CN216563239U - Rolling groove sealing machine for super-capacity battery - Google Patents

Abstract

The utility model discloses a rolling groove sealing machine for a super-capacity battery, which comprises a rack, a table board arranged in the rack and a positioning and clamping assembly arranged on the table board, wherein a sealing roller is arranged right above the corresponding positioning and clamping assembly through an installation vertical plate, a rolling groove roller and a chamfering roller are respectively arranged on two sides of the positioning and clamping assembly, and the sealing roller is driven by a vertical guide rail mechanism to vertically move up and down on the installation vertical plate; the rolling groove roller and the chamfering roller horizontally reciprocate under the drive of a transverse guide rail mechanism respectively; the positioning clamping assembly comprises a rotating motor, a clamping cylinder and a rotating shaft clamping seat, wherein the rotating shaft clamping seat is used for placing the sealing element, the rotating motor drives the rotating shaft clamping seat to rotate, and the clamping cylinder is used for switching the clamping state of the sealing element in the rotating shaft clamping seat. The automatic groove rolling and chamfering device can automatically realize the groove rolling, chamfering and sealing processes of the sealing element, is positioned and clamped once, is high in machining precision, and improves the working efficiency.

Description

Rolling groove sealing machine for super-capacity battery

Technical Field

The utility model relates to the technical field of production equipment of batteries or capacitance elements, in particular to a rolling groove sealing machine for a super-capacity battery.

Background

In the production process of electrical elements such as batteries or capacitors, the rolling groove and sealing process of a cylindrical aluminum shell needs to be completed, wherein the rolling groove process comprises a rolling groove first process for fixing, a rolling groove second process for fixing a cover plate and a cover plate sealing process, and the rolling groove first process and the cover plate sealing process also have a one-groove compression process and a two-groove compression process with explosion-proof requirements. The existing rolling groove sealing system generally comprises the steps of putting a cylindrical aluminum shell with a core group into a pneumatic clamping hand, conveying the cylindrical aluminum shell to different stations by a station rotating system, respectively completing rolling groove one, rolling groove two and rolling groove two to form a semi-finished product, then completing a sealing process after a cover plate is arranged, forming a finished product, and taking out the finished product by a finished product manipulator. The rolling groove sealing machine comprises an operating system, a station rotating system, a rolling groove system, a sealing system, a semi-finished product manipulator, a finished product manipulator and the like.

The process of rolling groove and sealing a cylindrical aluminum shell of electrical elements such as a super capacitor and the like comprises a groove rolling process for fixing a cover plate and a cover plate sealing process in the production process, so that the capacitor has explosion-proof and leakage-proof functions. The existing rolling groove sealing machine does not adopt two stations of rolling groove and sealing, so that the processing efficiency is low; or adopt slot rolling, two steps of blank pressing to go on, cause the sealing shape irregular, the machining precision is low, for example, the utility model discloses a chinese utility model patent that the publication number is CN210200565U provides an electric capacity slot rolling seals all-in-one, include: a frame; the clamping mechanism is rotatably assembled on the rack and used for clamping the capacitor to be processed, and a driving motor used for driving the clamping mechanism to rotate is arranged on the rack; bear in the mechanism of sealing of frame, seal the mechanism and include: the sealing assembly is slidably assembled on the rack, and the driving assembly is used for driving the sealing assembly to be close to or far away from the capacitor to be processed; a roll groove mechanism; and the linkage mechanism is arranged between the channeling mechanism and the sealing assembly and used for synchronously driving the channeling mechanism to be close to or far away from the capacitor to be processed when the sealing assembly is close to or far away from the capacitor to be processed. Therefore, further structural optimization of the existing roller slot capper is required.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide the rolling groove sealing machine for the super-capacity battery, which is simple in structure, capable of synchronously completing the rolling groove, edge pressing and sealing operations, high in machining precision and capable of improving the working efficiency by one-time positioning and clamping.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

