CN113369768A - USB interface shielding plate clamp rotating device and method and welding equipment - Google Patents

Abstract

The invention discloses a USB interface shielding plate clamp rotating device which comprises a divider, a fixed disk, a rotating ring, a clamping clamp, a first clamp driving assembly, a limiting block, a pressing assembly and a second clamp driving assembly, wherein the divider is arranged on the fixed disk; the decollator is fixedly arranged on the rack, the upper end of the decollator is provided with a central fixed shaft and a rotating shaft of the outer ring of the central fixed shaft, the fixed disc is arranged on the central fixed shaft of the decollator, the rotating ring is arranged on the rotating shaft of the decollator, and the clamping clamps are uniformly arranged on the rotating ring in a circle; the clamping fixture comprises a body, a cover plate, side clamping blocks, a tensioning spring and an upper positioning block. The invention has the advantages of accurate positioning, convenient welding, high efficiency of moving and transporting and suitability for processing at different stations.

Description

USB interface shielding plate clamp rotating device and method and welding equipment

Technical Field

The invention relates to the technical field of welding, in particular to a USB interface shielding plate clamp rotating device and method and welding equipment.

Background

The electronic products may generate interference to other peripheral electronic products, and the interference types include conducted interference and radiated interference, which are collectively referred to as electromagnetic interference (EMI), and the EMI signal may crosstalk to the equipment or the detection instrument. The USB TYPE-C is one of main interfaces for connecting electronic equipment, and external electronic products can generate signal crosstalk phenomena on a TYPE-C female socket of the USB interface. The USB interface shield plate shown in fig. 11 includes a bottom plate (100), a vertical terminal (200), and a horizontal terminal. The three elements are all conveyed by a material belt, and redundant connecting ribs are removed to obtain the product.

The Chinese patent application (publication number: CN210723558U, published: 2020.06.09) discloses a structure for shielding TYPE-C female seat EMI signals, which comprises a PCB, a TYPE-C female seat and a shielding cover, wherein the PCB, the TYPE-C female seat and the shielding cover are sequentially arranged from bottom to top, the shielding cover is welded on the PCB and forms a cavity, the TYPE-C female seat is arranged in the cavity, and the TYPE-C female seat is welded on the PCB.

The prior art has the following defects: 1. the shield plate assembly elements are difficult to position, and the circulation of parts in a working position is low; 2. the automation degree is low, the integrated assembly is difficult, and the efficiency is low; 3. the welding precision between the two welding parts is not high, and the welding parts are fine and difficult to operate; 4. the success rate of feeding to the clamp is reduced due to the fact that the bottom plate is uneven and warped, and the posture of the bottom plate is required to be changed from feeding to the clamp; 5. horizontal terminal is difficult to directly weld, and the rosin joint easily appears in the welding.

Disclosure of Invention

The invention aims to solve the problems that the assembly element of a shielding plate is difficult to position and the circulation of parts at stations is inefficient in the prior art, and provides a USB interface shielding plate clamp rotating device and method which are accurate in positioning, convenient to weld, efficient in transfer and suitable for different stations to process.

For the purpose of the invention, the following technical scheme is adopted for realizing the purpose:

a USB interface shielding plate clamp rotating device comprises a divider, a fixed disk, a rotating ring, a clamping clamp, a first clamp driving assembly, a limiting block, a pressing assembly and a second clamp driving assembly; the decollator is fixedly arranged on the rack, the upper end of the decollator is provided with a central fixed shaft and a rotating shaft of the outer ring of the central fixed shaft, the fixed disc is arranged on the central fixed shaft of the decollator, the rotating ring is arranged on the rotating shaft of the decollator, and the clamping clamps are uniformly arranged on the rotating ring in a circle; the clamping fixture comprises a body, a cover plate, side clamping blocks, a tensioning spring and an upper positioning block; the side surface of the body is provided with a first convex column for positioning the negative plate, the number of the side clamping blocks is two, the two side clamping blocks are symmetrically matched in the body, and two ends of the tensioning spring are connected with the side clamping blocks; the side clamping block is provided with a clamping part and a first cylindrical part, the clamping part is buckled on the side surface of the body to clamp the film, and the first cylindrical part protrudes in the transverse groove of the cover plate; the upper end of the upper positioning block is provided with a second convex column, a second cylindrical part is arranged on the side of the upper positioning block, the upper positioning block is movably matched in the body, a spring is arranged below the upper positioning block and pushes the upper positioning block upwards, the second convex column protrudes out of the upper end of the body and is used for positioning a horizontal terminal, and the second cylindrical part is matched in the vertical groove of the cover plate; the cover plate is fixed on the side of the body.

