CN214444509U - Coil changing device and tab welding equipment - Google Patents

Abstract

The utility model relates to a roll change device and utmost point ear welding equipment. This reel change device includes: the unwinding mechanism comprises a sliding support and an unwinding assembly; the sliding bracket is configured to be controllably movable in a first direction; the first fixing mechanism is positioned at the downstream of the unreeling assembly and can controllably fix the working material belt and the standby material belt output by the unreeling assembly; the second fixing mechanism is used for forming a tape splicing station between the first fixing mechanism and the second fixing mechanism and can controllably fix the working tape and the standby tape; the cutting mechanism is used for cutting off the working material belt and the standby material belt which are positioned at the belt splicing station; the tape splicing mechanism is arranged corresponding to the tape splicing station; the first fixing mechanism can move to a spare material belt fixed by the first fixing mechanism along the first direction along with the sliding support and align the spare material belt with a working material belt fixed by the second fixing mechanism at a splicing station, and the splicing mechanism is allowed to be connected with the working material belt and the spare material belt aligned at the splicing station.

Description

Coil changing device and tab welding equipment

Technical Field

The utility model relates to a battery manufacture equipment technical field especially relates to a change of lap device and utmost point ear welding equipment.

Background

In the production and manufacturing process of the lithium battery, the cathode sheet, the diaphragm and the anode sheet need to be wound to form a battery core. Before the pole piece enters the winding device for winding, the pole lug needs to be welded at a specific position of the pole piece, and then the pole lug is wound together with the pole piece.

The tab is generally provided in a roll unwinding manner, and thus when one tab roll is used up, a new tab roll needs to be replaced. At present, the manual coil changing mode is adopted in actual production to replace the pole lug coil, so that the machine halt time is long, the production efficiency is reduced, and the labor cost is increased.

SUMMERY OF THE UTILITY MODEL

Therefore, the coil changing device and the tab welding equipment which overcome the defects are provided, aiming at the problems that in the prior art, the manual coil changing mode is adopted to change the tab coil, so that the machine halt time is long, and the labor cost is increased.

A reel change apparatus comprising:

the unwinding mechanism comprises a sliding support and an unwinding assembly arranged on the sliding support; the sliding bracket is configured to be controllably moved along a first direction, and the unreeling assembly is used for outputting a working material belt and a standby material belt;

the first fixing mechanism is arranged on the sliding support, is positioned at the downstream of the unreeling assembly and can controllably fix the working material belt and the standby material belt output by the unreeling assembly;

the second fixing mechanism is arranged at the downstream of the first fixing mechanism so as to form a tape splicing station between the first fixing mechanism and the second fixing mechanism, and the second fixing mechanism can controllably fix the working tape and the standby tape which penetrate out of the first fixing mechanism; the working material belt and the standby material belt which are positioned between the first fixing mechanism and the second fixing mechanism are arranged at intervals along the first direction;

the cutting mechanism is used for cutting off the working material belt and the standby material belt which are positioned at the belt splicing station; and

the tape splicing mechanism is arranged corresponding to the tape splicing station;

the first fixing mechanism can move to a spare material belt fixed by the first fixing mechanism and a working material belt fixed by the second fixing mechanism along the first direction along the sliding support, and the working material belt and the spare material belt aligned by the splicing station are aligned by the splicing mechanism and are allowed to be connected by the splicing mechanism.

In one embodiment, the first fixing mechanism and the second fixing mechanism are respectively located on two sides of the tape splicing station in a third direction perpendicular to the first direction, and the cutting mechanism and the tape splicing mechanism are respectively located on two sides of the tape splicing station in a second direction perpendicular to the first direction and the third direction.

In one embodiment, the cutting mechanism comprises an adjusting component and two cutting components which are matched with the adjusting component, wherein each cutting component is provided with a first cutting knife and a second cutting knife which is matched with the first cutting knife in a cutting way;

the adjusting assemblies are arranged on the sliding support and can be controlled to drive the two cutting assemblies to move away from each other along the first direction to cutting positions for cutting off a working material belt or a standby material belt respectively;

when the two cutting assemblies move to the respective cutting positions, the working material belt and the standby material belt of the belt splicing station respectively enter between the first cutter and the second cutter of the corresponding cutting assembly.

In one embodiment, the cutting mechanism further comprises a moving assembly, wherein the moving assembly is arranged on the sliding support and is in transmission connection with the adjusting assembly so as to controllably drive the adjusting assembly to move along a fourth direction which forms an angle with the first direction until the two cutting assemblies are located between the working material belt and the standby material belt of the belt splicing station.

In one embodiment, the moving assembly includes a moving driving member mounted on the sliding bracket and a moving plate in driving connection with the moving driving member, the adjusting assembly is mounted on the moving plate, and the moving driving member is configured to drive the moving plate to move along the fourth direction.

In one embodiment, each of the cutting assemblies further comprises a mounting base movably connected to the moving plate along the first direction, and the first cutter and the second cutter are mounted on the mounting base;

the mounting seats of the two cutting assemblies are in driving connection with the adjusting assembly so as to be driven by the adjusting assembly to move close to or away from each other along the first direction.

In one embodiment, the first fixing mechanism has a first fixing position and a second fixing position arranged at intervals along the first direction, and the first fixing position and the second fixing position are used for fixing the working material belt and the spare material belt.

In one embodiment, the first fixing mechanism includes a clamping driving member mounted on the sliding support and two clamping blocks in driving connection with the clamping driving member, the first fixing position and the second fixing position are formed between the two clamping blocks, and the clamping driving member is used for driving the two clamping blocks to clamp or release with each other.

In one embodiment, the second fixing mechanism includes a first fixing component, a second fixing component and a third fixing component, and the first fixing component and the second fixing component are respectively located on two sides of the third fixing component in the first direction; the first and second fixed positions can be alternately aligned with the third fixed component during movement of the sliding bracket in the first direction;

when the first fixing position is aligned with the third fixing component, the second fixing position is aligned with the second fixing component, so that the second fixing component is fixedly connected with the standby material belt penetrating out of the second fixing position;

when the second fixing position is aligned with the third fixing component, the first fixing position is aligned with the first fixing component, so that the first fixing component is fixedly connected with the spare material belt penetrating out of the first fixing position.

In one embodiment, the splicing mechanism comprises a rubberizing assembly, the rubberizing assembly comprises a rubberizing driving piece and two rubberizing suckers in driving connection with the rubberizing driving piece, at least one of the two rubberizing suckers is used for adsorbing an adhesive tape, and the rubberizing driving piece is used for driving the two rubberizing suckers to be in a folding state, so that the adhesive tape on the rubberizing suckers is adhered to a working material belt and a standby material belt aligned at the splicing station.

In one of them embodiment, the tape splicing mechanism still includes translation driving piece and drive block, translation driving piece with the drive block drive connection, the rubberizing driving piece install in the drive block, the translation driving piece is used for driving the drive block is in the rubberizing sucking disc absorbs the sticky tape and prepares gluey position with the rubberizing sucking disc is pasted the sticky tape and is removed between the rubberizing position in work material area and reserve material area.