the utility model provides a rolling groove sealing machine for a super-capacity battery, which comprises a rack, a table board arranged in the rack and a positioning clamping assembly arranged on the table board, wherein a sealing roller is arranged right above the positioning clamping assembly through an installation vertical plate corresponding to the positioning clamping assembly, rolling groove rollers and chamfering rollers are respectively arranged on two sides of the positioning clamping assembly, and the sealing roller is driven by a vertical guide rail mechanism to vertically move up and down on the installation vertical plate; the rolling groove roller and the chamfering roller horizontally reciprocate under the drive of a transverse guide rail mechanism respectively; location centre gripping subassembly is including rotating motor, centre gripping cylinder and being provided with the pivot holder that is used for placing the closing element, it drives to rotate the motor the pivot holder is rotatory, the centre gripping cylinder is used for switching the closing element is in clamping state in the pivot holder.

Further, vertical guide rail mechanism includes vertical driving motor, vertical lead screw, vertical nut, vertical guide rail and vertical slider, vertical lead screw is fixed through a set of first bearing mount pad install the riser, vertical driving motor with vertical lead screw wherein one end is connected, vertical nut cover is established on the vertical lead screw, be provided with vertical drive block on the vertical nut, a vertical slide of drive is connected to vertical drive block, vertical slide passes through vertical slider sets up on the vertical guide rail, seal the gyro wheel seal the mounting bracket through one with vertical slide is connected.

Furthermore, the vertical both ends of the mounting bracket of sealing are provided with one respectively and seal the gyro wheel, two seal and be provided with the pinch roller that seals between the gyro wheel.

Further, transverse guide mechanism includes transverse driving motor, horizontal lead screw, transverse nut, transverse guide and horizontal slider, transverse driving motor fixes through a set of second bearing mount pad install the riser, transverse driving motor with transverse lead screw wherein one end is connected, the transverse nut cover is established on the transverse lead screw, be provided with the transverse driving piece on the transverse nut, a transverse sliding seat of drive is connected through a drive connecting block to the transverse driving piece, the transverse sliding seat passes through transverse slider sets up on the transverse guide, the slot rolling gyro wheel with the edging gyro wheel is respectively through a transverse mounting bracket and one transverse sliding seat fixed connection respectively.

Further, the slot rolling wheel with the beveling gyro wheel sets up respectively pivot grip slipper upper portion both sides, the slot rolling wheel sets up in one of them side through a slot installation axle the horizontal mounting bracket, the beveling gyro wheel sets up at the opposite side through a beveling installation axle the horizontal mounting bracket.

Furthermore, the positioning and clamping assembly further comprises a movable clamping sleeve sleeved on the upper part of the rotating shaft clamping seat, the movable clamping sleeve is rotatably installed in a clamping base, and the clamping base is installed on an upper driving plate; the lower part of the rotating shaft clamping seat is rotatably arranged on the table board through a rotating shaft seat, and the lower part of the rotating shaft clamping seat penetrates through the table board and is connected with the rotating motor; the clamping mechanism is characterized in that a plurality of clamping guide rods are connected to the lower side of the upper driving plate and are arranged on the table panel through a plurality of clamping guide seats, a lower driving plate is arranged at the lower ends of the clamping guide rods, and the clamping cylinder is connected with and drives the lower driving plate, so that the movable clamping sleeve and the upper portion of the rotating shaft clamping seat are clamped and separated from each other.

Furthermore, the rotating shaft clamping seat comprises a sleeve part and a rotating shaft part arranged at the lower end of the sleeve part, the sleeve part is uniformly provided with a plurality of side wall grooves along the circumferential direction, the upper part of the sleeve part is provided with an even inverted cone-shaped opening part, and the inverted cone-shaped opening part is matched with the movable clamping sleeve.

Specifically, the movable clamping sleeve is installed in the clamping base through a plurality of deep groove ball bearings and thrust ball bearings, and a clamping cover plate is further arranged at the upper end of the clamping base.

Furthermore, a rotating shaft part at the lower part of the rotating shaft clamping seat is sleeved in the rotating shaft seat, and a plurality of deep groove ball bearings and thrust ball bearings are respectively arranged at the rotating shaft part and the upper end and the lower end of the rotating shaft seat; the lower end of the rotating shaft part is provided with a belt wheel, and the rotating motor is connected with the belt wheel to drive the rotating shaft clamping seat to rotate in the rotating shaft seat.

