CN115070301A - Side seam welding and shaping clamp and production line thereof - Google Patents

Abstract

The invention provides a side seam welding and shaping clamp and a production line thereof. The side seam welding and shaping clamp comprises a rack assembly, a discharging platform, an end plate clamping assembly, a side plate shaping assembly main body and a positioning mechanism, wherein the rack assembly is connected with a first movable plate, a second movable plate and a fixed plate. Through changing the distance between first fly leaf and second fly leaf and the fixed plate, make things convenient for not curb plate and the electric core module of equidimension to weld the use, the blowing platform, end plate clamping component and curb plate clamping component are "ten" style of calligraphy and arrange, place the work piece and compress tightly the end plate through end plate clamping component on the blowing platform, carry out the plastic to the curb plate through curb plate plastic subassembly, rethread curb plate clamping component presss from both sides the curb plate tightly, the positioning mechanism fixes a position the curb plate, make things convenient for the curb plate to weld with electric core module, the deviation appears when avoiding welding, influence the processingquality of electric core module.

Description

Side seam welding and shaping clamp and production line thereof

Technical Field

The invention belongs to the technical field of new energy battery processing, and particularly relates to a side seam welding and shaping clamp and a production line thereof.

Background

Along with the rapid development of new energy automobile trade, the article type, the model, the specification of battery module are also more and more, when carrying out the side seam welding to new energy battery module and add man-hour, need carry out the plastic respectively to electric core module, curb plate in advance to adjust stably to curb plate and end plate, when guaranteeing to weld electric core module, curb plate and end plate can laminate on electric core module, guarantee the quality of the new energy battery who processes out. At present, the welding of battery module end plate and curb plate mostly all adopts the higher laser welding of degree of automation. However, in the prior art, the higher module end curb plate welded platform of degree of automation mostly all can only adapt to the welding of the module end curb plate of single size, the reason is that the platform can't accomplish the automatic adjustment of different module length direction and width direction during the welding, the welding positioning fixture can only realize carrying out the positioning to the battery module of single specification, can not be compatible the battery module of different specifications, make the battery module of producing different specifications need change different positioning fixture, the operation is inconvenient, and inefficiency, a plurality of positioning fixture increase enterprise manufacturing cost in addition.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a side seam welding and shaping clamp and a production line thereof, and aims to solve the problems of poor compatibility and low efficiency of a battery cell module seam-measuring welding clamp and a module shaping assembly in the prior art.

One embodiment of the present invention provides a side seam welding and reshaping jig, including:

the rack assembly is connected with a first movable plate, a second movable plate and a fixed plate;

the discharging platform is arranged on the first movable plate and used for placing workpieces;

the end plate clamping assemblies are respectively arranged on the second movable plate and the fixed plate and are used for adjusting the end plates;

the side plate clamping assembly is arranged on the first movable plate and used for clamping the side plate;

the side plate reshaping component comprises a first side plate reshaping component and a second side plate reshaping component and is used for reshaping the side plates;

the positioning mechanism is arranged on the second movable plate and used for fixing the side plate and the end plate;

the module shaping assembly is arranged on the frame assembly and is used for shaping the battery cell module, the end plate and the side plate;

the first movable plate is located between the second movable plate and the fixed plate, the side plate clamping assemblies are located on two sides of the discharging platform, the first side plate shaping assembly is installed on the rack assembly, the second side plate shaping assembly is installed on the fixed plate, the positioning mechanism comprises a welding baffle, and the welding baffle is installed on the second side plate shaping assembly and the positioning mechanism respectively.

In one embodiment, a slide rail is mounted on the frame assembly, the first movable plate and the second movable plate are both slidably connected with the slide rail, a lead screw is connected to the frame assembly, the lead screw is in threaded connection with one side of the first movable plate, a first electric cylinder is mounted inside the frame assembly, and an output shaft of the first electric cylinder is fixedly connected with the second movable plate.

In one of them embodiment, the end plate clamping assembly includes that the end plate compresses tightly the electric jar, the end plate compresses tightly the electric jar and installs on the second fly leaf, still install fixed supporting bench on the second fly leaf, the output shaft that the end plate compressed tightly the electric jar installs the connecting rod, installs end plate upper portion compact heap on the connecting rod, the connecting rod rotates with fixed supporting bench to be connected, still install the end plate compact heap on the fixed supporting bench.

In one embodiment, the side plate clamping assembly comprises a third movable plate, a second electric cylinder is mounted on the first movable plate, an output shaft of the second electric cylinder is fixedly connected with the third movable plate, a slide rail is further mounted on the first movable plate, the third movable plate is matched with the slide rail, a welding support is mounted on the third movable plate, a side plate shaping base plate is mounted on the welding support, a vacuum chuck is arranged in the side plate shaping base plate, a pushing cylinder is mounted on the third movable plate, a side plate shaping positioning block is movably mounted on the third movable plate, an output shaft of the pushing cylinder is fixedly connected with the side plate shaping positioning block, a side plate pressing electric cylinder is mounted on the side plate shaping positioning block, an upper side plate pressing block is mounted on the output shaft of the side plate pressing electric cylinder, and a side plate retractor electric cylinder is further mounted on the side plate shaping positioning block, still be connected with curb plate plastic drag hook on the curb plate plastic locating piece, curb plate drag hook electric cylinder is used for driving curb plate plastic drag hook.

