CN210907857U - Integrated inductance pin cutting, bending and shaping system - Google Patents

Abstract

The utility model provides an integrated inductance pin cutting, bending and shaping system, which comprises a frame, wherein the input end of the frame is provided with a lower die holder, stand columns are fixed on the four directions of the lower die holder, the top of each stand column is fixed with an upper die holder, and a terminal cutting assembly is arranged between the upper die holder and the lower die holder; and a terminal side edge bending assembly is installed on the rack at the output end of the terminal cutting assembly, a terminal bending assembly is installed at the output end of the terminal side edge bending assembly, and a terminal shaping assembly is installed at the output end of the terminal bending assembly. Rational in infrastructure after this scheme of adoption, can realize disconnected foot, plastic integral type production.

Description

Integrated inductance pin cutting, bending and shaping system

Technical Field

The utility model belongs to the technical field of inductance production technique and specifically relates to indicate integrative inductance pin cutting, bend, plastic system.

Background

The cutting-off and the shaping of the existing integrated inductance terminal are realized by a plurality of punching machines, the number of times of transferring in the mode is large, multiple people are needed to operate, the stroke time of the punching machines is short, the terminal cannot be stopped during shaping, and meanwhile, the two sides of the inductance are not well positioned, so that the shaping effect after shaping is poor and the inductance terminal is easy to deform.

Disclosure of Invention

An object of the utility model is to overcome prior art not enough, provide a rational in infrastructure, can realize broken foot, integrative inductance of plastic integral type production cut the foot, bend, plastic system.

In order to achieve the above object, the present invention provides a technical solution: an integrated inductance pin cutting, bending and shaping system comprises a rack, wherein a lower die holder is installed at the input end of the rack, stand columns are fixed in four directions of the lower die holder, an upper die holder is fixed at the top of each stand column, and a terminal cutting assembly is installed between the upper die holder and the lower die holder; and a terminal side edge bending assembly is installed on the rack at the output end of the terminal cutting assembly, a terminal bending assembly is installed at the output end of the terminal side edge bending assembly, and a terminal shaping assembly is installed at the output end of the terminal bending assembly.

The terminal cutting assembly comprises terminal cutting linear guide rails, locking blocks and lower cutters, wherein the two terminal cutting linear guide rails are arranged on the surface of a lower die holder in parallel, a sliding block is movably arranged on each terminal cutting linear guide rail, the two sides of the lower die holder are provided with the locking blocks for limiting the sliding block laterally, the top of each sliding block is provided with a guide pillar fixing plate, the two sides of the top of each guide pillar fixing plate are fixedly provided with die guide pillars, the top of each guide pillar fixing plate between the two die guide pillars is provided with the lower cutter, the two lower cutters are two, an integrated inductor sheet placing area is formed between the two fixed lower cutters, the integrated inductor sheet is supported by the lower cutters, the mold guide pillars above the lower cutters are movably provided with cutter fixing plates, the bottoms of the cutter fixing plates are provided with n-shaped cutter mounting grooves, the centers of the cutter mounting grooves, a lifting push plate is arranged at the top of the cutter fixing plate, a cutting cylinder is arranged at the top of the upper die base, a piston rod of the cutting cylinder is downwards connected with a terminal cutting cylinder connector, and the bottom of the terminal cutting cylinder connector is connected with a connector fixing plate at the top of the lifting push plate; a correcting cylinder is horizontally arranged on two sides of the lower die holder, a piston rod of the correcting cylinder is connected with one end of a material sheet correcting plate, the other end of the material sheet correcting plate is positioned above the guide pillar fixing plate and is opposite to the lower cutter, and the surface of the material sheet correcting plate is higher than that of the lower cutter; the cutter fixing plate is fixedly arranged at the bottom of the lifting push plate through a square base plate and a floating press plate; the number of the upper cutters is two, the cutting edges of the upper cutters are respectively positioned above the outer side walls of the corresponding lower cutters, prepressing plate guide pillars are movably mounted on the cutter fixing plate, the prepressing plate guide pillars are T-shaped in side view, and the prepressing plate guide pillars penetrate through the cutter fixing plate from top to bottom to be connected with the tops of the prepressing plates; a waste material groove which penetrates through the upper part and the lower part is arranged on the sliding block at the outer side of the lower cutter, and a waste material port matched with the waste material groove is arranged on the lower die base; and micrometers are mounted on two sides of the top of the lower die base and are in contact with the end parts of the sliding blocks.