Specifically, the rotating shaft seat is fixedly installed on the table board, a positioning ring is further arranged at the upper end of the rotating shaft seat, and a plurality of shaft rings are further arranged between the rotating shaft portion and the belt wheel.

Furthermore, the clamping cylinder is fixed on a cylinder mounting plate, the cylinder mounting plate is fixed on the lower portion of the table panel through a plurality of mounting support rods, the clamping cylinder drives the lower driving plate to drive the clamping guide rod to move up and down on the clamping guide seat, an upper driving plate at the upper end of the clamping guide rod is driven to move up and down, and the upper driving plate drives the movable clamping sleeve to clamp and separate relative to a sleeve portion of the rotating shaft clamping seat through the clamping base.

Furthermore, the rotating motor is connected with a speed reducer, the speed reducer is fixed below the table panel through a speed reducer mounting plate, and the speed reducer is connected with the belt through the belt wheel and drives the rotating shaft clamping seat.

By adopting the technical scheme, the rolling groove sealing machine for the super-capacity battery is provided with the rolling groove rolling wheel, the chamfering rolling wheel, the sealing rolling wheel and the sealing pressing wheel, the sealing element is rotatably clamped through the positioning clamping assembly, the clamping state can be automatically switched, the rolling groove, chamfering and sealing processes of the sealing element are automatically realized through the vertical guide rail mechanism and the transverse guide rail mechanism, the one-step positioning clamping is realized, the processing precision is high, and the working efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a main view of a rolling groove sealing machine for a super-capacity battery according to an embodiment of the present invention;

FIG. 2 is a partially omitted side view structure diagram of the rolling groove sealing machine of the ultra-capacitor battery of the embodiment of the utility model;

FIG. 3 is a partially omitted top view structure diagram of the rolling groove sealing machine of the super-capacity battery according to the embodiment of the present invention;

FIG. 4 is a partially omitted three-dimensional structure diagram of a rolling groove sealing machine of a super-capacity battery according to an embodiment of the present invention;

FIG. 5 is a partially omitted three-dimensional structural diagram of a rolling groove sealing machine of a super-capacity battery according to an embodiment of the present invention;

FIG. 6 is a three-dimensional block diagram of the rolling groove sealing machine of the super-capacity battery of the embodiment of the utility model with a third omitted part;

FIG. 7 is a top view structural view corresponding to the partially omitted three-dimensional structural view of FIG. 6;

FIG. 8 is a sectional view of the structure of FIG. 7 taken along section line A-A;

FIG. 9 is a sectional view of FIG. 7 taken along section line B-B;

FIG. 10 is a schematic diagram of a roll-groove sealing method of the roll-groove sealing machine for the super-capacity battery according to the embodiment of the present invention;

FIG. 11 is a three-dimensional exploded view of a positioning and clamping assembly of the rolling groove sealing machine for a super-capacity battery according to an embodiment of the present invention;