In one embodiment, the first side plate shaping assembly comprises a fourth movable plate, the fourth movable plate is connected with the frame assembly through a length limiting adjusting mechanism, a shaping support is connected to the fourth movable plate, a width limiting adjusting mechanism is arranged between the fourth movable plate and the shaping support, a shaping end plate is connected to the shaping support through a sliding rail, a shaping cylinder is mounted on the shaping support, and an output shaft of the shaping cylinder is fixedly connected with the shaping end plate.

In one embodiment, the second side plate reshaping component comprises a fifth movable plate, a side plate reshaping butt seam adjusting mechanism is arranged between the fifth movable plate and the fixed plate, a reshaping support is mounted on the fifth movable plate, a reshaping end plate is connected to the reshaping support through a sliding rail, a reshaping cylinder is mounted on the reshaping support, an output shaft of the reshaping cylinder is fixedly connected with the reshaping end plate, and one end of the reshaping end plate is fixedly connected with a welding baffle plate.

In one embodiment, the positioning mechanism further comprises a copper nozzle supporting frame, the copper nozzle supporting frame is connected with the second movable plate, a side plate shaping butt joint adjusting mechanism is arranged between the copper nozzle supporting frame and the second movable plate, a welding baffle is connected to the copper nozzle supporting frame through a sliding rail, a copper nozzle pressing cylinder is further installed on the copper nozzle supporting frame, one end of the welding baffle penetrates through the copper nozzle supporting frame and is fixedly connected with an output shaft of the copper nozzle pressing cylinder, and a through hole for the welding baffle to move is formed in the copper nozzle supporting frame.

In one embodiment, the module shaping assembly comprises:

the shaping component bracket is arranged on the rack component;

the movable mounting plate is movably mounted on the shaping component bracket;

the pole compaction limiting mechanism is arranged on the movable mounting plate and is used for compacting the module;

the pole roller component is arranged on the pole pressing and limiting mechanism;

and the module side shaping mechanism is arranged on the movable mounting plate and used for arranging the side surfaces of the modules.

In one embodiment, a screw rod is arranged on one side of the shaping assembly bracket, the movable mounting plate is in threaded connection with the screw rod, and the movable mounting plate is movably connected with the shaping assembly bracket through a sliding rail.

In one embodiment, the module side shaping mechanism comprises a support pushing cylinder, the support pushing cylinder is installed on a movable installation plate, the movable installation plate is further connected with a side shaping support through a sliding rail, the side shaping support is fixedly connected with an output shaft of the support pushing cylinder, a cylinder installation plate is movably installed on the side shaping support, a side shaping cylinder is installed on the cylinder installation plate, a module side shaping adjusting mechanism is arranged between the cylinder installation plate and the side shaping support, a side pressing module is fixedly connected to an output shaft of the side plate shaping cylinder, and a bolt cylinder is installed on the cylinder installation plate and used for fixing the side pressing module.

In one embodiment, the post pressing and limiting mechanism further comprises a post roller mounting plate, the post roller is mounted on the post roller mounting plate, a post pressing air cylinder is mounted on the movable mounting plate, and an output shaft of the post pressing air cylinder is fixedly connected with the post roller mounting plate.

In one embodiment, the pole roller assembly comprises a plurality of rollers, and pole compression springs are arranged on the rollers.

The invention provides a production line of a new energy battery module line, which comprises a side seam welding and shaping clamp, wherein the side seam welding and shaping clamp is any one of the side seam welding and shaping clamps.

The side seam welding reshaping clamp or the module reshaping component provided by the embodiment has the following beneficial effects:

1. the positions of the material placing platform and the side plate clamping assembly can be adjusted through the movable connection of the first movable plate and the rack assembly, the positions of the first side plate shaping assembly and the positioning mechanism can be adjusted through the movable connection of the second movable plate and the rack assembly, the welding use of side plates and battery cell modules with different sizes is facilitated through changing the distance between the first movable plate, the second movable plate and the fixed plate, the material placing platform, the end plate clamping assembly and the side plate clamping assembly are arranged in a cross shape, a workpiece is placed on the material placing platform, the end plate is pressed through the end plate clamping assembly, the side plate is shaped through the side plate shaping assembly, the side plate is clamped through the side plate clamping assembly, the positioning mechanism positions the side plate, the welding of the side plate and the battery cell module is facilitated, and the accuracy of corresponding positions when the end plate and the side plate are welded with the battery cell module is ensured, the deviation appears when avoiding welding, influences the processingquality of electric core module.