The terminal side edge bending component comprises a flanging seat pressing plate, a flanging seat, a roller shaft air cylinder and a roller shaft lifting block, wherein the flanging seat is arranged on a rack, a concave bending guide groove is arranged on the surface of the flanging seat, one end of the flanging seat is connected with an outlet of the terminal cutting component, the other end of the flanging seat is provided with a roller groove which penetrates up and down, the roller shaft air cylinder is arranged in the rack, a piston rod of the roller shaft air cylinder is upwards connected with the bottom of a connector of the side edge bending air cylinder, the top of the connector of the side edge bending air cylinder is connected with the roller shaft lifting block which is U-shaped, the tops of two side walls of the roller shaft lifting block are provided with the roller shaft mounting block, the opposite sides of the tops of the two roller shaft mounting blocks are movably provided with the roller shaft, the flanging seat is arranged on the rack above the roller shaft lifting block, install hem seat clamp plate in the frame of hem seat top, hem seat clamp plate bottom center department is equipped with the groove of bending of n shape, and the groove of bending is located the constant head tank top, and the cylinder of bending is installed at the hem seat clamp plate top of groove top of bending, and the cylinder of bending passes hem seat clamp plate downwards and extends the groove of bending and form casting die end.

The terminal on bend subassembly including extending the inductance layer board that forms by the hem seat output, install the seat of bending on the inductance layer board, the seat of bending on is n shape, be the horizontal installation on its both sides lateral wall and bend the cylinder, install on the piston rod of the cylinder of bending on and bend the wheel axle bed, install on the wheel axle bed of bending on and bend the wheel axle, two after the installation bend the wheel axle relatively, and lie in inductance layer board two respectively, the axis direction of the wheel axle of bending on and the length direction of inductance layer board are unanimous, the wheel axle of bending on and the length direction of roller axle are unanimous.

The terminal shaping assembly comprises a base plate arranged on a rack, a material discharging rail is arranged in the middle of the base plate and is long-strip-shaped, one end of the material discharging rail is connected with the output end of an inductance supporting plate, a concave material discharging groove is formed in the surface of the material discharging rail along the length direction, side shaping assemblies are arranged on two sides of the material discharging rail at the output end of the material discharging groove, a centering calibration plate is movably arranged on the material discharging groove between the two groups of side shaping assemblies, an adsorption hole which penetrates through the material discharging groove from top to bottom is formed in the bottom of the material discharging groove between the two groups of side; a fixing plate is arranged above the side face shaping assembly, and an upper shaping assembly is arranged on the fixing plate.

Side plastic subassembly including the linear guide rail of plastic, side plastic sword, a slide, the cylinder push rod, the push pedal, the cylinder mounting panel, side plastic cylinder, wherein, the linear guide rail of plastic is installed and is being arranged material track both sides, the linear guide rail of plastic after the installation and row form "ten" font between the material track, movable mounting has the slide on the linear guide rail of plastic, side plastic sword has been placed at the slide top, side plastic sword wherein one side is just to arranging the silo, be connected with the push pedal on the slide of side plastic sword opposite side, install side plastic cylinder through the cylinder mounting panel on the base plate, the piston rod and the cylinder push rod one end of side plastic cylinder are connected, the cylinder push rod other end is connected with the push pedal, be equipped with locking screw in the push pedal, locking screw.

The upper shaping assembly comprises two guide posts, a reset spring, a reduction gearbox and an upper shaping cutter, wherein the two guide posts are movably inserted at two sides of the middle part of the fixed plate, the lower parts of the guide posts downwards penetrate through the fixed plate to be connected with the lifting plate, the bottom of the lifting plate is provided with a pressure head fixing seat, the bottom of the pressure head fixing seat is movably provided with the upper shaping cutter, the top of each guide post is connected with a pressure rising and reducing plate, the reset spring is sleeved on the guide post between the pressure rising and reducing plate and the fixed plate, the top of the reset spring is abutted against the bottom of the pressure rising and; the base plate of lift clamp plate one side is installed the motor mount pad, installs the reducing gear box on the motor mount pad, and the reducing gear box is driven the operation by step motor, is connected with the swing arm on the output shaft of reducing gear box, and swing arm one end and the output shaft of reducing gear box are connected, and the cam bearing follower is installed to the swing arm other end, and the cam bearing follower after the installation is located lift clamp plate top.

