CN222820997U - Glue sticking mechanism and glue sticking device - Google Patents

Abstract

The utility model relates to a rubberizing mechanism and a rubberizing device, comprising an adsorption plate, a rotating seat and a first driving component, wherein the rotating seat is arranged on the first driving component, the adsorption plate is arranged on the rotating seat, the first driving component is used for driving the rotating seat to move for position adjustment, so that the adsorption plate can move to be opposite to a rubberizing position of a rubberizing mechanism in a first direction or opposite to a rubberizing position of a material belt in the first direction, the first driving component is also used for driving the rotating seat to rotate around a rotating axis, so that an adsorption surface of the adsorption plate is rotated to face a tape section when the adsorption plate is opposite to the rubberizing position, or the adsorption surface of the adsorption plate is rotated to face the material belt when the adsorption plate is opposite to the rubberizing position, and the extending direction of the rotating axis is intersected with the first direction.

Description

Rubberizing mechanism and rubberizing device

Technical Field

The utility model relates to the technical field of battery manufacturing equipment, in particular to a rubberizing mechanism and a rubberizing device.

Background

In the manufacturing process of lithium batteries, a plurality of material strips (such as a cathode sheet, a separator and an anode sheet) are required to be wound to form a battery cell. Before the material belt enters the winding device for winding, the adsorption plate of the rubberizing mechanism is required to suck the adhesive tape section through the rubberizing mechanism and paste the adhesive tape section onto the material belt.

When the adhesive tape section is adhered to the material belt, the adsorption surface of the adsorption plate is required to face the material belt so as to be convenient for adhering the adhesive tape section to the material belt. In order to achieve continuous taping, the suction plate needs to reciprocate so that its suction face faces the tape section when sucking the tape and faces the tape when taping. However, in the conventional technology, the motion track of the adsorption plate is complex, so that the rubberizing efficiency is low, and the capacity requirement is difficult to meet.

Disclosure of utility model

Accordingly, it is necessary to provide a rubberizing mechanism and a rubberizing device capable of improving rubberizing efficiency, aiming at the problem of low rubberizing efficiency of the rubberizing mechanism in the prior art.

The rubberizing mechanism comprises an adsorption plate, a rotating seat and a first driving assembly, wherein the rotating seat is arranged on the first driving assembly, and the adsorption plate is arranged on the rotating seat;

The first driving assembly is used for driving the rotating seat to move for position adjustment, so that the adsorption plate can move to be opposite to the glue preparation position of the glue preparation mechanism in a first direction or opposite to the glue sticking position of the material belt in the first direction;

The first driving assembly is further used for driving the rotating seat to rotate around a rotating axis, so that the adsorption surface of the adsorption plate can rotate to face the adhesive tape section when the adsorption plate is opposite to the adhesive preparation position, or the adsorption surface of the adsorption plate can rotate to face the material belt when the adsorption plate is opposite to the adhesive sticking position, and the extending direction of the rotating axis is intersected with the first direction.

In one embodiment, the rubberizing mechanism further comprises a first driving piece, the first driving piece is mounted on the rotating seat, the adsorption plate is connected with the first driving piece, and the first driving piece is used for driving the adsorption plate to move along the first direction relative to the rotating seat.

In one embodiment, the first driving assembly comprises a driving unit and a rotary driving piece, the rotary driving piece is installed on the driving unit, and the rotary seat is connected with the rotary driving piece;

The driving unit is used for driving the rotary driving piece to move so as to adjust the position of the rotary seat, and the rotary driving piece is used for driving the rotary seat to rotate around the rotary axis relative to the driving unit.

In one embodiment, the driving unit includes a second driving member and a third driving member connected to each other, where the second driving member and the third driving member are respectively configured to drive the rotation driving member to move along a second direction and a third direction, the first direction, the second direction, and the third direction intersect each other, and an extension direction of the rotation axis is parallel to the second direction or the third direction.

In one embodiment, the rubberizing mechanism includes a plurality of adsorption plates, the adsorption plates are sequentially arranged on the rotating seat along a third direction, and the adsorption surfaces of the adsorption plates face the same direction;

The first direction intersects the third direction.

The adhesive tape sticking device comprises an adhesive tape preparation mechanism and the adhesive tape sticking mechanism, wherein an adsorption plate of the adhesive tape sticking mechanism is used for adsorbing the adhesive tape section provided by the adhesive tape preparation mechanism and sticking the adhesive tape section to a material tape.

Above-mentioned rubberizing mechanism and rubberizing device, when rubberizing position and rubberizing position are in opposite in first direction, the adsorption plate is pasted the sticky tape section to the material on the area after, only need control first drive assembly drive roating seat and rotate around the axis of rotation can make the adsorption face of adsorption plate be towards the sticky tape section or the orientation material area that rubberizing mechanism provided, and the adsorption plate motion track is simple, and consuming time is less to make rubberizing efficiency improve, satisfied the productivity demand. When the glue preparation position and the glue sticking position are staggered in the first direction, the first driving assembly can be controlled to drive the rotating seat to move so as to adjust the position of the adsorption plate, so that the adsorption plate is rapidly opposite to the glue preparation position or the glue sticking position in the first direction, and the glue sticking efficiency is ensured.

In one embodiment, the rubberizing device comprises a plurality of rubberizing mechanism groups and a plurality of rubberizing mechanisms, wherein each rubberizing mechanism group comprises at least one rubberizing mechanism;

The plurality of groups of glue preparation mechanism groups and the plurality of glue sticking mechanisms are sequentially arranged along a third direction, each glue sticking mechanism corresponds to one group of glue preparation mechanism groups, and each adsorption plate corresponds to one glue preparation mechanism;

The first direction intersects the third direction.

In one embodiment, the rubberizing device comprises a plurality of rubberizing mechanisms which are sequentially distributed along a third direction, the first driving assembly comprises a third driving piece, the rotating seat is connected with the third driving piece, and the third driving piece is used for driving the rotating seat to move along the third direction;

The rubberizing device further comprises a power piece, wherein the power piece comprises a main body and a plurality of moving parts capable of independently moving relative to the main body along the third direction, and each moving part is used as one third driving piece.