2. The third movable plate is movably connected with the first movable plate through a slide rail, the distance between the third movable plate and the discharging platform is changed through the second electric cylinder, so that the side plate shaping substrate is attached to the side plate, the adjustment is convenient according to the battery cell modules with different sizes, by installing the side plate reshaping positioning block on the third movable plate and installing the side plate reshaping drag hook and the side plate upper pressing block on the side plate reshaping positioning block, the side plates are shaped and fixed, the position of a side plate shaping positioning block on a third movable plate is changed by pushing an electric cylinder, the distance between a side plate shaping drag hook and a side plate upper pressing block and a side plate shaping base plate is changed, the side plates with different thicknesses can be conveniently used, the position laminating of curb plate and curb plate plastic base plate is guaranteed through curb plate plastic drag hook, carries out the fixed clamp through curb plate upper portion compact heap to the curb plate and presss from both sides tightly, and the back is accomplished in the plastic, and vacuum chuck adsorbs fixedly with the curb plate.

3. The motion of plastic cylinder control plastic end plate through the plastic shelf location, the position to the curb plate is adjusted, stability when guaranteeing curb plate and electric core module and being connected, promote the plastic end plate through the plastic cylinder and slide along the plastic support, carry out the plastic to the curb plate, and stretch into the welding baffle with the one end of curb plate, make things convenient for the welding of curb plate and electric core module, compress tightly cylinder through the copper nozzle and adjust welding baffle, the convenience is adjusted welding baffle according to the curb plate of equidimension not, set up the through-hole that can supply the welding baffle activity on the copper nozzle support frame, make things convenient for welding baffle to adjust according to the size of curb plate under the control that the copper nozzle compressed tightly the cylinder.

4. Place electric core module back on blowing platform, rule through module side plastic mechanism to electric core module, rule finishes the back, compress tightly electric core module through utmost point post compression stop gear, the rethread curb plate clamping component is installed the curb plate, place back on blowing platform when electric core module, support promotion cylinder promotes side plastic support along slide rail up-and-down motion, it compresses tightly the module up-and-down motion to drive the side, side plastic cylinder promotion side through on the cylinder mounting panel compresses tightly the module and carries out the plastic along the slide rail motion to electric core module, compress tightly module locking through the bolt cylinder with the side, make things convenient for side compression module to carry out the plastic to electric core.

5. Compress tightly the cylinder through utmost point post and promote utmost point post wheel components mounting panel up-and-down motion, make utmost point post compress tightly stop gear and compress tightly the top of electric core module, make things convenient for degree electricity core module to fix, the gyro wheel shrink when utmost point post wheel components contacts with electric core module, utmost point post hold-down spring is with the gyro wheel top level to give utmost point post wheel components mounting panel and electric core module repulsion, make things convenient for electric core module to fix, simultaneously, protect electric core module.

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, 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 the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a side seam welding and shaping fixture according to the present invention;

FIG. 3 is a schematic view of the position of the end plate clamping assembly on the frame assembly according to the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 5 is a schematic view of a connection structure between a first electric cylinder and a second movable plate according to the present invention;

FIG. 6 is a schematic view of the side panel clamping assembly of the present invention;

FIG. 7 is a schematic structural view of a first side panel reforming assembly according to the present invention;

FIG. 8 is a schematic structural view of a second side plate reforming assembly according to the present invention;

FIG. 9 is a schematic view of the positioning mechanism of the present invention;

FIG. 10 is a schematic rear view of a module reshaping component according to the present invention;

FIG. 11 is a front view of the modular reshaping component of the present invention;

FIG. 12 is a schematic structural view of a side shaping mechanism of the module of the present invention;

FIG. 13 is a schematic structural view of a post roller assembly according to the present invention;

in the figure: 100. welding a shaping clamp at the side seam;

101. a first movable plate; 102. a second movable plate; 103. a fixing plate; 104. a third movable plate; 105. a first electric cylinder;

110. a rack assembly;

120. a material placing platform;

130. an end plate clamping assembly; 131. the end plate compresses the electric cylinder; 132. fixing the support table; 133. a connecting rod; 134. an end plate upper compression block; 135. an end plate compression block;

140. a side plate clamping assembly; 141. a second electric cylinder; 142. welding a support; 143. a side plate shaping substrate; 144. a vacuum chuck; 145. a push cylinder; 146. a side plate shaping positioning block; 147. the side plate compresses the electric cylinder; 1471. a compression block at the upper part of the side plate; 148. the side plate pulls the electric cylinder; 1481. a side plate shaping drag hook;

150. a side panel reforming assembly body;

151. a first side panel reforming assembly; 1511. a fourth movable plate; 1512. the length limit adjusting mechanism is connected; 1513. a reshaping bracket; 1514. a width limit adjusting mechanism; 1515. shaping the end plate; 1516. a shaping cylinder;

152. a second side plate reshaping component; 1521. a fifth movable plate; 1522. a side plate shaping butt joint adjusting mechanism; 1523. welding a baffle;

160. a positioning mechanism; 161. a copper nozzle support frame; 162. a copper nozzle pressing cylinder; 163. a through hole;

