CN113911790B - Tape splicing device and tape splicing method for removing waste - Google Patents

Abstract

The utility model relates to a battery cell pole piece production facility technical field, in particular to a take device and connect area method for rejecting waste material, including along first bearing component and the second bearing component that material area direction of delivery set gradually, be used for the tight subassembly of compressing tightly of material area, along the cutting assembly of clearance cutting material area, along the rubberizing subassembly of clearance laminating material area, cut off the waste material part on the material area through cutting assembly front and back both ends, realize twice cutting with the waste material part excision on the material area, reach the purpose of rejecting the waste material, degree of automation is high, cut uniformity is good, the accuracy is high, the rethread rubberizing subassembly rubberizes the material area after cutting, realizes rubberizing automation, has improved production efficiency greatly, has guaranteed the follow-up effective processing to the material area, satisfies high-efficient high-quality production demand.

Description

Tape splicing device and tape splicing method for removing waste

Technical Field

The application relates to the technical field of battery cell pole piece production equipment, in particular to a tape splicing device and a tape splicing method for rejecting waste materials.

Background

When unreeling is to be completed, the existing material belt needs to be subjected to reel replacement operation, and usually, a new material belt head part and an old material belt tail part are stacked and adhered together by double-sided adhesive tape, so that the butt joint of the new material belt and the old material belt is realized. However, the overlapping portions of the new and old strips are scrap, for which purpose the overlapping scrap on the strip needs to be cut off.

The existing tape splicing equipment does not have the function of cutting out the stacked scraps on the material tapes, and is used for cutting out the stacked scraps of the new and old material tapes through manual operation, then conveying the stacked scraps to the tape splicing equipment, and finishing automatic tape splicing through the tape splicing equipment.

Disclosure of Invention

In order to solve one of the above technical problems, the present application provides a tape splicing device for removing waste materials, which is used for removing waste materials on a material tape, and comprises a first bearing component and a second bearing component which are sequentially arranged along a material tape conveying direction, wherein the first bearing component can be arranged in a lifting manner, and a gap is formed between the first bearing component and the second bearing component; the pressing assembly is used for respectively pressing the material belts on the first bearing assembly and the second bearing assembly; a cutting assembly moving along a gap between the first and second carrier assemblies and cutting the web; and the rubberizing assembly moves along the gap and is attached to the material belts on the first bearing assembly and the second bearing assembly. The two ends of the waste material part on the material belt are cut twice, the purpose of cutting waste materials is achieved, the degree of automation is high, the cutting consistency is good, the accuracy is high, the cut material belt is rubberized through the rubberizing assembly, rubberizing automation is achieved, the production efficiency is greatly improved, the subsequent effective processing of the material belt is guaranteed, and the production requirement of high efficiency and high quality is met.

Preferably, the first bearing assembly comprises a first adsorption platform and a lifting driving assembly for driving the first adsorption platform to lift; the second bearing assembly comprises a second adsorption platform and a fixing piece for fixing the second adsorption platform; the first adsorption platform and the second adsorption platform are provided with adsorption holes for adsorbing the material belt. An adsorption platform is driven to lift through a lifting driving assembly, and the material belt is further adsorbed and fixed through the adsorption holes, so that the subsequent processing is convenient.

Preferably, the pressing assembly comprises a first pressing plate movably arranged on one side of the first adsorption platform opposite to the material belt, a second pressing plate movably arranged on one side of the second adsorption platform opposite to the material belt, and a first pressing driving assembly and a second pressing driving assembly which respectively drive the first pressing plate and the second pressing plate to press down. The first pressing plate and the second pressing plate are respectively driven to press the material belt through the first pressing driving assembly and the second pressing driving assembly, so that the material belt is conveniently and accurately cut by the follow-up cutting assembly, and the cutting quality is ensured.

Preferably, the cutting assembly comprises a first cutter and a first driving assembly, the first driving assembly drives the first cutter to lift so as to extend into a gap between the first bearing assembly and the second bearing assembly, and the first driving assembly is arranged on the displacement driving assembly.