Preferably, a semi-finished product feeding station, a blanking station, a secondary welding station and a blanking station correspond to one circle of the rotating ring, a first clamp driving assembly and a second clamp driving assembly are arranged on the fixed disc, the first clamp driving assembly corresponds to a clamping clamp at the semi-finished product feeding station, the second clamp driving assembly corresponds to a clamping clamp at the blanking station, a limiting block is arranged on the fixed disc, and the limiting block corresponds to the clamping clamp at the blanking station; the pressing component is installed on the fixed disc and corresponds to the clamping fixture at the secondary welding station.

Preferably, the two side ends of the limiting block are provided with inclined planes, the top of the limiting block is a plane, and the plane corresponds to the side of the clamping fixture.

Preferably, the fixed disc is also provided with an optical fiber sensor, and the optical fiber sensor corresponds to the clamping fixture behind the blanking station.

Preferably, the first clamp driving assembly comprises a driving cylinder, a telescopic plate and a slotted plate; the frid is fixed on the fixed disk, drives actuating cylinder and installs on the frid, drives actuating cylinder's flexible end and is connected with the expansion plate, and the expansion plate removes the cooperation in the frid, and the expansion plate sets up into trapezoidal form with the tip that clamping jig corresponds.

Preferably, the structure of the second clamp driving assembly is similar to that of the first clamp driving assembly, a top plate is arranged on the second clamp driving assembly, the top plate is fixedly connected to the fixed plate, and an inclined surface is arranged on the lower end surface of the top plate.

Preferably, the compressing assembly comprises a compressing cylinder and a compressing block, the compressing cylinder is vertically arranged on the fixed disc, the compressing block is arranged at the telescopic end of the compressing cylinder, the compressing block is folded, and the compressing block corresponds to the upper end of the clamping fixture.

A USB interface shielding plate clamp rotating method includes that at a semi-finished product feeding station, a first clamp driving assembly extends to push two side clamping blocks open, a film is placed on the side face of a body, and the rear side clamping blocks reset to clamp the film; welding of the vertical terminals is achieved at a semi-finished product feeding station, the divider drives the clamping fixture to achieve conveying, the horizontal terminals are placed on the upper positioning blocks at the blanking station, and the pressing assembly presses the horizontal terminals to achieve welding at the secondary welding station.

A USB interface shielding plate welding device comprises a rack, and a clamp rotating device, a vertical terminal pre-welding device, a negative feeding device, a horizontal terminal welding device and a discharging device which are connected to the rack; the bottom sheet feeding device is connected with the vertical terminal pre-welding device and the clamp rotating device, a semi-finished product feeding station, a blanking station, a secondary welding station and a blanking station are arranged on one circle of the clamp rotating device, the bottom sheet feeding device corresponds to the semi-finished product feeding station, the horizontal terminal welding device corresponds to the blanking station and the secondary welding station, and the blanking device corresponds to the blanking station; a traveling frame is arranged on the rack, two laser welding machines are arranged on the traveling frame, one laser welding machine corresponds to the vertical terminal prewelding device, and the other laser welding machine corresponds to a secondary welding station; the clamp rotating device adopts the technical scheme to provide the clamp rotating device for the USB interface shielding plate.

Preferably, the fixture rotating device is used for clamping a film and conveying the film, the vertical terminal pre-welding device is used for welding the vertical terminal and the film, the film feeding device is used for feeding the film with the pre-welded vertical terminal, the horizontal terminal welding device is used for welding the horizontal terminal to the film, and the blanking device is used for blanking the welded product.

The USB interface shielding plate clamp rotating device and method adopting the technical scheme have the advantages that: the clamping fixture is used for positioning and clamping the film and the terminal, the positioning is realized through the first convex column and the second convex column, the precision is improved, the clamping fixture keeps a normally closed state through the tensioning spring, the clamping fixture is convenient to convey on the rotating ring, the conveying efficiency is improved, and corresponding operation is carried out through corresponding components at a specified station; the upper positioning block is blocked by the limiting block, so that the problem that the positioning is inaccurate due to the fact that the upper positioning block descends during blanking is solved.

Further, the USB interface shielding plate welding equipment adopting the technical scheme has the advantages that:

1. the clamp rotating device is used for positioning and clamping the film and the terminal by arranging a clamping clamp, positioning is realized by the first convex column and the second convex column, the precision is improved, the clamping clamp keeps a normally closed state by a tensioning spring, the clamping clamp is convenient to convey on the rotating ring, the conveying efficiency is improved, and corresponding operation is carried out on a specified station through a corresponding assembly; the upper positioning block is blocked by the limiting block, so that the problem that the positioning is inaccurate due to the fact that the upper positioning block descends during blanking is solved.

2. The vertical terminal pre-welding device is used for feeding through a vertical terminal feeding assembly and a film feeding assembly, a material belt type feeding mode is adopted, the vertical terminals are cut individually and then conveyed to a bottom material belt to realize welding, and finally the film material belt is cut off; a single vertical terminal is carried by arranging a suction mode of a suction block, so that the material taking and placing are facilitated; the vertical terminal is pressed on the positioning seat through the pressing block during welding to realize positioning and clamping, so that the welding precision can be improved; the vertical terminal during carrying and welding is connected with redundant connecting ribs on the material belt, so that the area of the vertical terminal is increased, and the vertical terminal is convenient to absorb and position; and then, the workpiece is pressed on the cushion block through the first pressing block, and the cutting is realized through the punching knife.