In one embodiment, the rubberizing device further comprises a supporting block, the supporting block and the rubberizing mechanism are arranged at intervals in the first direction, the supporting block is used for supporting a material belt, and the adsorption plate controllably pastes the adhesive tape section to the material belt supported on the supporting block.

In one embodiment, the upstream and downstream of the support block are provided with first passing rollers protruding from the support block for conveying the material belt downstream.

In one embodiment, the glue preparation mechanism includes:

At least two unreeling components for unreeling the output adhesive tape;

The at least two adhesive clamping assemblies are arranged in one-to-one correspondence with the unreeling assemblies, and the adhesive clamping assemblies are arranged at the downstream of the corresponding unreeling assemblies and used for clamping the adhesive tape unreeled and output by the unreeling assemblies;

The adhesive tape pulling device comprises a first adhesive cutting assembly and an adhesive pulling assembly, wherein the first adhesive cutting assembly is positioned between the adhesive clamping assembly and the adhesive pulling assembly, the adhesive clamping assembly can move along a first direction relative to the first adhesive cutting assembly and the adhesive pulling assembly, the adhesive clamping assembly is alternatively opposite to the adhesive pulling assembly along a second direction, the adhesive pulling assembly is used for pulling out adhesive tapes clamped by the adhesive clamping assembly opposite to the adhesive clamping assembly along the second direction, the first adhesive cutting assembly is used for cutting the adhesive tapes pulled out by the adhesive pulling assembly to form adhesive tape sections, and the first direction is intersected with the second direction.

Drawings

Fig. 1 is a diagram showing a motion trace of an adsorption plate of a rubberizing device provided in the prior art;

FIG. 2 is a block diagram of a rubberizing device according to an embodiment of the application;

FIG. 3 is an isometric view of a rubberizing mechanism of the rubberizing device shown in FIG. 2;

FIG. 4 is a plan view of a rubberizing device according to another embodiment of the application;

FIG. 5 is a block diagram of a partial structure of the rubberizing device shown in FIG. 4;

FIG. 6 is a block diagram of a glue preparation mechanism of the glue apparatus shown in FIG. 2;

FIG. 7 is a front view of the glue preparation mechanism shown in FIG. 6;

fig. 8 is an enlarged view at a of the paste preparation mechanism shown in fig. 6.

Reference numerals illustrate:

100. A rubberizing device; 10, a glue preparation mechanism; 11, unreeling the assembly; the adhesive tape dispenser comprises a first adhesive clamping assembly, 121, an adhesive clamping driving piece, 122, a first adhesive clamping block, 123, a second adhesive clamping block, 124, a supporting seat, 13, a buffer assembly, 14, a first adhesive cutting assembly, 141, a first adhesive cutting driving piece, 142, a first cutter, 15, an adhesive pulling assembly, 151, an adhesive pulling driving piece, 152, clamping jaws, 16, a second mounting plate, 17, a second driving piece, 171, a fourth driving piece, 172, a moving plate, 18, a first guide rail, 19, a third driving piece, 191, a fifth driving piece, 192, a mounting seat, 1110, a second passing roller, 1120, a second guide rail, 1130, a second adhesive cutting assembly, 1131, a second adhesive cutting driving piece, 1132, a second cutter, 20, an adhesive attaching mechanism, 21, an adsorption plate, 211, an adsorption surface, 22, a rotating seat, 23, a first driving piece, 231, a rotating driving piece, 232, a second driving piece, 233, a third driving piece, 24, a first driving piece, 25, a gear set, 26, a first moving plate, a first supporting block, 30, a first passing roller, 40, a second guide rail, 1130, a second adhesive cutting assembly, 1131, a second adhesive cutting driving piece, a second adhesive cutting assembly, 1132, a second adhesive cutting assembly, 23, a rotary seat, 23, a first adhesive cutting assembly, a second adhesive cutting assembly, a driving piece, a driving, a driving, a respectively a respectively a.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed, mechanically connected, electrically connected, directly connected, indirectly connected through an intervening medium, or in communication between two elements or in an interaction relationship between two elements, unless otherwise explicitly specified. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

It will be understood that when an element is referred to as being "fixed" or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

As described in the background art, in the conventional technology, the motion track of the adsorption plate is complex, resulting in lower rubberizing efficiency, and difficulty in meeting the productivity requirement.

The applicant has found that the root cause of the above problem is that the tape is generally passed under or over the tape applicator when the tape applicator is applying the tape, the tape applicator being located between the tape preparation and tape. When the adsorption plate of the rubberizing mechanism adsorbs the adhesive tape section provided by the rubberizing mechanism, the adsorption surface of the rubberizing mechanism needs to face the adhesive tape section provided by the rubberizing mechanism, and when the adsorption plate adheres the adhesive tape section to the material belt, the adsorption surface of the rubberizing mechanism needs to face the material belt. In order to achieve the above object, the suction plate needs to move along the track in fig. 1 (the line with arrow in fig. 1 represents the moving track of the suction plate), that is, after the suction plate sticks the adhesive tape section onto the material tape, the suction plate moves rightward in the horizontal direction, moves upward in the vertical direction, and moves leftward in the horizontal direction so that the suction surface faces the adhesive tape section, and after the suction plate sucks the adhesive tape section, the suction plate returns in the opposite direction. Therefore, the motion track of the adsorption plate is complex, more time is consumed, the rubberizing efficiency is lower, and the capacity requirement is difficult to meet.

In order to solve the above-mentioned problems, referring to fig. 2, the present application provides a rubberizing device 100, wherein the rubberizing device 100 comprises a rubberizing mechanism 10 and a rubberizing mechanism 20. The adhesive preparation mechanism 10 is used for preparing a tape segment formed into a preset length, and the adhesive applying mechanism 20 is used for sucking the tape segment and applying the tape segment to a material tape. Specifically, the material belt is a pole piece material belt.

Referring to fig. 3, the rubberizing mechanism 20 includes an adsorption plate 21, a rotating base 22 and a first driving assembly 23. The rotary base 22 is mounted on the first driving assembly 23, and the adsorption plate 21 is mounted on the rotary base 22. The first driving assembly 23 is configured to drive the rotating base 22 to move for position adjustment, so that the adsorption plate 21 can move to be opposite to the glue preparation position of the glue preparation mechanism 10 in the first direction or opposite to the glue application position of the material tape in the first direction. Here, when the suction plate 21 is opposite to the tape preparation position, the suction plate 21 is positioned to be able to suction the tape section provided by the tape preparation mechanism 10, and when the suction plate 21 is opposite to the tape application position, the suction plate 21 is positioned to be able to apply the tape section to the tape.

