CN218024597U - Adhesive tape sticking mechanism - Google Patents

Abstract

The utility model discloses a tape pasting mechanism, this tape pasting mechanism includes: the adhesive tape sticking device comprises an adhesive tape sticking base, an adhesive tape sticking transverse moving component, an adhesive tape sticking longitudinal moving component and an adhesive tape sticking component. The tape sticking mechanism clamps the battery cell to be glued together through the upper tape sticking nozzle and the lower tape sticking nozzle, the tape sticking transverse moving assembly and the tape sticking longitudinal moving assembly are coordinated and matched together, and the tape positioned on the tape outlet mechanism is stuck to the surface of the battery cell to be glued, so that manual operation is replaced, and the tape sticking efficiency is improved; simultaneously, rubberizing nozzle and lower rubberizing nozzle itself possess the air-jet function, blow off the air current to the sticky tape at the in-process of rubberizing area, and the better laminating of supplementary sticky tape is on the surface of treating rubberizing electric core, and the effort contact electric core that this process has more external parts to avoid producing destruction to electric core structure at electric core rubberizing area in-process, improve the production yield of electric core effectively, and improved the production efficiency of electric core.

Description

Adhesive tape sticking mechanism

Technical Field

The utility model relates to an electricity core production facility technical field especially relates to a rubberizing tape mechanism.

Background

Along with the progress of science and technology and the development of technology, in the production process of battery electric core, need use the sticky tape to carry out the processing of rubberizing tape to the surface of electric core after the hot pressing, fix electric core and battery casing or improve the intensity on electric core surface or prevent that electric core surface from being impaled through the sticky tape. At present, the adhesive tape can be quickly attached to the surface of the battery cell by the adhesive tape attaching mechanism, manual adhesive tape attaching is replaced, and production efficiency is improved.

However, the traditional tape sticking mechanism often adopts the form of a roller to roll the tape on the surface of the hot-pressed battery cell, and the rolling process can exert force on the surface of the battery cell, if the force generated on the battery cell in the rolling process cannot be balanced, the internal structure of the battery cell which is just hot-pressed can be deformed, and then the battery cell structure can be damaged to become a defective product, which seriously affects the production efficiency and quality of the battery cell.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a tape attaching mechanism for solving the technical problem of how to avoid damage to the cell structure during the process of attaching a tape to a cell.

A taping mechanism, comprising: a rubberizing tape base, a rubberizing transverse moving component, a rubberizing longitudinal moving component and a rubberizing component,

the rubberizing transverse moving assembly comprises a rubberizing transverse moving motor, a rubberizing transverse moving synchronous ring belt and a rubberizing transverse moving guide rail, the rubberizing transverse moving motor, the rubberizing transverse moving synchronous ring belt and the rubberizing transverse moving guide rail are respectively installed on the rubberizing tape base, the rubberizing transverse moving synchronous ring belt is in driving connection with the output end of the rubberizing transverse moving motor, and the rubberizing transverse moving guide rail is parallel to the rubberizing transverse moving synchronous ring belt;

the rubberizing longitudinal moving assembly comprises a rubberizing longitudinal moving mounting plate, a rubberizing longitudinal moving air cylinder, a rubberizing longitudinal moving guide rail and a rubberizing vertical supporting seat, the rubberizing longitudinal moving mounting plate is in sliding connection with the rubberizing transverse moving guide rail and is fixedly connected with the rubberizing transverse moving synchronous ring belt, the rubberizing longitudinal moving air cylinder and the rubberizing longitudinal moving guide rail are respectively mounted on the rubberizing longitudinal moving mounting plate, the extending direction of the rubberizing longitudinal moving guide rail is perpendicular to that of the rubberizing transverse moving guide rail, and the rubberizing vertical supporting seat is in sliding connection with the rubberizing longitudinal moving guide rail;

the rubberizing subassembly includes rubberizing double-acting cylinder, rubberizing nozzle and lower rubberizing nozzle, rubberizing double-acting cylinder installs on the upright supporting seat of rubberizing, the rubberizing mount pad with the first effect end of rubberizing double-acting cylinder is connected, down the rubberizing mount pad with the second effect end of rubberizing double-acting cylinder is connected, the rubberizing nozzle is installed the rubberizing mount pad, the rubberizing nozzle is installed down the rubberizing mount pad, the rubberizing nozzle with the rubberizing nozzle sets up side by side down, the rubberizing nozzle with the rubberizing nozzle is used for common centre gripping to treat the rubberizing electricity core down.

