CN212542493U - A glue sticking device and battery production equipment - Google Patents

Abstract

The invention relates to a glue sticking device and battery production equipment. The glue sticking device comprises a glue feeding component, which is used for the installation of the tape roll and continuously releases the tape for the glue preparation mechanism; the glue pressing component is arranged adjacent to the glue feeding component, and uses It is used for the transmission and fixation of the tape; the glue preparation mechanism is used for the adsorption and transmission of the tape. The glue preparation mechanism includes the glue sticking assembly and the glue pulling assembly. The rubber-pulling component pulls one side of the tape. The rubber-pulling component is used for tape, conveying and transferring. The rubber-pulling component transfers the tape to the sticking component during the process of conveying the tape, and drives the sticking component to move; the cutting component, located in the pressure Between the glue assembly and the pull glue assembly, it is used to cut off the adhesive tape after being adsorbed and fixed by the pressure glue assembly, and the battery production equipment is the equipment including the glue sticking device. The glue sticking device of the invention has the advantages of being compatible with different widths and lengths of tapes, improving production efficiency and simplifying the glue sticking structure.

Description

Rubberizing device and battery production facility

Technical Field

The invention relates to the technical field of rubberizing, in particular to a rubberizing device and battery production equipment.

Background

The existing rubberizing device or equipment is in the process of fixing the length of an adhesive tape and rubberizing, and due to the fact that the rubberizing roller is lack of a necessary rubberizing component and the rubberizing component cannot integrally rotate along with the rubberizing roller, the adhesive tape adsorbed to the rubberizing roller cannot be completely attached to the rubberizing roller, and abnormal phenomena such as wrinkles at the front end of the adhesive tape, vacuum leakage of the rubberizing roller and the like are easily caused.

In order to solve the problems, the applicant provides a rubberizing device, wherein a rubberizing component is arranged to enable the rubberizing component and a rubberizing roller to synchronously turn over, but the structure is realized by arranging a one-way clutch at one end of the rubberizing roller and connecting the rubberizing roller with a driving mechanism, the rubberizing device is used for solving the problems that the existing rubberizing mechanism leaks vacuum and cannot draw rubberizing in a long distance, the rubberizing efficiency and stability are improved, but the action of cutting the rubberizing tape is required to be completed on the rubberizing roller, so that a cutter groove is required to be arranged on the rubberizing roller, the action of cutting the rubberizing tape occupies the time of the whole rubberizing action, the rubberizing efficiency is reduced, and the rubberizing length is limited due to the fact that cutting and tape stitching are required to be synchronously carried out on the rubberizing roller, the requirement of short rubberizing tape gluing cannot be met, meanwhile, in the existing rubberizing station, when different types of rubberizing tapes are changed, parts, the remodeling time is increased.

Disclosure of Invention

The invention provides a rubberizing device and battery production equipment which are compatible with adhesive tapes with different widths and lengths, improve production efficiency and simplify a rubberizing structure.

In order to achieve the above purpose, the following technical solutions are provided.

The utility model provides a rubberizing device, send gluey subassembly, moulding subassembly and be equipped with gluey mechanism including adjacent setting in proper order, it includes the rubberizing subassembly and draws gluey subassembly to be equipped with gluey mechanism, draw gluey subassembly to be located moulding subassembly and keep away from the one side of sending gluey subassembly, the rubberizing subassembly is located and draws the relative one side that gluey subassembly snatched the sticky tape face, draw gluey subassembly to shift the sticky tape on the rubberizing subassembly to drive rubberizing subassembly motion. According to the adhesive tape sticking device, the adhesive tape pressing component is arranged in front of the adhesive tape preparing mechanism, and the fixed-length adhesive tape is fixed after the adhesive tape released by the adhesive tape feeding component is adsorbed and conveyed to the adhesive tape preparing mechanism by the adhesive tape pressing component; after the fixed-length adhesive tape is conveyed to the adhesive preparation mechanism, when the adhesive pulling assembly drives the fixed-length adhesive tape to move forwards continuously, the adhesive pasting assembly is synchronously driven to rotate, and the fixed-length adhesive tape on the adhesive pulling assembly is transferred to the adhesive pasting assembly. This kind of rubberizing device structure sets up through drawing gluey subassembly and rubberizing subassembly cooperation, utilize to draw gluey subassembly drive rubberizing subassembly motion, and shift the sticky tape to on the rubberizing subassembly, it draws gluey length of drawing of gluey subassembly not received the restriction of rubberizing subassembly, can be according to the compatible different width of actual conditions, the sticky tape of different length, and in the time of different sticky tape remodelling, can reduce the frequency that the part was changed, effectively avoided among the prior art, when the rubberizing roller is as the drive roller, the rubberizing roller rubberizing must adsorb sticky tape and rotatory one section distance, lead to unable realization short gluey or the gluey problem of termination of rubberizing. Draw gluey subassembly and rubberizing subassembly's cooperation setting, the one end of drawing gluey subassembly links up with the rubberizing subassembly, the sticky tape that will send gluey subassembly conveying through the rubberizing subassembly is equipped with to glue to drawing gluey subassembly on, the other end of drawing gluey subassembly links up with the rubberizing subassembly, drawing gluey subassembly and being equipped with gluey in-process, the drive rubberizing subassembly rotates, shift the sticky tape to the rubberizing subassembly simultaneously, draw gluey subassembly to glue to the fixed length promptly and carry out the sticky tape and shift when, draw gluey subassembly to last to be equipped with gluey with the one end that the rubberizing subassembly links up, it goes on to reach sticky tape shift and sticky tape and be equipped with gluey linking, whole rubberizing flow is compact, the equipment production time has been saved. Through the cooperation setting of rubberizing subassembly and drawing the gluey subassembly, rotate by drawing gluey subassembly drive rubberizing subassembly, make the sticky tape shift to the rubberizing subassembly by drawing the gluey subassembly at rubberizing subassembly pivoted in-process simultaneously, the rubberizing subassembly is by drawing gluey subassembly drive, has simplified the structure of rubberizing subassembly greatly, has reduced the cost of rubberizing subassembly.