In one embodiment, the tape splicing mechanism further comprises a tape preparation plate arranged at the tape preparation position, and at least one side surface of the tape preparation plate is used for adhering an adhesive tape;

when the driving block moves to the glue preparation position, the two gluing suckers are driven by the gluing driving piece to be in the folding state, so that the gluing suckers suck the adhesive tapes on the glue preparation plate.

In one embodiment, the rubberizing driving piece is used for driving the two rubberizing suction cups to rotate reversely to each other to the folding state and the flat state.

A tab welding device comprises the coil changing device in any one of the above embodiments.

According to the coil changing device and the tab welding equipment, in actual operation, the work material belt unreeled and output by the unreeling assembly sequentially passes through the first fixing mechanism, the tape splicing station and the second fixing mechanism and is conveyed to the downstream. The starting end of the standby material belt which is unwound and output by the unwinding assembly sequentially passes through the first fixing mechanism and the belt splicing station and is fixed on the second fixing mechanism.

When the material roll of the working material belt on the unreeling component is used up and needs to be changed, firstly, the first fixing mechanism fixes the working material belt and the standby material belt unreeled and output by the unreeling component at the same time, and the second fixing mechanism also fixes the working material belt (at this moment, the working material belt is fixed by the first fixing mechanism and the second fixing mechanism together, and the standby material belt is fixed by the first fixing mechanism and the second fixing mechanism together). Then, the cutting mechanism cuts off the working material belt and the standby material belt at the belt splicing station. Then, the sliding support drives the first fixing mechanism to move along the first direction until the cut end of the standby material belt fixed on the first fixing mechanism is aligned with the cut end of the working material belt fixed on the second fixing mechanism at the belt connecting station. And then, the splicing mechanism connects the cut end of the working material belt aligned at the splicing station with the cut end of the standby material belt. Finally, the first fixing mechanism releases the fixation of the spare material belt, the second fixing mechanism also releases the fixation of the working material belt, so that the spare material belt unwound and output by the unwinding assembly sequentially passes through the first fixing mechanism, the belt splicing station and the second fixing mechanism and is conveyed downstream, and the spare material belt unwound and output by the unwinding assembly is converted into the working material belt. And at the moment, the used material roll on the unreeling component can be replaced, the material belt output by the replaced new material roll is used as a spare material belt, the starting end of the spare material belt is drawn to sequentially penetrate out of the first fixing mechanism and the belt receiving station and be fixed on the second fixing mechanism, and preparation is made for next roll replacement.

Therefore, the utility model discloses a change the scroll device and can realize the automatic switch-over (automatic roll change promptly) in work material area and reserve material area, compare with the artifical mode of changing the scroll that adopts among the prior art, when having shortened the shut down greatly, improved production efficiency, and reduced the cost of labor.

Drawings

Fig. 1 is a schematic structural view of a roll changer according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a first fixing mechanism of the reel changer shown in FIG. 1;

FIG. 3 is a schematic structural view of a cutting mechanism of the roll changer shown in FIG. 1;

fig. 4 is a schematic structural view of the cutting mechanism shown in fig. 3 from another view angle;

FIG. 5 is a schematic structural view of a second fixing mechanism of the reel changer shown in FIG. 1;

FIG. 6 is a top view of the second securing mechanism shown in FIG. 5;

fig. 7 is a schematic structural view of a tape splicing mechanism of the reel changer 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. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Referring to fig. 1, an embodiment of the present invention provides a roll changing device, which includes an unwinding mechanism 10, a first fixing mechanism 14, a second fixing mechanism 30, a cutting mechanism 20, and a tape splicing mechanism 32.

The unwinding mechanism 10 includes a sliding bracket 11 and an unwinding assembly (not shown) mounted on the sliding bracket 11. The sliding bracket 11 is configured to be controllably movable in a first direction. The unwinding assembly is used for outputting a working material belt and a standby material belt. That is to say, unreel two material belts of subassembly exportable, when one of them is the work material belt in these two material belts, wherein another is reserve material belt. The first fixing mechanism 14 is disposed on the sliding bracket 11 to move along with the sliding bracket 11 in the first direction. The first fixing mechanism 14 is located downstream of the unwinding assembly and is capable of controllably fixing the working tape and the standby tape output by the unwinding assembly. The second fixing mechanism 30 is arranged downstream of the first fixing mechanism 14 to form a splicing station c between the first fixing mechanism 14 and the second fixing mechanism 30. The second securing mechanism 30 is capable of controllably securing the work and backup strips of material that exit the first securing mechanism 14. The working material belt and the standby material belt located between the first fixing mechanism 14 and the second fixing mechanism 30 (i.e. the belt splicing station c) are arranged at intervals along the first direction. The cutting mechanism 20 is arranged corresponding to the tape splicing station c and is used for cutting off the working tape and the standby tape at the tape splicing station c. The splicing mechanism 32 is arranged in correspondence with the splicing station c. Preferably, the cutting assembly 20 is disposed on the sliding bracket 11 to move in the first direction along with the sliding bracket 11.

The first fixing mechanism 14 can move along the sliding support 11 along the first direction to align the spare tape fixed by the first fixing mechanism 14 with the working tape fixed by the second fixing mechanism 30 at the splicing station c, and allow the splicing mechanism 32 to connect the working tape and the spare tape aligned at the splicing station c.

In the roll changing device, during actual operation, the work material belt unreeled and output by the unreeling component sequentially passes through the first fixing mechanism 14, the tape splicing station c and the second fixing mechanism 30 and is conveyed downstream. The starting end of the standby material belt unreeled and output by the unreeling component sequentially passes through the first fixing mechanism 14 and the belt splicing station c and is fixed on the second fixing mechanism 30.

When the material roll of the working material belt on the unwinding assembly is used up and needs to be changed, first, the first fixing mechanism 14 fixes the working material belt and the standby material belt which are unwound and output by the unwinding assembly at the same time, and the second fixing mechanism 30 also fixes the working material belt (at this time, the working material belt is fixed by the first fixing mechanism 14 and the second fixing mechanism 30 together, and the standby material belt is fixed by the first fixing mechanism 14 and the second fixing mechanism 30 together). Then, the cutting mechanism 20 cuts the work tape and the backup tape at the tape splicing station c. Then, the sliding bracket 11 drives the first fixing mechanism 14 to move along the first direction until the cut end of the spare tape fixed on the first fixing mechanism 14 is aligned with the cut end of the working tape fixed on the second fixing mechanism 30 at the tape splicing station c. Then, the splicing mechanism 32 connects the cut end of the working tape aligned at the splicing station c with the cut end of the spare tape. Finally, the first fixing mechanism 14 releases the fixing of the spare material belt, and the second fixing mechanism 30 also releases the fixing of the working material belt, so that the spare material belt unwound and output by the unwinding assembly passes through the first fixing mechanism 14, the belt splicing station c and the second fixing mechanism 30 in sequence and is conveyed downstream, that is, the spare material belt unwound and output by the unwinding assembly is converted into the working material belt. And, can change the material roll that is used up on the unreeling assembly at this moment, and regard the material area that the new material roll that will change exports as the spare material area, and pull the beginning end of this spare material area to wear out first fixed establishment 14 and tape splicing station c in proper order, and be fixed in second fixed establishment 30, prepare for the change of the next roll.