In one embodiment, the rubberizing traverse assembly further comprises a rubberizing traverse driven wheel, the rubberizing traverse driven wheel is rotatably mounted on the rubberizing tape base, the rubberizing traverse motor and the rubberizing traverse driven wheel are respectively located at two ends of the rubberizing tape base, one end of the rubberizing traverse synchronous belt is in driving connection with an output end of the rubberizing traverse motor, the other end of the rubberizing traverse synchronous belt is sleeved on the rubberizing traverse driven wheel, and the rubberizing traverse guide rail is parallel to a part of the rubberizing traverse synchronous belt located between the rubberizing traverse motor and the rubberizing traverse driven wheel.

In one embodiment, the rubberizing assembly further comprises a rubberizing mount and a lower rubberizing mount, the rubberizing mount is connected with a first action end of the rubberizing double-acting cylinder, the lower rubberizing mount is connected with a second action end of the rubberizing double-acting cylinder, the rubberizing nozzle is installed in the rubberizing mount, the lower rubberizing nozzle is installed in the lower rubberizing mount, one end of the rubberizing return spring is connected with the rubberizing mount, and the other end of the rubberizing return spring is connected with the lower rubberizing mount.

In one embodiment, the rubberizing assembly further comprises a nozzle clamping spring, one end of the nozzle clamping spring is connected with the upper rubberizing mounting seat, and the other end of the nozzle clamping spring is connected with the lower rubberizing mounting seat.

In one embodiment, the upper rubberized nozzle comprises an upper coarse-hole nozzle plate and an upper fine-hole nozzle clamping plate, the upper coarse-hole nozzle plate is connected with the upper rubberized mounting seat, the upper fine-hole nozzle clamping plate is connected with the upper coarse-hole nozzle plate, and the upper fine-hole nozzle clamping plate is arranged opposite to the lower rubberized nozzle.

In one embodiment, the lower rubberizing nozzle comprises a lower coarse-hole nozzle plate and a lower fine-hole nozzle clamping plate, the lower coarse-hole nozzle plate is connected with the lower rubberizing mounting seat, the lower fine-hole nozzle clamping plate is connected with the lower coarse-hole nozzle plate, the lower fine-hole nozzle clamping plate is arranged opposite to the upper fine-hole nozzle clamping plate, and the lower fine-hole nozzle clamping plate and the upper fine-hole nozzle clamping plate are used for clamping the battery cell to be rubberized together.

In one embodiment, the rubberizing longitudinal moving mounting plate is provided with a synchronous belt connecting block and a metal piece for a toothed synchronous belt, wherein the synchronous belt connecting block is connected with the metal piece for the toothed synchronous belt, and the synchronous belt connecting block and the metal piece for the toothed synchronous belt jointly clamp the rubberizing transverse moving synchronous belt.

In one embodiment, the rubberizing longitudinal moving installation plate is provided with a transverse moving slide block back to the rubberizing longitudinal moving guide rail, and the transverse moving slide block is connected with the rubberizing transverse moving guide rail in a sliding mode.

In one embodiment, the number of the rubberizing sideslip guide rails is two, the two rubberizing sideslip guide rails are respectively positioned at two outer sides of the rubberizing sideslip synchronous belt, the number of the sideslip sliders is two, and each sideslip slider is correspondingly connected with one rubberizing sideslip guide rail in a sliding mode.

In one embodiment, each end of the rubberizing traverse guide rail is respectively provided with a traverse limiting buffer block, and the traverse limiting buffer blocks and the rubberizing longitudinal movement mounting plates are correspondingly arranged on the same horizontal plane.

The tape sticking mechanism clamps the battery cell to be glued together through the upper tape sticking nozzle and the lower tape sticking nozzle, the tape sticking transverse moving assembly and the tape sticking longitudinal moving assembly are coordinated and matched together, and the tape positioned on the tape outlet mechanism is stuck to the surface of the battery cell to be glued, so that manual operation is replaced, and the tape sticking efficiency is improved; simultaneously, rubberizing nozzle and lower rubberizing nozzle itself possess the air-jet function, blow off the air current to the sticky tape at the in-process of rubberizing area, and the better laminating of supplementary sticky tape is on the surface of treating rubberizing electric core, and the effort contact electric core that this process has more external parts to avoid producing destruction to electric core structure at electric core rubberizing area in-process, improve the production yield of electric core effectively, and improved the production efficiency of electric core.