200. a module shaping component;

210. a shaping component support;

220. a movable mounting plate;

230. the pole column compresses the limiting mechanism; 231. pole roller component mounting plate; 232. the pole column compresses the cylinder;

240. a pole roller component; 241. a roller; 242. the pole column compresses the spring;

250. a module side shaping mechanism; 251. the bracket pushes the cylinder; 252. a side face reshaping bracket; 253. a cylinder mounting plate; 254. a side shaping cylinder; 255. a module side shaping and adjusting mechanism; 256. a lateral pressing module; 257. bolt cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture, and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is 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 addition, if the meaning of "and/or" and/or "appears throughout, the meaning includes three parallel schemes, for example," A and/or B "includes scheme A, or scheme B, or a scheme satisfying both schemes A and B. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 to 5, an embodiment of the present invention provides a side seam welding reshaping fixture 100, where the side seam welding reshaping fixture 100 includes a frame assembly 110, a material placing platform 120, an end plate clamping assembly 130, a side plate clamping assembly 140, a side plate reshaping assembly main body 150, a positioning mechanism 160 and a module reshaping assembly 200, the frame assembly 110 is connected with a first movable plate 101, a second movable plate 102 and a fixed plate 103, the material placing platform 120 is mounted on the first movable plate 101 for placing a workpiece, the end plate clamping assemblies 130 are respectively mounted on the second movable plate 102 and the fixed plate 103 for adjusting an end plate, the side plate clamping assembly 140 is mounted on the first movable plate 101 for clamping a side plate, the side plate reshaping assembly main body 150 includes a first side plate reshaping assembly 151 and a second side plate reshaping assembly 152 for reshaping a side plate, the positioning mechanism 160 is installed on the second movable plate 102 and used for fixing side plates and end plates, wherein the first movable plate 101 is located between the second movable plate 102 and the fixed plate 103, the side plate clamping assemblies 140 are located on two sides of the discharge platform 120, the first side plate reshaping assembly 151 is installed on the frame assembly 110, the second side plate reshaping assembly 152 is installed on the fixed plate 103, the positioning mechanism 160 comprises a welding baffle 1523, the welding baffle 1523 is installed on the second side plate reshaping assembly 152 and the positioning mechanism 160, and the module reshaping assembly 200 is installed on the frame assembly 110 and used for reshaping the cell module, the end plates and the side plates.

The side seam welding reshaping clamp 100 provided by the above embodiment has the following beneficial effects:

the positions of the material placing platform 120 and the side plate clamping component 140 can be adjusted through the movable connection of the first movable plate 101 and the rack component 110, the positions of the first side plate shaping component 151 and the positioning mechanism 160 can be adjusted through the movable connection of the second movable plate 102 and the rack component 110, the welding use of side plates and battery cell modules with different sizes is facilitated through changing the distance between the first movable plate 101, the second movable plate 102 and the fixed plate 103, the material placing platform 120, the end plate clamping component 130 and the side plate clamping component 140 are arranged in a cross shape, a workpiece is placed on the material placing platform 120, the end plate is pressed through the end plate clamping component 130, the side plate is shaped through the side plate shaping component main body 150, the side plate is clamped through the side plate clamping component 140, the positioning mechanism 160 positions the side plate, and the welding of the side plate and the battery cell module is facilitated, the accuracy of the corresponding position when guaranteeing end plate and curb plate and electric core module welding appears the deviation when avoiding welding, influences the processingquality of electric core module.

In one embodiment, the rack assembly 110 is provided with a slide rail, the first movable plate 101 and the second movable plate 102 are slidably connected to the slide rail, the rack assembly 110 is connected to a lead screw, the lead screw is connected to one side of the first movable plate 101 through a screw, the rack assembly 110 is provided with a first electric cylinder 105 inside, and an output shaft of the first electric cylinder 105 is fixedly connected to the second movable plate 102.

In this embodiment, through the screw rod and one side threaded connection of first fly leaf 101, the position of first fly leaf 101 is adjusted when the screw rod rotates, the distance between first fly leaf 101 and fixed plate 103 is conveniently changed according to the size of electric core module, strengthen the adaptation degree of equidimension electric core module not, drive second fly leaf 102 motion through first electric jar 105, change the distance between second fly leaf 102 and first fly leaf 101, convenient not equidimension electric core module is placed on blowing platform 120, strengthen the adaptation degree of equidimension electric core module not, first fly leaf 101 and second fly leaf 102 all with slide rail sliding connection, guarantee the stability when first fly leaf 101 and second fly leaf 102 move.

In one embodiment, the end plate clamping assembly 130 includes an end plate pressing electric cylinder 131, the end plate pressing electric cylinder 131 is installed on the second movable plate 102, a fixed support platform 132 is further installed on the second movable plate 102, a connecting rod 133 is installed on an output shaft of the end plate pressing electric cylinder 131, an end plate upper pressing block 134 is installed on the connecting rod 133, the connecting rod 133 is rotatably connected with the fixed support platform 132, and an end plate pressing block 135 is further installed on the fixed support platform 132.