in the figure, 1-a lower frame, 2-a table panel, 3-a mounting vertical plate, 4-a vertical plate bracket, 5-an upper frame, 6-an upper side plate, 7-a top plate, 8-a lower side plate, 9-an adjustable supporting leg, 10-a universal wheel, 11-a mounting side plate, 12-a display screen, 13-a control key, 14-a barometer, 15-a bottom plate, 16-a vertical driving motor, 17-a first mounting block, 18-a vertical connector, 19-a round nut, 20-a stop ring, 21-a first bearing mounting seat, 22-a vertical screw rod, 23-a vertical nut, 24-a vertical driving block, 25-a vertical sliding seat, 26-a vertical guide rail, 27-a vertical sliding block, 28-a pinch roller mounting block and 29-a mounting frame seal, 30-pinch roller mounting shaft, 31-sealing roller, 32-sealing pinch roller, 33-roller mounting shaft, 34-deep groove ball bearing, 35-retainer ring, 36-transverse driving motor, 37-second mounting block, 38-transverse connector, 39-second bearing mounting seat, 40-transverse screw rod, 41-transverse nut, 42-transverse driving block, 43-driving connecting block, 44-transverse sliding seat, 45-transverse guide rail, 46-transverse sliding block, 47-transverse mounting frame, 48-mounting limiting block, 49-fixed connecting block, 50-adjusting screw, 51-adjusting mounting seat, 52-rolling groove roller, 53-rolling groove mounting shaft, 54-chamfering roller, 55-chamfering mounting shaft, 56-limiting clamping block, 57-rotating shaft clamping seat, 571-sleeve part, 572-side wall groove, 573-inverted cone opening part and 574-rotating shaft part; 58-movable clamping sleeve, 59-clamping base, 60-clamping cover plate, 61-upper driving plate, 62-thrust ball bearing, 63-clamping guide rod, 64-clamping guide seat, 65-lower driving plate, 66-clamping cylinder, 67-cylinder mounting plate, 68-mounting support rod, 69-element gasket, 70-rotating shaft seat, 71-locating ring, 72-shaft ring, 73-belt wheel, 74-belt, 75-rotating motor, 76-speed reducer, 77-speed reducer mounting plate, 78-photoelectric door, 79-photoelectric door mounting frame, 80-control mounting box and 81-air source processing piece;

100-closure element.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Example 1

As shown in fig. 1 to 11, an embodiment of the present invention provides a rolling groove sealing machine for a super-capacity battery, including a rack, a deck plate 2 disposed in the rack, and a positioning and clamping assembly disposed on the deck plate 2, wherein a sealing roller 31 is disposed right above the positioning and clamping assembly through a mounting vertical plate 3, a rolling groove roller 52 and a chamfering roller 54 are respectively disposed on two sides of the positioning and clamping assembly, and the sealing roller 31 is driven by a vertical guide rail mechanism to vertically move up and down on the mounting vertical plate 3; the rolling groove roller 52 and the chamfering roller 54 respectively horizontally reciprocate under the drive of a transverse guide rail mechanism; location centre gripping subassembly is including rotating motor 75, centre gripping cylinder 66 and being provided with the pivot holder 57 that is used for placing closing element 100, it drives to rotate motor 75 pivot holder 57 is rotatory, centre gripping cylinder 66 is used for switching closing element 100 is in the clamping state in the pivot holder 57.

As shown in fig. 2, 4 and 5, the vertical guide rail mechanism includes a vertical driving motor 16, a vertical lead screw 22, a vertical nut 23, a vertical guide rail 26 and a vertical slider 27, the vertical lead screw 22 is fixed on the vertical installation plate 3 through a set of first bearing installation seat 21, the vertical driving motor 16 is connected with one end of the vertical lead screw 22, the vertical nut 23 is sleeved on the vertical lead screw 22, a vertical driving block 24 is arranged on the vertical nut 23, the vertical driving block 24 is connected with a vertical slide carriage 25, the vertical slide carriage 25 is arranged on the vertical guide rail 26 through the vertical slider 27, and the sealing roller 31 is connected with the vertical slide carriage 25 through a sealing installation frame 29.

As shown in fig. 10, the sealing mounting frame 29 is provided at both longitudinal ends thereof with a sealing roller 31, and a sealing pressure roller 32 is disposed between the two sealing rollers 31.

Specifically, the sealing roller 31 is respectively installed at the two longitudinal ends of the sealing installation frame 29 through a roller installation shaft 33 and a plurality of deep groove ball bearings 34, retainer rings 35 are arranged between the plurality of deep groove ball bearings 34, and the sealing roller 31 is rotatable on the roller installation shaft 33. In a similar way, seal the pinch roller 32 and install through a pinch roller installation axle 30 and a plurality of deep groove ball bearing 34 seal mounting bracket 29 upper portion seal 29 on the mounting bracket still be provided with and be used for fixing pinch roller installation piece 28 of pinch roller installation axle 30 seals pinch roller 32 and is rotatable at pinch roller installation axle 30 upper level.

Optionally, the vertical driving motor 16 is fixed at the upper end of the mounting vertical plate 3 through a first mounting block 17, the output end of the vertical driving motor 16 is connected with the upper end of a driving vertical screw rod 22 through a vertical coupling 18, and specifically, a round nut 19 and a stop ring 20 are further arranged between the vertical coupling 18 and the first bearing mounting base 21.

