the like, as used herein, are merely distinguishing between similar objects and not representing a particular ordering of objects.

As shown in fig. 1, the embodiment of the invention provides a coil tape core split-winding rubberizing machine, which comprises a wire arranging device 1, a buffer device 2, a coil core supply device 3, a clamping device 4, a coil device 5, a pressing device 6, a cutting device 7, a first rubberizing device 8, a second rubberizing device 9, an adjusting device and a receiving disc 10, wherein flattening of a coil, buffering of the coil, supply of the coil core, clamping pushing of the coil and the coil core, split-winding of the coil, pressing during split-winding, trimming after split-winding, rubberizing positioning of the coil core and the coil start end, rubberizing and sealing of the coil end after split-winding, position adjustment of the coil start end before rubberizing positioning and blanking after split-winding are respectively realized. According to the embodiment, through the whole wire arranging device 1, the buffer device 2, the coil core supply device 3, the clamping device 4, the coil material device 5, the pressing device 6, the cutting device 7, the first rubberizing device 8, the second rubberizing device 9, the adjusting device and the receiving disc 10, the function of dividing a large coil into small coils is realized, the buffer device 2 can play the role of unreeling the buffer coiled materials in advance of coiled materials, the defect that the coil unreeling flattening effect is poor due to the fact that the clamping device 4 and the wire arranging device 1 are asynchronous is effectively avoided, the coil core supply device 3 and the coil material device 5 can be matched for realizing stable and reliable feeding and coil materials of the coil cores and coiled materials, the first rubberizing device 8 and the second rubberizing device 9 can effectively realize rubberizing of the coil starting ends and tail ends, the coil tape laminating machine can be suitable for, for example, the coil separating of medical coiled materials (the medical coiled materials cannot contact metals, the rubberizing positioning mode is more convenient, and the adjusting device can solve the defect that the coil starting ends after the cutting the coil starting ends exceed the coil cores and cannot be adhered on the coil cores through the coil cores, and therefore the coil tape laminating machine has a strong stability.

The wire arranging device 1 of the embodiment is used for flattening coiled materials. The wire arranging device 1 comprises a wire arranging driver, a rotating shaft, a central mounting piece and a plurality of supporting plates, wherein the supporting plates are radially assembled on the central mounting piece to form an unreeling frame, the central mounting piece is locked on the rotating shaft, and the rotating shaft is controlled by the wire arranging driver to rotate. Specifically, the center mounting piece is in a hexagonal shape, an inner mounting hole is formed in each face respectively, an outer mounting hole is formed in each supporting plate respectively, each face of the center mounting piece is provided with a supporting plate through the assembly of the inner mounting hole and the outer mounting hole, the six supporting plates are assembled into a whole in a radial mode, and the coiled material passes through the perforation of the supporting plate and is unreeled. The buffer device 2 of the present embodiment is coupled to the wire arranging device 1, and is used for receiving coiled materials. The buffer device 2 comprises a buffer support, three groups of fixed rollers arranged on the upper portion of the support, and a movable roller arranged on the lower portion of the buffer support, wherein the movable roller is assembled on a sliding rod longitudinally arranged between the upper portion and the lower portion of the buffer support in a lifting and sliding manner through a sliding block. The present embodiment employs the cooperation of movable rollers and fixed rollers to buffer a length of web material by the buffer 2. The coiled material is discharged from the wire arranging device 1 and then wound on one fixed roller, then wound on the movable roller, finally wound on the other two fixed rollers, the coiled material is subjected to traction force in the traction and pushing process of the coiled material by the clamping device 4, the movable roller is lifted along the sliding rod to a certain extent, the coiled material after the movable roller can be traction and pushing by the clamping device 4, the coiled material before the movable roller can be temporarily unreeled, the tension of the coiled material to the movable roller is lost due to the stopping traction of the clamping device 4 after the movable roller is lifted to a certain height, then the movable roller descends and resets along the sliding rod under the action of gravity, at the moment, the coiled material after the movable roller is not pushed any more, the movable roller stretches the coiled material before the movable roller in the descending process, the wire arranging device 1 is matched with the rotary unreeled at the same time, and the lifting height is perceived by the position sensor in the descending process of the movable roller, so that the wire arranging device 1 is linked to start unreeled.