3. The bottom sheet feeding device can change the bottom sheet from horizontal to vertical by arranging the two rotary cylinders which are orthogonally arranged, and efficiently meets the requirements of the postures of cutting and feeding the material belt; the clamping jaws clamp two ends of the film, the middle parts of the clamping jaws are provided with empty grooves adapted to the supporting blocks to pass through, the supporting blocks compress the film on the side surfaces of the clamp to prevent loosening, the success rate of feeding is improved, and the sunk grooves formed in the supporting blocks can accommodate the convex columns on the side surfaces of the clamp, so that compression can be realized

4. The horizontal terminal welding device adopts two stations for welding, one station is used for horizontal terminal blanking, the other station is used for laser welding, the labor division is clear, and the welding efficiency is high; the rotating fixture is positioned by arranging the fixture positioning rod, so that the position precision during welding is improved; the bottom of the bottom sheet is cushioned by a backing plate. The horizontal terminal and the bottom plate are pressed through the pressing assembly, so that a gap is prevented from being formed between the horizontal terminal and the bottom plate, a cold joint phenomenon is prevented, and the welding reliability is improved.

Drawings

FIG. 1 is a block diagram of the present invention.

Fig. 2 is a structural view of the jig rotating apparatus.

Fig. 3 is an exploded view of the clamping fixture.

Fig. 4 is a structural view of the vertical terminal prewelding apparatus.

Fig. 5 is a structural view of the transfer mechanism.

Fig. 6 is a block diagram of a backsheet feeding assembly and a severing assembly.

Fig. 7 is a structural view of a backsheet feeding apparatus.

Fig. 8 is an exploded view of the horizontal terminal welding apparatus.

Fig. 9 is a block diagram of the tape drive mechanism and the precut mechanism.

Fig. 10 is a structural view of the blanking apparatus.

Fig. 11 is a structural view of a product.

Detailed Description

As shown in fig. 2, a USB interface shielding plate welding apparatus includes a frame 1, and a clamp rotating device 2, a vertical terminal pre-welding device 3, a negative feeding device 4, a horizontal terminal welding device 5, and a discharging device 6 connected to the frame 1; the bottom sheet feeding device 4 is connected with the vertical terminal pre-welding device 3 and the clamp rotating device 2, a semi-finished product feeding station 201, a blanking station 202, a secondary welding station 203 and a blanking station 204 are arranged on one circle of the clamp rotating device 2, the bottom sheet feeding device 4 corresponds to the semi-finished product feeding station 201, the horizontal terminal welding device 5 corresponds to the blanking station 202 and the secondary welding station 203, and the blanking device 6 corresponds to the blanking station 204; a traveling frame 7 is arranged on the rack, two laser welding machines 8 are arranged on the traveling frame 7, one laser welding machine 8 corresponds to the vertical terminal pre-welding device 3, and the other laser welding machine 8 corresponds to the secondary welding station 203. The above-mentioned clamp rotating device 2 is a USB interface shielding plate clamp rotating device.

The fixture rotating device 2 is used for clamping a film and conveying the film, the vertical terminal pre-welding device 3 is used for welding the vertical terminal and the film, the film feeding device 4 is used for feeding the film with the pre-welded vertical terminal, the horizontal terminal welding device 5 is used for welding the horizontal terminal to the film, and the blanking device 6 is used for blanking the welded product.

As shown in fig. 3-4, a USB interface shield plate clamp rotating device includes a divider 21, a fixed disk 22, a rotating ring 23, a clamping clamp 24, a first clamp driving assembly 25, a limiting block 26, a pressing assembly 27, and a second clamp driving assembly 28; the cutting device 21 is fixedly arranged on the rack, a rotating shaft with a central fixed shaft and a central fixed shaft outer ring is arranged at the upper end of the cutting device 21, the fixed disc 22 is arranged on the central fixed shaft of the cutting device 21, the rotating ring 23 is arranged on the rotating shaft of the cutting device 21, the clamping fixtures 24 are uniformly arranged on one circle of the rotating ring 23, a semi-finished product feeding station, a blanking station, a secondary welding station and a blanking station are correspondingly arranged on one circle of the rotating ring 23, the first fixture driving assembly 25 and the second fixture driving assembly 28 are arranged on the fixed disc 22, the first fixture driving assembly 25 corresponds to the clamping fixture 24 at the semi-finished product feeding station, the second fixture driving assembly 28 corresponds to the clamping fixture 24 at the blanking station, the limiting block 26 is arranged on the fixed disc 22, and the limiting block 26 corresponds to the clamping fixture 24 at the blanking station; the pressing assembly 27 is mounted on the fixed plate 22, and the pressing assembly 27 corresponds to the clamping fixture 24 at the secondary welding station.