Therefore, the utility model discloses a change the scroll device and can realize the automatic switch-over (automatic roll change promptly) in work material area and reserve material area, compare with the artifical mode of changing the scroll that adopts among the prior art, when having shortened the shut down greatly, improved production efficiency, and need not personnel on duty, reduced the cost of labor.

It should be noted that the work material belt refers to a material belt which is unwound and output by the unwinding assembly, sequentially passes through the first fixing mechanism 14, the belt splicing station c and the second fixing mechanism 30, and is conveyed downstream. The standby material belt refers to a material belt which is unreeled and output by the unreeling component, and the starting end of the standby material belt sequentially passes through the first fixing mechanism 14 and the belt splicing station c and is fixed on the second fixing mechanism 30 without being conveyed downstream. It can be understood that after the automatic roll changing, the standby material belt is changed into the working material belt and conveyed to the downstream, and the new material roll is changed to release the rolled material belt as the standby material belt.

It should be further noted that the working material belt and the standby material belt for unwinding and outputting by the unwinding assembly may be tab material belts. Of course, in other embodiments, other types of tapes are also possible, and are not limited herein.

It should also be noted that in one embodiment, the cutting mechanism 20 is configured to cut the working tape and the spare tape at the splicing station c along a cutting line parallel to the first direction, such that the cut end of the spare tape fixed by the first fixing mechanism 14 is flush with the cut end of the working tape fixed by the second fixing mechanism 30 in the first direction, thereby avoiding overlapping of the cut end of the working tape and the cut end of the spare tape at the splicing position. Of course, the working tape and the spare tape at the tape splicing station c may be cut along other cutting lines, as long as the cut end of the working tape and the cut end of the spare tape at the tape splicing position are not overlapped, and the cutting method is not limited herein.

In an embodiment, the unwinding mechanism 10 further includes a base 15 and a switching driving member 16, and the sliding bracket 11 is movably connected to the base 15 along a first direction. Switching driving piece 16 is installed in base 15, and is connected with sliding bracket 11 transmission, in order to drive sliding bracket 11 and move along first direction relative base 15, thereby drive first fixed establishment 14 and cut the mechanism 20 and together move along first direction, and then make cutting mechanism 20 fixed relative first fixed establishment 14, ensure to cut off work material area and reserve material area at splicing station c all the time, and make first fixed establishment 14 can drive the reserve material area after cutting off and move to and align by the work material area that second fixed establishment 30 is fixed, so that splicing mechanism 32 carries out the splicing, and then realize the switching of work material area and reserve material area. Alternatively, the shift drive 16 may be a pneumatic cylinder.

Further, the base 15 is provided with a switching slide rail 151, the sliding support 11 is provided with a switching slide block 111, and the switching slide block 111 is in sliding fit with the switching slide rail 151, so that the sliding of the switching slide block 111 relative to the switching slide rail 151 is utilized to realize that the sliding support 11 is movable relative to the base 15 along the first direction, and the movement of the sliding support 11 is more stable and reliable. Of course, in other embodiments, the switch slider 111 may be mounted on the base 15, and the switch sliding rail 151 may be mounted on the sliding bracket 11, as long as the sliding bracket 11 can move in the first direction relative to the base 15, which is not limited herein.

The embodiment of the utility model provides an in, unreel the subassembly and include that first unreel subassembly 12 and second unreel the subassembly, first unreel subassembly 12 and second unreel the subassembly and set up respectively in the both sides of sliding support 11 on the first direction. The first unwinding assembly 12 is used for unwinding the tape a, which can be used as a working tape or a spare tape, to the first fixing mechanism 14. The second unwinding assembly is configured to unwind a material tape b, which may be a working material tape or a standby material tape, to the second fixing mechanism 14. That is to say, when the material tape a unwound and output by the first unwinding assembly 12 is a working material tape, the material tape b unwound and output by the second unwinding assembly is a standby material tape; when the material belt a unwound and output by the first unwinding assembly 12 is a standby material belt, the material belt b unwound and output by the second unwinding assembly is a working material belt.

Specifically, in the embodiment, the first unwinding assembly 12 includes a first material shaft 121 and a first unwinding driving member 122, and the first material shaft 121 is rotatably connected to the sliding bracket 11 around its axis. The first unwinding driving member 122 is installed on the sliding support 11 and is in transmission connection with the first material shaft 121 to drive the first material shaft 121 to rotate around the axis of the first material shaft 121, so as to drive the material roll installed on the first material shaft 121 to rotate and unwind.

The second unreeling assembly comprises a second material shaft and a second unreeling driving piece, and the second material shaft is rotatably connected to the sliding support 11 around the axis of the second material shaft. The second unreels the driving piece and installs in sliding bracket 11, and is connected with the transmission of second material axle to the drive second material axle rotates around self axis, thereby drives and installs the material of rolling up on the second material axle and rotate and unreel.

Specifically, in the embodiment, the unwinding mechanism 10 further includes a mounting shaft 125, the mounting shaft 125 is fixedly mounted on the sliding support 11, and the first material shaft 121 and the second material shaft are respectively sleeved at two ends of the mounting shaft 125 through bearings, so that the first material shaft 121 and the second material shaft can rotate relative to the mounting shaft 125.

Specifically, in an embodiment, the first unwinding driving member 122 may be in transmission connection with the first material shaft 121 through a belt transmission structure. Specifically, first action wheel 123 of installation on the output shaft of first unwinding driving piece 122, the first driven wheel of installation on first material axle 121, the cover is equipped with first drive belt 124 between first action wheel 123 and the first driven wheel, thereby make first unwinding driving piece 122 drive first action wheel 123 rotate, first action wheel 123 drives first driven wheel rotation through first drive belt 124, first driven wheel drives first material axle 121 again and rotates, and then the realization is installed and is rolled up the material book rotation on first material axle 121 and unreel material area a. Alternatively, the first unwinding driving member 122 may be a motor.

Of course, in other embodiments, the first unwinding driving member 122 may also be in transmission connection with the first material shaft 121 through other transmission structures, such as a chain transmission structure, a gear transmission structure, and the like, which is not limited herein.

Specifically, in the embodiment, the second unwinding driving member can be in transmission connection with the second material shaft through a belt transmission structure. Specifically, the second action wheel is installed on the output shaft of the second unreeling driving piece, the second is installed on the second material shaft from the driving wheel, a second transmission belt is sleeved between the second action wheel and the second driven wheel, so that the second unreels the driving piece to drive the second action wheel to rotate, the second action wheel drives the second to rotate from the driving wheel through the second transmission belt, the second drives the second material shaft to rotate from the driving wheel, and then the material roll installed on the second material shaft is unreeled and is output the material belt. Alternatively, the second unwinding driving member may be a motor.