As shown in fig. 3-7, the transverse guide mechanism includes a transverse driving motor 36, a transverse screw 40, a transverse nut 41, a transverse guide rail 45 and a transverse sliding block 46, the transverse screw 40 is fixed on the mounting upright 3 through a set of second bearing mounting seat 39, the transverse driving motor 36 is connected with one end of the transverse screw 40, the transverse nut 41 is sleeved on the transverse screw 40, a transverse driving block 42 is arranged on the transverse nut 41, the transverse driving block 42 is connected with and drives a transverse sliding seat 44 through a driving connecting block 43, the transverse sliding seat 44 is arranged on the transverse guide rail 45 through the transverse sliding block 46, and the grooved roller 52 and the chamfered roller 54 are respectively fixedly connected with one transverse sliding seat 44 through a transverse mounting frame 47.

As shown in fig. 9, the grooved roller 52 and the chamfering roller 54 are respectively disposed on both sides of the upper portion of the shaft holder 57, the grooved roller 52 is disposed on the transverse mounting bracket 47 on one side thereof via a grooved mounting shaft 53, and the chamfering roller 54 is disposed on the transverse mounting bracket 47 on the other side thereof via a chamfering mounting shaft 55.

Specifically, the roller 52 is mounted on the roller mounting shaft 53 through a plurality of deep groove ball bearings 34, a limiting clamp block 56 is further sleeved on the roller mounting shaft 53 on the upper side of the roller 52, and the roller 52 is rotatable on the roller mounting shaft 53 in the horizontal direction. Similarly, the chamfering roller 54 is mounted on the chamfering mounting shaft 55 through a plurality of deep groove ball bearings 34, a limiting clamping block 56 is further sleeved on the chamfering mounting shaft 55 on the upper side of the chamfering roller 54, and the chamfering roller 54 can rotate on the chamfering mounting shaft 55 in the horizontal direction.

Specifically, one end of the driving connecting block 43 is connected with the transverse driving block 42, and the other end is connected with the transverse sliding seat 44 through a fixed connecting block 49; horizontal mounting bracket 47 one end is fixed at horizontal slide 44, and other end installation slot installation axle 53 or chamfered edge installation axle 55, horizontal mounting bracket 47 stiff end rear side are provided with installation stopper 48, horizontal mounting bracket 47 lower extreme still is provided with adjusting screw 50, adjusting screw 50 sets up through an adjustment mount pad 51 horizontal slide 44 lower extreme.

Optionally, the transverse driving motor 36 is fixed at two ends of the mounting upright plate 3 through a second mounting block 37, an output end of the transverse driving motor 36 is connected to an upper end of a driving transverse screw 40 through a transverse coupling 38, and specifically, a round nut 19 and a stop ring 20 are further arranged between the transverse coupling 38 and a second bearing mounting seat 39.

As shown in fig. 8-11, the positioning and clamping assembly further includes a movable clamping sleeve 58 sleeved on the upper portion of the rotating shaft clamping seat 57, the movable clamping sleeve 58 is rotatably installed in a clamping base 59, and the clamping base 59 is installed on an upper driving plate 61; the lower part of the rotating shaft clamping seat 57 is rotatably installed on the table panel 2 through a rotating shaft seat 70, and the lower part of the rotating shaft clamping seat 27 penetrates through the table panel 2 and is connected with the rotating motor 75; the lower side of the upper driving plate 61 is connected with a plurality of clamping guide rods 63, the clamping guide rods 63 are arranged on the table panel 2 through a plurality of clamping guide seats 64, a lower driving plate 65 is arranged at the lower end of each clamping guide rod 63, and the clamping cylinder 66 is connected with and drives the lower driving plate 65, so that the movable clamping sleeve 58 and the upper part of the rotating shaft clamping seat 57 are clamped and separated from each other.