In this embodiment, end plate upper portion compact heap 134 is the L shape, and the one end of end plate upper portion compact heap 134 is equipped with the slope of slope, conveniently fix the end plate, through the motion of second fly leaf 102, make end plate compact heap 135 laminate end plate and electric core module, can understand, when connecting rod 133 rotates with fixed supporting bench 132 and is connected, the end plate compresses tightly the one end activity of electric jar 131 drive connecting rod 133, the other end activity, drive end plate upper portion compact heap 134 compresses tightly the processing to the end plate, conveniently carry out the regulation to the position of end plate, it is stable to guarantee to be connected when end plate and electric core module welding.

Referring to fig. 6, in one embodiment, the side plate clamping assembly 140 includes a third movable plate 104, a second electric cylinder 141 is mounted on the first movable plate 101, an output shaft of the second electric cylinder 141 is fixedly connected to the third movable plate 104, a slide rail is further mounted on the first movable plate 101, the third movable plate 104 is adapted to the slide rail, a welding support 142 is mounted on the third movable plate 104, a side plate shaping base plate 143 is mounted on the welding support 142, a vacuum suction cup 144 is disposed in the side plate shaping base plate 143, a push cylinder 145 is mounted on the third movable plate 104, a side plate shaping positioning block 146 is movably mounted on the third movable plate 104, an output shaft of the push cylinder 145 is fixedly connected to the side plate shaping positioning block 146, a side plate pressing electric cylinder 147 is mounted on the side plate shaping positioning block 146, an upper side plate pressing block 1471 is mounted on an output shaft of the side plate pressing electric cylinder 147, a side plate reshaping locating block 146 is further provided with a side plate drag hook electric cylinder 148, the side plate reshaping locating block 146 is further connected with a side plate reshaping drag hook 1481, and the side plate drag hook electric cylinder 148 is used for driving the side plate reshaping drag hook 1481.

In this embodiment, the side plate upper pressing block 1471 and the side plate reshaping hook 1481 are both L-shaped, the side plate can be conveniently clamped and fixed by setting the side plate upper pressing block 1471 and the side plate reshaping hook 1481 to be L-shaped, and the distance between the side plate upper pressing block 1471 and the side plate reshaping hook 1481 and the side plate reshaping substrate 143 can be changed by changing the positions of the welding support 142 and the side plate reshaping positioning block 146, so that the use of a side plate with an unknown thickness is facilitated, the third movable plate 104 is movably connected with the first movable plate 101 through a sliding rail, the distance between the third movable plate 104 and the discharge platform 120 is changed through the second electric cylinder 141, so that the side plate reshaping substrate 143 can be attached to the side plate, the adjustment can be conveniently performed according to different sizes of battery cell modules, by installing the side plate reshaping positioning block 146 on the third movable plate 104, and installing the side plate reshaping hook 1481 and the side plate upper pressing block 1471 on the side plate reshaping positioning block 146, carry out the plastic to the curb plate fixedly, change the position of curb plate plastic locating piece 146 on third fly leaf 104 through promoting the electric jar, change the distance between curb plate plastic drag hook 1481 and curb plate upper portion compact heap 1471 and the curb plate plastic base plate 143, make things convenient for the curb plate of different thickness to use, guarantee the position laminating of curb plate and curb plate plastic base plate 143 through curb plate plastic drag hook 1481, carry out the clamping by fixed fastening to the curb plate through curb plate upper portion compact heap 1471, the shaping back that finishes, vacuum chuck 144 adsorbs fixedly with the curb plate.

Referring to fig. 7, in one embodiment, the first side plate reshaping component 151 includes a fourth movable plate 1511, the fourth movable plate 1511 is connected 1512 to the frame component 110 through a length limiting adjustment mechanism, the fourth movable plate 1511 is connected to a reshaping bracket 1513, a width limiting adjustment mechanism 1514 is disposed between the fourth movable plate 1511 and the reshaping bracket 1513, the reshaping bracket 1513 is connected to a reshaping end plate 1515 through a sliding rail, the reshaping bracket 1513 is mounted with a reshaping cylinder 1516, and an output shaft of the reshaping cylinder 1516 is fixedly connected to the reshaping end plate 1515.

In this embodiment, the length limit adjusting mechanism includes a screw rod, the screw rod is in threaded connection with the fourth movable plate 1511, a slide rail is disposed between the fourth movable plate 1511 and the frame assembly 110, the fourth movable plate 1511 is in sliding connection with the frame assembly 110, and the position of the fourth movable plate 1511 is changed by the rotation of the screw rod, it can be understood that when the fourth movable plate 1511 moves, the slide rail ensures the stability of the movement of the fourth movable plate 1511;

the width limit adjusting mechanism 1514 comprises a screw rod, the screw rod is rotatably connected with a fourth movable plate 1511, the shaping support 1513 is slidably connected with the fourth movable plate 1511 through a slide rail, the screw rod is in threaded connection with the shaping support 1513, and the position of the shaping support 1513 is changed through the screw rod, so that when the shaping support 1513 moves, the slide rail ensures the stability of the shaping support 1513 during the movement;

through the motion of plastic cylinder 1516 control plastic end plate 1515 of installing on plastic support 1513, adjust the position of curb plate, stability when guaranteeing that curb plate and electric core module are connected.