Further, draw gluey subassembly including drawing gluey, draw the below of gluing the piece and be equipped with and draw gluey actuating mechanism of drawing that gluey is connected with drawing gluey and two parallel distribution draw gluey guide rails, draw gluey piece and draw gluey along drawing gluey guide rail removal under the effect that draws gluey actuating mechanism and draw. Draw the setting of gluing the piece, after the moulding subassembly conveys the sticky tape that adsorbs to drawing the gluing piece, draw the gluing piece to adsorb the sticky tape, make the sticky tape shift to drawing the gluing piece from the moulding subassembly, draw the gluing piece to draw to glue and drive the rubberizing subassembly and rotate, shift the sticky tape to the rubberizing subassembly simultaneously on, accomplish the rubberizing. The arrangement of the glue pulling guide rail provides guidance and positioning for the glue pulling part, prevents the glue pulling part from deviating in the moving process, and further ensures the gluing precision and the gluing quality.

Furthermore, the rubberizing subassembly includes that the setting draws the mount that glues the subassembly top and install the rubberizing roller in the mount, the rubberizing roller is located and draws the oblique top position of gluing the piece, and the rubberizing roller by draw the antedisplacement effort drive of gluing the piece, and will draw the sticky tape on the gluing the piece to transfer on the rubberizing roller. The rubberizing assembly consists of a fixed frame fixed above the rubber pulling assembly and a rubberizing roller arranged in the fixed frame, and the rubberizing assembly is simple in structure and low in cost; the rubberizing roller is drawing the in-process that the gluey piece removed, by drawing gluey piece drive and shift the sticky tape to the rubberizing piece on, this sticky tape transfer mode draws gluey subassembly and draws when gluing, can cut gluey, can effectively be compatible the rubberizing of the sticky tape of different width, different length, has effectively avoided prior art, and when the rubberizing roller was as the drive roller, the rubberizing roller rubberizing must adsorb the sticky tape and rotate one section distance, leads to the unable problem that realizes the short gluey or stop glue of rubberizing.

Furthermore, the moulding subassembly includes the moulding mounting and is located the moulding piece of moulding mounting top, the both ends of moulding piece stretch out the moulding mounting certain distance, the moulding piece is connected with moulding elevating system and horizontal drive mechanism respectively, and moulding elevating system and horizontal drive mechanism drive moulding piece respectively and reciprocate and horizontal migration. The setting of moulding mounting, for the moulding subassembly provides the moulding base, moulding mounting top moulding piece, and the moulding elevating system who is connected with moulding piece respectively and horizontal drive mechanism's setting, after moulding piece adsorbs the sticky tape, horizontal drive mechanism is used for driving the moulding piece and moves the sticky tape transfer and draws the gluey subassembly in the horizontal direction, the sticky tape transfer back, horizontal drive mechanism drives the moulding piece return again to the top of moulding mounting, at this moment, moulding elevating system starts, the driving moulding piece reciprocates and compresses tightly the sticky tape, provide basis and guarantee for subsequent handling.

Furthermore, the two glue pressing guide rails which are distributed in parallel and a glue pressing mounting seat matched with the glue pressing guide rails are arranged on the outer sides of the two end portions of the glue pressing fixing piece, the glue pressing mounting seat is connected with a horizontal driving mechanism respectively and is driven by the horizontal driving mechanism to move along the glue pressing guide rails, a glue pressing lifting mechanism is arranged on the glue pressing mounting seat, and the glue pressing lifting mechanism drives the glue pressing piece to move up and down. The arrangement of the glue pressing guide rail and the glue pressing mounting seat provides guidance and positioning for horizontal displacement of the glue pressing piece, ensures that the glue pressing piece cannot deviate in the process of transferring the adhesive tape to the glue pulling assembly, ensures the accuracy of adhesive tape transfer and provides guarantee for subsequent adhesive tape pasting; simultaneously, the setting of moulding mount pad is connected with horizontal drive mechanism on the one hand, and on the other hand is used as moulding elevating system's mounting base, simplifies the structure setting of moulding subassembly greatly, ensures moreover that the moulding piece can level and reciprocate.