Preferably, the rubberizing subassembly includes first compression roller subassembly and the second compression roller subassembly that sets gradually along rubberizing direction, be connected with the adhesive tape roll on the first compression roller subassembly, be provided with the cutter unit spare that is used for cutting off the adhesive tape between first compression roller subassembly and the second compression roller subassembly. Through driving first compression roller subassembly along the clearance removal, realize laminating the material area of clearance both sides, the second compression roller subassembly carries out the secondary to the sticky tape of pasting on the material area at first compression roller subassembly rear and presss from both sides tightly, and after the rubberizing was accomplished to the end to first compression roller subassembly, cuts off the sticky tape through cutter assembly between first compression roller subassembly and the second compression roller subassembly, ensures that the rubberizing is firm.

Preferably, the device further comprises a displacement driving assembly for driving the cutting assembly and the rubberizing assembly to move along the clearance path, wherein the displacement driving assembly comprises a vertical plate, a mounting plate slidingly arranged on the vertical plate and a first driving element arranged on the mounting plate; the cutting assembly and the rubberizing assembly are arranged on the mounting plate. Cutting assembly and rubberizing subassembly all set up on the mounting panel, and then realize driving cutting assembly and rubberizing subassembly round trip movement through the mounting panel, and then accomplish cutting action and rubberizing action, cutting assembly and rubberizing subassembly integrate and realize compact structure on displacement drive assembly, reduce occupation volume.

Preferably, the conveyor assembly is used for driving the material belt to move, and comprises a driving roller and a second driving element for driving the driving roller to rotate, and the material belt is driven to be conveyed forwards through the conveyor assembly, so that the purpose of conveying the material belt is achieved.

Preferably, a detection assembly for detecting the position of the material belt is arranged at the material inlet of the conveying assembly. The conveyer assembly drives the material belt to convey forwards, the detection assembly detects the position and the length of the material belt, and meanwhile, the detection assembly can adapt to detecting the material belt with different width sizes, so that the compatibility is improved.

Preferably, a first inclined plane is formed on one side of the first adsorption platform facing the second adsorption platform, and a second inclined plane matched with the first inclined plane is formed on the second adsorption platform. The waste material part of the material belt is clamped through the first inclined plane of the first adsorption platform and the second inclined plane of the second adsorption platform, so that the material belt is tensioned, and the waste material part is cut off from the material belt through the cutting assembly along the second cutting of the gap.

Preferably, a tape splicing method, based on the above tape splicing device for rejecting waste, comprises the following steps:

s100, conveying the material belt with the formed waste to the first bearing component and the second bearing component, wherein the waste part of the material belt is positioned on the first bearing component, and the compacting component is used for compacting the material belt on the first bearing component and the second bearing component respectively;

s200, the cutting assembly moves along a gap between the first bearing assembly and the second bearing assembly and cuts off the material belt;

s300, the first bearing component bearing the waste material descends to enable the waste material part of the material belt to extend into the gap and leave the first bearing component, the first bearing component ascends to enable the side surface of the first bearing component opposite to the second bearing component to be clamped on the material belt;

s400, the cutting assembly moves along a gap between the first bearing assembly and the second bearing assembly, and the waste material part is separated from the material belt through second cutting;

s500, the rubberizing assembly moves along the gap, and the cut material strips on the first bearing assembly and the second bearing assembly are bonded together.

Preferably, in step S300, the pressing component presses the material strip on the second bearing component, the pressing component loosens the material strip on the first bearing component, the first bearing component descends, and the material strip is continuously conveyed forward until the waste material part of the material strip stretches into the gap and leaves the first bearing component.

Compared with the prior art, the beneficial effects of this application are: according to the scheme, through the first bearing component and the second bearing component which are sequentially arranged along the conveying direction of the material belt, the first bearing component and the second bearing component are arranged at intervals and form a gap, the material belt is pressed and fixed through the pressing component after moving in place, the cutting component is driven to move along the gap, one end of the waste material part on the material belt is cut off, the first bearing component which bears the waste material part descends and continuously conveys the material belt, the waste material part of the material belt leaves the first bearing component, the first bearing component is lifted to the second bearing component, the waste material part is cut off from the material belt through the second cutting of the cutting component, the cut material belt is attached through the movement of the rubberizing component along the gap, the two ends of the cut material belt are cut twice, the purpose of cutting waste material is achieved, the cutting consistency is high, the cutting accuracy is high, the rubberizing of the cut material belt after the cut is rubberized through the rubberizing component, the rubberizing automation is realized, the production efficiency is greatly improved, and the following effective processing of the material belt is guaranteed, and the production requirement of high quality is met.