The first driving assembly 23 is further configured to drive the rotating base 22 to rotate around a rotation axis, such that the suction plate 21 follows the rotating base 22 to rotate around the rotation axis. When the suction plate 21 is opposite to the glue preparing position in the first direction, the rotating seat 22 can drive the suction plate 21 to rotate until the suction surface 211 thereof faces the adhesive tape section provided by the glue preparing mechanism 10, so as to suck the adhesive tape section. When the adsorption plate 21 is opposite to the rubberizing position in the first direction, the rotary seat 22 can drive the adsorption plate 21 to rotate until the adsorption surface 211 of the adsorption plate faces the material belt, so that the adhesive tape section adsorbed by the adsorption plate is adhered to the material belt. Wherein the direction of extension of the rotation axis intersects the first direction. Specifically, the extending direction of the rotation axis is perpendicular to the first direction. Optionally, the first direction is the thickness direction of the material strip, also the Z direction in fig. 2 and 3, and the rotation axis is located in a plane perpendicular to the thickness direction of the material strip.

Above-mentioned setting, when the rubberizing position is opposite in first direction with rubberizing position, after the adsorption plate 21 pasted the sticky tape section to the material area, only need control first drive assembly 23 drive roating seat 22 rotatory around the axis of rotation can make the adsorption face 211 of adsorption plate 21 be towards the sticky tape section or the orientation material area that rubberizing mechanism 10 provided, adsorption plate 21 motion track is simple, consuming time less to make rubberizing efficiency improved, satisfied the productivity demand. When the glue preparation position and the glue coating position are staggered in the first direction, the first driving assembly 23 can be controlled to drive the rotating seat 22 to move so as to adjust the position of the adsorption plate 21, so that the adsorption plate 21 is rapidly opposite to the glue preparation position or the glue coating position in the first direction, and the glue coating efficiency is ensured.

Further, with continued reference to fig. 3, the rubberizing mechanism 20 further includes a first driving member 24, the first driving member 24 is mounted on the rotating base 22, and the adsorption plate 21 is connected to the first driving member 24. The first driving member 24 is used for driving the adsorption plate 21 to move along the first direction relative to the rotating seat 22. Thus, when the adsorption plate 21 needs to absorb the adhesive tape segment provided by the adhesive preparation mechanism 10 or paste the adhesive tape segment onto the material belt, the first driving member 24 drives the adsorption plate 21 to move forward along the first direction so as to cooperate with the adhesive preparation mechanism 10 to adsorb the adhesive tape segment and provide pressure to the material belt so as to bond the adhesive tape segment onto the material belt. When the adsorption plate 21 adsorbs the adhesive tape section provided by the adhesive preparation mechanism 10 or bonds the adhesive tape section to the material tape, the first driving member 24 drives the adsorption plate 21 to move reversely along the first direction, so as to avoid interference between the adsorption plate 21 and other structures when the rotation seat 22 drives the adsorption plate 21 to rotate. The first driving member 24 may be a cylinder, a motor, or the like.

The first driving assembly 23 includes a driving unit and a rotation driving member 231, the rotation driving member 231 is mounted on the driving unit, and the rotation base 22 is connected to the rotation driving member 231. The driving unit is used for driving the rotary driving piece 231 to move so as to adjust the position of the rotary base 22, and the rotary driving piece 231 is used for driving the rotary base 22 to rotate around the rotary shaft relative to the driving unit. So configured, the driving unit and the rotation driving member 231 can independently drive the rotation seat 22 to move and rotate.

In some embodiments, the rotary driving member 231 is a motor, the rotary base 22 is connected to the motor through a gear set 25, and the motor drives the rotary base 22 to rotate through the gear set 25. It is contemplated that in other embodiments, the rotary driving member 231 may be other types of driving members, such as a rotary cylinder, without limitation.

Further, with continued reference to fig. 3, the driving unit includes a second driving member 232 and a third driving member 233 connected to each other, where the second driving member 232 and the third driving member 233 are respectively configured to drive the rotating base 22 to move along the second direction and the third direction, so as to adjust the position of the adsorption plate 21 in the second direction and the third direction. The first direction, the second direction and the third direction are intersected in pairs. Specifically, the first direction, the second direction and the third direction are perpendicular to each other. Alternatively, the first direction is parallel to the thickness direction of the web, the second direction is parallel to the width direction of the web, and the third direction is parallel to the length direction of the web (the conveying direction of the web). The second direction is the Y direction in fig. 2 and 3, and the third direction is the X direction in fig. 2 and 3. The direction of extension of the rotation axis may be parallel to the second direction and may also be parallel to the third direction. In this way, the driving unit can adjust the position of the rotary seat 22 in two different directions, and thus adjust the position of the suction plate 21.

In some embodiments, the second driving member 232 is mounted to the third driving member 233, and the rotation driving member 231 is connected to the second driving member 232. The third driving member 233 can drive the second driving member 232 to move along the third direction, so as to drive the rotation driving member 231, the rotation seat 22 and the adsorption plate 21 to move along the third direction. The second driving member 232 can drive the rotation driving member 231 to move along the second direction, so as to drive the rotating base 22 and the adsorption plate 21 to move along the second direction. Optionally, the rubberizing mechanism 20 further includes a first moving plate 26, the first moving plate 26 is connected to a second driving member 232, and a rotation driving member 231 is mounted on the first moving plate 26. The second driving member 232 moves the first moving plate 26, thereby driving the rotation driving member 231 to move.

It should be understood that in other embodiments, the third driving member 233 may be mounted on the second driving member 232, and the rotary driving member 231 is mounted on the third driving member 233, which is not limited herein. The second driving member 232 and the third driving member 233 may be a motor, a cylinder, or the like.