As shown in fig. 1 and 6, the gripping device 4 of the present embodiment includes a feeding driver 11, a slide rail 12, a slide table 13, a chuck driver 14, and a gripping head 15, the chuck driver 14 is mounted on the slide table 13, the slide table 13 is slidably mounted on the slide rail 12, the feeding driver 11 is used for driving the slide table 13 to slide along the slide rail 12, and the chuck driver 14 is used for driving the gripping head 15 to grip and release. Feeding of the winding cores and the coiled materials is achieved through the feeding of the clamping driver to the clamping head 15, and reliability and stability of the structure are improved. The clamping device 4 further comprises a supporting platform 16, and the supporting platform 16 is controlled to lift by a supporting driver 17 and is assembled on the sliding table 13 together, so as to be used for supporting the suspended coiled material during rubberizing of the first rubberizing device 8. Support when rubberizing to the coiled material is realized through the initiative lifting of supporting platform 16 and the rubberizing pressure head 30 cooperation of first rubberizing device 8, has improved reliability and stability of rubberizing greatly to supporting platform 16 sets up on clamping device 4, follows clamping device 4 overall movement, can avoid blocking the feeding of clamping device 4. The chuck driver 14 comprises an upper chuck driver 14 and a lower chuck driver 14, the traction chuck comprises an upper chuck and a lower chuck, the upper chuck driver 14 controls the upper chuck, the lower chuck driver 14 controls the lower chuck, clamping and loosening of the coiled material are realized by controlling opening and closing of the upper chuck and the lower chuck, in order to enable the second rubberizing device 9 to smoothly paste adhesive tapes on the initial end of the coiled material and the winding core, the upper chuck is provided with notches which are convenient for rubberizing and expose the initial end of the coiled material, if rubberizing is needed for a plurality of times, a plurality of notches (coiled materials with a certain length for the winding core and a certain width for the coiled material) are arranged, and the upper chuck is in a rake shape. When the material is clamped, the clamping head 15 is driven by the clamping head driver 14 to clamp the coiled material and the winding core, after clamping, the clamping head 15 is driven by the clamping head driver to horizontally slide to the winding clamping head 24 along the sliding rail 12 (at the moment, the winding clamping head 24 does not extend yet), after the subsequent winding clamping head 24 extends out and is inserted into the winding core, the clamping head 15 is driven by the clamping head driver to loosen the clamping of the coiled material and the winding core, and as the distance between the upper clamping head and the lower clamping head after the upper clamping head are loosened is larger than the outer diameter of the winding clamping head 24, the clamping head 15 is reset across the winding clamping head 24 along the sliding rail 12 under the action of the clamping driver, and after reset, the clamping is kept to be loosened.

As shown in fig. 1 to 5, the winding core supplying device 3 of the present embodiment is used for supplying winding cores. The core supply device 3 comprises a core discharge groove 18, a distributor 19, a material carrying clamp head 20 and a material pushing device 21, wherein the core discharge groove 18 is used for stacking cores, the distributor 19 is connected with a discharge hole of the core discharge groove 18 and is used for conveying the cores one by one, the material carrying clamp head 20 is used for carrying the cores in the distributor 19 to a supply outlet, and the material pushing device 21 is used for pushing the cores at the supply outlet to the material clamping device 4. The technical scheme has the beneficial effects that the winding cores are supplied to the clamping device 4 through automatic winding core material distribution, feeding and pushing, and the winding core material distribution device has higher structural reliability and stability.

As shown in fig. 1 and 7, the coil stock device 5 of the present embodiment is coupled to the material clamping device 4, and is configured to receive the coiled material pushed by the limiting material clamping device 4 and roll the coiled material in a rotating manner. The coiling device 5 comprises a rotary driver 22, a telescopic driver 23 and a coiling chuck 24, wherein the telescopic driver 23 is used for driving the coiling chuck 24 to extend to limit a coiling core, discharging and feeding after retracting, and the rotary driver 22 is used for driving the coiling chuck 24 to rotate so as to realize coiling of coiled materials. This embodiment achieves carry and retract by means of a retractable coil holder 24.

As shown in fig. 1 and 8, the pressing device 6 of the present embodiment is coupled to the coil device 5, and is used for pressing the coil wound on the coil device 5 to limit the winding effect and prevent the coil from loosening. The pressing device 6 comprises a pressing roller 25 and a driver thereof, the driver drives the pressing roller 25 to stretch out during rolling, and the surface of the pressing roller 25 continuously presses coiled materials in rolling, so that the rolling effect is maintained.