Drawings

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

FIG. 1 is a perspective view of a taping device for reject waste according to an embodiment of the present application;

FIG. 2 is a schematic view of a cutting assembly and a rubberizing assembly according to an embodiment of the application;

FIG. 3 is a schematic view of a tape splicing device for rejecting waste according to an embodiment of the present application;

FIG. 4 is a rear view of a taping device for reject waste according to an embodiment of the present application;

fig. 5 is an isometric view of a taping device for reject waste in accordance with an embodiment of the present application.

Reference numerals

10. A first load bearing assembly; 11. a first adsorption stage; 111. a gap; 12. a first load bearing assembly; 20. a first load bearing assembly; 21. a second adsorption stage; 22. a fixing member; 30. a compression assembly; 31. a first platen; 32. a second pressing plate; 33. a first compression drive assembly; 34. a second compression drive assembly; 40. a cutting assembly; 41. a first cutter; 42. a first drive assembly; 43. clamping blocks; 50. a displacement drive assembly; 51. a vertical plate; 52. a mounting plate; 53. a first driving element; 54. a rack; 60. a rubberizing component; 61. a first press roll assembly; 611. a first press roller; 612. a second drive assembly; 62. a second press roll assembly; 621. a second press roller; 622. a third drive assembly; 63. a cutter assembly; 631. a second cutter; 632. a fourth drive assembly; 64. a roll of tape; 70. a waste collection box; 80. a transport assembly; 81. a driving roller; 82. a second driving element; 83. a driving roller; 84. a first cylinder; 90. a detection assembly; 91. a sensor; 92. a first motor; 93. and a screw rod structure.

Detailed Description

Various embodiments of the present application are disclosed in the following figures, in which numerous practical details are set forth in the following description for purposes of clarity. However, it should be understood that these practical details are not to be taken as limiting the present application. That is, in some embodiments of the present application, these practical details are unnecessary. Moreover, for the purpose of simplifying the drawings, some conventional structures and components are shown in the drawings in a simplified schematic manner.

It should be noted that all directional indicators such as up, down, left, right, front, and rear … … in the embodiments of the present application are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture such as that shown in the drawings, and if the particular posture is changed, the directional indicator is changed accordingly.

In addition, descriptions such as those related to "first," "second," and the like, are used herein for descriptive purposes only and are not specifically intended to be order or order limiting, nor are they intended to limit the present application solely for distinguishing between components or operations described in the same technical term, but are not to be construed as indicating or implying a relative importance or an order of implying any particular order among or between such features. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be regarded as not exist and not within the protection scope of the present application.

For a further understanding of the present disclosure, features and effects, the following examples are set forth to illustrate, and are to be considered in connection with the accompanying drawings, the following detailed description:

in order to solve the above-mentioned technical problems, this embodiment provides a tape splicing device for removing waste, which cuts off stacked waste on a material tape, as shown in fig. 1, and includes a first carrier component 10 and a second carrier component 20 sequentially arranged along a tape conveying direction, the material tape sequentially passes through the first carrier component 10 and the second carrier component 20, wherein the first carrier component 10 is arranged in a lifting manner, the first carrier component 10 and the second carrier component 20 are arranged at intervals and form a gap 111, a pressing component 30 is suspended above the first carrier component 10 and the second carrier component 20, the material tape is pressed and fixed by the pressing component 30 after being moved onto the first carrier component 10 and the second carrier component 20, at this time, the waste part on the material tape is on the first carrier component 10, the cutting component 40 is driven to move along the gap 111 by a displacement driving component 50, cutting off the front end of the waste material part on the material belt, then descending the first bearing component 10 bearing the waste material part and continuously conveying the material belt, enabling the waste material part of the material belt to leave the first bearing component 10, then ascending the first bearing component 10 to the second bearing component 20, cutting off the waste material part from the material belt through the cutting component 40 for the second time, attaching the material belt cut off on the first bearing component 10 and the second bearing component 20 through moving the rubberizing component 60 along the gap 111, cutting two ends of the waste material part on the material belt for two times, achieving the purpose of cutting off the waste material, realizing rubberizing automation of the cut material belt through the rubberizing component, greatly improving the production efficiency, guaranteeing the effective processing of the material belt, meets the production requirements of high efficiency and high quality.