Inclined planes are arranged at two side ends of the limiting block 26, the top of the limiting block 26 is a plane, and the plane corresponds to the side of the clamping fixture 24.

The fixed disc 22 is also provided with an optical fiber sensor, and the optical fiber sensor corresponds to the clamping fixture 24 behind the blanking station and detects whether the product is blanked successfully. The concave blocks 210 are also uniformly arranged above the fixed disc 22.

The first clamp driving assembly 25 comprises a driving cylinder 251, a telescopic plate 252 and a slotted plate 253; the groove plate 253 is fixed on the fixed disc 22, the driving cylinder 251 is installed on the groove plate 253, the telescopic end of the driving cylinder 251 is connected with the telescopic plate 252, the telescopic plate 252 is movably matched in the groove plate 253, and the end part of the telescopic plate 252 corresponding to the clamping fixture 24 is arranged into a ladder shape. The structure of the second clamp driving assembly 28 is similar to that of the first clamp driving assembly 25, a top plate 281 is arranged on the second clamp driving assembly 28, the top plate 281 is fixedly connected to the fixed plate 22, and an inclined surface is arranged on the lower end surface of the top plate 281.

The pressing assembly 27 comprises a pressing cylinder 271 and a pressing block 272, the pressing cylinder 271 is vertically installed on the fixed plate 22, the pressing block 272 is installed at the telescopic end of the pressing cylinder 271, the pressing block 272 is folded, and the pressing block 272 corresponds to the upper end of the clamping fixture 24.

The clamping fixture 24 comprises a body 241, a cover plate 242, a side clamping block 243, a tension spring 244 and an upper positioning block 245; the side surface of the body 241 is provided with a first convex column 2411 for positioning the negative plate, two side clamping blocks 243 are arranged, the two side clamping blocks 243 are symmetrically matched in the body 241, and two ends of the tensioning spring 244 are connected with the side clamping blocks 243; the side clamping block 243 is provided with a buckling part 2431 and a first cylindrical part 2432, the buckling part 2431 is buckled on the side surface of the body 241 to clamp the bottom plate, and the first cylindrical part 2432 is protruded in the transverse groove 2421 of the cover plate 242; a second convex column 2412 is arranged at the upper end of the upper positioning block 245, a second cylindrical part 2452 is arranged on the side of the upper positioning block 245, the upper positioning block 245 is movably matched in the body 241, a spring is arranged below the upper positioning block 245 and pushes the upper positioning block 245 upwards, the second convex column 2412 protrudes out of the upper end of the body 241, the second convex column 2412 is used for positioning a horizontal terminal, and the second cylindrical part 2452 is matched in a vertical groove 2422 of the cover plate 242; the cover plate 242 is fixed to a side of the body 241.

When the USB interface shielding plate clamp rotating device works, at a semi-finished product feeding station, the first clamp driving assembly 25 extends to push the two side clamping blocks 243 open, a film is placed on the side surface of the body 241, and the rear side clamping blocks 243 reset to clamp the film; the vertical terminals are welded at a semi-finished product feeding station, the divider 21 drives the clamping fixture 24 to convey, the horizontal terminals are placed on the upper positioning block 245 at a blanking station, and the pressing assembly 27 presses the horizontal terminals at a secondary welding station to realize welding.

A USB interface shielding plate fixture rotating device solves the problems that a shielding plate assembly element is difficult to position and the circulation of the element at a station is low in efficiency, a clamping fixture 24 is arranged for positioning and clamping a negative plate and a terminal, the positioning is realized through a first convex column 2411 and a second convex column 2412, the precision is improved, the clamping fixture 24 keeps a normally closed state through a tensioning spring 244, the clamping fixture 24 is convenient to convey on a rotating ring 23, the conveying efficiency is improved, and corresponding operation is carried out through corresponding components at a specified station; the upper positioning block 245 is blocked by the limiting block 26, so that the problem of inaccurate positioning caused by the fact that the upper positioning block 245 descends during blanking is solved.

As shown in fig. 5 to 7, the vertical terminal pre-welding device 3 includes a vertical terminal feeding assembly 31, a transfer mechanism 32, a substrate feeding assembly 33, and a cutting assembly 34; the terminal feeding assembly 31 and the film feeding assembly 33 are arranged side by side, the moving and conveying mechanism 32 is connected with the vertical terminal feeding assembly 31 and the film feeding assembly 33, and the cutting assembly 34 is arranged at the end part of the film feeding assembly 33; the vertical terminal feeding assembly 31 is used for feeding vertical terminals, the film feeding assembly 33 is used for feeding films, the moving and conveying mechanism 32 is used for conveying the vertical terminals to the films, and the cutting assembly 34 is used for cutting the films connected to the material belts.