Drawings

FIG. 1 is a schematic view of the tape application mechanism in one embodiment;

FIG. 2 is a schematic view of the taping mechanism of the embodiment of FIG. 1 from another perspective;

FIG. 3 is an enlarged schematic view of the portion C in the embodiment shown in FIG. 1;

fig. 4 is an enlarged schematic structural view of a portion D in the embodiment shown in fig. 1.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention. In the description of the present invention, it is to 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", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

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

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" 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. As used herein, the terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are for purposes of illustration only and do not denote a single embodiment.

Referring to fig. 1, the present invention provides a tape attaching mechanism 20, where the tape attaching mechanism 20 includes: the adhesive tape pasting device comprises an adhesive tape pasting base 210, an adhesive tape pasting transverse moving component 220, an adhesive tape pasting longitudinal moving component 230 and an adhesive tape pasting component 240, wherein the adhesive tape pasting transverse moving component 220 is arranged on the adhesive tape pasting base 210, the adhesive tape pasting longitudinal moving component 230 is arranged on the adhesive tape pasting transverse moving component 220, and the adhesive tape pasting component 240 is arranged on the adhesive tape pasting longitudinal moving component 230.

The rubberizing traverse assembly 220 comprises a rubberizing traverse motor 221, a rubberizing traverse synchronous ring belt 222 and a rubberizing traverse guide rail 223, the rubberizing traverse motor 221, the rubberizing traverse synchronous ring belt 222 and the rubberizing traverse guide rail 223 are respectively installed on the rubberizing tape base 210, the rubberizing traverse synchronous ring belt 222 is in driving connection with the output end of the rubberizing traverse motor 221, and the rubberizing traverse guide rail 223 is parallel to the rubberizing traverse synchronous ring belt 222.

The rubberizing moves the subassembly 230 and indulges including the rubberizing and moves the mounting panel 231, the rubberizing moves the cylinder 232, the rubberizing moves the guide rail 233 and the upright supporting seat 234 that rubberizes, the rubberizing moves the mounting panel 231 and moves the guide rail 223 sliding connection that sideslips, the rubberizing moves the mounting panel 231 and moves the synchronous clitellum 222 fixed connection that rubberizing sideslip is indulged to the rubberizing, rubberizing moves the cylinder 232 and moves the guide rail 233 and install respectively on the rubberizing moves the mounting panel 231 that indulges, the rubberizing moves the extending direction of guide rail 233 and the rubberizing sideslip guide rail 223 perpendicularly, the upright supporting seat 234 that rubberizing moves the guide rail 233 sliding connection that rubberizing moves with indulging.

Rubberizing subassembly 240 includes rubberizing double-acting cylinder 241, rubberizing nozzle 242 and rubberizing nozzle 243 down, rubberizing double-acting cylinder 241 installs on upright supporting seat 234 of rubberizing, the rubberizing mount pad is connected with the first effect end of rubberizing double-acting cylinder 241, the second effect end of rubberizing mount pad and rubberizing double-acting cylinder 241 is connected down, rubberizing nozzle 242 installs at the rubberizing mount pad, rubberizing nozzle 243 installs rubberizing mount pad under, rubberizing nozzle 242 sets up with rubberizing nozzle 243 down side by side, rubberizing nozzle 242 is used for common centre gripping with rubberizing nozzle 243 and treats rubberizing electricity core.

Above-mentioned rubberizing tape mechanism 20, through the common centre gripping of rubberizing nozzle 242 and lower rubberizing nozzle 243 wait to rubberize electric core, rubberizing sideslip subassembly 220 and the cooperation of coordinating jointly that rubberizing moves from beginning to end subassembly 230, will be located the sticky tape subsides of sticky tape mechanism and establish to the surface of waiting to rubberize electric core, replace manual work, improve the efficiency of rubberizing tape. Meanwhile, the upper adhesive tape sticking nozzle 242 and the lower adhesive tape sticking nozzle 243 have an air injection function, air flow is blown out of the adhesive tapes in the process of sticking the adhesive tapes, the adhesive tapes are well attached to the surface of the battery cell to be stuck, and the process does not have the action force of more external parts to contact the battery cell, so that the battery cell structure is prevented from being damaged in the process of sticking the adhesive tapes to the battery cell, the production yield of the battery cell is effectively improved, and the production efficiency of the battery cell is improved.