Specifically, the first bearing component 10 includes a first adsorption platform 11, and a lifting driving component 12 for driving the first adsorption platform 11 to lift, where the lifting driving component 12 is of a cylinder structure, as shown in fig. 3, the second bearing component 20 includes a second adsorption platform 21 and a fixing piece 22 for fixing the second adsorption platform 21, in an initial state, the table tops of the first adsorption platform 11 and the second adsorption platform 21 are flush, and the first adsorption platform 11 and the second adsorption platform 21 are spaced apart, so that a gap 111 is formed between the first adsorption platform 11 and the second adsorption platform 21. The first adsorption platform 11 and the second adsorption platform 21 are provided with adsorption holes for adsorbing the material belt, and the material belt is adsorbed and fixed through the adsorption holes, so that the subsequent processing is convenient. Wherein, the first adsorption platform 11 forms a first inclined plane towards one side of the second adsorption platform 21, and the second adsorption platform 21 forms a second inclined plane matched with the first inclined plane.

Further, as shown in fig. 1 and 5, the pressing assembly 30 includes a first pressing plate 31 suspended on the first adsorption platform 11, a second pressing plate 32 suspended on the second adsorption platform 21, and a first pressing driving assembly 33 and a second pressing driving assembly 34 for driving the first pressing plate 31 and the second pressing plate 32 to press down, respectively. The first compression driving assembly 33 and the second compression driving assembly 34 are of an air cylinder structure. When the material belt moves to the first adsorption platform 11 and the second adsorption platform 21, the waste material part is conveyed to the first adsorption platform 11, the pressing blocks 35 are arranged on the opposite sides of the first pressing plate 31 and the second pressing plate 32, the pressing effect of the first pressing plate 31 and the second pressing plate 32 on the material belt is further improved, and the cutting assembly 40 can cut off the material belt on the first adsorption platform 11 and the second adsorption platform 21 along the gap 111, so that one end of the waste material is cut off. At this time, the lifting driving assembly 12 drives the first adsorption platform 11 to descend, the feeding belt is continuously conveyed forwards, the waste material stretches into the gap 111 and breaks away from the first adsorption platform 11, the waste material moves downwards between the first adsorption platform 11 and the second adsorption platform 21 until the waste material on the belt leaves the first adsorption platform 11, at this time, the lifting driving assembly 12 drives the first adsorption platform 11 to ascend, the waste material part of the belt is clamped through the first inclined plane of the first adsorption platform 11 and the second inclined plane of the second adsorption platform 21, the belt is further stretched, the waste material part is cut off from the belt through the cutting assembly 40 along the second cutting of the gap 111, the waste material falls downwards, the waste material cutting is completed, and the cut belt is attached through the driving rubberizing assembly 60.

Wherein, in order to realize collecting the waste material after cutting, the waste material collecting box 70 is installed to the bottom that is located first adsorption platform 11 and second adsorption platform 21, and the waste material after cutting drops to waste material collecting box 70 in downwards, and then realizes collecting the waste material.

To effect movement of the drive cutting assembly 40 and the rubberizing assembly 60, the displacement drive assembly 50 includes a riser 51, a mounting plate 52 slidably disposed on the riser 51, and a first drive element 53 disposed on the mounting plate 52. The vertical plate 51 is provided with a sliding rail for the installation plate 52 to slide, the vertical plate 51 is provided with a rack 54, the installation plate 52 is provided with a first driving element 53 which is matched with the rack 54 for transmission, the first driving element 53 is a motor, the output end of the motor is provided with a gear meshed with the rack 54, and the installation plate 52 is driven to move back and forth along the sliding rail through the first driving element 53. Wherein, cutting assembly 40 and rubberizing subassembly 60 all set up on mounting panel 52, and then realize driving cutting assembly 40 and rubberizing subassembly 60 round trip movement through mounting panel 52, and then accomplish cutting action and rubberizing action, cutting assembly 40 and rubberizing subassembly 60 integrate and realize compact structure on displacement drive assembly 50, reduce occupation volume.