The vertical terminal feeding assembly 31 comprises a base 311, a two-degree-of-freedom mechanism 312, a cutting cylinder 313, a cylindrical cutter 314 and a material rail 315; the material rail 315 is arranged on the base 311, the material belt connected with the vertical terminal is arranged in the material rail 315, the two-degree-of-freedom mechanism 312 is arranged on the base 311, and the two-degree-of-freedom mechanism 312 corresponds to the material belt in the material rail 315 and drives the material belt to feed intermittently; the cylindrical cutter 314 is hinged in the base 311, the cut of the cylindrical cutter 314 corresponds to the discharge end of the material rail 315, and the cylindrical cutter 314 can realize cutting by rotating; the cutting cylinder 313 is vertically arranged on the base 311, the telescopic end of the cutting cylinder 313 is in transmission connection with the cylindrical cutter 314, and the cutting cylinder 313 drives the cylindrical cutter 314 to rotate.

The moving mechanism 32 comprises a side plate 321, a moving plate 322, a lateral moving cylinder 323, a longitudinal moving cylinder 324, a suction block 325, a pressing block 326, a first pressing block 327 and a second pressing block 328; the moving plate 322 is movably connected to the side plate 321 through a sliding rail, the side shift cylinder 323 is installed on the side plate 321, and the telescopic end of the side shift cylinder 323 is connected with the moving plate 322; the longitudinal moving cylinder 324 is arranged at two ends of the moving plate 322, the suction block 325 is arranged at the telescopic end of the longitudinal moving cylinder 324 at one side, the pressing block 326 is arranged at the telescopic end of the longitudinal moving cylinder 324 at the other side, and the first pressing block 327 and the second pressing block 328 are connected with the telescopic end of the longitudinal moving cylinder 324 through springs; the lower end of the suction block 325 is provided with a suction hole, and the lower end of the pressing block 326 is provided with a notch.

The negative feeding assembly 33 comprises a bottom frame 331, a negative material rail 332, a vertical driving mechanism 333, a positioning seat 334, a cushion block 335, a punching knife 336 and a punching cylinder 337; the film material rail 332 is arranged on the bottom frame 331, the vertical driving mechanism 333 corresponds to the film material belt in the film material rail 332, the vertical driving mechanism 333 comprises two vertical degrees of freedom, and the vertical driving mechanism 333 drives the film material belt to feed in a stepping manner; an air hole is formed in the upper end of the bottom frame 331, the positioning seat 334 and the cushion block 335 are sequentially installed on the bottom frame 331 along the feeding direction of the base sheet material belt, a convex nail is arranged at the upper end of the positioning seat 334, and the positioning seat 334 corresponds to the suction block 325 and the pressing block 326 of the moving and conveying mechanism 32; the cushion block 335 corresponds to the first pressing block 327 of the transfer mechanism 32; the stamping knife 336 is installed at the telescopic end of the stamping cylinder 337, the stamping cylinder 337 is vertically installed on the bottom frame 331, the stamping knife 336 is located on the side of the cushion block 335, and the stamping knife 336 corresponds to the second pressing block 328.

The cutting assembly 34 comprises a guide frame 341, a cutting cylinder 342, a cutter seat 343, a flat cutting knife 344 and a butting seat 345; the guide frame 341 is fixedly arranged on the bottom frame 331, the cutter holder 343 is movably matched with the guide frame 341, the cutting cylinder 342 is arranged on the guide frame 341, the telescopic end of the cutting cylinder 342 is connected with the cutter holder 343, the flat cutter 344 is arranged on the cutter holder 343, the abutting seat 345 is arranged on the bottom frame 331, and the abutting seat 345 is connected with the end part of the film material rail 332; the abutting seat 345 and the flat cutter 344 are staggered in the vertical direction, so that cutting is realized.

When the vertical terminal pre-welding device 3 works, the vertical terminal feeding assembly 31 sequentially sends out vertical terminals, the vertical terminals are cut by the cylindrical cutter 314 after being sent to the end part, then the cut terminals are sucked by the sucking block 325 and then are conveyed to the positioning seat 334, the vertical terminals are positioned above a bottom sheet at the moment and are pressed tightly by the pressing block 326, and welding is realized by the laser welding machine 8; then the bottom plate moves to the position of the cushion block 335, the first pressing block 327 and the second pressing block 328 descend, the punching knife 336 ascends, and the excess leftover materials of the vertical terminal are cut; finally, the bottom sheet is cut into sections by a cutting assembly 34.