Of course, in other embodiments, the second unwinding driving member may also be in transmission connection with the second material shaft through other transmission structures, such as a chain transmission structure, a gear transmission structure, and the like, which is not limited herein.

The embodiment of the utility model provides an in, first fixed establishment 14 and second fixed establishment 30 are located the both sides of area connecting station c respectively on the third direction with first direction vertically, it is located the both sides of area connecting station c on the second direction respectively to cut mechanism 20 and area connecting mechanism 32, this second direction perpendicular to first direction and third direction, thereby make first fixed establishment 14, second fixed establishment 30, cut the mechanism 20 and the area connecting mechanism 32 is compacter to be laid around area connecting station c, compact structure is favorable to improving space utilization.

Specifically, in the embodiment shown in fig. 1, the first direction is a direction perpendicular to the paper surface, the second direction is a left-right direction, and the third direction is an up-down direction. The first fixing mechanism 14 is located above the tape splicing station c, the second fixing mechanism 30 is located below the tape splicing station c, the cutting mechanism 20 is located on the left side of the tape splicing station c, and the tape splicing mechanism 32 is located on the right side of the tape splicing station c.

Referring to fig. 1 and fig. 2, in an embodiment of the present invention, the first fixing mechanism 14 has a first fixing position 144 and a second fixing position 145 arranged at intervals along the first direction. The first fixing station 144 and the second fixing station 145 are used for fixing the work tape and the spare tape. Therefore, one of the material belts unreeled and output by the unreeling assembly passes through the first fixing position 144 to enter the splicing station c, the other material belt passes through the second fixing position 145 to enter the splicing station c, and when the roll needs to be changed, the first fixing mechanism 14 fixes the two material belts (i.e., the working material belt and the standby material belt) at the first fixing position 144 and the second fixing position 145 simultaneously, so as to fix the working material belt and the standby material belt simultaneously.

In an embodiment, the first fixing mechanism 14 includes a clamping driving member 142 mounted on the sliding bracket 11, and two clamping blocks 143 in driving connection with the clamping driving member 142, and the two clamping blocks 143 form the first fixing position 144 and the second fixing position 145 therebetween. The clamping driving member 142 is used for driving the two clamping blocks 143 to clamp or unclamp each other. When the clamping driving element 142 drives the two clamping blocks 143 to clamp, the two clamping blocks 143 simultaneously clamp the two tapes unreeled and output by the unreeling assembly at the first fixing position 144 and the second fixing position 145 respectively. When the clamping driving element 142 drives the two clamping blocks 143 to be loosened, the two clamping blocks 143 simultaneously release the clamping on the two strips of material which are unreeled and output by the unreeling assembly. The first fixing mechanism 14 can simultaneously clamp or simultaneously loosen two material belts, and has a simple structure, and the two material belts are stably and reliably clamped.

Alternatively, the clamping driving member 142 may be a clamping cylinder, and the two clamping blocks 143 are respectively mounted at two clamping driving ends of the clamping cylinder, so that the clamping driving member 142 can drive the two clamping blocks 143 to clamp or unclamp.

Furthermore, the two clamping blocks 143 extend lengthwise along the first direction, and the first fixing position 144 and the second fixing position 145 are respectively located at lengthwise two ends of the two clamping blocks 143, so that on one hand, two material tapes unreeled and output by the unreeling assembly respectively pass through the first fixing position 144 and the second fixing position 145, and the two material tapes are prevented from being interfered with each other; on the other hand, when the two clamping blocks 143 are clamped, the two material belts unreeled and output by the unreeling assembly are clamped at the same time, and when the two clamping blocks 143 are loosened, the clamping of the material belts unreeled and output by the unreeling assembly is released at the same time.

In one embodiment, the first fixing position 144 is disposed corresponding to the first unwinding assembly 12, so that the first fixing position 144 is used for clamping or releasing the tape a (working tape or standby tape) unwound and outputted by the first unwinding assembly 12. The second fixing position 145 is disposed corresponding to the second unwinding assembly, so that the second fixing position 145 is used for clamping or releasing the second unwinding assembly to unwind the output material tape (working material tape or standby material tape).

It should be noted that, in other embodiments, two clamping structures may be disposed on the sliding bracket 11 along the first direction, and the two clamping structures respectively form the first fixing location 144 and the second fixing location 145, and each clamping structure can independently clamp or release one of the tapes (i.e., the working tape or the spare tape) output by the unwinding assembly, and can also simultaneously clamp or release the working tape and the spare tape, which is not limited herein.

Specifically, in the embodiment, the unwinding mechanism 10 further includes a first buffer component 17 and a second buffer component, where the first buffer component 17 is installed on the sliding support 11, and is disposed between the first unwinding component 12 and the first fixing mechanism 14, and is used for buffering the material tape a unwound and output by the first unwinding component 12. The second buffer component is installed on the sliding support 11, and is arranged between the second unwinding component and the first fixing mechanism 14, so as to buffer the material belt unwound and output by the second unwinding component.

Referring to fig. 1, 3 and 4, in an embodiment of the present invention, the cutting mechanism 20 includes an adjusting component 21 and two cutting components 22 coupled to the adjusting component 21. Each cutting assembly 22 has a first cutter 222 and a second cutter 223 matched with the first cutter 222. The adjusting assembly 21 is disposed on the sliding support 11 and is capable of controllably driving the two cutting assemblies 22 to move away from each other along a first direction to respective cutting positions for cutting off the working tape and the standby tape.

When the two cutting assemblies 22 move to the respective cutting positions, the working material tape and the standby material tape at the tape splicing station c respectively enter between the first cutter 222 and the second cutter 223 of the corresponding cutting assembly 22, so that the first cutter 222 and the second cutter 223 of the two cutting assemblies 22 are in cutting fit to respectively cut off the working material tape and the standby material tape.

In some embodiments, the cutting mechanism 20 further includes a moving assembly 23, the moving assembly 23 is disposed on the sliding bracket 11 and is in transmission connection with the adjusting assembly 21, so as to controllably drive the adjusting assembly 21 to move in the fourth direction until both cutting assemblies 22 are located between the working tape and the standby tape at the splicing station c. Wherein the fourth direction intersects the first direction. Preferably, the fourth direction is perpendicular to the first direction and parallel to the second direction.