In order to realize forward conveying of the material belt, as shown in fig. 4, the material belt conveying device further comprises a conveying assembly 80 for driving the material belt to move, the conveying assembly 80 comprises a driving roller 81 and a second driving element 82 for enabling the driving roller 81 to rotate, the second driving element 82 is connected with the mounting plate 52, a detection assembly 90 for detecting the position of the material belt is arranged at a feed inlet of the conveying assembly 80, a driving roller 83 and a first cylinder 84 for driving the driving roller 83 to lift are arranged on the back surface of the mounting plate 52, and further tensioning force of the material belt is adjusted, the position of the material belt is adjusted, and transmission efficiency of the driving roller 81 to the material belt is guaranteed. The detecting assembly 90 comprises two sensors 91 arranged along the width direction of the material belt and a first motor 92 for driving the sensors 91 to be close to or far away from each other, the first motor 92 drives the sensors 91 to move through a screw rod structure 93, two sides of the material belt respectively penetrate through the two sensors 91, the sensors 91 are driven by the first motor 92 to be close to or far away from each other, and then the material belts with different width sizes are detected in a suitable mode, and compatibility is improved.

In order to cut the material strips on the first adsorption platform 11 and the second adsorption platform 21, as shown in fig. 2, the cutting assembly 40 comprises a first cutter 41 and a first driving assembly 42, the first driving assembly 42 is a driving cylinder, a clamping block 43 is arranged at the telescopic end of the first driving assembly 42, the first cutter 41 is clamped and fixed through the clamping block 43, and when the first cutter 41 is worn, the cutter is convenient to replace. The first driving component 42 can drive the first cutter 41 to lift, so that the first cutter 41 extends into the gap 111 on the first adsorption platform 11 and the second adsorption platform 21, and the first cutter 41 is driven to move along the extending direction of the gap 111 by driving the mounting plate 52 to cut off the material belt on the first adsorption platform 11 and the second adsorption platform 21.

For the cut material strips on the first adsorption platform 11 and the second adsorption platform 21, in order to attach the cut material strips together, as shown in fig. 2, the rubberizing assembly 60 includes a first press roller assembly 61 and a second press roller assembly 62 sequentially arranged along the rubberizing direction, a tape roll 64 is connected to the first press roller assembly 61, and a cutter assembly 63 for cutting off the tape is arranged between the first press roller assembly 61 and the second press roller assembly 62. The first compression roller assembly 61 is pressed down to act on the first adsorption platform 11 and the second adsorption platform 21 and spans the gap 111 between the first adsorption platform 11 and the second adsorption platform 21, the first compression roller assembly 61 is driven to move along the gap 111, the material strips on two sides of the gap 111 are attached, when the first compression roller assembly 61 moves along the gap 111, the second compression roller assembly 62 performs secondary compression fastening on the adhesive tape attached to the material strips behind the first compression roller assembly 61, the adhesive tape is guaranteed not to loosen, and after the first compression roller assembly 61 moves to the tail end to finish rubberizing, the adhesive tape is cut off through the cutter assembly 63 between the first compression roller assembly 61 and the second compression roller assembly 62.

Specifically, the first press roller assembly 61 includes a first press roller 611 and a second drive assembly 612, which are connected with an adhesive tape, and the second drive assembly 612 drives the first press roller 611 to press down the material tapes on the first adsorption platform 11 and the second adsorption platform 21, so that the adhesive tape is attached to the material tapes on two sides of the gap 111, and tape breaking attachment is realized. The second press roller assembly 62 comprises a second press roller 621 and a third driving assembly 622, the third driving assembly 622 drives the second press roller 621 to press the adhesive tape attached to the material belt, and after the first press roller 611 attaches the adhesive tape to the material belt, the second press roller 621 presses the adhesive tape on the material belt, so that the adhesive tape is firmly attached to the material belt. It should be noted that, after the first press roller 611 is rubberized, the second driving assembly 612 drives the first press roller 611 to lift away from the surface of the platform, so as to facilitate subsequent cutting of the adhesive tape. The first pressing roller 611 is lifted to cause the end adhesive tape to be taken up and separated from the material tape, so that the adhesive tape is not firmly attached, and the second pressing roller 621 arranged behind the first pressing roller 611 plays a role of pressing the end adhesive tape, so that the situation that the adhesive tape is taken up when the first pressing roller 611 is lifted is prevented, and the adhesive tape is cut off by the cutter assembly 63 arranged between the first pressing roller 611 and the second pressing roller 621.