Furthermore, the upper end position of the adhesive tape pressing fixing piece on the adhesive tape entering side is provided with an adhesive tape entering chamfer. Go into the sticky tape chamfer and be convex chamfer, the setting of this chamfer, the sticky tape of being convenient for gets into the moulding subassembly smoothly, avoids leading to the card sticky tape phenomenon smoothly because of advancing to glue, and then effectively ensures and promotes rubberizing efficiency.

Further, the moulding subassembly with draw gluey unit mount on same bottom plate, draw gluey guide rail and moulding guide rail to install in bottom plate upper portion both sides position, draw gluey actuating mechanism to install in the bottom plate below, the moulding subassembly wholly is located bottom plate upper portion promptly, draws gluey piece of drawing in the gluey subassembly to be located the bottom plate top, and draws gluey actuating mechanism to be located the bottom plate below, this kind of structure setting makes rubberizing device overall structure rationally distributed, and occupation space is little, the operation of being convenient for moreover.

Furthermore, the rubberizing device still includes cuts the gluey subassembly, cut gluey subassembly and install in the bottom plate bottom, and be located between moulding subassembly and the drawing gluey subassembly, move from bottom to top and cut off the sticky tape after moulding subassembly is fixed. The rubberizing subassembly is installed in the bottom plate bottom, and arrange in the moulding level spare and draw between the gluey subassembly, make the rubberizing subassembly keep away from the rubberizing subassembly setting, on the one hand effectively ensure the rubberizing subassembly can not cause the damage to the rubberizing roller when surely gluing, on the other hand, the rubberizing subassembly is located the rubberizing subassembly and draws between the gluey subassembly, the rubberizing subassembly is behind the fixed sticky tape of rubberizing subassembly, from bottom to top motion rubberizing can, need not to counterpoint, the rubberizing efficiency has been promoted greatly, effectively avoided among the prior art because of the rubberizing subassembly sets up in the rubberizing roller below, need set up the rubberizing setting element in the rubberizing roller below, not only increase rubberizing subassembly structure, and have higher requirement to the rubberizing precision, the rubberizing inefficiency scheduling problem.

Further, the glue cutting assembly comprises a glue cutting fixing frame and a glue cutting moving frame, the glue cutting fixing frame is installed at the bottom of the bottom plate, the glue cutting moving frame can move up and down relative to the glue cutting fixing frame, and a cutter is arranged at the top of the glue cutting moving frame. Specifically, it is equipped with two rubber cutting guide rails that parallel distribution is arranged on one side that the frame is removed to the rubber cutting mount, the rubber cutting removes the frame through rubber cutting slider and rubber cutting guide rail sliding connection, the rubber cutting removes the frame and drives actuating cylinder with the rubber cutting and be connected, and the rubber cutting removes the frame and drives actuating cylinder's effect down and drive the cutter along the rubber cutting guide rail together and reciprocate and carry out the rubber cutting action to the rubber cutting. Surely glue the mount and cut the setting that the gluey removal was put up, surely glue the mount and install in the bottom plate, for cutting gluey subassembly wholly provides the structural support, cuts the setting that the gluey removal was put up for installation and fixed cutter to drive the cylinder drive through cutting gluey and cut gluey from the upward movement down and glue, should cut gluey subassembly simple structure, cut gluey efficient.

The utility model provides a battery production facility, includes foretell rubberizing device, and the rubberizing device is as an important ring in the battery production facility, and the structural layout, the setting of rubberizing device to and rubberizing quality and rubberizing efficiency's promotion, simplify the structure of battery production facility and production efficiency's promotion provides basis and guarantee.

Compared with the prior art, the rubberizing device and the battery production equipment have the following beneficial effects:

first, the compatibility is good, the rubberizing device is matched with the rubberizing component through the rubberizing component, the rubberizing component is driven to move through the conveying of the rubberizing component to the adhesive tape, the adhesive tape is transferred to the rubberizing component, compared with the prior art that the rubberizing device cuts after rotating to a fixed length through the rubberizing roller, the rubberizing length is firstly fixed through the rubberizing component, the rubberizing length is not limited by the rotation of the rubberizing roller, the adhesive tapes with different widths and different lengths can be compatible according to actual conditions, and the frequency of part replacement can be reduced when different adhesive tapes are replaced.

Second, the flow is compact, high in production efficiency, draw gluey subassembly and rubberizing subassembly's cooperation setting, draw gluey one end and the moulding subassembly of subassembly to link up, the sticky tape that will send gluey subassembly conveying through the moulding subassembly is equipped with glues to drawing gluey subassembly on, draw the other end of gluey subassembly and link up with the rubberizing subassembly, draw gluey subassembly to be equipped with gluey in-process, drive rubberizing subassembly rotates, shift the sticky tape to the rubberizing subassembly simultaneously, when drawing gluey subassembly to glue the tape transfer to the fixed length, draw gluey subassembly and the one end that the rubberizing subassembly links up continuously to be equipped with glues, it carries out with sticky tape to reach sticky tape transfer and is equipped with gluey linking, make rubberizing can go on in step with being equipped with gluey, and then realize whole rubberizing flow compactness, save equipment production time, and greatly improve production efficiency.