In some embodiments, with continued reference to fig. 3, the rubberizing mechanism 20 includes a plurality of adsorption plates 21, the adsorption plates 21 are sequentially disposed on the rotating base 22 along the third direction, and the adsorption surfaces 211 of the adsorption plates 21 face the same direction, and each adsorption plate 21 is used for adsorbing the adhesive tape segment provided by one adhesive preparation mechanism 10. Thus, one rubberizing mechanism 20 can adsorb the adhesive tape sections provided by a plurality of standby rubberizing mechanisms 10 each time, and can paste a plurality of adhesive tape sections onto the material belt simultaneously, thereby improving rubberizing efficiency.

In some embodiments, the rubberizing mechanism 20 has two suction plates 21, so that the rubberizing mechanism 20 can suck two adhesive tape sections provided by the standby mechanism 10 at a time, and can simultaneously apply two adhesive tape sections to the adhesive tape 300. Of course, in other embodiments, the number of the adsorption plates 21 included in the rubberizing mechanism 20 is not limited, and for example, the rubberizing mechanism 20 may be provided with one, three or more than three adsorption plates 21.

Here, one first driving member 24 may be provided for each suction plate 21, or one first driving member 24 may be shared by a plurality of suction plates 21, which is not limited herein.

In some embodiments, taking part in fig. 2 and fig. 4, the rubberizing device 100 includes a plurality of glue preparation mechanism groups B and a plurality of rubberizing mechanisms 20, each of the glue preparation mechanism groups B and the rubberizing mechanisms 20 are sequentially arranged along a third direction, and each of the rubberizing mechanisms 20 corresponds to one of the glue preparation mechanism groups B. Wherein each glue preparation mechanism group B comprises at least one glue preparation mechanism 10. In this way, the plurality of rubberizing mechanisms 20 can simultaneously suck the adhesive tape segments provided by the rubberizing mechanisms 10 of the rubberizing mechanism group B corresponding to the rubberizing mechanisms, and paste the adhesive tape segments onto the material belt at the same time, so that rubberizing efficiency is improved.

Alternatively, the number of the adsorption plates 21 included in the rubberizing mechanism 20 is equal to the number of the rubberizing mechanisms 10 included in the rubberizing mechanism group B, and each adsorption plate 21 is used for adsorbing the adhesive tape section provided by one rubberizing mechanism 10. In some embodiments, each glue mechanism group B includes one glue mechanism 10, and each glue mechanism 20 includes one suction plate 21. In other embodiments, each glue preparing mechanism group B includes two glue preparing mechanisms 10 sequentially arranged in the third direction, and each glue applying mechanism 20 includes two adsorption plates 21.

Referring to fig. 2 and 5, the rubberizing device 100 further includes a first mounting plate 50, and the glue preparation mechanism 10 and the rubberizing mechanism 20 are both mounted on the first mounting plate 50, so that the integration level of the rubberizing device 100 is higher. Of course, in other embodiments, the rubberizing device 100 may omit the first mounting plate 50.

Alternatively, in the second direction, the glue preparation mechanism 10 is disposed on one side of the first mounting plate 50, and the driving unit of the glue application mechanism 20 is disposed on the other side of the first mounting plate 50. The first mounting plate 50 is provided with a through groove 51, and the rubberizing mechanism 20 passes through the through groove 51, so that the adsorption plate 21 and the rubberizing mechanism 10 are positioned on the same side.

In some embodiments, the second drive member 232 is mounted on the third drive member 233, and the rotary drive member 231 is mounted on the second drive member 232. The rubberizing device 100 further comprises a power element 60, wherein the power element 60 comprises a main body 61 and a plurality of independently arranged moving parts 62, the main body 61 is mounted on the first mounting plate 50, and the moving parts 62 are slidably connected with the main body 61 along a third direction. Wherein each moving part 62 serves as a third driving member 233. Alternatively, the power member 60 is a multi-mover linear motor, one mover of which serves as one moving portion 62. In this way, the integration of the rubberizing device 100 is high. Of course, in other embodiments, the third driving members 233 of the plurality of rubberizing mechanisms 20 may be disposed independently, which is not limited herein.

With continued reference to fig. 2 and 4, the rubberizing device 100 further includes a supporting block 30, and the supporting block 30 and the glue preparation mechanism 10 are disposed at intervals in the first direction. The support block 30 is used for supporting the material tape, and the suction plate 21 controllably adheres the adhesive tape segment to the material tape supported on the support block 30. When the suction plate 21 sticks the tape section to one side of the tape in the thickness direction, the supporting block 30 supports the tape from the other side, and the supporting block 30 cooperates with the suction plate 21 to facilitate sticking of the tape section to the tape.

The number of the supporting blocks 30 is plural to correspond to the plural rubberizing mechanisms 10. The upstream and downstream of the support block 30 are provided with first passing rollers 40, and the first passing rollers 40 protrude out of the support block 30 so as to facilitate downstream conveying of the material strip.

In some embodiments, referring to fig. 6 and 7, the glue preparation mechanism 10 includes an unreeling assembly 11, a glue clamping assembly 12, a first glue cutting assembly 14, and a glue pulling assembly 15. The unreeling assembly 11 is used for unreeling the output adhesive tape 300, and the adhesive clamping assembly 12 is arranged at the downstream of the unreeling assembly 11 and used for clamping the unreeling output adhesive tape 300 of the unreeling assembly 11 along the first direction. The first adhesive cutting assembly 14 and the adhesive pulling assembly 15 are both disposed downstream of the adhesive clamping assembly 12, and the first adhesive cutting assembly 14 is disposed between the adhesive clamping assembly 12 and the adhesive pulling assembly 15. The adhesive pulling assembly 15 is used for pulling out the adhesive tape 300 clamped by the adhesive clamping assembly 12 along the second direction, and the first adhesive cutting assembly 14 is used for cutting the adhesive tape 300 pulled out by the adhesive pulling assembly 15 into adhesive tape sections.

Further, the number of the unreeling assemblies 11 and the number of the laminating assemblies 12 are at least two, each laminating assembly 12 corresponds to one unreeling assembly 11, and the laminating assemblies 12 can clamp the adhesive tape 300 unreeled and output by the unreeling assembly 11 corresponding to the laminating assemblies. In some embodiments, the number of unreeling components 11 and laminating components 12 is two. Of course, in other embodiments, the number of unreeling assemblies 11 and laminating assemblies 12 may be three or more, which is not limited herein.