Pressure head fixing base look sideways at and be the U-shaped, the lifter plate is connected at the U-shaped top, pressure head fixing base bottom is equipped with the pressure head groove that runs through from top to bottom, goes up plastic sword movable mounting and has the pressure head inslot, last plastic sword bottom after the installation passes the pressure head groove downwards and forms the casting die end, goes up plastic sword top and contradicts bottom the rectangle spring, the rectangle spring top is connected bottom the lifter plate.

After the technical scheme is adopted, the integrated inductor enters the terminal cutting station, the correcting cylinders on the two sides extend out, and the material sheet correcting plate corrects the material sheet to the middle position of the die and stops at the middle position; the cutting cylinder drives the lifting push plate to descend, so that the cutter fixing plates on the two sides descend, the prepressing plate compresses the material pieces firstly, and the upper cutter continues to descend until the upper cutter and the lower cutter are closed to cut off the material pieces;

the cut integrated inductor is supported by the flanging seat and positioned by the positioning groove to enter a bending position below the bending cylinder, and after the integrated inductor enters the bending position, the bending cylinder descends to press the inductor; the roller shaft cylinder rises to drive the roller shaft to rise, so that the terminals on the two sides of the integrated inductor are folded into 90 degrees;

the side shaping cutter is always symmetrical to the discharge track, so that the inductor cannot be extruded to one side of the groove, thereby effectively preventing scratching and scraping, ensuring that the width and size of the product terminal after production are good in consistency and the CPK value is high; the adjustment is standardized through the air cylinder, and the technical state of staff is not depended on; the adjustment is simple and reliable; after the inductor is in place, the stepping motor drives clockwise, the lifting pressing plate is pushed to move downwards through the swing arm and the cam bearing follower to enable the upper shaping cutter to contact the surface of a product, and the lifting pressing plate continues to move downwards until the height is set, so that the upper shaping of the integrated inductor terminal is realized; the upper shaping knife stays for a set time to prevent the terminal piece from elastically deforming; step motor clockwise transmission, lift clamp plate rise under reset spring's effect and reset, go up and export through arranging material track after the plastic is accomplished, rational in infrastructure after this scheme of adoption, can realize disconnected foot, the production of plastic integral type.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the terminal cutting assembly of the present invention.

Fig. 3 is a cross-sectional end view of the terminal cutting assembly.

Fig. 4 is a side cross-sectional view of the terminal severing assembly.

Fig. 5 is a schematic view of a terminal crimping assembly.

Fig. 6 is a schematic view of a terminal side edge bending assembly.

Fig. 7 is a side cross-sectional view of the terminal side crimping assembly.

Fig. 8 is a schematic view of a terminal reforming assembly.

Fig. 9 is a schematic structural diagram of an upper shaping assembly.

Fig. 10 is a schematic view of the upper reforming blade installation.

Fig. 11 is a schematic view of a side reforming assembly.

Detailed Description

The present invention will be further explained with reference to the drawings, and the preferred embodiment of the present invention is: referring to fig. 1 to 11, the integrated inductance pin cutting, bending and shaping system described in this embodiment includes a frame, a lower die base is installed at an input end of the frame, stand columns are fixed in four directions of the lower die base, an upper die base is fixed at the top of each stand column, and a terminal cutting assembly is installed between the upper die base and the lower die base; and a terminal side edge bending assembly is installed on the rack at the output end of the terminal cutting assembly, a terminal bending assembly is installed at the output end of the terminal side edge bending assembly, and a terminal shaping assembly is installed at the output end of the terminal bending assembly.