Thirdly, the rubberizing assembly is simplified in structure and low in cost, the rubberizing assembly drives the rubberizing roller to rotate through the matched arrangement of the rubberizing roller and the rubber drawing assembly, meanwhile, the rubber belt is transferred to the towel rubber roller from the rubber drawing assembly in the rotating process of the rubberizing roller, the rubberizing roller is a driven roller, and compared with the structure arrangement that a driving mechanism and a pressing roller are arranged on one side of the rubberizing roller in the prior art, the rubberizing assembly is simple in overall structure, the structure of the rubberizing roller is greatly simplified, and meanwhile, the cost of the rubberizing assembly is reduced;

fourth, rubberizing subassembly long service life, surely glue the subassembly and install in the bottom plate bottom, and arrange in the moulding level spare and draw between the gluey subassembly, make surely glue the subassembly and keep away from the rubberizing subassembly setting, effectively ensure on the one hand to surely glue the subassembly and can not cause the damage to the rubberizing roller when surely gluing, on the other hand, surely glue the subassembly and be located moulding subassembly and draw between the gluey subassembly, surely glue the subassembly behind moulding subassembly fixed sticky tape, from bottom to top motion surely glue can, need not the counterpoint, the efficiency of surely gluing has been promoted greatly.

Drawings

FIG. 1 is a schematic structural view of an embodiment of a taping device of the present invention;

FIG. 2 is a top view of an embodiment of the relative relationship between a glue pressing assembly and a glue pulling assembly of the present invention;

FIG. 3 is a side view of an embodiment of the relative relationship of the glue pressing assembly, the glue pulling assembly and the glue cutting assembly of the present invention;

FIG. 4 is a first perspective view of an embodiment of the relative relationship of the glue pressing assembly, the glue pulling assembly and the glue cutting assembly of the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 4 in accordance with the present invention;

FIG. 6 is a second perspective view of an embodiment of the relative relationship of the glue pressing assembly, the glue pulling assembly and the glue cutting assembly of the present invention;

description of reference numerals:

a glue feeding assembly 100;

the glue pressing assembly 200, the glue pressing fixing piece 210, the glue pressing piece 220, the glue pressing lifting mechanism 230, the horizontal driving mechanism 240, the horizontal driving piece 241, the connecting frame 242, the glue pressing guide rail 250 and the sliding plate 251;

the rubber cutting device comprises a rubber cutting assembly 300, a rubber cutting fixing frame 310, a rubber cutting guide rail 311, a rubber cutting moving frame 320, a rubber cutting sliding block 321, a rubber cutting driving cylinder 330 and a cutter 340;

the glue pulling component 400, the glue pulling piece 410, the glue pulling guide rail 420 and the glue pulling driving mechanism 430;

the adhesive tape sticking device comprises an adhesive tape sticking component 500, an adhesive tape sticking roller 510, a fixing frame 520, a support rotation driving mechanism 530, a support telescopic driving 540 and a rotating shaft 550;

a base plate 600;

a cache component 700.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments and accompanying drawings.

Example 1

Referring to fig. 1, a non-limiting embodiment of the present invention is a tape sticking apparatus, which includes a tape feeding assembly 100, a tape pressing assembly 200, and a tape preparing mechanism, which are sequentially and adjacently disposed, wherein a buffer assembly 700 is further disposed between the tape feeding assembly 100 and the tape pressing assembly 200, the tape preparing mechanism includes a tape sticking assembly 500 and a tape pulling assembly 400, the tape pulling assembly 400 is located at one side of the tape pressing assembly 200 away from the tape feeding assembly 100, the tape sticking assembly 500 is located at an opposite side of the tape pulling assembly 400 where the tape surface is grabbed, and the tape pulling assembly 400 transfers a tape onto the tape sticking assembly 500 and drives the tape sticking assembly 500 to move. According to the adhesive tape sticking device, the adhesive tape pressing component 200 is arranged in front of the adhesive tape preparing mechanism, and the fixed-length adhesive tape is fixed after the adhesive tape released by the adhesive tape feeding component 100 is adsorbed and conveyed to the adhesive tape preparing mechanism by the adhesive tape pressing component 200; after the fixed length adhesive tape is conveyed to the adhesive preparation mechanism, the adhesive pulling component 400 drives the fixed length adhesive tape to move forward, and in the process that the adhesive pulling component 400 moves, the adhesive pasting component 500 is driven by the adhesive pulling component 400 and adsorbs and transfers the fixed length adhesive tape on the adhesive pulling component 400 to the adhesive pasting component 500. This kind of rubberizing device structure sets up through drawing gluey subassembly 400 and rubberizing subassembly 500 cooperation, utilizes to draw gluey subassembly 400 drive rubberizing subassembly 500 motion to shift the fixed length sticky tape to rubberizing subassembly 500 on, it draws gluey subassembly 400 draw gluey length not receive rubberizing subassembly 500 restriction, can be according to the sticky tape of the compatible different width of actual conditions, different length, in addition when different sticky tapes remodel, can reduce the frequency that the part was changed. Draw gluey subassembly 400 and rubberizing subassembly 500's cooperation setting, the one end of drawing gluey subassembly 400 links up with the moulding subassembly 200, the sticky tape that will send gluey subassembly 100 conveying through moulding subassembly 200 is equipped with glues to drawing gluey subassembly 400 on, the other end of drawing gluey subassembly 400 links up with the rubberizing subassembly 500, in drawing gluey subassembly 400 and being equipped with gluey in-process, drive rubberizing subassembly 500 rotates, shift the sticky tape to rubberizing subassembly 500 simultaneously, when drawing gluey subassembly 400 to glue to the fixed length and carry out the sticky tape and shift promptly, the one end that draws gluey subassembly 400 and rubberizing subassembly 200 link up lasts and is equipped with gluey, it shifts to carry out with sticky tape to be equipped with gluey linking up to reach the sticky tape, whole rubberizing flow is compact, the equipment production time has been saved, and production efficiency. Through rubberizing subassembly 500 and the cooperation setting of drawing gluey subassembly 400, by drawing gluey subassembly 400 drive rubberizing subassembly 500 and rotate, make the sticky tape shift to rubberizing subassembly 500 by drawing gluey subassembly 400 at rubberizing subassembly 500 pivoted in-process simultaneously, rubberizing subassembly 500 has simplified rubberizing subassembly 500's structure greatly by drawing gluey subassembly 400 drive, has reduced rubberizing subassembly 500's cost.