In order to better drive the rubberizing traverse synchronous belt 222 to transmit, the rubberizing traverse assembly 220 further comprises a rubberizing traverse driven wheel 224, the rubberizing traverse driven wheel 224 is rotatably installed on the rubberizing base 210, the rubberizing traverse motor 221 and the rubberizing traverse driven wheel 224 are respectively arranged at two ends of the rubberizing base 210, one end of the rubberizing traverse synchronous belt 222 is in driving connection with an output end of the rubberizing traverse motor 221, and the other end of the rubberizing traverse synchronous belt 222 is sleeved on the rubberizing traverse driven wheel 224. For example, the output end of the rubberizing traverse motor 221 is a driving wheel, two ends of the rubberizing traverse synchronous belt 222 are respectively sleeved on the rubberizing traverse driven wheel 224 and the driving wheel, when the rubberizing traverse motor 221 works, the rubberizing traverse synchronous belt 222 is driven to transmit between the rubberizing traverse driven wheel 224 and the driving wheel, and the transmission direction is changed according to the rotation direction of the rubberizing traverse motor 221 and comprises a clockwise direction and a counterclockwise direction. In this manner, the rubberizing traverse synchronous belt 222 can be driven to reciprocate along the rubberizing traverse guide 223 better.

The rubberizing traverse guide 223 is parallel to a portion of the rubberizing traverse synchronizing belt 222 between the rubberizing traverse motor 221 and the rubberizing traverse driven pulley 224. That is, the longitudinal direction of the rubberizing traverse guide 223 is parallel to the conveying direction of the rubberizing traverse synchronizing belt 222. Thus, when the traverse motor 221 is operated, the traverse synchronous belt 222 can more smoothly move the traverse mounting plate 231 along the longitudinal direction of the traverse guide 223.

As shown in fig. 1, 2 and 3, the rubberizing assembly 240 further includes a rubberizing mount 2421 and a lower rubberizing mount 2431, the rubberizing mount 2421 is connected to a first acting end of the rubberizing double-acting cylinder 241, the lower rubberizing mount 2431 is connected to a second acting end of the rubberizing double-acting cylinder 241, the rubberizing nozzle 242 is mounted on the rubberizing mount 2421, and the lower rubberizing nozzle 243 is mounted on the lower rubberizing mount 2431. In this embodiment, the upper adhesive mounting seat 2421 and the lower adhesive mounting seat 2431 are both L-shaped plate structures. The back of the rubberizing mount 2421 is connected with the first acting end of the rubberizing double-acting cylinder 241 through a rubberizing extension plate 2422, the front of the rubberizing mount 2421 is connected with the rubberizing nozzle 242, the back of the lower rubberizing mount 2431 is connected with the second acting end of the rubberizing double-acting cylinder 241 through a lower rubberizing extension plate 2432, and the front of the lower rubberizing mount 2431 is connected with the lower rubberizing nozzle 243. Therefore, the rubberizing nozzle 242 and the lower rubberizing nozzle 243 are located on the side face of the rubberizing double-acting cylinder 241, so that after the battery cell to be rubberized is clamped by the rubberizing nozzle 242 and the lower rubberizing nozzle 243, the battery cell to be rubberized is matched with the tape outlet mechanism to be rubberized for tape pasting.