Further, as shown in fig. 2, the cutter assembly 63 includes a second cutter 631 disposed between the first and second pressing rollers 611 and 621 and a fourth driving assembly 632 driving the second cutter 631 to cut the adhesive tape, and the second cutter 631 is driven by the fourth driving assembly 632 to cut the adhesive tape. The second driving assembly 612, the third driving assembly 622 and the fourth driving assembly 632 are all cylinder structures fixed on the mounting plate 52, the first pressing roller 611 and the second pressing roller 621 are respectively driven to lift by the second driving assembly 612 and the third driving assembly 622, the adhesive tape on the adhesive tape roll 64 is connected to the first pressing roller 611, and then the adhesive tape is attached to the material tape by the first pressing roller 611, so that automatic rubberizing is realized, rubberizing is accurate, quality of the material tape is guaranteed, and effective processing of the material tape is guaranteed.

The tape splicing method based on the tape splicing device for rejecting waste comprises the following steps:

s100, conveying the material strips with the waste materials to the first bearing component 10 and the second bearing component 20, wherein the waste material parts of the material strips are positioned on the first bearing component 10, and the pressing component 30 respectively presses the material strips on the first bearing component 10 and the second bearing component 20;

the material strips with the waste materials are conveyed to the first bearing component 10 and the second bearing component 20, at this time, the waste material portions of the material strips are located on the first bearing component 10, and the pressing component 30 is started to press the material strips on the first bearing component 10 and the second bearing component 20 respectively, so that the material strips are fixed. Specifically, the first pressing plate 31 presses the material belt on the first adsorption platform 11, the second pressing plate 32 presses the material belt on the second adsorption platform 21, and the waste part does not exceed the gap 111 between the first adsorption platform 11 and the second adsorption platform 21, so that the material belt is adsorbed by the adsorption holes on the first adsorption platform 11 and the second adsorption platform 21, and the material belt is further fixed.

S200, the displacement driving assembly 50 drives the cutting assembly 40 to move along the gap 111 between the first bearing assembly 10 and the second bearing assembly 20 and cut off the material belt;

the first driving component 42 of the cutting component 40 drives the first cutter 41 to extend into the gaps 111 on the first adsorption platform 11 and the second adsorption platform 21, and the first cutter 41 is driven to move along the extending direction of the gaps 111 by driving the mounting plate 52 to move, so that the material strips on the first adsorption platform 11 and the second adsorption platform 21 are cut off. Leaving the waste portion of the web on the first adsorption stage 11.

S300, the first bearing component 10 bearing the waste is lowered, so that the waste part of the material belt stretches into the gap 111 and leaves the first bearing component 10, the first bearing component 10 is raised, and the opposite side surface of the first bearing component 10 and the second bearing component 20 clamps and tightens the material belt;

at this time, the lifting driving assembly 12 drives the first adsorption platform 11 to descend, continuously conveys the material belt forward, enables the waste material part on the material belt to be separated from the first adsorption platform 11 by extending into the gap 111, and enables the waste material to move downwards between the first adsorption platform 11 and the second adsorption platform 21 until the waste material on the material belt leaves the first adsorption platform 11, at this time, the lifting driving assembly 12 drives the first adsorption platform 11 to ascend, clamps the waste material part of the material belt by the first inclined surface of the first adsorption platform 11 and the second inclined surface of the second adsorption platform 21, and further tightens the material belt, and further cuts the waste material part from the material belt by the cutting assembly 40 along the second cutting of the gap 111. When the first suction stage 11 is lowered again subsequently, the waste parts held by the first suction stage 11 and the second suction stage 21 fall down into the waste collection tank 70 below the second suction stage 21.

In this step, the first press plate 31 of the pressing assembly 30 releases the tape on the first carrier assembly 10 and the second press plate 32 of the pressing assembly 30 presses the tape on the second carrier assembly 20 before the tape is conveyed forward, in preparation for the subsequent rubberizing. The first carrier assembly 10 is then lowered and the web is further advanced until the scrap portion of the web extends into the gap 111 and out of the first carrier assembly 10. Since the length of the stacked scrap on the strip is known, the scrap length can be obtained by visual inspection or the like, and the strip is driven to move by the conveying assembly 80 by a fixed length, so as to ensure that the scrap on the strip is completely separated from the first adsorption platform 11.