As shown in fig. 11, the rotating shaft clamping seat 57 includes a sleeve portion 571 and a rotating shaft portion 574 provided at a lower end of the sleeve portion 571, the sleeve portion 571 has a plurality of sidewall grooves 572 uniformly formed along a circumferential direction, an even reverse tapered opening 573 is provided at an upper portion of the sleeve portion 571, and the reverse tapered opening 573 is engaged with the movable clamping sleeve 58.

Specifically, the movable clamping sleeve 58 is installed in the clamping base 59 through a plurality of deep groove ball bearings 34 and a thrust ball bearing 62, and a clamping cover plate 60 is further arranged at the upper end of the clamping base 69.

As shown in fig. 8 and 9, the rotating shaft part 574 at the lower part of the rotating shaft clamping seat 57 is sleeved in the rotating shaft seat 70, and the upper end and the lower end of the rotating shaft part 574 and the rotating shaft seat 70 are respectively provided with a plurality of deep groove ball bearings 34 and thrust ball bearings 62; the lower end of the rotating shaft part 574 is provided with a belt wheel 73, and the rotating motor 75 is connected with a belt 74 through the belt wheel 73 to drive the rotating shaft clamping seat 57 to rotate in the rotating shaft seat 70.

Specifically, the rotating shaft seat 70 is fixedly mounted on the table top plate 2, a positioning ring 71 is further disposed at the upper end of the rotating shaft seat 70, and a plurality of collars 72 are further disposed between the rotating shaft portion 572 and the pulley 73.

As shown in fig. 6, the clamping cylinder 66 is fixed on a cylinder mounting plate 67, the cylinder mounting plate 67 is fixed on the lower portion of the table panel 2 through a plurality of mounting support rods 68, the clamping cylinder 66 drives the lower driving plate 65 to drive the clamping guide rod 63 to move up and down on the clamping guide seat 64, and drives the upper driving plate 61 at the upper end of the clamping guide rod 63 to move up and down, and the upper driving plate 61 drives the movable clamping sleeve 58 to clamp and separate relative to the sleeve portion 571 of the rotating shaft clamping seat 57 through the clamping base 59.

Optionally, an element washer 69 is disposed within the sleeve portion 571. In use, the sealing element 100 is placed in the sleeve portion 571 of the rotating shaft clamping seat 57, the open end of the sealing element 100 extends out of the inverted cone-shaped opening portion 573, the grooving rollers 52 and the chamfering rollers 54 are respectively arranged at two sides of the opening of the sealing element 100, and the sealing rollers 31 and the sealing pinch rollers 32 are arranged right above the opening of the sealing element 100. The clamping cylinder 66 drives the movable clamping sleeve 58 to move upwards, the sleeve part 571 deforms towards the center due to the inverted cone-shaped opening part 573 and the side wall groove 572, so that the sealing element 100 is clamped on the sleeve part 571, the rolling groove roller 52 and the inverted edge roller 54 act on the opening position of the sealing element 100 under the driving of the transverse guide rail mechanism, and then the sealing roller 31 and the sealing pinch roller 32 act on the opening position of the sealing element 100 under the driving of the vertical guide rail mechanism, so that the automatic sealing of the sealing element 100 is realized.

As shown in fig. 6, the rotation motor 75 is connected to a speed reducer 76, the speed reducer 76 is fixed below the table panel 2 by a speed reducer mounting plate 77, and the speed reducer 76 is connected to and drives the shaft holder 57 by the pulley 73 and the belt 74.

As shown in fig. 1 and 2, the rack includes a lower rack 1 and an upper rack 5, the deck 2 is disposed between the lower rack 1 and the upper rack 5, a lower side plate 8 is disposed on a side wall of the lower rack 1, and an upper side plate 6 is disposed on a side wall of the upper rack 5. The top of the upper frame 5 is provided with a top plate 7, and the lower part of the lower frame 1 is provided with a bottom plate 15.

Optionally, the mounting upright plate 3 is disposed on the table panel 2 through an upright plate bracket 4.

Optionally, the lower end of the lower frame 1 is provided with a plurality of adjustable supporting feet 9 and universal wheels 10.

Optionally, the rolling groove sealing machine for the super-capacity battery further comprises a display screen 12, a control key 13 and a barometer 14, wherein the display screen 12, the control keys 13 and the barometer 14 are arranged on the upper portion of the upper frame 5 through a mounting side plate 11.