The terminal cutting assembly comprises terminal cutting linear guide rails 1023, locking blocks 109 and lower cutters 1015, wherein the terminal cutting linear guide rails 1023 are arranged on the surface of a lower die holder in parallel, a sliding block 105 is movably arranged on the terminal cutting linear guide rails 1023, the locking blocks 109 for limiting the lateral direction of the sliding block 105 are arranged on two sides of the lower die holder, a guide post fixing plate 101 is arranged on the top of the sliding block 105, die guide posts 1025 are fixed on two sides of the top of the guide post fixing plate 101, the lower cutters 1015 are arranged on the top of the guide post fixing plate 101 between the two die guide posts 1025, the lower cutters 1015 are two, an integrated inductance material sheet placing area is formed between the two fixed lower cutters 1015, an integrated inductance material sheet 1022 is supported by the lower cutters 1015, the cutter fixing plate 103 is movably arranged on the die guide posts 1025 above the lower cutters 1015, n-shaped cutter mounting grooves are arranged at the bottoms of the cutter fixing plates 103, the upper cutters 102 are mounted in the cutter mounting grooves on two sides of the prepressing plate 108, the top of the cutter fixing plate 103 is provided with a lifting push plate 1012, the top of the upper die base is provided with a cutting cylinder 1028, a piston rod of the cutting cylinder 1028 is downwards connected with a terminal cutting cylinder joint 1013, and the bottom of the terminal cutting cylinder joint 1013 is connected with a joint fixing plate 1014 on the top of the lifting push plate 1012; a correcting cylinder 1032 is horizontally arranged on two sides of the lower die holder, a piston rod of the correcting cylinder 1032 is connected with one end of a material sheet correcting plate 1021, the other end of the material sheet correcting plate 1021 is positioned above the guide post fixing plate 101 and is opposite to the lower cutter 1015, and the surface of the material sheet correcting plate 1021 is higher than that of the lower cutter 1015; the cutter fixing plate 103 is fixedly arranged at the bottom of the lifting push plate 1012 through a square cushion plate 1016 and a floating press plate 1018; the number of the upper cutters 102 is two, the cutting edges of the upper cutters 102 are respectively positioned above the outer side walls of the corresponding lower cutters 1015, prepressing plate guide pillars 1011 are movably mounted on the cutter fixing plate 103, the prepressing plate guide pillars 1011 are T-shaped in side view, and the prepressing plate guide pillars 1011 penetrate through the cutter fixing plate 103 from top to bottom and are connected with the tops of the prepressing plates 108; a waste material groove penetrating up and down is arranged on the sliding block 105 on the outer side of the lower cutter 1015, and a waste material port matched with the waste material groove is arranged on the lower die base; micrometer 1036 is arranged on two sides of the top of the lower die holder, and the micrometer 1036 is in contact with the end portion of the sliding block 105.

The terminal side edge bending assembly comprises a edge bending seat pressing plate 301, an edge bending seat 302, a roller shaft cylinder 3011 and a roller shaft lifting block 305, wherein the edge bending seat 302 is installed on a frame, a concave bending guide groove is arranged on the surface of the edge bending seat 302, one end of the edge bending seat 302 is connected with an outlet of the terminal cutting assembly, the other end of the edge bending seat 302 is provided with a roller groove which penetrates up and down, the roller shaft cylinder 3011 is installed in the frame, a piston rod of the roller shaft cylinder 3011 is upwards connected with the bottom of a side edge bending cylinder joint 308, the top of the side edge bending cylinder joint 308 is connected with the roller shaft lifting block 305, the roller shaft lifting block 305 is U-shaped, the top of two side walls of the roller shaft cylinder is provided with a roller shaft installing block 306, the opposite side of the top of the two roller shaft installing blocks 306 is movably provided with a roller shaft 309, the edge bending seat 302 is installed on the frame above the roller shaft lifting, install hem seat clamp plate 301 in the frame of hem seat 302 top, hem seat clamp plate 301 bottom center department is equipped with the bending groove of n shape, and the groove of bending is located the constant head tank top, and bending cylinder 3014 is installed at the hem seat clamp plate 301 top of bending groove top, and bending cylinder 3014 passes hem seat clamp plate 301 downwards and extends to bending groove formation casting die end.

The terminal upper bending assembly comprises an inductance supporting plate formed by extending the output end of a bending seat 302, an upper bending seat 3030 is installed on the inductance supporting plate, the upper bending seat 3030 is n-shaped, upper bending cylinders are horizontally installed on the side walls of the two sides of the upper bending seat, an upper bending wheel shaft seat 3031 is installed on a piston rod of each upper bending cylinder, an upper bending wheel shaft 3032 is installed on each upper bending wheel shaft seat 3031, the two installed upper bending wheel shafts 3032 are opposite and respectively located on the two inductance supporting plates, the axial direction of each upper bending wheel shaft 3032 is consistent with the length direction of each inductance supporting plate, and the length direction of each upper bending wheel shaft 3032 is consistent with the length direction of each wheel shaft 309.