As shown in fig. 1 and 9, the material shearing device 7 of the present embodiment is coupled to the material coiling device 5 and the material clamping device 4, and is used for shearing the coiled material coiled by the material coiling device 5 from the coiled material clamping device 4. The material shearing device 7 comprises a material shearing driver 26 and a cutter 27, wherein the material shearing driver 26 drives the cutter 27 to stretch out when shearing materials and retract after shearing materials.

As shown in fig. 1 and 10, the first rubberizing device 8 of the present embodiment is coupled to the winding device 5, and is used for adhering and fixing the adhesive tape at the end of the coiled material wound by the winding device 5 to fix the winding effect. The first rubberizing device 8 comprises a rubberizing first driver 28, a rubberizing second driver 29, a winding and unwinding roller, a rubberizing pressure head 30, a cutter 31 and a blower 32, wherein the winding and unwinding roller is used for winding and unwinding a whole roll of adhesive tape, the blower 32 is used for providing blowing so as to enable a vertically suspended adhesive tape end to swing below the rubberizing pressure head 30, the rubberizing first driver 28 is used for driving the rubberizing pressure head 30 to descend so as to enable the swinging adhesive tape end to be pressed down on the surface of a coiled material under the support of the support platform 16, the rubberizing second driver 29 is used for driving the winding and unwinding roller to descend synchronously with the rubberizing pressure head 30 during rubberizing and to lift and reset after rubberizing so as to enable the adhesive tape to be discharged for a preset length, and the cutter 31 is used for cutting off the rubberized adhesive tape. The embodiment keeps the adhesive tape transverse through the blower 32, thereby ensuring that the adhesive tape can reliably and stably adhere to the preset coiled material position under the action of the adhesive tape adhering pressure head 30, and greatly improving the reliability and stability of adhesive tape adhering.

As shown in fig. 1 and 11, the second rubberizing device 9 of the present embodiment is coupled to the clamping device 4, and the start end of the coil is adhered to the surface of the winding core by an adhesive tape. The second rubberizing device 9 comprises a rubberizing third driver 33, a tape roller, a rubberizing fourth driver 34, a viscose driver 35, a viscose pressure head 36, an air blower 37, a rolling driver 38, a press roller 39 and a cutter 40, wherein the rubberizing third driver 33 is used for driving the tape roller and the air blower 37 to lift, the rubberizing fourth driver 34 is used for driving the viscose driver 35, the viscose pressure head 36, the rolling driver 38, the press roller 39 and the cutter 40 to lift integrally, the viscose driver 35 is used for driving the viscose pressure head 36 to press a yaw adhesive tape on a roll initial end and a roll core which are clamped and fixed in the clamping device 4, the cutter 40 is used for cutting the adhesive tape, and the rolling driver 38 is used for driving the press roller 39 to press the cut adhesive tape on the roll initial end and the roll core. The initial end of the coiled material sheared by the shearing device 7 is fixed on the coiled core in a glue pasting manner by the adhesive tape so as to prepare for coiling, so that the structure reliability and the stability are higher. However, after the cutting of the web by the cutting device 7, the start of the web and the web which is currently clamped together with the winding core in the clamping device 4 have a longer length, i.e. the web completely covers the winding core (the web is located above the winding core), and the second rubberizing device 9 cannot achieve rubberizing. In this embodiment, the adjusting device is coupled with the adjusting device clamping device 4, the second rubberizing device 9 and the cutting device 7, so that the initial end of the coiled material is adjusted to the rubberizing position on the adjusting device clamping device 4, and the second rubberizing device 9 of the adjusting device can paste the initial end of the coiled material on the surface of the coiled material core through the adhesive tape. The adjusting device is a driver for driving the adjusting device clamping device 4 to move so as to adjust the clamping position when cutting materials, or is a swingable poking device between the adjusting device clamping device 4 and the buffering device. The beginning end of the coiled material is located at the rubberizing position on the coil core through the adjusting device, so that the second rubberizing device 9 can apply rubberizing to paste and fix the beginning end of the coiled material with the coil core, and the coil core has higher structural reliability and stability. After the coiling device 5 stops coiling, the coiled material needs to be sheared, at the moment, the reset clamping device 4 brings up the next coiled core and pushes the next coiled core to a shearing position, the clamping device 4 starts to clamp and fix the coiled material and the coiled core at the shearing position, the shearing device 7 starts to shear the coiled material, the initial end of the sheared coiled material is just positioned at a rubberizing position, and then the clamping device 4 resets below the second rubberizing device 9 to wait for rubberizing; therefore, the adjusting device of the present embodiment is a clamping driver in the clamping device 4, and can control the pushing and retreating positions. Of course, in another embodiment, when cutting, the clamping device 4 clamps the coiled material and the winding core below the second rubberizing device 9, after cutting, the coiled material between the clamping device 4 and the buffer device 2 is shifted by a swingable shifter between the clamping device 4 and the buffer device of the adjusting device, so that the coiled material returns to enable the initial end of the coiled material to move to the rubberizing position.