Referring to fig. 1 to 4, according to a non-limiting embodiment of the present invention, the glue pulling assembly 400 includes a glue pulling member 410, a glue pulling driving mechanism 430 connected to the glue pulling member 410 is disposed below the glue pulling member 410, and two glue pulling guide rails 420 distributed in parallel, wherein the glue pulling member 410 moves along the glue pulling guide rails 420 under the action of the glue pulling driving mechanism 430 to pull glue. The adhesive pulling piece 410 is arranged, after the adhesive pressing assembly 200 conveys the adsorbed adhesive tape to the adhesive pulling piece 410, the adhesive pulling piece 410 adsorbs the adhesive tape, the adhesive tape is transferred to the adhesive pulling piece 410 from the adhesive pressing assembly 200, the adhesive pulling piece 410 pulls the adhesive and drives the adhesive tape pasting assembly 500 to rotate, meanwhile, the fixed-length adhesive tape is transferred to the adhesive tape pasting roller 510 on the adhesive tape pasting assembly 500, after the adhesive tape is transferred to the adhesive tape pasting roller 510, the support rotation driving mechanism 530 is started, the adhesive tape pasting roller 510 and the fixing frame 520 are driven to rotate upwards along the rotating shaft 550, then the support telescopic driving mechanism 540 is started, the adhesive tape pasting roller 510 and the fixing frame 520 are driven to move towards an adhesive tape product together, the adhesive tape attached to the adhesive tape pasting roller 510 is transferred to the adhesive tape. The arrangement of the glue pulling guide rail 420 provides guidance and positioning for the glue pulling piece 410, prevents the glue pulling piece 410 from deviating in the moving process, and further ensures the gluing precision and the gluing quality.

Referring to fig. 1, according to a non-limiting embodiment of the present invention, the rubberizing assembly 500 includes a fixing frame 520 disposed above the glue drawing assembly 400 and a rubberizing roller 510 installed in the fixing frame 520, the rubberizing roller 510 is located at an obliquely upper position of the glue drawing member 410, the rubberizing roller 510 is driven by a forward moving force of the glue drawing member 410, and transfers the adhesive tape on the glue drawing member 410 onto the rubberizing roller 510. The rubberizing assembly 500 is composed of a fixing frame 520 fixed above the glue pulling assembly 400 and a rubberizing roller 510 installed in the fixing frame 520, and the rubberizing assembly 500 is simple in structure and low in cost; rubberizing roller 510 is drawing the in-process that gluey piece 410 removed, by drawing gluey piece 410 drive and shift the sticky tape to rubberizing piece on, this sticky tape transfer mode draws gluey subassembly 400 and draws when gluing, can cut gluey, can effectively be compatible the rubberizing of the sticky tape of different width, different length, effectively avoided prior art, when rubberizing roller 510 regarded as the drive roller, rubberizing roller 510 rubberizing must adsorb the sticky tape and rotate one section distance, lead to the unable problem of realizing pasting short gluey or stopping glue.