Referring to fig. 8, in one embodiment, the second side plate reshaping component 152 includes a fifth movable plate 1521, a side plate reshaping butt seam adjusting mechanism 1522 is disposed between the fifth movable plate 1521 and the fixed plate 103, a reshaping bracket 1513 is mounted on the fifth movable plate 1521, a reshaping end plate 1515 is connected to the reshaping bracket 1513 through a sliding rail, a reshaping cylinder 1516 is mounted on the reshaping bracket 1513, an output shaft of the reshaping cylinder 1516 is fixedly connected to the reshaping end plate 1515, and one end of the reshaping end plate 1515 is fixedly connected to a welding baffle 1523.

In this embodiment, the side plate shaping and seam aligning adjustment mechanism 1522 includes a screw rod, the screw rod is rotatably connected to the frame assembly 110, the fifth movable plate 1521 is slidably connected to the frame assembly 110 through a slide rail, and the fifth movable plate 1521 is adjusted through rotation of the screw rod, so as to facilitate adjustment of the second side plate shaping assembly 152;

promote the plastic end plate 1515 through plastic cylinder 1516 and slide along plastic support 1513, carry out the plastic to the curb plate to in deepening welding baffle 1523 with the one end of curb plate, make things convenient for the welding of curb plate and electric core module.

Referring to fig. 9, in one embodiment, the positioning mechanism 160 further includes a copper nozzle support frame 161, the copper nozzle support frame 161 is connected to the second movable plate 102, a side plate shaping butt joint adjusting mechanism 1522 is disposed between the copper nozzle support frame 161 and the second movable plate 102, the copper nozzle support frame 161 is connected to a welding baffle 1523 through a sliding rail, the copper nozzle support frame 161 is further provided with a copper nozzle pressing cylinder 162, one end of the welding baffle 1523 penetrates through the copper nozzle support frame 161 and is fixedly connected to an output shaft of the copper nozzle pressing cylinder 162, and the copper nozzle support frame 161 is provided with a through hole 163 through which the welding baffle 1523 can move.

In this embodiment, the side plate shaping butt seam adjusting mechanism 1522 includes a screw rod, the screw rod is rotatably connected to the second movable plate 102, the screw rod is in threaded connection with the copper nozzle supporting frame 161, the copper nozzle supporting frame 161 is slidably connected to the second movable plate 102 through a sliding rail, when the screw rod rotates, the copper nozzle supporting frame 161 is adjusted along the sliding rail, so as to facilitate fine adjustment according to the side plate;

compress tightly cylinder 162 through the copper mouth and adjust welding baffle 1523, conveniently adjust welding baffle 1523 according to the curb plate of equidimension not, set up the through-hole 163 that can supply welding baffle 1523 activity on the copper mouth support frame 161, make things convenient for welding baffle 1523 to adjust according to the size of curb plate under the control that the copper mouth compressed tightly cylinder 162.

Referring to fig. 10 to 13, in one embodiment, the module shaping assembly 200 includes a shaping assembly bracket 210, a movable mounting plate 220, a post pressing and limiting mechanism 230, a post roller assembly 240 and a module side shaping mechanism 250, the shaping assembly bracket 210 is mounted on the frame assembly 110, the movable mounting plate 220 is movably mounted on the shaping assembly bracket 210, the post pressing and limiting mechanism 230 is mounted on the movable mounting plate 220 and used for pressing the module, the post roller assembly 240 is mounted on the post pressing and limiting mechanism 230, and the module side shaping mechanism 250 is mounted on the movable mounting plate 220 and used for arranging the side of the module.

In this embodiment, the movable mounting plate 220 moves on the shaping assembly support 210, so that the battery cell module is conveniently placed on the discharge platform 120, and the battery cell module is shaped by the module side shaping mechanism 250;

after placing electric core module on blowing platform 120, regularly carrying out the electricity core module through module side plastic mechanism 250, after the regulation finishes, compress tightly electric core module through utmost point post compression stop gear 230, rethread curb plate clamping component 140 is installed to the curb plate.

In one embodiment, a screw rod is disposed on one side of the shaping assembly bracket 210, the movable mounting plate 220 is in threaded connection with the screw rod, and the movable mounting plate 220 is movably connected with the shaping assembly bracket 210 through a slide rail.

In this embodiment, the lead screw is driven by the motor, the movable mounting plate 220 is driven by the lead screw to move along the slide rail, and after the battery cell module is placed on the discharging platform 120, the lead screw is driven by the motor to rotate, so that the movable mounting plate 220 is moved above the discharging platform 120.