S400, the displacement driving assembly 50 drives the cutting assembly 40 to move along the gap 111 between the first bearing assembly 10 and the second bearing assembly 20, so that the waste material part is separated into a material separating belt;

when the first adsorption platform 11 rises, the first cutter 41 is driven to move along the extending direction of the gap 111 through the movement of the driving mounting plate 52 to cut for the second time, so that the waste material part is cut into a material belt, wherein the waste material falls into the waste material collecting box 70, two times of cutting is performed on two ends of the waste material part on the material belt, the purpose of cutting the waste material is achieved, the automation degree is high, and the cutting consistency is good and the accuracy is high. At this time, the first suction stage 11 and the second suction stage 21 are both cut tapes.

S500, the displacement driving assembly 50 drives the rubberizing assembly 60 to move along the gap 111, and the cut material strips on the first bearing assembly 10 and the second bearing assembly 20 are bonded together.

The first compression roller 611 of the rubberizing assembly 60 presses down the material belt on the first adsorption platform 11 and the second adsorption platform 21, the mounting plate 52 is driven to move so as to enable the adhesive tape on the first compression roller 611 to be attached to the material belt on two sides of the gap 111, the cut material belt on the first adsorption platform 11 and the cut material belt on the second adsorption platform 21 are attached together, the first compression roller 611 is used for attaching the adhesive tape on the material belt, the second compression roller 621 is used for tightly attaching the adhesive tape on the material belt, the second driving assembly 612 is used for driving the first compression roller 611 to ascend to leave the surface of the platform after the rubberizing of the first compression roller 611 is completed, at the moment, the second compression roller 621 is used for tightly attaching the following adhesive tape so as to prevent the adhesive tape from being taken up, and the fourth driving assembly 632 arranged between the first compression roller 611 and the second compression roller 621 is used for driving the second cutter 631 to cut the adhesive tape, automatic rubberizing is realized, the rubberizing is accurate, and the effective processing of the subsequent material belt is ensured.

To sum up, in this application one or more embodiment, this application scheme is through first carrier assembly and the second carrier assembly that sets gradually along material area direction of delivery, first carrier assembly and second carrier assembly interval set up and are formed with the clearance, the material area is fixed with the material area compress tightly through compressing tightly the subassembly after moving in place, drive cutting assembly through the displacement and follow the clearance and remove, realize cutting off the one end of the waste material part on the material area, will bear the first carrier assembly who has the waste material part again and descend and continue to carry the material area, make the waste material part of material area leave first carrier assembly, rise first carrier assembly again and bear the subassembly to the second, cut the waste material part from the material area through cutting assembly second time and excision, realize laminating the material area that will cut off through removing the rubberizing subassembly along the clearance, realize cutting the both ends of the waste material part on the material area twice, reach the purpose of excision waste material, degree of automation is high, the cutting uniformity is good, the accuracy is high, the rubberizing is carried out to the material area after the cutting through rubberizing subassembly, realize rubberizing automation, production efficiency is greatly improved, the follow-up production efficiency is guaranteed, high-efficient production quality is satisfied to the subsequent production requirement of effective material area.

The above-described embodiments do not limit the scope of the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the above embodiments should be included in the scope of the present invention.

Claims (11)

1. A tape splicing method, characterized in that: the device comprises a tape receiving device for removing waste on a material tape, wherein the tape receiving device comprises a first bearing component (10) and a second bearing component (20) which are sequentially arranged along the conveying direction of the material tape, and the first bearing component (10) can be lifted and arranged and is provided with a gap (111) at intervals with the second bearing component (20);

the pressing assembly (30) is used for respectively pressing the material belts on the first bearing assembly (10) and the second bearing assembly (20);