In this way, when the working tape and the standby tape at the splicing station c need to be cut off, firstly, the moving component 23 drives the adjusting component 21 to move along the fourth direction until the two cutting components 22 are located between the working tape and the standby tape at the splicing station c, so that the working tape and the standby tape are respectively aligned with the positions between the first cutter 222 and the second cutter 223 of the corresponding cutting components 22 in the first direction. Then, the adjusting assembly 21 drives the two cutting assemblies 22 to move away from each other to the cutting position along the first direction, so that the working tape and the standby tape enter between the first cutter 222 and the second cutter 223 of the corresponding cutting assemblies 22 respectively. Then, the first cutter 222 and the second cutter 223 of the two cutting assemblies 22 are matched in cutting, and the working material belt and the standby material belt are cut off respectively. Finally, the adjusting assembly 21 drives the two cutting assemblies 22 to move close to each other in the first direction to be reset, and the moving assembly 23 drives the adjusting assembly 21 to move reversely in the fourth direction to be reset, so that the cutting mechanism 20 is prevented from interfering with other parts during the movement of the sliding support 11 in the first direction.

Specifically, in the embodiment, the moving assembly 23 includes a moving driving member 231 mounted on the sliding bracket 11 and a moving plate 232 in driving connection with the moving driving member 231, the adjusting assembly 21 is mounted on the moving plate 232, and the moving driving member 231 is configured to drive the moving plate 232 to move along the fourth direction, so as to drive the adjusting assembly 21 to move along the fourth direction. Alternatively, the moving drive 231 may be a pneumatic cylinder.

In one embodiment, each cutting assembly 22 further includes a mounting seat 221 movably coupled to the moving plate 232 along the first direction, and the first and second cutters 222 and 223 are mounted on the mounting seat 221. The mounting seats 221 of both cutting assemblies 22 are drivingly connected to the adjustment assembly 21 for movement toward and away from each other in a first direction driven by the adjustment assembly 21. When the adjusting assembly 21 drives the mounting seats 221 of the two cutting assemblies 22 to move away from each other, the working tape and the standby tape enter between the first cutter 222 and the second cutter 223 of the corresponding cutting assembly 22 respectively so as to be cut by the first cutter 222 and the second cutter 223 of the corresponding cutting assembly 22.

Further, the first sliding rail 2321 is installed on the moving plate 232, the first slider 2211 is installed on the installation base 221, and the first slider 2211 is in sliding fit with the first sliding rail 2321, so that the installation base 221 can move along the first direction relative to the moving plate 232 by the sliding of the first slider 2211 along the first sliding rail 2321, and the installation base 221 is ensured to move stably and reliably along the first direction.

Further, the adjusting assembly 21 includes a clamping jaw cylinder 211, and two driving ends of the clamping jaw cylinder 211 are respectively connected with the mounting seats 221 of the two cutting assemblies 22, so that the clamping jaw cylinder 211 can drive the mounting seats 221 of the two cutting assemblies 22 to move close to or away from each other along the first direction.

In one embodiment, each cutting assembly 22 further comprises a guide rod 224 and a cutting driving member 225, the mounting base 221 has a guide hole, and the guide rod 224 is disposed through the guide hole and slidably engaged with the guide hole. The first cutter 222 is fixedly coupled to the mounting seat 221, and the second cutter 223 is fixedly coupled to one end of the guide bar 224. The cutting driving member 225 is mounted on the mounting seat 221 and is in transmission connection with the other end of the guide rod 224 to drive the guide rod 224 to move along the guide hole, so as to drive the second cutter 223 to move relative to the first cutter 222, and further cut off the material tape (working material tape or standby material tape) between the second cutter 223 and the first cutter 222. In this way, the sliding fit between the guide rod 224 and the guide hole guides the movement of the second cutter 223, so as to ensure that the second cutter 223 is in cutting fit with the first cutter 222 during the movement process to cut off the material belt between the two. Alternatively, the cutting drive 225 may be a pneumatic cylinder. The second cutter 223 is fixedly coupled to one end of the guide bar 224 by a cutter holder 226.

The cutting mechanism 20 is not limited to being mounted on the slide holder 11, and moves in the first direction together with the slide holder 11. In other embodiments, the cutting mechanism 20 may also be provided with a driving structure (e.g., a linear module, an electric cylinder, etc.) for driving the cutting mechanism 20 to move in the first direction (specifically, the moving driving member 231 of the moving assembly 21 is mounted on the driving structure) to adjust the positional relationship between the two cutting assemblies 22 and the working tape and the standby tape at the splicing station c, so as to ensure that the two cutting assemblies 22 can move to the respective cutting positions for cutting under the driving of the moving assembly 21 and the adjusting assembly 23.

Referring to fig. 1, 5 and 6, in an embodiment of the present invention, the second fixing mechanism 30 includes a first fixing component 33, a second fixing component 34 and a third fixing component 31, and the first fixing component 33 and the second fixing component 34 are respectively located at two sides of the third fixing component 31 in the first direction. During movement of the sliding bracket 11 in the first direction, the first fixing locations 144 and the second fixing locations 145 can be alternately aligned with the third fixing assembly 31.

When the first fixing position 144 is aligned with the third fixing component 31, the second fixing position 145 is aligned with the second fixing component 34, so that the second fixing component 34 is fixedly connected with the spare tape passing through the second fixing position 145. At this time, the work material tape passed out of the first fixing station 144 continues to pass through the splicing station c and the third fixing assembly 31, and is conveyed downstream.

When the second fixing position 145 is aligned with the third fixing element 31, the first fixing position 144 is aligned with the first fixing element 33, so that the first fixing element 33 is fixedly connected with the spare tape passing through the first fixing position 144. At this time, the work material tape passed out from the second fixing station 145 continues to pass through the splicing station c and the third fixing unit 31, and is conveyed downstream.

Therefore, the starting end of the fixed standby material belt is connected by the first fixing component 33 or the second fixing component 34, so that the cutting component 22 can cut off the working material belt and the standby material belt at the belt station c at the same time, and the cutting effect is improved. It will be appreciated that the two cutting assemblies 22 of the cutting mechanism 20 are utilized to sever the strip of work material and the strip of backup material, respectively.

In particular, in the embodiment, the process of moving the sliding bracket 11 along the first direction includes a first position and a second position.

When the sliding bracket 11 moves to the first position, the first fixing position 144 is aligned with the first fixing component 33, so that the spare tape passing through the first fixing position 144 is fixedly connected to the first fixing component 33. At the same time, the second fixing station 145 is aligned with the third fixing assembly 31, so that the work material belt passing through the second fixing station 145 continues to pass through the belt splicing station c and the third fixing assembly 31 and is conveyed downstream.

When the sliding support 11 moves to the second position, the first fixing position 144 is aligned with the third fixing component 31, so that the work material belt passing through the first fixing position 144 continues to pass through the belt splicing station c and the third fixing component 31 and is conveyed downstream. Meanwhile, the second fixing position 145 is aligned with the second fixing member 34, so that the spare tape, which is threaded out of the second fixing position 145, is connected and fixed to the second fixing member 34.