The glue preparation mechanism 10 further includes a buffer assembly 13, where the buffer assembly 13 is located between the unreeling assembly 11 and the glue clamping assembly 12 for buffering the adhesive tape 300.

It should be noted that the first adhesive cutting component 14 and the adhesive pulling component 15 are located at the downstream of the adhesive clamping component 12, and that the first adhesive cutting component 14 is located between the adhesive clamping component 12 and the adhesive pulling component 15 means that the first adhesive cutting component 14 and the adhesive pulling component 15 are located at the downstream of all the adhesive clamping components 12 in the conveying direction of the adhesive tape 300, and the first adhesive cutting component 14 and the adhesive pulling component 15 are sequentially arranged, so that the adhesive pulling component 15 can pull the adhesive tape 300 clamped by the adhesive clamping component 12, and the first adhesive cutting component 14 can cut the adhesive tape 300 pulled by the adhesive pulling component 15 into adhesive tape segments. That is, the portion of the adhesive tape 300 pulled out by the adhesive pulling assembly 15 is cut by the first adhesive cutting assembly 14 and separated from other portions, so as to form an adhesive tape section.

The adhesive clamping assembly 12 is capable of moving along a first direction relative to the first adhesive cutting assembly 14 and the adhesive pulling assembly 15, such that the adhesive clamping assembly 12 is alternatively opposite to the adhesive pulling assembly 15 in a second direction. The adhesive pulling assembly 15 is used for pulling out the adhesive tape 300 clamped by the opposite adhesive clamping assembly 12, and the first adhesive cutting assembly 14 is used for cutting off the adhesive tape 300 pulled out by the adhesive pulling assembly 15 to form adhesive tape sections. That is, all of the adhesive holding members 12 are movable relative to the first adhesive cutting member 14 and the adhesive pulling member 15, and are switchable between a first position opposed to the adhesive pulling member 15 and a second position at which the adhesive pulling member 15 is displaced. When the adhesive clamp assembly 12 is in the first position, the adhesive pulling assembly 15 is capable of pulling out the adhesive tape 300 clamped by the adhesive clamp assembly 12. Meanwhile, when one of the adhesive clamping assemblies 12 is at the first position, the other adhesive clamping assemblies 12 are all at the second position.

It should be noted that, when the adhesive pulling assembly 15 pulls the adhesive tape 300 from the adhesive clamping assembly 12, the adhesive clamping assembly 12 releases the adhesive tape 300, and when the first adhesive cutting assembly 14 cuts the adhesive tape 300, the adhesive clamping assembly 12 clamps the adhesive tape 300 again, and at this time, the adhesive pulling assembly 15 pulls the adhesive tape 300 taut, and the first adhesive cutting assembly 14 cuts the adhesive tape 300. Alternatively, when the first cutting assembly 14 cuts the adhesive tape 300, the suction plate 21 of the rubberizing mechanism 20 is used for supporting the adhesive tape 300, and the first cutting assembly 14 cooperates with the suction plate 21 to cut the adhesive tape 300.

When the glue preparation mechanism 10 works, one glue clamping assembly 12 is controlled to move to the first position, and the rest glue clamping assemblies 12 are positioned at the second position. The adhesive pulling assembly 15 pulls out the adhesive tape 300 clamped by the adhesive clamping assembly 12 at the first position (the adhesive tape is a working adhesive tape), the adhesive clamping assembly 12 clamps the adhesive tape 300, the first adhesive cutting assembly 14 cuts the adhesive tape 300 at a position between the adhesive clamping assembly 12 and the adhesive pulling assembly 15, and the adhesive tape 300 is cut to form adhesive tape sections with preset lengths. The suction plate 21 sucks the adhesive tape segment supplied from the adhesive preparation mechanism 10 and sticks the adhesive tape segment to the material tape. While cutting the adhesive tape 300 clamped by the adhesive clamping assembly 12 at the first position, a standby adhesive disc is arranged on the unreeling assembly 11 corresponding to the adhesive clamping assembly 12 at the second position, and the standby adhesive disc is unreeled to form a standby adhesive tape. When the working glue tray on the unreeling assembly 11 corresponding to the glue clamping assembly 12 at the first position is unreeled, the glue clamping assembly 12 at the first position is controlled to be shifted to the second position, and the other glue clamping assembly 12 at the second position is controlled to be shifted to the first position to continue working, and the cycle is repeated.

The glue preparation mechanism 10 can switch positions of the glue clamping assembly 12, so that automatic tape replacement of the working adhesive tape and the standby adhesive tape is realized, and the glue pulling assembly 15 can continuously work to pull glue, so that continuous glue preparation of the glue preparation mechanism 10 is ensured. Unlike the automatic tape splicing mode in the prior art, the continuous tape preparation is realized, the working tape and the standby tape do not need to be bonded, the smooth process of automatic tape replacement is ensured, the continuous tape preparation effect of the tape preparation mechanism 10 is better, the tape preparation efficiency is improved, the tape sticking efficiency is ensured, and the equipment meets the production capacity requirement.

In some embodiments, with continued reference to fig. 6 and 7, the glue preparation mechanism 10 further includes a second mounting plate 16, the second mounting plate 16 being mounted on the first mounting plate 50. The unreeling assembly 11, the laminating assembly 12, the first adhesive cutting assembly 14 and the adhesive pulling assembly 15 are all arranged on the second mounting plate 16. By the arrangement, the integration level of the glue preparation mechanism 10 is higher, and the occupied area of the glue preparation mechanism 10 can be smaller. It is contemplated that in other embodiments, the second mounting plate 16 may be omitted from the glue preparation mechanism 10, and the components of the glue preparation mechanism 10 may be disposed in a dispersed manner.

Referring to fig. 8, the adhesive clamping assembly 12 includes an adhesive clamping driving member 121, a first adhesive clamping block 122 and a second adhesive clamping block 123, and at least one of the first adhesive clamping block 122 and the second adhesive clamping block 123 is connected to the adhesive clamping driving member 121. The clamping driving member 121 drives the clamping blocks connected thereto to move so that the first clamping block 122 approaches or moves away from the second clamping block 123 to clamp or release the adhesive tape 300. Alternatively, the adhesive driving member 121 may be an air cylinder, a motor, or the like. Thus, when the adhesive clamping assembly 12 is at the second position, the adhesive tape 300 unreeled and output by the unreeling assembly 11 can be arranged between the first adhesive clamping block 122 and the second adhesive clamping block 123 in a penetrating manner, and the adhesive clamping driving member 121 enables the two adhesive clamping blocks to be close to each other so as to clamp the adhesive tape 300, so that the adhesive tape 300 is clamped conveniently. When the two clamping blocks clamp the tape 300, the clamping assembly 12 is controlled to move from the second position to the first position. Of course, in other embodiments, the adhesive clamping assembly 12 can be configured in other ways, so long as the purpose of clamping the adhesive tape 300 is achieved.