The rubberizing assembly 240 further comprises a nozzle clamping spring 245, one end of the nozzle clamping spring 245 is connected with the upper rubberizing mount 2421, and the other end of the nozzle clamping spring 245 is connected with the lower rubberizing mount 2431. In one embodiment, the nozzle clamping spring comprises a plurality of nozzle tension springs, the plurality of nozzle tension springs are connected in a string at one time, one end of the string of nozzle tension springs is connected with the rubberizing mount 2421, and the other end of the string of nozzle tension springs is connected with the rubberizing mount 2431. It is understood that the nozzle clamping spring 245 limits the movement of the rubberizing mounts 2421 away from the lower rubberizing mounts 2431, i.e. limits the separation of the rubberizing mounts 2421 and the lower rubberizing mounts 2431, and the separation of the rubberizing mounts 2421 and the lower rubberizing mounts 2431 is to enlarge the distance between the rubberizing nozzles 242 and 243 for clamping the battery cell to be rubberized. In this embodiment, the rubberizing double-acting cylinder 241 only needs to overcome the nozzle clamping spring 245 to do work under the action of the nozzle clamping spring 245, and the distance between the upper rubberizing nozzle 242 and the lower rubberizing nozzle 243 is separated to meet the requirement of clamping a battery cell to be rubberized, and the battery cell to be rubberized can stop working after being clamped, and at this time, the battery cell to be rubberized can be continuously clamped between the upper rubberizing nozzle 242 and the lower rubberizing nozzle 243 by means of elasticity under the action of the nozzle clamping spring 245, so that on one hand, the clamping stability can be ensured, and on the other hand, the energy saving and environmental protection are also achieved.

The rubberizing nozzles 242 include an upper coarse nozzle plate 2423 and an upper fine nozzle clamping plate 2424, the upper coarse nozzle plate 2423 is connected to the rubberizing mount 2421, the upper fine nozzle clamping plate 2424 is connected to the upper coarse nozzle plate 2423, and the upper fine nozzle clamping plate 2424 is disposed opposite to the lower rubberizing nozzles 243. The lower rubberizing nozzle 243 comprises a lower coarse hole nozzle plate 2433 and a lower fine hole nozzle clamping plate 2434, the lower coarse hole nozzle plate 2433 is connected with the lower rubberizing mounting seat 2431, the lower fine hole nozzle clamping plate 2434 is connected with the lower coarse hole nozzle plate 2433, the lower fine hole nozzle clamping plate 2434 is arranged opposite to the upper fine hole nozzle clamping plate 2424, and the lower fine hole nozzle clamping plate 2434 and the upper fine hole nozzle clamping plate 2424 are used for clamping a battery cell to be rubberized together. The upper coarse hole nozzle plate 2423 is connected with a first coarse air nozzle of the external air injector, the upper fine hole nozzle clamping plate 2424 is connected with a first fine air nozzle of the external air injector, the lower coarse hole nozzle plate 2433 is connected with a second coarse air nozzle of the external air injector, and the lower fine hole nozzle clamping plate 2434 is connected with a second fine air nozzle of the external air injector. The upper fine hole nozzle clamping plate 2424 and the lower fine hole nozzle clamping plate 2434 are directly contacted with the battery cell to be glued, the air jet machine respectively supplies air to the upper coarse hole nozzle plate 2423, the upper fine hole nozzle clamping plate 2424, the lower coarse hole nozzle plate 2433 and the lower fine hole nozzle clamping plate 2434 during working, the upper coarse hole nozzle plate 2423, the upper fine hole nozzle clamping plate 2424, the lower coarse hole nozzle plate 2433 and the lower fine hole nozzle clamping plate 2434 blow air to the adhesive tape on the adhesive tape outlet mechanism in the adhesive tape gluing process, so that the adhesive tape can be quickly and flatly pasted on the battery cell to be glued, no more external parts are needed in the process to contact the battery cell, the damage to the battery cell structure in the battery cell adhesive tape gluing process is avoided, the production yield of the battery cell is effectively improved, and the production efficiency of the battery cell is improved.