In one embodiment, the module side shaping mechanism 250 includes a bracket pushing cylinder 251, the bracket pushing cylinder 251 is installed on the movable mounting plate 220, the movable mounting plate 220 is further connected with a side shaping bracket 252 through a sliding rail, the side shaping bracket 252 is fixedly connected with an output shaft of the bracket pushing cylinder 251, a cylinder mounting plate 253 is movably installed on the side shaping bracket 252, a side shaping cylinder 254 is installed on the cylinder mounting plate 253, a module side shaping adjusting mechanism 255 is arranged between the cylinder mounting plate 253 and the side shaping bracket 252, a side pressing module 256 is fixedly connected to an output shaft of the side plate shaping cylinder 1516, and a latch cylinder 257 is further installed on the cylinder mounting plate 253 and used for fixing the side pressing module 256.

In this embodiment, the side pressing module 256 and the module side shaping adjusting mechanism 255 include a lead screw, the lead screw is rotatably connected with the side shaping support 252, the lead screw is in threaded connection with the cylinder mounting plate 253, the cylinder mounting plate 253 and the side shaping support 252 are slidably connected through a slide rail, and the position of the cylinder mounting plate 253 is adjusted through rotation of the lead screw;

after electric core module is placed on blowing platform 120, support promotion cylinder 251 promotes side plastic support 252 along slide rail up-and-down motion, drives the side and compresses tightly 256 up-and-down motion of module, promotes the side through side plastic cylinder 254 on the cylinder mounting panel 253 and compresses tightly 256 modules along slide rail motion to electric core module and carries out the plastic, compresses tightly 256 locks of module with the side through bolt cylinder 257, makes things convenient for the side to compress tightly 256 modules and carries out the plastic to electric core.

The side shaping bracket 252 is pushed to move up and down along the slide rail by the bracket pushing cylinder 251, the height of the side pressing module 256 is adjusted,

in one embodiment, the post pressing and limiting mechanism 230 further includes a post roller assembly mounting plate 231, the post roller assembly 240 is mounted on the post roller assembly mounting plate 231, the movable mounting plate 220 is mounted with a post pressing cylinder 232, and an output shaft of the post pressing cylinder 232 is fixedly connected with the post roller assembly mounting plate 231.

In this embodiment, compress tightly cylinder 232 through utmost point post and promote utmost point post roller components mounting panel 231 up-and-down motion, make utmost point post compress tightly the top of stop gear 230 with electric core module and compress tightly, convenience degree electric core module is fixed.

In one embodiment, the pole roller assembly 240 includes a plurality of rollers 241, and a pole pressing spring 242 is disposed on the rollers 241.

In this embodiment, roller 241 contracts when utmost point post roller assembly 240 contacts with electric core module, and utmost point post pressure spring 242 jacks up roller 241 to give utmost point post roller assembly mounting panel 231 and electric core module repulsion, make things convenient for electric core module to fix, simultaneously, protect electric core module.

One embodiment of the invention provides a production line of a new energy battery module line, which comprises a side seam welding and shaping clamp 100, wherein the side seam welding and shaping clamp 100 is any one of the side seam welding and shaping clamps 100.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (13)

1. A side seam welding plastic fixture, characterized by, includes:

the rack assembly is connected with a first movable plate, a second movable plate and a fixed plate;

the discharging platform is arranged on the first movable plate and used for placing workpieces;

the end plate clamping assemblies are respectively arranged on the second movable plate and the fixed plate and are used for adjusting the end plates;

the side plate clamping assembly is arranged on the first movable plate and used for clamping the side plate;

the side plate reshaping component comprises a first side plate reshaping component and a second side plate reshaping component and is used for reshaping the side plates;

the positioning mechanism is arranged on the second movable plate and used for fixing the side plate and the end plate;

the module shaping assembly is arranged on the frame assembly and is used for shaping the battery cell module, the end plate and the side plate;

the first movable plate is located between the second movable plate and the fixed plate, the side plate clamping assemblies are located on two sides of the discharging platform, the first side plate shaping assembly is mounted on the rack assembly, the second side plate shaping assembly is mounted on the fixed plate, the positioning mechanism comprises a welding baffle, and the welding baffle is mounted on the second side plate shaping assembly and the positioning mechanism respectively.

2. The side seam welding sizing jig of claim 1,

the improved electric bicycle is characterized in that a sliding rail is installed on the rack assembly, the first movable plate and the second movable plate are both in sliding connection with the sliding rail, a lead screw is connected to the rack assembly, the lead screw is in threaded connection with one side of the first movable plate, a first electric cylinder is installed inside the rack assembly, and an output shaft of the first electric cylinder is fixedly connected with the second movable plate.

3. The side seam welding sizing jig of claim 1,

the end plate clamping assembly comprises an end plate compression electric cylinder, the end plate compression electric cylinder is installed on a second movable plate, a fixed supporting table is further installed on the second movable plate, a connecting rod is installed on an output shaft of the end plate compression electric cylinder, an end plate upper portion pressing block is installed on the connecting rod, the connecting rod is rotatably connected with the fixed supporting table, and an end plate pressing block is further installed on the fixed supporting table.