In some embodiments, with continued reference to fig. 6 and 7, the adhesive preparation mechanism 10 further includes a second driving assembly 17, the adhesive clamping assembly 12 is connected to the second driving assembly 17, and the second driving assembly 17 is configured to drive the adhesive clamping assembly 12 to move relative to the second mounting plate 16, so that the adhesive clamping assembly 12 is alternatively opposite to the adhesive pulling assembly 15. By providing the second drive assembly 17, the adhesive clamping assembly 12 is automatically moved relative to the second mounting plate 16 with a high degree of automation.

In some embodiments, the second driving assembly 17 includes a fourth driving member 171 and a second moving plate 172, and the second moving plate 172 is slidably disposed on the second mounting plate 16 and connected to the fourth driving member 171. All the adhesive clamping assemblies 12 are sequentially arranged on the second moving plate 172 at intervals, and the fourth driving piece 171 is used for driving the second moving plate 172 to move, and the second moving plate 172 moves to drive the adhesive clamping assemblies 12 to move. The plurality of glue applying assemblies 12 are driven by the same fourth driving member 171, simplifying the structure of the glue preparing mechanism 10. The fourth driving member 171 may be a cylinder, a motor, or the like.

Optionally, the glue preparation mechanism 10 further includes a first guide assembly, where the first guide assembly includes a first slider and a first guide rail 18 that cooperate with each other. One of the first slider and the first guide rail 18 is disposed on the second mounting plate 16, and the other is disposed on the second moving plate 172, and the first slider cooperates with the first guide rail 18 to guide the second moving plate 172 and thus the adhesive clamping assembly 12. The first guide rail 18 extends along a first direction, and the extending direction of the first guide rail 18 is also the moving direction of the fourth driving member 171 for driving the second moving plate 172, and is also the moving direction of the adhesive clamping assembly 12 relative to the second mounting plate 16. When the adhesive clamping assembly 12 moves along the first direction, the adhesive clamping assembly 12 can be switched between the first position and the second position, and the first slider and the first guide rail 18 are matched to guide the adhesive clamping assembly 12, so that the adhesive clamping assembly 12 is prevented from deviating in the first direction. When the adhesive clamping assembly 12 is at the first position, the adhesive clamping assembly 12 can be opposite to the adhesive pulling assembly 15 in the second direction, and after the adhesive pulling assembly 15 pulls out the adhesive tape 300, the pulled portion of the adhesive tape 300 extends along the second direction.

In other embodiments, the second driving assembly 17 includes a plurality of fourth driving members 171, and the plurality of fourth driving members 171 are disposed on the second mounting plate 16. Each glue assembly 12 is connected to a fourth driving member 171, and each fourth driving member 171 is configured to drive the corresponding glue assembly 12 to move. Each of the glue modules 12 is driven by a different fourth drive member 171 to facilitate independent control of the movement of the glue modules 12.

With continued reference to fig. 6, the first adhesive cutting assembly 14 includes a first adhesive cutting driving member 141 and a first cutter 142, the first adhesive cutting driving member 141 is mounted on the second mounting plate 16, and the first cutter 142 is connected to the first adhesive cutting driving member 141. The first cutter driving member 141 is used to drive the first cutter 142 to move to cut the adhesive tape 300. Alternatively, the first adhesive cutting driving member 141 is configured to drive the first cutter 142 to move in the first direction, where the first cutter 142 is perpendicular to the adhesive tape 300, so as to cut the adhesive tape 300 into the adhesive tape segments. The first adhesive driving member 141 may be a cylinder, a motor, or the like.

The glue pulling assembly 15 comprises a glue pulling driving piece 151 and a clamping jaw 152, wherein the glue pulling driving piece 151 is arranged on the second mounting plate 16, and the clamping jaw 152 is connected with the glue pulling driving piece 151. The clamping jaw 152 is used for clamping the adhesive tape 300, and the adhesive pulling driving piece 151 is used for driving the clamping jaw 152 to move so as to pull out the adhesive tape 300. Optionally, the adhesive pulling driving member 151 adopts servo driving to meet the adhesive pulling requirements of the adhesive tapes 300 with various lengths. The glue pulling driving piece 151 can select an air cylinder, a motor or the like.

It should be understood that in other embodiments, the first adhesive cutting assembly 14 and the adhesive pulling assembly 15 may be disposed in other manners, so long as the adhesive cutting and pulling effects can be achieved, which is not limited herein.

In some embodiments, the glue preparing mechanism 10 further includes a third driving assembly 19, where each glue gripping assembly 12 is connected to one third driving assembly 19, and the third driving assembly 19 is configured to drive the corresponding glue gripping assembly 12 to move toward or away from the first glue cutting assembly 14. Specifically, the third driving assembly 19 is configured to drive the corresponding adhesive clamping assembly 12 to approach or depart from the first adhesive cutting assembly 14 along the second direction. Thus, when the adhesive clamping assembly 12 is at the first position, the adhesive clamping assembly 12 at the first position approaches the first adhesive cutting assembly 14 in the second direction, and the adhesive pulling assembly 15 can grasp the adhesive tape 300 clamped by the adhesive clamping assembly 12. When the adhesive clamping assembly 12 is at the second position, the adhesive clamping assembly 12 is controlled to be far away from the first adhesive cutting assembly 14 in the second direction, and at this time, the first adhesive cutting assembly 14 does not interfere with the threading of the adhesive clamping assembly 12, so that the occurrence of personal safety injury of the first adhesive cutting assembly 14 due to the fact that the first adhesive cutting assembly 14 is too close to the adhesive clamping assembly 12 which is threaded is reduced.

Here, the second direction and the first direction intersect the width direction of the tape 300, and specifically, the third direction is parallel to the width direction of the tape 300.