The terminal shaping assembly comprises a base plate 401 mounted on a rack, a material discharging rail 403 is arranged in the middle of the base plate 401, the material discharging rail 403 is long in strip shape, one end of the material discharging rail 403 is connected with the output end of an inductance supporting plate, a concave material discharging groove is formed in the surface of the material discharging rail 403 along the length direction, side shaping assemblies are arranged on two sides of the material discharging rail 403 at the output end of the material discharging groove, a centering calibration plate 4014 is movably mounted on the material discharging groove between two groups of side shaping assemblies, an adsorption hole penetrating up and down is formed in the bottom of the material discharging groove between the two groups of side shaping assemblies; a fixing plate 201 is installed above the side face shaping assembly, and an upper shaping assembly is installed on the fixing plate 201.

The side shaping component comprises a shaping linear guide rail 407, a side shaping knife, a sliding plate 4010, a cylinder push rod 4011, a push plate 4012, a cylinder mounting plate 4013 and a side shaping cylinder 405, wherein, the linear guide rail 407 of plastic is installed in row material track 403 both sides, form "ten" font between the linear guide rail 407 of plastic after the installation and row material track 403, movable mounting has slide 4010 on the linear guide rail 407 of plastic, the side plastic sword has been placed at slide 4010 top, side plastic sword wherein one side is just to arranging the silo, be connected with push pedal 4012 on the slide 4010 of side plastic sword opposite side, install side plastic cylinder 405 through cylinder mounting panel 4013 on the base plate 401, the piston rod and the cylinder push rod 4011 one end of side plastic cylinder 405 are connected, the cylinder push rod 4011 other end is connected with push pedal 4012, be equipped with locking screw 4018 on the push pedal 4012, locking screw 4018 wherein one end passes push pedal 4012 and is connected with side plastic sword.

Go up the plastic subassembly including the guide pillar 207, reset spring 2017, reducing gear box 2011, go up plastic sword 204, wherein, the guide pillar 207 is two, the activity cartridge is in fixed plate 201 middle part both sides, guide pillar 207 lower part passes fixed plate 201 downwards and is connected with lifter plate 206, press head fixing base 203 is installed to lifter plate 206 bottom, press head fixing base 203 bottom movable mounting has last plastic sword 204, press head fixing base 203 looks sideways at and is the U-shaped, lifter plate 206 is connected at the U-shaped top, press head fixing base 203 bottom is equipped with the pressure head groove that runs through from top to bottom, go up plastic sword 204 movable mounting has the pressure head inslot, last plastic sword 204 bottom after the installation passes pressure head groove formation casting die end downwards, go up plastic sword 204 top and rectangular spring 209 bottom and contradict, rectangular spring 209 top is connected bottom lifter. The top of the guide post 207 is connected with a lifting and lowering plate 202, a return spring 2017 is sleeved on the guide post 207 between the lifting and lowering plate 202 and the fixing plate 201, the top of the return spring 2017 is abutted against the bottom of the lifting and lowering plate 202, and the bottom of the return spring 2017 is abutted against the top of the fixing plate 201; a motor mounting seat 205 is mounted on the base plate 201 on one side of the pressure and rise plate 202, a reduction box 2011 is mounted on the motor mounting seat 205, the reduction box 2011 is driven by a stepping motor 2010 to operate, a swing arm 2012 is connected to an output shaft of the reduction box 2011, one end of the swing arm 2012 is connected with the output shaft of the reduction box 2011, a cam bearing follower 2013 is mounted at the other end of the swing arm 2012, and the mounted cam bearing follower 2013 is located above the pressure and rise plate 202.

The specific process of the technical scheme is as follows: the control system of the scheme is provided for the Hunan Chuang XX technology and is directly purchased, installed and used;

the upper cutter 2 and the upper cutter 15 are centered and used for adjusting the distance of the thickness of the integrated electric inductance material sheet; the sliding plates 5 on the two sides and the micrometers on the two sides are symmetrical after being assembled, and the original readings of the micrometers on the two sides are consistent; during adjustment, the readings of the micrometer on the two sides are consistent, and after adjustment, the sliding plate 5 and the locking block 9 are locked by screws.

The correction plates 21 of the material sheets at the two sides are fixed by a material sheet width calibration block; the correction cylinders on two sides are controlled by the same electromagnetic valve, the air inlet and the air outlet are respectively regulated by the same throttle valve, and the control mode of the electromagnetic valve and the throttle valve is controlled by a control system produced by the Hunan Chuang XX technology.