Referring to fig. 1 to 5, in a non-limiting embodiment of the present invention, the glue pressing assembly 200 includes a glue pressing fixture 210 and a glue pressing member 220 located above the glue pressing fixture 210, two end portions of the glue pressing member 220 extend out of the glue pressing fixture 210 by a certain distance, the glue pressing member 220 is respectively connected to a glue pressing lifting mechanism 230 and a horizontal driving mechanism 240, and the glue pressing lifting mechanism 230 and the horizontal driving mechanism 240 respectively drive the glue pressing member 220 to move up and down and move horizontally. In this embodiment, the adhesive pressing member 220 is a movable suction cup, the adhesive pressing fixing member 210 is a fixed suction cup or a fixed seat, the adhesive pressing fixing member 210 is configured to provide an adhesive pressing base for the adhesive pressing assembly 200, the adhesive pressing member 220 is disposed above the adhesive pressing fixing member 210, and the adhesive pressing lifting mechanism 230 and the horizontal driving mechanism 240 are respectively connected to the adhesive pressing member 220, after the adhesive pressing member 220 adsorbs an adhesive tape, the horizontal driving mechanism 240 is configured to drive the adhesive pressing member 220 to move in the horizontal direction to move the adhesive tape to pull the adhesive assembly 400, after the adhesive tape is transferred, the horizontal driving mechanism 240 drives the adhesive pressing member 220 to return to the upper side of the adhesive pressing fixing member 210, at this time, the adhesive pressing lifting mechanism 230 is started, the adhesive pressing member 220 is driven to move up and down to press the adhesive tape, and a foundation and a guarantee are provided for subsequent processes.

Referring to fig. 2 to 5, in a non-limiting embodiment of the present invention, two parallel glue pressing guide rails 250 and a glue pressing mounting base 251 matched with the glue pressing guide rails 250 are disposed on outer sides of two end portions of the glue pressing fixture 210, the glue pressing mounting base 251 is respectively connected with a horizontal driving mechanism 240, and is driven by the horizontal driving mechanism 240 to move along the glue pressing guide rails 250, the glue pressing mounting base 251 is provided with a glue pressing lifting mechanism 230, and the glue pressing lifting mechanism 230 drives the glue pressing member 220 to move up and down. The arrangement of the glue pressing guide rail 250 and the glue pressing mounting seat 251 provides guidance and positioning for horizontal displacement of the glue pressing piece 220, ensures that the glue pressing piece 220 does not deviate in the process of transferring the adhesive tape to the glue pulling assembly 400, ensures the accuracy of adhesive tape transfer, and provides guarantee for subsequent gluing; meanwhile, the arrangement of the molding press mounting seat 251 is connected with the horizontal driving mechanism 240 on one hand, and is used as a mounting base of the molding press lifting mechanism 230 on the other hand, so that the structural arrangement of the molding press assembly 200 is greatly simplified, and the molding press 220 can move horizontally and vertically.

Referring to fig. 2 to 5, in a non-limiting embodiment of the present invention, the glue pressing lifting mechanism 230 is a lifting cylinder, the lifting cylinder is slidably connected to the glue pressing guide rail 250 through a glue pressing mounting seat 251, the horizontal driving mechanism 240 includes a horizontal driving member 241 and a connecting frame 242, and the horizontal driving member 241 is connected to the lifting cylinder through the connecting frame 242 and the glue pressing mounting seat 251. The horizontal driving member 241 is started to drive the lifting cylinder and the glue pressing member 220 to move back and forth along the glue pressing guide rail 250 through the connecting frame 242 and the glue pressing mounting base 251, and the lifting cylinder is started to drive the glue pressing member 220 to move back and forth up and down.

Referring to fig. 3 and 4, in a non-limiting embodiment of the present invention, the adhesive tape pressing fixture 210 is provided with an adhesive tape entering chamfer 211 at an upper end position of the adhesive tape entering side. Go into sticky tape chamfer 211 and be convex chamfer, the setting of this chamfer, the sticky tape of being convenient for gets into moulding subassembly 200 smoothly, avoids leading to the card sticky tape phenomenon smoothly because of advancing to glue, and then effectively ensures and promotes rubberizing efficiency.

Referring to fig. 1 to 4, according to a non-limiting embodiment of the present invention, the glue pressing assembly 200 and the glue pulling assembly 400 are mounted on the same bottom plate 600, the glue pulling guide rail 420 and the glue pressing guide rail 250 are mounted at two sides of the upper portion of the bottom plate 600, the glue pulling driving mechanism 430 is mounted below the bottom plate 600, that is, the whole glue pressing assembly 200 is located at the upper portion of the bottom plate 600, the glue pulling member 410 in the glue pulling assembly 400 is located above the bottom plate 600, and the glue pulling driving mechanism 430 is located below the bottom plate 600.