As shown in fig. 1, the receiving tray 10 of the present embodiment is coupled to the coil device 5, and is configured to receive the coiled material that falls from the coil device 5. In the embodiment, the collection of small rolls which are separated is realized through the receiving tray 10, and the automatic blanking is realized.

The working principle of the embodiment of the invention is as follows: the coiled material is flattened in the wire arranging device 1, the coiled material is manually stretched into the advancing clamping device 4 through the buffer device 2, before the coiled material is pushed out into the clamping device 4 by the coiled material supplying device 3, the clamping device 4 is started to clamp the coiled material (the initial end position of the coiled material can be adjusted by the manual work for the first time), the second rubberizing device 9 is started to descend to paste adhesive tapes on the coiled material and the initial end of the coiled material for positioning, the second rubberizing device 9 is lifted and reset after positioning, the clamping device 4 is started to push the coiled material and the coiled material to the position of the coiled material clamping head 24 together in a traction way, the coiled material clamping head 24 extends out and is inserted into the coiled material for limiting, the clamping head 15 is used for loosening the clamping of the coiled material and the coiled material after limiting and is retracted, the coiled material supplying device 3 supplies the coiled material again after the clamping device 4 is reset, the pinch roller 25 stretches out to contact and press the winding cores on the winding chuck 24, the winding chuck 24 starts to rotate to wind, after the winding chuck 24 stops rotating after the winding chuck is wound to a preset length, the clamping device 4 moves the next winding core to a cutting position, then starts to clamp the winding cores and the winding cores, after the winding cores are clamped in place, the first rubberizing device 8 starts to control the rubberizing pressure head 30 to lower the adhesive tape to be adhered to the upper surface of the winding cores under the support of the support platform 16, under the condition that the clamping device 4, the rubberizing pressure head 30 and the support platform 16 clamp the winding cores, the cutting device 7 starts to cut the winding cores, the cutting knife 27 is retracted after the rubberizing pressure head 30 is cut off, then the cutting knife 31 is retracted after the rubberizing pressure head 30 is reset, the clamping device 4 carries the initial ends of the clamped winding cores and the winding cores to be retracted, then the coil stock chuck 24 starts to continue to roll up the tail part of the coiled material and the adhesive tape to finish rubberizing and sealing the tail end of the coiled material under the pressing action of the pressing roller 25, then the pressing roller 25 is reset, the coil stock chuck 24 is retracted, and the small coil after being separated falls onto the material receiving disc 10.

It should be understood by those skilled in the art that the technical features of the above-described embodiments may be combined in any manner, and for brevity, all of the possible combinations of the technical features of the above-described embodiments are not described, however, they should be considered as being within the scope of the description provided herein, as long as there is no contradiction between the combinations of the technical features.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. The utility model provides a coiled material area core divides roll rubberizing machine which characterized in that includes

The wire arranging device (1) is used for flattening coiled materials;

the buffer device (2) is coupled with the wire arranging device (1) and is used for receiving coiled materials;

a winding core supply device (3) for supplying winding cores;

the clamping device (4) is coupled with the caching device (2) and the winding core supply device (3) and is used for pushing by clamping the coiled material and the winding core;

the coiling device (5) is coupled with the clamping device (4) and is used for receiving and limiting coiled materials and coiling cores propelled by the clamping device (4) and coiling the coiled materials in a rotating mode;

the pressing device (6) is coupled with the coiling device (5) and is used for jacking coiled materials coiled on the coiling device (5) to limit the coiling effect;

the material shearing device (7) is coupled with the material coiling device (5) and the material clamping device (4) and is used for shearing the coiled material coiled by the material coiling device (5) between the coiled material and the material clamping device (4);

the first rubberizing device (8) is coupled with the coiling device (5) and is used for fixedly pasting the adhesive tape at the tail end of the coiled material coiled by the coiling device (5) so as to fix the coiling effect;

the second rubberizing device (9) is coupled with the clamping device (4) and is used for sticking the initial end of the coiled material on the surface of the coiled core through an adhesive tape;

and the adjusting device is coupled with the clamping device (4), the second rubberizing device (9) and the cutting device (7) and is used for adjusting the initial end of the coiled material to the rubberizing position on the clamping device (4), so that the second rubberizing device (9) can paste the initial end of the coiled material on the surface of the coiled core through an adhesive tape.