Specifically, the third driving assembly 19 includes a fifth driving member 191 and a mounting seat 192 both mounted on the second moving plate 172, the mounting seat 192 is connected to the fifth driving member 191, and the adhesive clamping assembly 12 is disposed on the mounting seat 192. Further, the adhesive clamping assembly 12 further includes a support base 124, the support base 124 is mounted on the mounting base 192, and the adhesive clamping driving member 121 is mounted on the support base 124. The mounting block 192 is provided with a second roller 1110. The second roller 1110 is provided upstream of the adhesive applicator assembly 12 for guiding the adhesive tape 300 to the adhesive applicator assembly 12.

Still further, the glue preparing mechanism 10 further includes a second guiding assembly, which includes a second slider and a second guide rail 1120 that are mutually matched. One of the second slider and the second guide rail 1120 is disposed on the second moving plate 172, and the other is disposed on the mounting seat 192, and the second slider and the second guide rail 1120 cooperate to guide the mounting seat 192, thereby guiding the adhesive clamping assembly 12. The second guide rail 1120 extends along the second direction, and the extending direction of the second guide rail 1120 is also the moving direction of the third driving assembly 19 to drive the adhesive clamping assembly 12. When the adhesive clamping assembly 12 moves along the second direction, the second slider and the second guide rail 1120 cooperate to guide the adhesive clamping assembly 12, so as to avoid the adhesive clamping assembly 12 from deviating in the second direction.

In some embodiments, with continued reference to fig. 8, the adhesive preparation mechanism 10 further includes a second adhesive cutting assembly 1130, and each adhesive clamping assembly 12 is correspondingly provided with a second adhesive cutting assembly 1130, where the second adhesive cutting assembly 1130 is used for cutting the adhesive tape 300 clamped by the adhesive clamping assembly 12, so that the starting end of the adhesive tape 300 exceeds the length of the adhesive clamping assembly 12 by a certain amount. Thus, when the new adhesive tape 300 is replaced, the length of the adhesive tape section formed by cutting the starting end of the adhesive tape 300 is the same as the length of other adhesive tape sections, so as to meet the adhesive tape requirement.

The second adhesive cutting assembly 1130 includes a second adhesive cutting driving member 1131 and a second cutter 1132, the second cutter 1132 is connected to the second adhesive cutting driving member 1131, and the second adhesive cutting driving member 1131 is used for driving the second cutter 1132 to move so as to cut the adhesive tape 300. Optionally, the second adhesive cutting driving member 1131 is configured to drive the second cutter 1132 to move along the first direction, where the second cutter 1132 is perpendicular to the adhesive tape 300, so as to cut off the end of the adhesive tape 300. Specifically, when cutting, the adhesive tape 300 may be pulled manually, the adhesive clamping assembly 12 clamps the adhesive tape 300, and the second adhesive cutting driving member 1131 cuts the end from between the adhesive clamping assembly 12 and the manually pulled part. Wherein the second glue cutting drive 1131 may be a cylinder or a motor.

It will be appreciated that in other embodiments, the second glue cutting assembly 1130 may be disposed in other manners, so long as the glue cutting effect is achieved, and the present invention is not limited thereto.

The working principle of the rubberizing device 100 provided by the embodiment of the application is as follows:

the fourth driving member 171 drives the second moving plate 172 to move along the first direction, so that a glue assembly 12 moves to the first position. The adhesive pulling driving member 151 drives the clamping jaw 152 to move close to the adhesive clamping assembly 12 located at the first position along the second direction, and the clamping jaw 152 clamps the adhesive tape 300 (working adhesive tape) clamped by the adhesive clamping assembly 12. The adhesive clamping driving member 121 drives the adhesive clamping blocks to move along the first direction, the first adhesive clamping block 122 and the second adhesive clamping block 123 are far away from the loosening adhesive tape 300, and the adhesive pulling driving member 151 drives the clamping jaw 152 to reversely move along the second direction to pull the adhesive tape 300 out a certain distance. The adhesive clamping driving piece 121 drives the adhesive clamping blocks to move again, and the first adhesive clamping block 122 and the second adhesive clamping block 123 are close to the adhesive clamping tape 300.

The second driving piece 232 and the third driving piece 233 of the rubberizing mechanism 20 perform position adjustment on the adsorption plate 21, so that the adsorption plate 21 is opposite to the rubberizing position in the first direction. When the suction plate 21 is opposite to the glue preparing position in the first direction, the first driving member 24 drives the suction plate 21 to move forward in the first direction to suck the adhesive tape 300, the first cutting driving member 141 drives the first cutting blade 142 to move in the first direction, and the first cutting blade 142 cooperates with the suction plate 21 to cut the adhesive tape 300 to form a tape section. The adhesive tape section is adsorbed on the adsorption plate 21, and the first driving member 24 drives the adsorption plate 21 to move reversely in the first direction. The second driving member 232 and the second driving member 232 perform position adjustment on the suction plate 21, so that the suction plate 21 is opposite to the rubberizing position in the first direction. The rotary driving member 231 drives the rotary seat 22 to rotate, the suction surface 211 of the suction plate 21 faces the material tape, and the first driving member 24 drives the suction plate 21 to move forward along the first direction, so as to press and adhere the adhesive tape section to the material tape supported on the supporting block 30. After the tape segments are attached to the web, the drives of the taping mechanism 20 are reversed to remove the tape again.

It should be noted that, when the unreeling assembly 11 corresponding to the first adhesive-clamping assembly 12 is unreeled to output the adhesive tape 300, a standby adhesive tray may be installed on the other adhesive-clamping assemblies 12, and the standby adhesive tape unreeled from the standby adhesive tray is inserted between the first adhesive-clamping block 122 and the second adhesive-clamping block 123. The second cutter 1131 drives the second cutter 1132 to move, and cuts off the end of the standby adhesive tape, so that the initial end of the adhesive tape 300 exceeds the adhesive block to a certain position. When the unwinding of the working adhesive disc is completed, the fourth driving member 171 drives the second moving plate 172 to move again along the first direction, so that the other adhesive clamping assembly 12 moves to the first position, and the standby adhesive disc is used as the working adhesive disc to start to be unwound according to the above steps, and finally cut into adhesive tape segments. The circulation is performed in this way, and the continuous glue preparation of the glue preparation mechanism 10 is ensured.