The vertical terminal pre-welding device 3 solves the problems of low welding precision, small welding parts and difficult operation between two welding parts, the vertical terminal feeding assembly 31 and the film feeding assembly 33 are used for feeding, a material belt type feeding mode is adopted, the vertical terminals are cut individually and then conveyed to a bottom material belt to realize welding, and finally the film material belt is cut to realize cutting; a single vertical terminal is carried by arranging a suction block 325 for suction, so that the material taking and discharging are convenient; during welding, the vertical terminal is pressed on the positioning seat 334 through the pressing block 326 to realize positioning and clamping, so that the precision during welding can be improved; the vertical terminal during carrying and welding is connected with redundant connecting ribs on the material belt, so that the area of the vertical terminal is increased, and the vertical terminal is convenient to absorb and position; the workpiece is then pressed against the pad 335 by the first press 327 and cut by the die cutter 336.

As shown in fig. 8, the bottom sheet feeding device 4 includes a bottom plate 41, a folding seat 42, a traverse cylinder 43, a first rotating cylinder 44, a rotating plate 45, a second rotating cylinder 46, a clamping cylinder 47, a clamping jaw 48, a pressing cylinder 49 and a pressing block 40; the folding seat 42 is movably connected to the bottom plate 41 through a sliding rail, the transverse moving cylinder 43 is fixed to the folding seat 42, and the telescopic end of the transverse moving cylinder 43 is connected with the bottom plate 41; the first rotating cylinder 44 is arranged on the side surface of the folding seat 42, the rotating plate 45 is arranged on a rotating shaft of the first rotating cylinder 44, the second rotating cylinder 46 is arranged on the rotating plate 45, the clamping cylinder 47 is arranged on a rotating shaft of the second rotating cylinder 46, the clamping jaws 48 are arranged on two moving parts of the clamping cylinder 47, two side ends of each clamping jaw 48 protrude for clamping, and a hollow groove is reserved in the middle of each clamping jaw 48; the pressing cylinder 49 is horizontally arranged on the folding seat 42, the pressing block 40 is arranged at the telescopic end of the pressing cylinder 49, and the pressing block 40 is provided with a sinking groove 401.

When the film feeding device 4 works, the clamping jaw 48 clamps a horizontal film, then the first rotating cylinder 44 and the second rotating cylinder 46 rotate to change the film into a vertical state, the transverse moving cylinder 43 drives the folding seat 42 to move, so that the film is close to the clamp, the abutting cylinder 49 pushes the abutting block 40 out, and the film is pressed on the side edge of the clamp, so that feeding is realized.

The film feeding device 4 solves the problems that the success rate of feeding to the clamp is reduced due to the fact that the film is uneven and warped, and the posture of the film from feeding to the clamp needs to be changed; the clamping jaws 48 clamp two ends of the film, the middle parts of the clamping jaws 48 are provided with empty grooves for the supporting blocks 40 to pass through, the supporting blocks 40 compress the film on the side surfaces of the clamp to prevent loosening, the feeding success rate is improved, and the convex columns on the side surfaces of the clamp can be accommodated in the sunken grooves 401 formed in the supporting blocks 40, so that compression can be realized.

As shown in fig. 9 to 10, the horizontal terminal welding device 5 includes a bracket 51, a material tape driving mechanism 52, a terminal sucking and conveying mechanism 53, a clamp positioning rod 54, a positioning cylinder 55, a backing plate 56, a feeding cylinder 57, a feeding rail 58, and a precutting mechanism 59; the feeding rail 58 is arranged on the support 51, the material belt driving mechanism 52 and the pre-cutting mechanism 59 correspond to the feeding rail 58, the terminal sucking and conveying mechanism 53 corresponds to the discharge end of the feeding rail 58, an inclined plate is arranged on the support 51, the clamp positioning rod 54 is movably connected below the inclined plate, the positioning cylinder 55 is arranged below the inclined plate, and the telescopic end of the positioning cylinder 55 is connected with the clamp positioning rod 54; the backing plate 56 is connected above the sloping plate through a slide rail, the feeding cylinder 57 is installed above the sloping plate, and the telescopic end of the feeding cylinder 57 is connected with the backing plate 56.

The material belt driving mechanism 52 comprises a moving module 521, a driving needle 522, a rotary cutter 523, a swing rod 524 and a micro-motion cylinder 525; the moving module 521 realizes two-degree-of-freedom movement, the driving needle 522 is installed at the moving end of the moving module 521, and the driving needle 522 corresponds to the material belt in the feeding rail 58; the rotary cutter 523 is connected in the feeding rail 58, the swing rod 524 is fixed on the rotary cutter 523, and the telescopic end of the micro-cylinder 525 forms a groove pair fit with one end of the swing rod 524.

A notch is formed in the middle of the feeding rail 58, the middle of the feeding rail 58 corresponds to a pre-cutting station, a collecting box is arranged below the pre-cutting station, and the pre-cutting mechanism 59 corresponds to the pre-cutting station; the precutting mechanism 59 comprises a precutting air cylinder 591, a lifting slide block 592 and a cutting knife 593, wherein the lifting slide block 592 is installed at the telescopic end of the precutting air cylinder 591, the cutting knife 593 is installed at the lower end of the lifting slide block 592, and the cutting knife 593 corresponds to a notch in the middle of the feeding rail 58.