Optionally, the rolling groove sealing machine for the super-capacity battery further comprises a control installation box 80 and a gas source processing part 81, wherein the control installation box 80 is connected with the vertical driving motor 16, the horizontal driving motor 36, the rotating motor 75, the display screen 12, the control keys 13 and the barometer 14. An external air source is connected with and controlled by the clamping air cylinder 66 through the air source processing piece 81. The air source processing part 81 is AFC2000, the FC2000 is in an air pressure transmission system, the air source processing part 81 is an air filter, a pressure reducing valve and an oil atomizer, an electromagnetic valve and an air cylinder can realize oil-free lubrication (the lubrication function is realized by lubricating grease), and the oil atomizer is not needed.

Optionally, a photoelectric door 78 is respectively disposed along the upper limit station and the lower limit station of the vertical guide rail mechanism, a photoelectric door 78 is respectively disposed along the moving direction of the transverse guide rail mechanism, and the photoelectric door 78 is fixed on the mounting upright plate 3 through a photoelectric door mounting bracket 79.

According to the rolling groove sealing machine for the super-capacity battery, the rolling groove rolling wheel, the chamfering rolling wheel, the sealing rolling wheel and the sealing pressing wheel are arranged, the sealing element is rotatably clamped through the positioning clamping assembly and can be automatically switched to a clamping state, the rolling groove, chamfering and sealing processes of the sealing element are automatically realized through the vertical guide rail mechanism and the transverse guide rail mechanism, the positioning clamping is carried out at one time, the processing precision is high, and the working efficiency is improved.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, and the scope of protection is still within the scope of the utility model.

In the description of the present patent application, 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", "row", "column", etc., indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience of describing and simplifying the present patent application, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the novel aspects of the present patent application.

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 patent application, "plurality" means at least two, e.g., two, three, etc., unless explicitly specified otherwise.

In the present patent application, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "fixed," "secured," and the like are to be construed broadly, e.g., as a fixed connection, a detachable connection, or an integral part; 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 meanings of the above terms in the present patent can be understood by those skilled in the art according to specific situations.

In the patent of the utility model, unless otherwise explicitly specified or limited, a first feature "on" or "under" a second feature may be directly contacted with the first and second features or indirectly contacted with the first and second features through an intermediate. 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.

Claims (10)

1. A rolling groove sealing machine for a super-capacity battery is characterized by comprising a rack, a table board arranged in the rack and a positioning clamping assembly arranged on the table board, wherein a sealing roller is arranged right above the positioning clamping assembly through an installation vertical plate, a rolling groove roller and a chamfering roller are respectively arranged on two sides of the positioning clamping assembly, and the sealing roller is driven by a vertical guide rail mechanism to vertically move up and down on the installation vertical plate; the rolling groove roller and the chamfering roller horizontally reciprocate under the drive of a transverse guide rail mechanism respectively; location centre gripping subassembly is including rotating motor, centre gripping cylinder and being provided with the pivot holder that is used for placing the closing element, it drives to rotate the motor the pivot holder is rotatory, the centre gripping cylinder is used for switching the closing element is in clamping state in the pivot holder.

2. The rolling groove sealing machine for the super-capacity batteries according to claim 1, wherein the vertical guide rail mechanism comprises a vertical driving motor, a vertical screw rod, a vertical nut, a vertical guide rail and a vertical slider, the vertical screw rod is fixed on the vertical plate through a set of first bearing mounting seats, the vertical driving motor is connected with one end of the vertical screw rod, the vertical nut is sleeved on the vertical screw rod, a vertical driving block is arranged on the vertical nut and is connected with and drives a vertical sliding seat, the vertical sliding seat is arranged on the vertical guide rail through the vertical slider, and the sealing roller is connected with the vertical sliding seat through a sealing mounting frame.

3. The rolling groove sealing machine for the super-capacity battery according to claim 2, wherein a sealing roller is respectively arranged at two longitudinal ends of the sealing mounting frame, and a sealing pressure roller is arranged between the two sealing rollers.