As shown in fig. 1 and 4, in one embodiment, the rubberizing longitudinal moving mounting plate 231 is provided with a synchronous belt connecting block 2311 and a toothed synchronous belt metal piece 2312 opposite to the rubberizing longitudinal moving guide rail 233, the synchronous belt connecting block 2311 is connected with the toothed synchronous belt metal piece 2312, and the rubberizing transverse moving synchronous belt 222 is clamped by the synchronous belt connecting block 2311 and the toothed synchronous belt metal piece 2312 together. That is, the rubberizing traverse synchronizing endless belt 222 is inserted between the synchronizing belt connecting block 2311 and the metal piece 2312 for the toothed synchronizing belt, the synchronizing belt connecting block 2311 is fixed below the rubberizing longitudinal movement mounting plate 231, the metal piece 2312 for the toothed synchronizing belt is fixed on the outer side wall of the synchronizing belt connecting block 2311 through screws, and the rubberizing traverse synchronizing endless belt 222 is fixed together in the fixing process. Thus, under the action of the synchronous belt connecting block 2311 and the metal piece 2312 for the toothed synchronous belt, the synchronism between the rubberizing transverse moving synchronous belt 222 and the rubberizing longitudinal moving mounting plate 231 is effectively maintained, and the rubberizing longitudinal moving mounting plate 231 can be driven to move by the rubberizing transverse moving synchronous belt 222 under the driving of the rubberizing transverse moving motor 221, so that the rubberizing longitudinal moving mounting plate 231 and the rubberizing transverse moving synchronous belt 222 can synchronously move.

As shown in fig. 4, the rubberizing longitudinal moving mounting plate 231 is further provided with a transverse moving slider 2313 opposite to the rubberizing longitudinal moving guide rail 233, and the transverse moving slider 2313 is slidably connected with the rubberizing transverse moving guide rail 223. Alternatively, the traverse slide 2313 is disposed opposite the rubberizing longitudinal movement cylinder 232. Alternatively, the traverse slide 2313 is slidably fitted over the rubberized traverse guide 223. Alternatively, the traverse slider 2313 is disposed in parallel with the timing belt connection block 2311. In this way, the traverse slider 2313 allows the rubberizing traverse mounting plate 231 to slide in the longitudinal direction of the rubberizing traverse guide 223.

In order to improve the stability of the movement of the rubberizing longitudinal moving mounting plate 231, in an embodiment, the number of rubberizing transverse moving guide rails 223 is two, two rubberizing transverse moving guide rails 223 are respectively arranged at two outer sides of the rubberizing transverse moving synchronous belt 222, the number of transverse moving sliders 2313 is two, and each transverse moving slider 2313 is correspondingly connected with one rubberizing transverse moving guide rail 223 in a sliding manner. Thus, on the basis that the two traverse sliders 2313 are correspondingly arranged on the two rubberizing traverse guide rails 223, the rubberizing longitudinal movement mounting plate 231 can stably and reliably reciprocate on the rubberizing tape base 210 along with the rubberizing traverse synchronous endless belt 222.

In order to prevent the rubberizing longitudinal moving mounting plate 231 from falling off from the end of the rubberizing transversal moving guide rail 223, as shown in fig. 1, in an embodiment, a transversal moving limiting buffer block 2231 is respectively disposed at each end of the rubberizing transversal moving guide rail 223, and the transversal moving limiting buffer block 2231 and the rubberizing longitudinal moving mounting plate 231 are disposed on the same horizontal plane. That is, one traverse limiting buffer 2231 is provided at each end of the rubberized traverse guide 223. The transverse-moving limiting buffer block 2231 is made of an elastic material. Thus, when the rubberizing longitudinal moving mounting plate 231 moves to the end of the rubberizing transverse moving guide rail 223 and contacts the transverse moving limiting buffer block 2231, the rubberizing transverse moving motor 221 stops working, the inertia of the rubberizing longitudinal moving mounting plate 231 brings kinetic energy, and the kinetic energy can be absorbed by the transverse moving limiting buffer block 2231 when the rubberizing longitudinal moving mounting plate 231 moves to the end of the rubberizing transverse moving guide rail 223 and contacts the transverse moving limiting buffer block 2231, so that on one hand, the rubberizing longitudinal moving mounting plate 231 can be prevented from falling from the end of the rubberizing transverse moving guide rail 223, on the other hand, the rubberizing longitudinal moving mounting plate 231 can be prevented from impacting the rubberizing transverse moving motor 221 or other components to cause damage to the rubberizing transverse moving motor 221 or other components, and the service life of the device is effectively prolonged.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. A taping mechanism, comprising:

sticking a tape base;

the rubberizing sideslip assembly comprises a rubberizing sideslip motor, a rubberizing sideslip synchronous ring belt and a rubberizing sideslip guide rail, wherein the rubberizing sideslip motor, the rubberizing sideslip synchronous ring belt and the rubberizing sideslip guide rail are respectively arranged on the rubberizing tape base, the rubberizing sideslip synchronous ring belt is in driving connection with the output end of the rubberizing sideslip motor, and the rubberizing sideslip guide rail is parallel to the rubberizing sideslip synchronous ring belt;