The terminal sucking and transporting mechanism 53 comprises a horizontal cylinder 531, a horizontal moving plate 532, a vertical cylinder 533 and a sucking and transporting block 534, the horizontal cylinder 531 is horizontally and fixedly arranged, the horizontal moving plate 532 is installed at the telescopic end of the horizontal cylinder 531, the vertical cylinder 533 is installed on the horizontal moving plate 532, the sucking and transporting block 534 is installed at the telescopic end of the vertical cylinder 533, and a suction hole is formed in the lower end face of the sucking and transporting block 534.

When the horizontal terminal welding device 5 works, a material belt connected with a horizontal terminal is fed in a feeding rail 58 through a material belt driving mechanism 52, leftover materials on the material belt are cut at a pre-cutting station through a pre-cutting mechanism 59, then the horizontal terminal is cut into single pieces through a rotary cutter 523, and the terminal is sucked through a terminal sucking and conveying mechanism 53 and then fed; then the clamp positioning rod 54 extends out to limit the position of the clamp; and then the backing plate 56 is extended out to pad the bottom plate and the horizontal terminal, and welding is realized through a laser welding machine.

The horizontal terminal welding device 5 solves the problems that the horizontal terminal is difficult to directly weld and insufficient welding is easy to occur in welding, two stations are adopted for welding, one station is used for horizontal terminal blanking, the other station is used for laser welding, the division of labor is clear, and the welding efficiency is high; the rotating fixture is positioned by arranging the fixture positioning rod 54, so that the position precision during welding is improved; the underside of the backsheet is cushioned by a backing plate 56. The horizontal terminal and the bottom plate are pressed through the pressing component 27, so that the phenomenon of gap and insufficient welding between the horizontal terminal and the bottom plate is prevented, and the welding reliability is improved.

As shown in fig. 11, the blanking device 6 includes an approaching cylinder 61, a support plate 62, a rotary cylinder 63, a suction cup 63 and a conveyor belt assembly 64; the proximity cylinder 61 is horizontally arranged on the frame, the support plate 62 is arranged at the moving end of the proximity cylinder 61, the rotary cylinder 63 is arranged on the support plate 62, the sucker 63 is arranged on the rotating shaft of the rotary cylinder 63, and the conveyer belt assembly 64 corresponds to the lower part of the sucker 63.

A welding method of a USB interface shielding plate sequentially comprises the following steps of:

s1 vertical terminal welding: the vertical terminal pre-welding device 3 welds the vertical terminal on the bottom sheet and sends out the welded finished product singly;

s2 backsheet feeding: the bottom sheet feeding device 4 feeds the bottom sheet into the clamping fixture 24 of the fixture rotating device 2;

s3 horizontal terminal welding: the horizontal terminal welding device 5 assembles the horizontal terminal on the bottom sheet and realizes welding;

and (S4) blanking of products: the blanking device 6 blanks the welding product.

Claims (10)

1. A USB interface shielding plate clamp rotating device is characterized by comprising a divider (21), a fixed disc (22), a rotating ring (23), a clamping clamp (24), a first clamp driving assembly (25), a limiting block (26), a pressing assembly (27) and a second clamp driving assembly (28); the divider (21) is fixedly arranged on the frame, the upper end of the divider (21) is provided with a central fixed shaft and a rotating shaft of a central fixed shaft outer ring, the fixed disc (22) is arranged on the central fixed shaft of the divider (21), the rotating ring (23) is arranged on the rotating shaft of the divider (21), and the clamping clamps (24) are uniformly arranged on the periphery of the rotating ring (23); the clamping fixture (24) comprises a body (241), a cover plate (242), a side clamping block (243), a tensioning spring (244) and an upper positioning block (245); the side surface of the body (241) is provided with a first convex column (2411) for positioning the bottom plate, two side clamping blocks (243) are arranged, the two side clamping blocks (243) are symmetrically matched in the body (241), and two ends of the tensioning spring (244) are connected with the side clamping blocks (243); the side clamping block (243) is provided with a buckling part (2431) and a first cylindrical part (2432), the buckling part (2431) is buckled on the side surface of the body (241) to clamp the bottom sheet, and the first cylindrical part (2432) protrudes in a transverse groove (2421) of the cover plate (242); a second convex column (2412) is arranged at the upper end of the upper positioning block (245), a second cylindrical part (2452) is arranged on the side of the upper positioning block (245), the upper positioning block (245) is movably matched in the body (241), a spring is arranged below the upper positioning block (245), the upper positioning block (245) is upwards pushed by the spring, the second convex column (2412) protrudes at the upper end of the body (241), the second convex column (2412) is used for positioning a horizontal terminal, and the second cylindrical part (2452) is matched in a vertical groove (2422) of the cover plate (242); the cover plate (242) is fixed on the side of the body (241).