Referring to fig. 1 to 6, in a non-limiting embodiment of the present invention, the tape dispenser further includes a tape cutting assembly 300, the tape cutting assembly 300 is mounted at the bottom of the bottom plate 600 and located between the tape pressing assembly 200 and the tape pulling assembly 400, and moves from bottom to top to cut the tape fixed by the tape pressing assembly 200. Cut gluey subassembly 300 and install in bottom plate 600 bottom, and arrange in the moulding level spare and draw between gluey subassembly 400, make cut gluey subassembly 300 keep away from rubberizing subassembly 500 setting, on the one hand effectively ensure to cut gluey subassembly 300 can not cause the damage to rubberizing roller 510 when surely gluing, on the other hand, cut gluey subassembly 300 is located between rubberizing subassembly 200 and the drawing subassembly 400, cut gluey subassembly 300 behind the fixed sticky tape of rubberizing subassembly 200, from bottom to top motion surely glue can, need not to counterpoint, the efficiency of surely gluing has been promoted greatly, effectively avoided setting up in the prior art in rubberizing roller 510 below because of cutting gluey subassembly 300, need set up the rubberizing setting element in rubberizing roller 510 below, not only increase rubberizing subassembly 500 structure, and have higher requirement to the rubberizing precision, the low scheduling problem of rubberizing efficiency.

Referring to fig. 1, 5 and 6, in a non-limiting embodiment of the present invention, the glue cutting assembly 300 includes a glue cutting fixing frame 310 and a glue cutting moving frame 320, the glue cutting fixing frame 310 is installed at the bottom of the bottom plate 600, the glue cutting moving frame 320 is movable up and down relative to the glue cutting fixing frame 310, and a cutter 340 is disposed at the top of the glue cutting moving frame 320. In this embodiment, the cutting knife 340 has a sawtooth structure, so that the adhesive tape can be cut off rapidly and uniformly, and the cutting knife 340 may also have other common structures besides the sawtooth structure. Specifically, the glue cutting fixed frame 310 is provided with two glue cutting guide rails 311 which are distributed in parallel on one side of the glue cutting movable frame 320, the glue cutting movable frame 320 is connected with the glue cutting guide rails 311 in a sliding manner through a glue cutting sliding block 321, the glue cutting movable frame 320 is connected with a glue cutting driving cylinder 330, and the glue cutting movable frame 320 drives a cutter 340 to move up and down along the glue cutting guide rails 311 under the action of the glue cutting driving cylinder 330 to perform a glue cutting action. Cut gluey mount 310 and the setting of surely gluey removal frame 320, surely glue mount 310 and install in bottom plate 600 bottom, for cutting gluey subassembly 300 wholly provides the structural support, cuts gluey removal frame 320's setting for installation and fixed cutter 340 to drive cylinder 330 drive through cutting gluey and cut gluey from the upward movement of going up, should cut gluey subassembly 300 simple structure, cut gluey efficient.

Referring to fig. 1 to 6, the rubberizing process of the rubberizing apparatus of the present invention is as follows:

1. the adhesive tape feeding assembly 100 releases and conveys the adhesive tape to the adhesive pressing assembly 200;

2. the movable suction cup in the glue pressing assembly 200 adsorbs the adhesive tape, and drives the adhesive tape to move forward along the glue pressing guide rail 250 under the action of the horizontal driving mechanism 240 to transfer the adhesive tape to the glue pulling assembly 400, after the glue pulling assembly 400 pulls the adhesive to a fixed length, the horizontal driving mechanism 240 drives the movable suction cup to return to the upper part of the glue pressing fixing member 210 again, the glue pressing lifting mechanism 230 is started, and under the action of the glue pressing lifting mechanism 230, the movable suction cup moves downwards to press and fix the adhesive tape together with the glue pressing fixing member 210;

3. the glue cutting driving cylinder 330 in the glue cutting assembly 300 is started to drive the glue cutting moving frame 320 to drive the cutter 340 to move upwards together to cut off the adhesive tape;

4. after the adhesive tape is cut off, the adhesive tape pulling driving mechanism 430 in the adhesive tape pulling assembly 400 is started to drive the adhesive tape pulling piece 410 and the adhesive tape to move forward together, after the adhesive tape pulling piece 410 is contacted with the rubberizing roller 510 in the rubberizing assembly 500, the end part of the adhesive tape is adsorbed by the rubberizing roller 510, the adhesive tape pulling piece 410 continues to move forward, the rubberizing roller 510 is driven to rotate, and meanwhile, the adhesive tape is transferred to the rubberizing roller 510;

5. after the adhesive tape is transferred to the rubberizing roller 510, the bracket rotation driving mechanism 530 is started to drive the rubberizing roller 510 and the fixing frame 520 to rotate upwards along the rotating shaft 550 together, then the bracket extension driving mechanism 540 is started to drive the rubberizing roller 510 and the fixing frame 520 to move towards the rubberizing product together, the adhesive tape attached to the rubberizing roller 510 is transferred to the rubberizing product, and one-time rubberizing action is completed;

6. and (5) continuing the next cycle as above until all the gluing operations are completed.

The rubberizing device is arranged by matching the rubber pulling piece 410 and the rubberizing roller 510, and the rubberizing roller 510 is driven to rotate by the rubber pulling piece 410, so that the rubberizing device can be compatible with adhesive tapes with different widths and lengths, and can reduce the frequency of part replacement when different adhesive tapes are replaced. And when the glue pulling piece 410 pulls glue to a fixed length, the glue pulling piece continues to move forward to drive the gluing roller to move, and the adhesive tape is transferred, so that the adhesive tape transfer and the adhesive tape preparation are connected, the whole gluing process is compact, and the production efficiency is greatly improved. The rubberizing roller 510 rotates under the action of the rubber pulling piece 410, so that the overall structure of the rubberizing roller 510 is effectively simplified, and the equipment cost is reduced.