2. A coil tape core separating and rubberizing machine according to claim 1, wherein said coil stock device (5) comprises a rotary drive (22), a telescopic drive (23) and a coil stock collet (24), said telescopic drive (23) being used for driving said coil stock collet (24) to insert and withdraw a coil core in place, said rotary drive (22) being used for driving said coil stock collet (24) to rotate to effect coiling of a coil stock.

3. A coil tape core separating and taping machine according to claim 1, wherein the first taping device (8) comprises a first taping driver (28), a second taping driver (29), a winding and unwinding roller, a taping pressure head (30), a cutter (31) and a blower (32), the winding and unwinding roller is used for winding and unwinding the whole coil of tape, the blower (32) is used for providing blowing to yaw a longitudinally suspended end of the tape below the taping pressure head (30), the first taping driver (28) is used for driving the taping pressure head (30) to descend to press the yaw end of the tape against the surface of the coil, the second taping driver (29) is used for driving the unwinding roller to descend synchronously with the taping pressure head (30) during taping and to lift and reset after taping to unwind the tape by a preset length, and the blower (31) is used for cutting off the tape after taping.

4. A web core split taping machine according to claim 1, wherein the second taping device (9) comprises a taping third driver (33), a tape roller, a taping fourth driver (34), a taping driver (35), a taping press head (36), an air blower (37), a rolling driver (38), a press roller (39) and a cutter (40), the taping third driver (33) is used for driving the tape roller and the air blower (37) to lift, the taping fourth driver (34) is used for driving the whole lifting of the taping driver (35), the taping press head (36), the rolling driver (38), the press roller (39) and the cutter (40), the taping driver (35) is used for driving the taping press head (36) to press the adhesive tape on the roll starting end and the roll core which are clamped and fixed in the material clamping device (4), the cutter (40) is used for cutting the adhesive tape, and the rolling driver (38) is used for driving the cut adhesive tape pressing the roll starting end and the roll starting end to press the roll core.

5. A machine as claimed in claim 1, characterized in that said adjustment means are drivers for driving said gripping means (4) to move for adjusting the gripping position of the cut material, or are a swingable stripper between said gripping means (4) and the buffer means.

6. The coil tape core separating and rubberizing machine according to claim 1, wherein the buffer device (2) comprises a buffer support, a fixed roller arranged on the upper part of the buffer support, and a movable roller arranged on the lower part of the buffer support, wherein the movable roller is assembled on a sliding rod longitudinally arranged between the upper part and the lower part of the buffer support in a lifting and sliding manner through a sliding block.

7. A coil tape core dispensing and rubberizing machine according to claim 1, wherein said coil core supply device (3) comprises a coil core discharge chute (18), a distributor (19), a carrying chuck (20) and a pusher (21), said coil core discharge chute (18) is used for stacking coil cores, said distributor (19) is engaged with a discharge port of said coil core discharge chute (18) and feeds out coil cores one by one, said carrying chuck (20) is used for carrying coil cores in said distributor (19) to a supply outlet, said pusher (21) is used for pushing out coil cores located at the supply outlet into said clamping device (4).

8. A web core split taping machine according to claim 1, further comprising a receiving tray (10) coupled to the roll device (5) for receiving split web dropped from the roll device (5).

9. A web core split taping machine according to claim 1, wherein the gripping device (4) comprises a feed drive (11), a slide rail (12), a slide table (13), a gripping head drive (14) and a gripping head (15), the gripping head drive (14) being mounted on the slide table (13), the slide table (13) being slidably mounted on the slide rail (12), the feed drive (11) being adapted to drive the slide table (13) to slide along the slide rail (12), and the gripping head drive (14) being adapted to drive the gripping head (15) to grip and release.

10. A coil tape core split taping machine according to claim 1, wherein the clamping device (4) further comprises a supporting platform (16), the supporting platform (16) is controlled to be lifted by a supporting driver (17) for supporting the suspended coil during taping by the first taping device (8).