2. The USB interface shielding plate fixture rotating device according to claim 1, wherein a semi-finished product feeding station, a blanking station, a secondary welding station and a blanking station are correspondingly arranged on one circle of the rotating ring (23), a first fixture driving assembly (25) and a second fixture driving assembly (28) are arranged on the fixed disc (22), the first fixture driving assembly (25) corresponds to the clamping fixture (24) at the semi-finished product feeding station, the second fixture driving assembly (28) corresponds to the clamping fixture (24) at the blanking station, the limiting block (26) is arranged on the fixed disc (22), and the limiting block (26) corresponds to the clamping fixture (24) at the blanking station; the pressing assembly (27) is installed on the fixed disc (22), and the pressing assembly (27) corresponds to the clamping fixture (24) at the secondary welding station.

3. The USB interface shielding plate clamp rotating device according to claim 1, wherein the two side ends of the limiting block (26) are provided with inclined planes, and the top of the limiting block (26) is a plane corresponding to the side of the clamping clamp (24).

4. The USB interface shielding plate clamp rotating device according to claim 1, wherein the fixed plate (22) is further provided with an optical fiber sensor, and the optical fiber sensor corresponds to the clamping clamp (24) behind the blanking station.

5. The USB interface shielding plate clamp rotating apparatus according to claim 1, wherein the first clamp driving assembly (25) comprises a driving cylinder (251), a telescopic plate (252) and a slot plate (253); the groove plate (253) is fixed on the fixed disc (22), the driving cylinder (251) is installed on the groove plate (253), the telescopic end of the driving cylinder (251) is connected with the telescopic plate (252), the telescopic plate (252) is movably matched in the groove plate (253), and the end part of the telescopic plate (252) corresponding to the clamping fixture (24) is arranged into a ladder shape.

6. The USB interface shielding plate clamp rotating device according to claim 1 or 5, wherein the second clamp driving assembly (28) is similar to the first clamp driving assembly (25) in structure, a top plate (281) is additionally arranged on the second clamp driving assembly (28), the top plate (281) is fixedly connected to the fixed plate (22), and a slope is arranged on the lower end surface of the top plate (281).

7. The USB interface shielding plate clamp rotating device according to claim 1, wherein the pressing assembly (27) comprises a pressing cylinder (271) and a pressing block (272), the pressing cylinder (271) is vertically installed on the fixed plate (22), the pressing block (272) is installed at the telescopic end of the pressing cylinder (271), the pressing block (272) is folded, and the pressing block (272) corresponds to the upper end of the clamping clamp (24).

8. A USB interface shielding plate clamp rotating method is characterized in that at a semi-finished product feeding station, a first clamp driving assembly (25) extends, two side clamping blocks (243) are pushed open, a bottom plate is placed on the side face of a body (241), and the rear side clamping blocks (243) reset to clamp the bottom plate; welding of the vertical terminals is achieved at a semi-finished product feeding station, the divider (21) drives the clamping fixture (24) to achieve conveying, the horizontal terminals are placed on the upper positioning block (245) at a blanking station, and the pressing assembly (27) presses the horizontal terminals to achieve welding at a secondary welding station.

9. The welding equipment for the USB interface shielding plate is characterized by comprising a rack (1), and a clamp rotating device (2), a vertical terminal pre-welding device (3), a bottom plate feeding device (4), a horizontal terminal welding device (5) and a discharging device (6) which are connected to the rack (1); the bottom sheet feeding device (4) is connected with the vertical terminal pre-welding device (3) and the fixture rotating device (2), a semi-finished product feeding station (201), a blanking station (202), a secondary welding station (203) and a blanking station (204) are arranged on one circle of the fixture rotating device (2), the bottom sheet feeding device (4) corresponds to the semi-finished product feeding station (201), the horizontal terminal welding device (5) corresponds to the blanking station (202) and the secondary welding station (203), and the blanking device (6) corresponds to the blanking station (204); a traveling frame (7) is arranged on the rack, two laser welding machines (8) are arranged on the traveling frame (7), one laser welding machine (8) corresponds to the vertical terminal prewelding device (3), and the other laser welding machine (8) corresponds to the secondary welding station (203); the above clip rotating device (2) is a USB interface shielding plate clip rotating device according to any one of claims 1 to 7.

10. The welding equipment of the shielding plate of the USB interface according to claim 9, wherein the fixture rotating device (2) is used for clamping the bottom plate and realizing conveying, the vertical terminal pre-welding device (3) is used for realizing welding between the vertical terminal and the bottom plate, the bottom plate feeding device (4) is used for feeding the bottom plate with the pre-welded vertical terminal, the horizontal terminal welding device (5) is used for welding the horizontal terminal to the bottom plate, and the blanking device (6) is used for blanking the welded product.

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