Unscrewing the fastening screw of the floating pressure plate 18 and then unscrewing the fastening screw of the cylinder mounting plate 7, and taking out the prepressing plate 8 part from the upper part; therefore, pre-pressing plates of different models are replaced, and the integrated inductor material sheets of different models can be conveniently produced.

The material sheet enters a terminal cutting station, the two side correcting cylinders 32 extend out, and the material sheet correcting plate 21 corrects the material sheet 22 to the central position of the die and stays at the central position; the cutting cylinder 28 drives the lifting push plate 12 to descend to enable the cutter fixing plates 3 on the two sides to descend, the prepressing plate 8 compresses the material pieces 22 firstly, the upper cutter 2 continues to descend until the upper cutter and the lower cutter are closed to cut off the material pieces, then the material pieces enter the terminal side edge bending assembly,

the integral inductor entering the side bending assembly is supported by the flanging seat and positioned by the positioning groove to enter a bending position below the bending cylinder, and after the integral inductor enters the bending position, the bending cylinder descends to press the inductor; the roller shaft cylinder rises to drive the roller shaft to rise, so that the terminals on the two sides of the integrated inductor are folded upwards to 90 degrees;

the integrated inductor with the bent side edge enters the terminal upper bending assembly and is supported by the inductor support plate, the piston rod of the upper bending cylinder extends out to drive the two upper bending wheel shaft seats to move relatively, the inductor terminal is pressed by the upper bending wheel shaft, the terminal is bent again to cover the surfaces of the two ends of the integrated inductor, and the integrated inductor enters the side shaping assembly after being bent,

an integral inductor in the side shaping assembly is supported by the discharging rail, and a boss of the centering calibration plate 14 is pressed into a groove of the discharging rail for positioning; under a manual mode, the side face shaping cylinders on two sides push the sliding plates to respectively contact the side faces of the material discharging rail (the sliding plates are controlled by the same electromagnetic valve, and a control system is provided for the Hunan XX technology and is directly purchased, installed and used), then the locking screws 18 are screwed down, so that the side face shaping knives contact the side faces of the centering calibration plate 14 and are fixed, and the symmetry of the side face shaping knives and the center line of the material discharging rail is realized; taking the centering calibration plate 14 away, and enabling the integrated inductor to enter a shaping position through the positioning groove; an external vacuum air pump pumps air, the integrated inductor is absorbed in the discharge groove through the absorption hole, and the side shaping air cylinder pushes the side shaping knives 9 on the two sides to respectively contact the side surfaces of the integrated inductor at the same time so as to shape the side edges of the integrated inductor;

after the side edge is shaped, a stepping motor in the upper shaping assembly is driven clockwise, a lifting pressure plate is pushed to move downwards through a swing arm and a cam bearing follower to enable an upper shaping cutter to contact a product, the lifting pressure plate continues to move downwards until the height is set, and therefore the upper shaping of the integrated inductance terminal is achieved; the upper shaping knife stays for a set time to prevent the terminal piece from elastically deforming; step motor clockwise transmission, lift clamp plate rise under reset spring's effect and reset, accomplish the plastic, and the constant head tank output is passed through to integrative inductance after the plastic is accomplished, and functions such as this scheme collection cuts off, bends, the side plastic, goes up the plastic as an organic whole.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that all the changes made according to the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims (8)

1. Integrative inductance pin cutting, bending, plastic system, it is including the frame, its characterized in that: the input end of the rack is provided with a lower die holder, stand columns are fixed in four directions of the lower die holder, an upper die holder is fixed at the top of each stand column, and a terminal cutting assembly is arranged between the upper die holder and the lower die holder; and a terminal side edge bending assembly is installed on the rack at the output end of the terminal cutting assembly, a terminal bending assembly is installed at the output end of the terminal side edge bending assembly, and a terminal shaping assembly is installed at the output end of the terminal bending assembly.