Example 2

Referring to fig. 1 to 6, a non-limiting embodiment of the present invention is a battery production apparatus, including the adhesive tape sticking device in embodiment 1, where the adhesive tape sticking device is used as an important part of the battery production apparatus, and the structural layout and arrangement of the adhesive tape sticking device, and the improvement of the adhesive tape sticking quality and the adhesive tape sticking efficiency provide a foundation and guarantee for the structural simplification and the improvement of the production efficiency of the battery production apparatus.

In the description of the present invention, it is to be understood that terms such as "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, which indicate orientations or positional relationships, are used based on the orientations or positional relationships shown in the drawings only for the convenience of describing the present invention and for the simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to 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 one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

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

The above embodiments are only specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications are possible without departing from the inventive concept, and such obvious alternatives fall within the scope of the invention.

Claims (10)

1. A glue sticking device, comprising a glue feeding assembly (100), a glue pressing assembly (200) and a glue preparation mechanism arranged adjacently in sequence, characterized in that: the glue preparation mechanism comprises a glue sticking assembly (500) and a pull A glue assembly (400), the glue pulling assembly (400) is located on the side of the glue pressing assembly (200) away from the glue feeding assembly (100), and the glue sticking assembly (500) is located at the glue pulling assembly (400) to grab the tape On the opposite side of the surface, the glue pulling assembly (400) transfers the fixed-length adhesive tape on the glue sticking assembly (500), and drives the glue sticking assembly (500) to move. 2. The glue sticking device according to claim 1, wherein the glue pulling assembly (400) comprises a glue pulling member (410), and a glue pulling member (410) is provided below the glue pulling member (410). 410) A glue-pulling drive mechanism (430) connected, and two parallel-distributed glue-pulling guide rails (420), the glue-pulling piece (410) is driven along the glue-pulling guide rail (420) under the action of the glue-pulling drive mechanism (430). )move. 3. The glue sticking device according to claim 2, wherein the glue sticking assembly (500) comprises a fixing frame (520) arranged above the glue pulling assembly (400) and a fixing frame (520) installed in the fixing frame (520). The glue sticking roller (510), the glue sticking roller (510) is driven by the forward force of the rubber pulling piece (410), and transfers the tape on the glue pulling piece (410) to the glue sticking roll (510) on. 4. The gluing device according to claim 2, wherein the gluing assembly (200) comprises a gluing fixing member (210), and a gluing member (220) located above the gluing fixing member (210). ), the two ends of the pressing member (220) protrude from the pressing fixing member (210) for a certain distance, and the pressing member (220) is respectively connected to the pressing and lifting mechanism (230) and the horizontal driving mechanism (240) In connection, the pressing and lifting mechanism (230) and the horizontal driving mechanism (240) respectively drive the pressing member (220) to move up and down and move horizontally. 5. The gluing device according to claim 4, characterized in that, two gluing guide rails (250) and two gluing guide rails (250) distributed in parallel are provided on the outer sides of both ends of the gluing fixing member (210). ) matched with the pressure glue mounting seat (251), the pressure glue installation seat (251) is respectively connected with the horizontal drive mechanism (240), driven by the horizontal drive mechanism (240) to move along the pressure glue guide rail (250), the pressure The glue mounting seat (251) is provided with a glue pressure lifting mechanism (230), and the glue pressure lifting mechanism (230) drives the glue pressure member (220) to move up and down. 6. The glue sticking device according to claim 4, characterized in that: the adhesive tape fixing member (210) is provided with a tape tape chamfer (211) at the upper end position of the tape tape side. 7. The glue sticking device according to any one of claims 2 to 6, characterized in that further comprising a glue cutting assembly (300), wherein the glue cutting assembly (300) is located in the pressing glue assembly (200) Between the rubber-pulling assembly (400), the adhesive tape fixed by the pressing-gluing assembly (200) is cut by moving from bottom to top. 8 . The glue sticking device according to claim 7 , wherein the glue pressing assembly ( 200 ), the glue cutting assembly ( 300 ) and the glue pulling assembly ( 400 ) are installed on the same bottom plate ( 600 ), and the The glue pulling guide rail (420) and the glue pressing guide rail (250) are installed on both sides of the upper part of the base plate (600), and the glue cutting assembly (300) and the glue pulling driving mechanism (430) are installed under the base plate (600). 9. The glue sticking device according to claim 8, wherein the glue cutting assembly (300) comprises a glue cutting fixing frame (310) and a glue cutting moving frame (320), and the glue cutting fixing frame (310) ) is installed at the bottom of the bottom plate (600), the glue cutting moving frame (320) can move up and down relative to the glue cutting fixing frame (310), and a cutting knife (340) is provided on the top of the glue cutting moving frame (320). 10 . A battery production equipment, characterized in that it comprises the glue sticking device according to any one of claims 1 to 9 . 11 .

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