Specifically, in the embodiment, the first fixing component 33 includes a first bracket 331, a first fixing clamping block 332, and a first movable clamping block 333, the first fixing clamping block 332 is fixedly connected to the first bracket 331, and the first movable clamping block 333 is disposed on the first bracket 331 and configured to move toward or away from the first fixing clamping block 332. When the first fixing position 144 is aligned with the first fixing assembly 33, the spare tape passing through the first fixing position 144 passes through between the first fixing clamping block 332 and the first movable clamping block 333, and then the first movable clamping block 333 moves towards the first fixing clamping block 332 to clamp the spare tape between the first fixing clamping block 332 and the first movable clamping block 333, so that the spare tape is clamped and fixed, and the cutting mechanism 20 cuts the spare tape when changing rolls. Alternatively, the first movable clamp block 333 is mounted to the first bracket 331 by a first knob plunger 334, so that the first movable clamp block 333 can be moved toward or away from the first fixed clamp block 332 by screwing the first knob plunger 334.

It should be noted that the first fixing assembly 33 may also adopt other structures, such as a vacuum suction plate or a clamping jaw air cylinder, as long as the starting end of the spare tape that is threaded out from the first fixing position 144 can be fixed, and the structure is not limited herein.

In an embodiment, the second fixing assembly 34 includes a second bracket 341, a second fixing clip 342, and a second movable clip 343, and the second fixing clip 342 is fixedly connected to the second bracket 341. The second movable clamp block 343 is disposed at the second bracket 341 and is configured to be movable toward and away from the second fixed clamp block 342. When the second fixing position 145 is aligned with the second fixing assembly 34, the spare tape passing through from the second fixing position 145 penetrates between the second fixing clamp block 342 and the second movable clamp block 343, and then the second movable clamp block 343 moves towards the second fixing clamp block 342 to clamp the spare tape between the second fixing clamp block 342 and the second fixing clamp block 343, so that the spare tape is clamped and fixed, and the spare tape is cut by the cutting mechanism 20 when the roll is changed. Alternatively, the second movable clamp block 343 is mounted to the second bracket 341 by the second knob plunger 344, so that the second movable clamp block 343 can be moved toward or away from the second fixed clamp block 342 by screwing the second knob plunger 344.

It should be noted that the second fixing assembly 34 may also adopt other structures, such as a vacuum suction plate or a clamping jaw air cylinder, as long as the starting end of the spare tape that is threaded out from the second fixing position 145 can be fixed, and the structure is not limited herein.

In one embodiment, the third fixing assembly 31 includes a third bracket 311, a clamping driving member 312 and two clamping blocks 313, wherein the clamping driving member 312 is mounted on the third bracket 311. The two clamping blocks 313 are connected to the clamping driving member 312, so that the clamping driving member 312 drives the two clamping blocks 313 to clamp or release the work material belt between the two clamping blocks 313. Alternatively, the clamp drive 312 may be a jaw cylinder. In other embodiments, the third fixing component may also adopt other structures, such as a vacuum absorption plate, and the like, as long as the working tape can be fixed, and the third fixing component is not limited herein.

Further, the second fixing mechanism 30 further includes a fixing frame 35, and the first support 331, the second support 341 and the third support 311 are all fixedly connected to the fixing frame 35, so as to integrally mount the first fixing component 33, the third fixing component 31 and the second fixing component 34 on the fixing frame 35, thereby improving the space utilization rate and facilitating the assembly and disassembly.

Referring to fig. 1 and 7, in an embodiment of the present invention, the tape splicing mechanism 32 includes a tape splicing assembly, the tape splicing assembly includes a tape splicing driving member 323 and two tape splicing suction cups 324 connected to the tape splicing driving member 323 in a driving manner, and at least one of the two tape splicing suction cups 324 is used for sucking a tape. The rubberizing driving member 323 is configured to drive the two rubberizing suction cups 324 to be in a closed state, so as to glue the adhesive tape on the rubberizing suction cups 324 to the cut end of the working tape and the cut end of the standby tape aligned at the tape splicing station c, thereby achieving connection between the standby tape and the working tape. So, utilize the end of cutting off of the work material area and the end of cutting off of reserve material area of two rubberizing sucking discs 324 of closing up and pasting the sticky tape between two rubberizing sucking discs 324 to realize the connection in work material area and work material area, rubberizing subassembly simple structure, the rubberizing action is simple reliable, makes rubberizing efficiency higher and rubberizing effect better. It can be understood that, when only one of the rubberizing suction cups 324 is used for adsorbing the adhesive tape, the other rubberizing suction cup 324 may not have an adsorption function (i.e. it is not required to be communicated with an external negative pressure source, and it may not be provided with an adsorption hole communicated with an external air source), and only functions to cooperate with the rubberizing suction cup 324 for adsorbing the adhesive tape to fold so as to ensure that the adhesive tape is adhered to the connection between the working tape and the spare tape.

In one embodiment, the belt splicing mechanism 32 further comprises a translation driving member 321 and a driving block 322. The translation drive 321 is drivingly connected to the drive block 322. The rubberizing driving member 323 is mounted on the driving block 322, and the translational driving member 321 is used for driving the driving block 322 to move between the glue preparing position and the rubberizing position. When the driving block 322 moves to the glue preparing position, the tape is sucked by the tape sucking cup 324. When the driving block 322 moves to the gluing position, the gluing driving member 323 drives the two gluing suction cups 324 to close to be in a closed state, so as to glue the tapes to the working tape and the standby tape. Optionally, the glue preparing position and the glue pasting position are arranged along the second direction.

Thus, when tape splicing is required, first, the driving block 322 is driven by the translation driving member 321 to move to the tape preparing position, so that the tape is sucked by the tape sucking disc 324. Then, the translational driving member 321 drives the driving block 322 to move to the rubberizing position, at which the cut end of the working tape and the cut end of the spare tape aligned at the splicing station c are located between the two rubberizing suckers 324. Then, the rubberizing driving member 323 drives the two rubberizing suction cups 324 to fold to press the cut end of the working tape and the cut end of the spare tape, so as to glue the adhesive tape on the rubberizing suction cups 324 to the cut end of the working tape and the cut end of the spare tape, so that the cut end of the working tape and the cut end of the spare tape are connected with each other through the adhesive tape. Finally, the rubberizing driving member 323 drives the rubberizing suction cup 324 to open (at this time, the rubberizing suction cup 324 can be controlled to stop sucking the tape so as to separate the rubberizing suction cup 324 from the tape), and the translation driving member 321 drives the driving block 322 to return to the tape preparing position for preparing for next rubberizing. Alternatively, the translation drive 321 may be a pneumatic cylinder.

Further, the tape splicing mechanism 32 further includes a standby glue plate 325 mounted on the fixing base 37, the standby glue plate 325 is located at a standby glue position, and at least one side surface is used for adhering an adhesive tape.

When the translation driving member 321 drives the driving block 322 to move to the glue preparing position, the glue preparing plate 325 is located between the two gluing suction cups 324, at this time, the gluing driving member 323 drives the two gluing suction cups 324 to close, so that the gluing suction cups 324 suck the adhesive tape on the glue preparing plate 325, and then the gluing driving member 323 drives the two gluing suction cups 324 to open (at this time, the adhesive tape on the glue preparing plate 325 is sucked by the gluing suction cups 324, so that the adhesive tape is separated from the glue preparing plate 325). After the tape on the prepared board 325 is sucked by the tape sucking disc 324, a new tape can be re-stuck on at least one side of the prepared board 325 by using a manual or automatic device for the tape sucking disc 324 to suck again.