4. The rolling groove sealing machine for the super-capacity batteries according to claim 1, wherein the transverse guide rail mechanism comprises a transverse driving motor, a transverse screw rod, a transverse nut, a transverse guide rail and a transverse sliding block, the transverse screw rod is fixed on the mounting vertical plate through a set of second bearing mounting seat, the transverse driving motor is connected with one end of the transverse screw rod, the transverse nut is sleeved on the transverse screw rod, a transverse driving block is arranged on the transverse nut and connected with a transverse sliding seat through a driving connecting block, the transverse sliding seat is arranged on the transverse guide rail through the transverse sliding block, and the rolling groove roller and the chamfering roller are respectively fixedly connected with the transverse sliding seat through a transverse mounting frame.

5. The rolling groove sealing machine for the super-capacity battery according to claim 4, wherein the rolling groove roller and the chamfering roller are respectively arranged on two sides of the upper part of the rotating shaft clamping seat, the rolling groove roller is arranged on the transverse mounting rack on one side of the rotating shaft clamping seat through a rolling groove mounting shaft, and the chamfering roller is arranged on the transverse mounting rack on the other side of the rotating shaft clamping seat through a chamfering mounting shaft.

6. The rolling slot sealing machine for the ultracapacitive batteries according to claim 1, wherein the positioning and clamping assembly further comprises a movable clamping sleeve sleeved on the upper part of the rotating shaft clamping seat, the movable clamping sleeve is rotatably mounted in a clamping base, and the clamping base is mounted on an upper driving plate; the lower part of the rotating shaft clamping seat is rotatably arranged on the table board through a rotating shaft seat, and the lower part of the rotating shaft clamping seat penetrates through the table board and is connected with the rotating motor; the clamping mechanism comprises an upper driving plate, a table panel, a plurality of clamping guide rods, a plurality of clamping guide seats and a lower driving plate, wherein the clamping guide rods are arranged on the lower side of the upper driving plate in a connected mode and are arranged on the table panel through the plurality of clamping guide seats, the lower ends of the clamping guide rods are provided with the lower driving plate, and a clamping cylinder is connected with and drives the lower driving plate, so that the movable clamping sleeve and the upper portion of the rotating shaft clamping seat are clamped and separated from each other.

7. The rolling groove sealing machine for the ultracapacitance battery as claimed in claim 6, wherein the rotating shaft clamping seat comprises a sleeve portion and a rotating shaft portion arranged at the lower end of the sleeve portion, the sleeve portion is evenly provided with a plurality of side wall grooves along the circumferential direction, an even inverted cone-shaped opening portion is arranged at the upper portion of the sleeve portion, and the inverted cone-shaped opening portion is matched with the movable clamping sleeve.

8. The rolling groove sealing machine for the super-capacity battery according to claim 7, wherein a rotating shaft part at the lower part of the rotating shaft clamping seat is sleeved in the rotating shaft seat, and a plurality of deep groove ball bearings and thrust ball bearings are respectively arranged at the rotating shaft part and the upper end and the lower end of the rotating shaft seat; the lower end of the rotating shaft part is provided with a belt wheel, and the rotating motor is connected with the belt wheel and drives the rotating shaft clamping seat to rotate in the rotating shaft seat.

9. The rolling slot sealing machine for the super capacitor battery as claimed in claim 8, wherein the clamping cylinder is fixed on a cylinder mounting plate, the cylinder mounting plate is fixed on the lower portion of the table panel through a plurality of mounting support rods, the clamping cylinder drives the lower driving plate to drive the clamping guide rod to move up and down on the clamping guide seat, and drives the upper driving plate at the upper end of the clamping guide rod to move up and down, and the upper driving plate drives the movable clamping sleeve to clamp and separate relative to the sleeve portion of the rotating shaft clamping seat through the clamping base.

10. The rolling groove sealing machine for the super capacitor battery as claimed in claim 9, wherein the rotating motor is connected with a speed reducer, the speed reducer is fixed below the table panel through a speed reducer mounting plate, and the speed reducer is connected with the belt through the belt wheel to drive the rotating shaft clamping seat.

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