the rubberizing longitudinal moving assembly comprises a rubberizing longitudinal moving mounting plate, a rubberizing longitudinal moving air cylinder, a rubberizing longitudinal moving guide rail and a rubberizing vertical supporting seat, wherein the rubberizing longitudinal moving mounting plate is slidably connected with the rubberizing transverse moving guide rail and fixedly connected with the rubberizing transverse moving synchronous ring belt;

rubberizing subassembly, including rubberizing double-acting cylinder, rubberizing nozzle, lower rubberizing nozzle, rubberizing mount pad and lower rubberizing mount pad, rubberizing double-acting cylinder installs on the upright supporting seat of rubberizing, the rubberizing mount pad with the first effect end of rubberizing double-acting cylinder is connected, down the rubberizing mount pad with the second effect end of rubberizing double-acting cylinder is connected, the rubberizing nozzle is installed the rubberizing mount pad, down the rubberizing nozzle is installed the rubberizing mount pad, the rubberizing nozzle is installed down the rubberizing mount pad, the rubberizing nozzle with the rubberizing nozzle sets up side by side down, the rubberizing nozzle with the rubberizing nozzle is used for common centre gripping to treat the rubberizing electricity core down.

2. A tape laying mechanism as defined in claim 1, wherein said tape laying traversing assembly further comprises a tape laying traversing driven wheel rotatably mounted on said tape laying base, said tape laying traversing motor and said tape laying traversing driven wheel being disposed at opposite ends of said tape laying base, one end of said tape laying traversing synchronous belt being drivingly connected to an output of said tape laying traversing motor, the other end of said tape laying traversing synchronous belt being disposed about said tape laying traversing driven wheel, said tape laying traversing guide being parallel to a portion of said tape laying traversing synchronous belt disposed between said tape laying traversing motor and said tape laying traversing driven wheel.

3. A taping mechanism according to claim 1, wherein the taping assembly further includes a nozzle clamping spring, one end of the nozzle clamping spring being connected to the upper taping mounting seat and the other end of the nozzle clamping spring being connected to the lower taping mounting seat.

4. A taping mechanism according to claim 1, wherein the topping nozzle comprises a top coarse nozzle plate connected to the topping mounting base and a top fine nozzle clamping plate connected to the top coarse nozzle plate, the top fine nozzle clamping plate being disposed opposite the bottom taping nozzle.

5. A tape mechanism according to claim 4, wherein the lower pasting nozzle comprises a lower coarse nozzle plate and a lower fine nozzle clamping plate, the lower coarse nozzle plate is connected with the lower pasting mounting seat, the lower fine nozzle clamping plate is connected with the lower coarse nozzle plate, the lower fine nozzle clamping plate is arranged opposite to the upper fine nozzle clamping plate, and the lower fine nozzle clamping plate and the upper fine nozzle clamping plate are used for clamping the battery cell to be pasted together.

6. A tape laying mechanism according to claim 1, wherein said tape laying longitudinal movement mounting plate is provided with a synchronous belt connecting block and a toothed synchronous belt metal member facing away from said tape laying longitudinal movement guide rail, said synchronous belt connecting block being connected to said toothed synchronous belt metal member, said synchronous belt connecting block and said toothed synchronous belt metal member holding said tape laying transverse movement synchronous belt together.

7. A tape laying mechanism as claimed in claim 1, wherein said tape laying longitudinally moving mounting plate is provided with a traverse slider facing away from said tape laying longitudinally moving guide, said traverse slider being slidably connected to said tape laying transversely moving guide.

8. A tape laying mechanism according to claim 7, wherein the number of said rubberizing traverse guides is two, two of said rubberizing traverse guides being respectively located on both outer sides of said rubberizing traverse synchronization belt, and the number of said traverse blocks is two, each of said traverse blocks being correspondingly slidably connected to one of said rubberizing traverse guides.

9. A tape laying mechanism according to claim 8, wherein a traverse limit buffer is provided at each end of said laying traverse guide, said traverse limit buffer being provided on the same horizontal plane as said laying longitudinal movement mounting plate.

Images