It should be noted that, in order to improve the tape splicing effect, the two tape suction cups 324 need to suck the tapes, so that the tapes are adhered to both sides of the cut end of the working tape and the cut end of the standby tape, and therefore the tapes need to be adhered to both opposite sides of the standby tape 325, so that the two tape suction cups 324 can suck the tapes at the same time.

In the embodiment of the present invention, the rubberizing driving member 323 is used to drive the two rubberizing suction cups 324 to rotate reversely to the above-mentioned closed state and the flat state. Thus, when the driving block 322 is driven by the translation driving element 321 to move to the glue preparation position or the glue pasting position, the two glue pasting sucking discs 324 are driven by the glue pasting driving element 323 to rotate in opposite directions to each other to be folded, so that the two glue pasting sucking discs are folded, and the suction of the adhesive tape or the glue pasting is further realized. When the adhesive tape is sucked and moved to the adhesive tape adhering position or the adhesive tape adhering position, the two adhesive tape adhering driving pieces 323 drive the two adhesive tape adhering suction cups 324 to rotate reversely to a tiled state in order to avoid interference of the two adhesive tape adhering suction cups 324 in the moving process, and the two adhesive tape adhering suction cups 324 are ensured not to interfere with other parts such as the adhesive tape preparing plate 325 or the material belt in the moving process. It is understood that the two rubberizing suction cups 324 can be closed by turning them approximately 90 ° from the flat state toward the direction of closing each other, and similarly, the two rubberizing suction cups 324 can be flat by turning them approximately 90 ° from the closed state toward the direction of opening each other. When the two rubberizing suction cups 324 are in a flat state, the two rubberizing suction cups 324 are in the same plane, so that the avoiding effect is ensured. Alternatively, the rubberized drive 323 may be a jaw cylinder.

It should be noted that the two rubberizing suction cups 324 are not limited to be closed or opened in a manner of rotating in opposite directions to each other to suck the adhesive tape and the rubberizing. In other embodiments, the two rubberizing suction cups 324 can be moved in a translational manner to close or open for sucking the adhesive tape and rubberizing, which is not limited herein. Certainly, when the two rubberizing suction cups 324 are folded or opened in a horizontal moving manner, an avoidance driving cylinder needs to be additionally arranged, and after the two rubberizing suction cups 324 suck the adhesive tape or the rubberizing is completed, the avoidance driving cylinder needs to be used for driving the two rubberizing suction cups 324 to move (for example, move along the first direction), so that the standby adhesive plate 325 or the standby material tape and the working material tape exit from between the two rubberizing suction cups 324, and an avoidance effect is achieved. It should be noted that, as for driving the two rubberizing suction cups 324 to translate and driving the two rubberizing suction cups 324 to avoid by using the avoiding driving cylinder, a mature prior art can be adopted, and details are not described herein.

The embodiment of the utility model provides an in, take mechanism 32 still includes take-up seat 326, and translation driving piece 321 fixed mounting is on this take-up seat 326, and it is on this take-up seat 326 to be equipped with offset plate 325 through being equipped with gluey support 327 fixed connection. Therefore, the tape splicing mechanism 32 is integrally installed on the tape splicing seat 326, which is beneficial to improving the space utilization rate and is convenient to disassemble and assemble.

Specifically, in the embodiment, the reel changer further includes a fixing seat 37 (see fig. 1) and a bottom plate 50 (see fig. 1), the tape receiving seat 326 and the fixing frame 35 are both fixedly mounted on the fixing seat 37, and the base 15 and the fixing seat 37 are both fixedly mounted on the bottom plate 50, so that the unreeling mechanism 10, the first fixing mechanism 14, the second fixing mechanism 30, the cutting mechanism 20 and the tape receiving mechanism 32 of the reel changer are integrally arranged on the bottom plate 50, and the reel changer can be well integrated into the tab welding device, thereby being beneficial to improving the overall space utilization rate of the equipment.

The following describes a roll changing process by taking a situation that the first unwinding assembly 12 unwinds the output material tape a as a working material tape, and the second unwinding assembly unwinds the output material tape b as a standby material tape (i.e. the sliding support 11 is located at the second position) as an example:

initially, the sliding support 11 is located at the second position, and the work material tape unreeled and output by the first unreeling assembly 12 penetrates the tape splicing station c from the first fixing position 144 between the two clamping blocks 143, further penetrates between the two clamping blocks 313 of the third fixing assembly 31, and continues to be conveyed downstream. The starting end of the standby material belt unreeled and output by the second unreeling assembly penetrates through the belt splicing station c from the second fixed position 145 between the two clamping blocks 143 and is clamped and fixed between the second movable clamping block 343 and the second fixed clamping block 342 of the second fixed assembly 34.

When the material roll on the first unwinding assembly 12 runs out and needs to be changed, first, the two clamping blocks 143 of the first fixing mechanism 14 clamp the working material tape unwound and outputted by the first unwinding assembly 12 and the standby material tape unwound and outputted by the second unwinding assembly (i.e. the working material tape is clamped and fixed at the first fixing position 144, and the standby material tape is clamped and fixed at the second fixing position 145). Also, the two clamping blocks 313 of the third fixing member 31 clamp and fix the work material tape. The cutting mechanism 20 cuts off the working tape between the first fixing position 144 and the third fixing component 31 and the spare tape between the second fixing position 145 and the second fixing component 34.

Then, the sliding bracket 11 is moved to the first position in the first direction, so that the second fixing position 145 is aligned with the third fixing assembly 31, and thus the cut end of the spare tape clamped at the second fixing position 145 is aligned with the cut end of the working tape clamped between the two clamping blocks 313 of the third fixing assembly 31. The translation driving member 321 of the tape splicing mechanism 32 drives the driving block 322 to move to the rubberizing position, and the rubberizing driving member 323 drives the two rubberizing suction cups 324 to be in a closed state, so that the cut end of the spare tape clamped and fixed in the second fixing position 145 is connected with the cut end of the working tape clamped and fixed between the two clamping blocks 313 of the third fixing assembly 31 at the tape splicing station c through the adhesive tape, and thus the tape splicing is realized.

Finally, the two clamping blocks 143 of the first fixing mechanism 14 release clamping of the working material tape unreeled and output by the first unreeling assembly 12 and the standby material tape unreeled and output by the second unreeling assembly, and the two clamping blocks 313 of the third fixing assembly 31 release clamping of the working material tape, so that the standby material tape unreeled and output by the second unreeling assembly sequentially passes through the second fixing position 145, the tape splicing station c and the two clamping blocks 313 of the third fixing assembly 31 and is conveyed downstream as the working material tape, and reel change is completed.