2. The integrated inductive pin cutting, bending and shaping system according to claim 1, wherein: the terminal cutting assembly comprises terminal cutting linear guide rails (1023), locking blocks (109) and lower cutters (1015), wherein the number of the terminal cutting linear guide rails (1023) is two, the terminal cutting linear guide rails are parallelly installed on the surface of a lower die holder, a sliding block (105) is movably installed on each terminal cutting linear guide rail (1023), the locking blocks (109) for limiting the lateral direction of the sliding block (105) are arranged on two sides of the lower die holder, a guide post fixing plate (101) is installed at the top of the sliding block (105), die guide posts (1025) are fixed on two sides of the top of the guide post fixing plate (101), the lower cutters (1015) are installed at the tops of the guide post fixing plates (101) between the two die guide posts (1025), an integrated inductance sheet placing area is formed between the two fixed lower cutters (1015), the integrated inductance sheet (1022) is supported by the lower cutters (1015), the die guide posts (1025) above the lower cutters (1015) are movably installed with, an n-shaped cutter mounting groove is formed in the bottom of the cutter fixing plate (103), a prepressing plate (108) is mounted in the center of the cutter mounting groove, upper cutters (102) are mounted in the cutter mounting grooves on two sides of the prepressing plate (108), a lifting push plate (1012) is arranged on the top of the cutter fixing plate (103), a cutting cylinder (1028) is mounted on the top of the upper die base, a piston rod of the cutting cylinder (1028) is downwards connected with a terminal cutting cylinder joint (1013), and the bottom of the terminal cutting cylinder joint (1013) is connected with a joint fixing plate (1014) on the top of the lifting push plate (1012); a correcting cylinder (1032) is horizontally arranged on two sides of the lower die holder, a piston rod of the correcting cylinder (1032) is connected with one end of a material sheet correcting plate (1021), the other end of the material sheet correcting plate (1021) is positioned above the guide post fixing plate (101) and is opposite to the lower cutter (1015), and the surface of the material sheet correcting plate (1021) is higher than the surface of the lower cutter (1015); the cutter fixing plate (103) is fixedly arranged at the bottom of the lifting push plate (1012) through a square cushion plate (1016) and a floating pressure plate (1018); the number of the upper cutters (102) is two, the cutting edges of the upper cutters (102) are respectively positioned above the outer side walls of the corresponding lower cutters (1015), a prepressing plate guide post (1011) is movably mounted on the cutter fixing plate (103), the prepressing plate guide post (1011) is T-shaped in side view, and the prepressing plate guide post (1011) penetrates through the cutter fixing plate (103) from top to bottom to be connected with the top of the prepressing plate (108); a waste material groove penetrating up and down is arranged on the sliding block (105) on the outer side of the lower cutter (1015), and a waste material opening matched with the waste material groove is arranged on the lower die base; micrometer (1036) is installed to die holder top both sides, and micrometer (1036) and slider (105) tip contact.

3. The integrated inductive pin cutting, bending and shaping system according to claim 1, wherein: the terminal side edge bending assembly comprises a flanging seat pressing plate (301), a flanging seat (302), a roller shaft cylinder (3011) and a roller shaft lifting block (305), wherein the flanging seat (302) is installed on a rack, a concave bending guide groove is formed in the surface of the flanging seat (302), one end of the flanging seat (302) is connected with an outlet of the terminal cutting assembly, a roller groove which penetrates through the flanging seat (302) from top to bottom is formed in the other end of the flanging seat (302), the roller shaft cylinder (3011) is installed in the rack, a piston rod of the roller shaft cylinder (3011) is upwards connected with the bottom of a side edge bending cylinder joint (308), the top of the side edge bending cylinder joint (308) is connected with the roller shaft lifting block (305), the roller shaft lifting block (305) is U-shaped, roller shaft installation blocks (306) are installed on the tops of two side walls, a roller shaft (309) is movably installed on one side opposite to the tops of the two roller shaft installation blocks (306), the flanging seat, the roller shaft (309) is located under the roller grooves, a concave positioning groove is formed in a folding seat (302) between the two roller grooves, a folding seat pressing plate (301) is installed on a rack above the folding seat (302), an n-shaped bending groove is formed in the center of the bottom of the folding seat pressing plate (301), the bending groove is located above the positioning groove, a bending cylinder (3014) is installed at the top of the folding seat pressing plate (301) above the bending groove, and the bending cylinder (3014) downwards penetrates through the folding seat pressing plate (301) to extend to the bending groove to form a pressing part end.