4. The side seam welding sizing jig of claim 1,

the side plate clamping assembly comprises a third movable plate, a second electric cylinder is mounted on the first movable plate, an output shaft of the second electric cylinder is fixedly connected with the third movable plate, a slide rail is further mounted on the first movable plate, the third movable plate is matched with the slide rail, a welding support is mounted on the third movable plate, a side plate shaping base plate is mounted on the welding support, a vacuum chuck is arranged in the side plate shaping base plate, a pushing cylinder is mounted on the third movable plate, a side plate shaping positioning block is movably mounted on the third movable plate, an output shaft of the pushing cylinder is fixedly connected with the side plate shaping positioning block, a side plate pressing electric cylinder is mounted on the side plate shaping positioning block, a side plate upper pressing block is mounted on the output shaft of the side plate pressing electric cylinder, a side plate drag hook electric cylinder is further mounted on the side plate shaping positioning block, and a side plate shaping drag hook is further connected on the side plate shaping positioning block, and the side plate drag hook electric cylinder is used for driving the side plate shaping drag hook.

5. The side seam welding sizing jig of claim 1,

first curb plate plastic subassembly includes the fourth fly leaf, be connected through the spacing guiding mechanism of length between fourth fly leaf and the frame subassembly, be connected with the plastic support on the fourth fly leaf, be equipped with the spacing guiding mechanism of width between fourth fly leaf and the plastic support, there is the plastic end plate through sliding rail connection on the plastic support, install the plastic cylinder on the plastic support, the output shaft and the plastic end plate fixed connection of plastic cylinder.

6. The side seam weld truing fixture of claim 1,

the second side plate shaping assembly comprises a fifth movable plate, a side plate shaping butt joint adjusting mechanism is arranged between the fifth movable plate and the fixed plate, a shaping support is mounted on the fifth movable plate, a shaping end plate is connected to the shaping support through a sliding rail, a shaping cylinder is mounted on the shaping support, an output shaft of the shaping cylinder is fixedly connected with the shaping end plate, and a welding baffle is fixedly connected to one end of the shaping end plate.

7. The side seam welding sizing jig of claim 1,

positioning mechanism still includes the copper mouth support frame, the copper mouth support frame is connected with the second fly leaf, be equipped with curb plate plastic butt joint guiding mechanism between the copper mouth support frame is connected with the second fly leaf, there is the welding baffle through sliding rail connection on the copper mouth support frame, still install the copper mouth on the copper mouth support frame and compress tightly the cylinder, the one end of welding baffle runs through the copper mouth support frame and compresses tightly the output shaft fixed connection of cylinder with the copper mouth, set up the through-hole that can supply the welding baffle activity on the copper mouth support frame.

8. The side seam welding sizing jig of claim 1,

the module plastic subassembly includes:

the shaping component bracket is arranged on the rack component;

the movable mounting plate is movably mounted on the shaping component bracket;

the pole compaction limiting mechanism is arranged on the movable mounting plate and is used for compacting the module;

the pole roller component is arranged on the pole pressing and limiting mechanism;

and the module side shaping mechanism is arranged on the movable mounting plate and used for arranging the side surfaces of the modules.

9. The side seam welding truing fixture of claim 8,

and a screw rod is arranged on one side of the shaping assembly support, the movable mounting plate is in threaded connection with the screw rod, and the movable mounting plate is movably connected with the shaping assembly support through a sliding rail.

10. A side seam weld truing fixture as defined in claim 8,

the module side plastic mechanism includes support promotion cylinder, support promotion cylinder installs on movable mounting panel, there is side plastic support still through sliding rail connection on the movable mounting panel, side plastic support and support promotion cylinder's output shaft fixed connection, movable mounting has the cylinder mounting panel on the side plastic support, install side plastic cylinder on the cylinder mounting panel, be equipped with module side plastic guiding mechanism between cylinder mounting panel and the side plastic support, fixedly connected with side compresses tightly the module on the output shaft of curb plate plastic cylinder, still be equipped with the bolt cylinder on the cylinder mounting panel for compress tightly the module to the side and fix.

11. The side seam welding truing fixture of claim 8,

utmost point post compresses tightly stop gear still includes utmost point post roller components mounting panel, utmost point post roller components installs on utmost point post roller components mounting panel, movable mounting panel is last to install utmost point post and to compress tightly the cylinder, utmost point post compresses tightly the output shaft and utmost point post roller components mounting panel fixed connection of cylinder.

12. The side seam welding truing fixture of claim 11,

the post roller component comprises a plurality of rollers, and post compression springs are arranged on the rollers.

13. A new energy battery module line production line is characterized by comprising a side seam welding and shaping clamp, wherein the side seam welding and shaping clamp is the side seam welding and shaping clamp in any one of claims 1 to 12.

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