-a cutting assembly (40) for cutting the web along a gap (111) between the first and second carrier assemblies (10, 20);

a rubberizing component (60) for attaching the material belts on the first bearing component (10) and the second bearing component (20) along the gap (111);

the method comprises the following steps:

s100, conveying the material belt with the formed waste material to the first bearing component (10) and the second bearing component (20), wherein the waste material part of the material belt is positioned on the first bearing component (10), and the pressing component (30) respectively presses the material belt on the first bearing component (10) and the second bearing component (20);

s200, the cutting assembly (40) moves along a gap (111) between the first bearing assembly (10) and the second bearing assembly (20) and cuts off a material belt;

s300, the first bearing component (10) bearing the waste is lowered, the waste part of the material belt stretches into the gap (111) and leaves the first bearing component (10), the first bearing component (10) is raised, and the material belt is clamped and tensioned on the side surface of the first bearing component (10) opposite to the side surface of the second bearing component (20);

s400, the cutting assembly (40) moves along a gap (111) between the first bearing assembly (10) and the second bearing assembly (20), and the waste material part is separated from the material belt through second cutting;

s500, the rubberizing assembly (60) moves along the gap (111) and attaches the cut material strips on the first bearing assembly (10) and the second bearing assembly (20) together.

2. The taping method according to claim 1, wherein: the first bearing assembly (10) comprises a first adsorption platform (11) and a lifting driving assembly (12) for driving the first adsorption platform (11) to lift; the second bearing assembly (20) comprises a second adsorption platform (21) and a fixing piece (22) for fixing the second adsorption platform (21); the first adsorption platform (11) and the second adsorption platform (21) are provided with adsorption holes for adsorbing the material strips.

3. The taping method according to claim 2, wherein: the pressing assembly (30) comprises a first pressing plate (31) movably arranged on one side of the first adsorption platform (11) opposite to the material belt, a second pressing plate (32) movably arranged on one side of the second adsorption platform (21) opposite to the material belt, and a first pressing driving assembly (33) and a second pressing driving assembly (34) which respectively drive the first pressing plate (31) and the second pressing plate (32) to press downwards.

4. The taping method according to claim 1, wherein: the cutting assembly (40) comprises a first cutter (41) and a first driving assembly (42), and the first driving assembly (42) drives the first cutter (41) to lift so as to extend into a gap (111) between the first bearing assembly (10) and the second bearing assembly (20).

5. The taping method according to claim 1, wherein: the rubberizing subassembly (60) is including first compression roller subassembly (61) and second compression roller subassembly (62) that set gradually along rubberizing direction, be provided with cutter unit spare (63) that are used for cutting off the sticky tape between first compression roller subassembly (61) and second compression roller subassembly (62).

6. The taping method according to claim 1, wherein: the device further comprises a displacement driving assembly (50) for driving the cutting assembly (40) and the rubberizing assembly (60) to move along the path of the gap (111), wherein the displacement driving assembly (50) comprises a vertical plate (51), a mounting plate (52) arranged on the vertical plate (51) in a sliding manner, and a first driving element (53) arranged on the mounting plate (52); the cutting assembly (40) and the rubberizing assembly (60) are disposed on the mounting plate (52).

7. The taping method according to claim 1, wherein: the conveyor belt conveyor comprises a conveyor assembly (80) for driving the belt to move, wherein the conveyor assembly (80) comprises a driving roller (81) and a second driving element (82) for driving the driving roller (81) to rotate.

8. The taping method of claim 7, wherein: a feed inlet positioned on the conveying assembly (80) is provided with a detection assembly (90) for detecting the position and the length of the material belt.

9. A taping method according to claim 3, wherein: the first adsorption platform (11) forms a first inclined plane towards one side of the second adsorption platform (21), and the second adsorption platform (21) forms a second inclined plane matched with the first inclined plane.

10. The taping method according to claim 2, wherein: the bottoms of the first adsorption platform (11) and the second adsorption platform (21) are provided with a waste collection box (70); in step S400, when the cutting assembly (40) cuts the scrap portion from the strip, the scrap falls into the scrap collection bin (70).

11. The taping method according to claim 1, wherein: in step S300, the pressing assembly (30) presses the material strip on the second carrying assembly (20), the pressing assembly (30) is first made to loosen the material strip on the first carrying assembly (10), and after the first carrying assembly (10) descends, the material strip is further conveyed forward until the waste material portion of the material strip stretches into the gap (111) and leaves the first carrying assembly (10).