4. The integrated inductive pin cutting, bending and shaping system according to claim 1, wherein: the terminal bending component comprises an inductance supporting plate formed by extending the output end of a bending seat (302), an upper bending seat (3030) is installed on the inductance supporting plate, the upper bending seat (3030) is n-shaped, an upper bending cylinder is horizontally installed on the side walls of two sides of the upper bending seat, an upper bending wheel axle seat (3031) is installed on a piston rod of the upper bending cylinder, an upper bending wheel axle seat (3032) is installed on the upper bending wheel axle seat (3031), the two installed upper bending wheel axles (3032) are opposite and are respectively located on the inductance supporting plate, the axial direction of the upper bending wheel axle (3032) is consistent with the length direction of the inductance supporting plate, and the upper bending wheel axle (3032) is consistent with the length direction of the wheel axle (309).

5. The integrated inductive pin cutting, bending and shaping system according to claim 1, wherein: the terminal shaping assembly comprises a base plate (401) installed on a rack, a material discharging rail (403) is arranged in the middle of the base plate (401), the material discharging rail (403) is long in strip shape, one end of the material discharging rail is connected with the output end of an inductance supporting plate, a concave material discharging groove is formed in the surface of the material discharging rail (403) in the length direction, side shaping assemblies are arranged on two sides of the material discharging rail (403) at the output end of the material discharging groove, a centering calibration plate (4014) is movably installed on the material discharging groove between the two groups of side shaping assemblies, an adsorption hole penetrating through the material discharging groove between the two groups of side shaping assemblies is formed in the bottom of; a fixing plate (201) is installed above the side face shaping assembly, and an upper shaping assembly is installed on the fixing plate (201).

6. The integrated inductive pin cutting, bending and shaping system according to claim 5, wherein: the side shaping component comprises a shaping linear guide rail (407), a side shaping cutter, a sliding plate (4010), a cylinder push rod (4011), a push plate (4012), a cylinder mounting plate (4013) and a side shaping cylinder (405), wherein the shaping linear guide rail (407) is mounted on two sides of a material discharging rail (403), a cross shape is formed between the mounted shaping linear guide rail (407) and the material discharging rail (403), the shaping linear guide rail (407) is movably provided with the sliding plate (4010), the side shaping cutter is placed at the top of the sliding plate (4010), one side of the side shaping cutter is right opposite to a material discharging groove, the sliding plate (4010) on the other side of the side shaping cutter is connected with the push plate (4012), the substrate (401) is provided with the side shaping cylinder (405) through the cylinder mounting plate (4013), a piston rod of the side shaping cylinder (405) is connected with one end of the cylinder push rod (4011), the other end of the cylinder push, a locking screw (4018) is arranged on the push plate (4012), and one end of the locking screw (4018) penetrates through the push plate (4012) to be connected with the side shaping cutter.

7. The integrated inductive pin cutting, bending and shaping system according to claim 5, wherein: the upper shaping assembly comprises two guide posts (207), a reset spring (2017), a reduction gearbox (2011) and an upper shaping cutter (204), the two guide posts (207) are movably inserted into two sides of the middle of the fixing plate (201), the lower part of the guide post (207) downwards penetrates through the fixing plate (201) to be connected with the lifting plate (206), a pressure head fixing seat (203) is installed at the bottom of the lifting plate (206), the upper shaping cutter (204) is movably installed at the bottom of the pressure head fixing seat (203), the top of the guide post (207) is connected with a pressure rising and dropping plate (202), the reset spring (2017) is sleeved on the guide post (207) between the pressure rising and dropping plate (202) and the fixing plate (201), the top of the reset spring (2017) is abutted against the bottom of the pressure rising and dropping plate (202), and the bottom of; install motor mount pad (205) on fixed plate (201) of pressure rising board (202) one side, install reducing gear box (2011) on motor mount pad (205), reducing gear box (2011) is driven the operation by step motor (2010), be connected with swing arm (2012) on the output shaft of reducing gear box (2011), swing arm (2012) one end and the output shaft of reducing gear box (2011) are connected, cam bearing follower (2013) are installed to swing arm (2012) other end, cam bearing follower (2013) after the installation are located pressure rising board (202) top.

8. The integrated inductive pin cutting, bending and shaping system according to claim 7, wherein: pressure head fixing base (203) looks sideways at and is the U-shaped, and lifter plate (206) are connected at the U-shaped top, and pressure head fixing base (203) bottom is equipped with the pressure head groove that runs through from top to bottom, goes up plastic sword (204) movable mounting and has the pressure head inslot, and last plastic sword (204) bottom after the installation passes pressure head groove formation casting die end downwards, goes up plastic sword (204) top and conflicts bottom rectangle spring (209), and rectangle spring (209) top is connected bottom lifter plate (206).

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