At this time, the used material roll on the first unwinding assembly 12 can be replaced, the material tape discharged from the replaced new material roll is used as a spare material tape, and the starting end of the spare material tape passes through the first fixing position 144 and is clamped and fixed to the first fixing assembly 33 to prepare for the next roll change.

It should be noted that, a reel changing process in a case where the first unwinding assembly 12 unwinds the output material tape a as a spare material tape and the second unwinding assembly unwinds the output material tape b as a working material tape is similar to the reel changing process, and therefore, no further description is provided herein.

Based on the roll-changing device, the utility model also provides a utmost point ear welding equipment for take the work material to cut off formation utmost point ear, and weld this utmost point ear on the utmost point piece. The tab welding equipment comprises a roll changing device as described in any one of the above embodiments, and is used for conveying the working material belt downstream. It can be understood that the working material tape is a tab material tape.

The tab welding equipment further comprises a welding device, wherein the welding device is arranged at the downstream of the reel changing device and used for cutting off the working material belt conveyed by the reel changing device to form a tab and welding the tab to a pole piece.

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 (14)

1. A reel changer, characterized by comprising:

the unwinding mechanism comprises a sliding support and an unwinding assembly arranged on the sliding support; the sliding bracket is configured to be controllably moved along a first direction, and the unreeling assembly is used for outputting a working material belt and a standby material belt;

the first fixing mechanism is arranged on the sliding support, is positioned at the downstream of the unreeling assembly and can controllably fix the working material belt and the standby material belt output by the unreeling assembly;

the second fixing mechanism is arranged at the downstream of the first fixing mechanism so as to form a tape splicing station between the first fixing mechanism and the second fixing mechanism, and the second fixing mechanism can controllably fix the working tape and the standby tape which penetrate out of the first fixing mechanism; the working material belt and the standby material belt which are positioned between the first fixing mechanism and the second fixing mechanism are arranged at intervals along the first direction;

the cutting mechanism is used for cutting off the working material belt and the standby material belt which are positioned at the belt splicing station; and

the tape splicing mechanism is arranged corresponding to the tape splicing station;

the first fixing mechanism can move to a spare material belt fixed by the first fixing mechanism and a working material belt fixed by the second fixing mechanism along the first direction along the sliding support, and the working material belt and the spare material belt aligned by the splicing station are aligned by the splicing mechanism and are allowed to be connected by the splicing mechanism.

2. The roll changing apparatus according to claim 1, wherein the first fixing mechanism and the second fixing mechanism are respectively located on both sides of the splicing station in a third direction perpendicular to the first direction, and the cutting mechanism and the splicing mechanism are respectively located on both sides of the splicing station in a second direction perpendicular to the first direction and the third direction.

3. The roll changing device according to claim 1, wherein the cutting mechanism comprises an adjusting assembly and two cutting assemblies coupled to the adjusting assembly, each cutting assembly having a first cutting blade and a second cutting blade in cutting engagement with the first cutting blade;

the adjusting assemblies are arranged on the sliding support and can be controlled to drive the two cutting assemblies to move away from each other along the first direction to cutting positions for cutting off a working material belt or a standby material belt respectively;

when the two cutting assemblies move to the respective cutting positions, the working material belt and the standby material belt of the belt splicing station respectively enter between the first cutter and the second cutter of the corresponding cutting assembly.

4. The roll changing device according to claim 3, wherein the cutting mechanism further comprises a moving assembly disposed on the sliding bracket and in transmission connection with the adjusting assembly to controllably drive the adjusting assembly to move in a fourth direction at an angle to the first direction until both of the cutting assemblies are located between the working tape and the standby tape of the splicing station.

5. The reel changer according to claim 4, wherein the moving assembly comprises a moving driving member mounted on the sliding bracket and a moving plate in driving connection with the moving driving member, and the adjusting assembly is mounted on the moving plate, and the moving driving member is used for driving the moving plate to move along the fourth direction.

6. The reel changer of claim 5, wherein each of the cutting assemblies further comprises a mounting base movably connected to the moving plate along the first direction, the first cutter and the second cutter being mounted on the mounting base;

the mounting seats of the two cutting assemblies are in driving connection with the adjusting assembly so as to be driven by the adjusting assembly to move close to or away from each other along the first direction.

7. The reel changer of claim 1, wherein the first fixing mechanism has a first fixing position and a second fixing position spaced in the first direction, and the first fixing position and the second fixing position are used for fixing a working material tape and a spare material tape.

8. The reel changer according to claim 7, wherein the first fixing mechanism comprises a clamping driving member mounted on the sliding bracket and two clamping blocks in driving connection with the clamping driving member, the first fixing position and the second fixing position are formed between the two clamping blocks, and the clamping driving member is used for driving the two clamping blocks to clamp or unclamp each other.

9. The roll changing device according to claim 7, wherein the second fixing mechanism includes a first fixing member, a second fixing member, and a third fixing member, the first fixing member and the second fixing member being respectively located on both sides of the third fixing member in the first direction; the first and second fixed positions can be alternately aligned with the third fixed component during movement of the sliding bracket in the first direction;

when the first fixing position is aligned with the third fixing component, the second fixing position is aligned with the second fixing component, so that the second fixing component is fixedly connected with the standby material belt penetrating out of the second fixing position;

when the second fixing position is aligned with the third fixing component, the first fixing position is aligned with the first fixing component, so that the first fixing component is fixedly connected with the spare material belt penetrating out of the first fixing position.

10. The roll changing device according to claim 1, wherein the splicing mechanism comprises a tape splicing assembly, the tape splicing assembly comprises a tape splicing driving member and two tape splicing suckers in driving connection with the tape splicing driving member, at least one of the two tape splicing suckers is used for sucking a tape, and the tape splicing driving member is used for driving the two tape splicing suckers to be in a closed state so as to glue the tape on the tape splicing suckers to a working tape and a standby tape aligned at the splicing station.

11. The reel changer according to claim 10, wherein the splicing mechanism further comprises a translational driving member and a driving block, the translational driving member is in driving connection with the driving block, the rubberizing driving member is mounted on the driving block, and the translational driving member is used for driving the driving block to move between a standby position where the rubberizing suction cups suck the adhesive tapes and a rubberizing position where the rubberizing suction cups stick the adhesive tapes to the working tape and the standby tape.

12. The roll changing device according to claim 11, wherein the splicing mechanism further comprises a glue preparation plate arranged at the glue preparation position, and at least one side surface of the glue preparation plate is used for adhering a tape;

when the driving block moves to the glue preparation position, the two gluing suckers are driven by the gluing driving piece to be in the folding state, so that the gluing suckers suck the adhesive tapes on the glue preparation plate.

13. A reel changer according to any one of claims 10-12, characterized in that the rubberizing drive is adapted to drive the two rubberizing suction cups to rotate in opposite directions with respect to each other to the closed position and the flat position.

14. A tab welding apparatus, characterized by comprising a reel changer according to any one of claims 1 to 13.

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