It should be noted that, the plurality of rubberizing mechanisms 20 and the plurality of rubberizing mechanisms 10 of the plurality of rubberizing mechanism groups B can act simultaneously to rubberize a plurality of material strips simultaneously, thereby ensuring rubberizing efficiency.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. 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 utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (11)

1. The rubberizing mechanism is characterized by comprising an adsorption plate (21), a rotating seat (22) and a first driving assembly (23), wherein the rotating seat (22) is arranged on the first driving assembly (23), and the adsorption plate (21) is arranged on the rotating seat (22);

The first driving assembly (23) is used for driving the rotating seat (22) to move for position adjustment, so that the adsorption plate (21) can move to be opposite to the glue preparation position of the glue preparation mechanism (10) in a first direction or opposite to the glue sticking position of the material belt in the first direction;

The first driving assembly (23) is further used for driving the rotating seat (22) to rotate around a rotating axis, so that the adsorption surface (211) of the adsorption plate (21) can rotate to face the adhesive tape section when the adsorption plate is opposite to the adhesive preparation position, or the adsorption surface (211) of the adsorption plate (21) can rotate to face the material belt when the adsorption plate is opposite to the adhesive sticking position, and the extending direction of the rotating axis is intersected with the first direction.

2. The rubberizing mechanism according to claim 1, further comprising a first driving member (24), said first driving member (24) being mounted on said rotary base (22), said suction plate (21) being connected to said first driving member (24), said first driving member (24) being adapted to drive said suction plate (21) in said first direction with respect to said rotary base (22).

3. A rubberizing mechanism according to claim 1, wherein said first drive assembly (23) comprises a drive unit and a rotary drive member (231), said rotary drive member (231) being mounted on said drive unit, said rotary seat (22) being connected to said rotary drive member (231);

The driving unit is used for driving the rotary driving piece (231) to move so as to adjust the position of the rotary seat (22), and the rotary driving piece (231) is used for driving the rotary seat (22) to rotate around the rotation axis relative to the driving unit.

4. A rubberizing mechanism according to claim 3, wherein said driving unit comprises a second driving member (232) and a third driving member (233) connected, said second driving member (232) and said third driving member (233) are respectively used for driving said rotary driving member (231) to move along a second direction and a third direction, said first direction, said second direction and said third direction are intersected two by two, and said extension direction of said rotation axis is parallel to said second direction or said third direction.

5. The rubberizing mechanism according to claim 1, wherein the rubberizing mechanism comprises a plurality of adsorption plates (21), the adsorption plates (21) are sequentially arranged on the rotating seat (22) along a third direction, and the adsorption surfaces (211) of the adsorption plates (21) are oriented identically;

The first direction intersects the third direction.

6. A rubberizing device (100) comprising a glue preparation mechanism (10) and a rubberizing mechanism according to any one of claims 1-5, wherein an adsorption plate (21) of the rubberizing mechanism is used for adsorbing a tape section provided by the glue preparation mechanism (10) and adhering the tape section to a material tape.

7. The rubberizing device (100) according to claim 6, wherein said rubberizing device (100) comprises a plurality of sets of rubberizing mechanisms (B) and a plurality of said rubberizing mechanisms, each set of said sets of rubberizing mechanisms (B) comprising at least one of said rubberizing mechanisms (10);

The glue preparation mechanism groups (B) and the glue pasting mechanisms are sequentially arranged along a third direction, each glue pasting mechanism corresponds to one glue preparation mechanism group (B), and each adsorption plate (21) corresponds to one glue preparation mechanism (10);

The first direction intersects the third direction.

8. The rubberizing device (100) according to claim 6, wherein the rubberizing device (100) comprises a plurality of rubberizing mechanisms which are sequentially arranged along a third direction, the first driving assembly (23) comprises a third driving piece (233), the rotating seat (22) is connected with the third driving piece (233), and the third driving piece (233) is used for driving the rotating seat (22) to move along the third direction, wherein the first direction is intersected with the third direction, and the third direction is parallel to the conveying direction of the material belt;

The rubberizing device (100) further comprises a power piece (60), wherein the power piece (60) comprises a main body (61) and a plurality of moving parts (62) capable of independently moving relative to the main body (61) along the third direction, and each moving part (62) serves as one third driving piece (233).

9. The rubberizing device (100) according to claim 6, wherein the rubberizing device (100) further comprises a support block (30), the support block (30) and the glue preparation mechanism (10) are arranged at intervals in the first direction, the support block (30) is used for supporting a material belt, and the adsorption plate (21) controllably adheres a tape section to the material belt supported on the support block (30).

10. The rubberizing device (100) according to claim 9, wherein both upstream and downstream of said support block (30) are provided with a first pass roller (40), said first pass roller (40) protruding said support block (30) for conveying the web downstream.

11. The rubberizing device (100) according to claim 6, wherein said glue preparation mechanism (10) comprises:

at least two unreeling assemblies (11) for unreeling the output tape (300);

The two adhesive clamping assemblies (12) are arranged in one-to-one correspondence with the unreeling assemblies (11), and the adhesive clamping assemblies (12) are arranged at the downstream of the corresponding unreeling assemblies (11) and are used for clamping adhesive tapes (300) unreeled and output by the unreeling assemblies (11);

The adhesive tape pulling device comprises a first adhesive cutting assembly (14) and an adhesive pulling assembly (15) which are positioned at the downstream of an adhesive clamping assembly (12), wherein the first adhesive cutting assembly (14) is arranged between the adhesive clamping assembly (12) and the adhesive pulling assembly (15), the adhesive clamping assembly (12) can move relative to the first adhesive cutting assembly (14) and the adhesive pulling assembly (15) along the first direction, the adhesive clamping assembly (12) is alternatively opposite to the adhesive pulling assembly (15) along the second direction, the adhesive pulling assembly (15) is used for pulling out an adhesive tape (300) clamped by the adhesive clamping assembly (12) opposite to the adhesive clamping assembly along the second direction, the first adhesive cutting assembly (14) is used for cutting the adhesive tape (300) pulled out by the adhesive pulling assembly (15) to form an adhesive tape section, and the first direction is intersected with the second direction.