CN110355612B - Mobile phone frame production line - Google Patents

Abstract

The invention discloses a mobile phone frame production line, which belongs to the field of mobile phone frame processing equipment and comprises a feeding mechanism, a flattening mechanism, a welding port cutting mechanism, a forming mechanism, a polishing and straightening mechanism, a stamping die, a cutting mechanism, a conveying mechanism, a bending device and a manipulator, wherein the bending device is positioned at the side of the cutting mechanism, the conveying mechanism is positioned between the bending device and the cutting mechanism, the manipulator is arranged at the side of the bending device, the welding port cutting mechanism comprises a base, a shell, an upper cutting assembly and a lower cutting assembly, the shell is arranged between the bases, the upper cutting assembly and the lower cutting assembly are arranged in the shell in a central symmetry manner, a discharging channel is arranged in the base, and the lower part of the shell is communicated with the discharging channel. The invention can realize the automatic production of the metal mobile phone frame, improves the working efficiency and reduces the labor capacity of workers.

Description

Mobile phone frame production line

Technical Field

The invention relates to the field of mobile phone frame processing equipment, in particular to a mobile phone frame production line.

Background

The metal mobile phone frame is required to be subjected to flattening, welding opening cutting, forming, polishing, cutting, bending, punching and welding in the production process, and in the production mode of the metal mobile phone frame in the prior art, after metal wires, pipes or profiles are mechanically flattened, welded opening cutting, forming, polishing and cutting off, the cut metal wires, pipes or profiles are bent into the mobile phone frame by using a bending machine through manual carrying and feeding; and then carrying and feeding by manpower, punching the metal mobile phone frame by using a punching machine to form a volume adjusting key hole, a switch key hole, an earphone hole, an acoustic hole and the like, and finally welding to finish production.

The production mode of the prior art has the following defects when in use, firstly; in the production process of the prior art, a separate punching machine and a bending machine are required to be used for cooperation production, so that the number of times of transporting the workpiece in the processing process is increased, the manual labor is increased, and the production efficiency is reduced. Secondly, the degree of automation of production facility is lower, can't carry out automatic streamlined production, influences production efficiency. Thirdly, the manpower cost is higher, and there is certain danger when using equipment, causes the injury to the workman easily.

Disclosure of Invention

The invention aims to provide a mobile phone frame production line, which solves the technical problem that the metal mobile phone frame in the prior art cannot be produced in an automatic flow line.

The invention provides a mobile phone frame production line which comprises a feeding mechanism, a flattening mechanism, a welding port cutting mechanism, a forming mechanism, a polishing and straightening mechanism, a stamping die, a cutting mechanism, a conveying mechanism, a bending device and a manipulator.

Compared with the prior art, the invention has the beneficial effects that:

Firstly, the metal wire, the pipe or the section bar sequentially passes through a feeding mechanism, a flattening mechanism, a welding port cutting mechanism, a forming mechanism, a polishing straightening mechanism, a stamping die, a cutting mechanism, a conveying mechanism, a bending device and a manipulator to be respectively subjected to feeding, flattening, welding port cutting, forming, polishing straightening, punching, cutting and bending, so that the automatic production line of the metal mobile phone frame can be realized, the step of carrying the metal wire, the pipe or the section bar among different devices in the production process is reduced, the production efficiency is improved, the workload of workers is also reduced, secondly, the metal mobile phone frame is mechanically and automatically processed during punching and bending operations, the feeding and positioning are not required to be manually assisted, and the potential safety hazard existing in the process of manually using the devices is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of a mobile phone frame production line;

Fig. 2 is a schematic perspective view of a feeding mechanism;

FIG. 3 is a schematic perspective view of a flattening mechanism;

FIG. 4 is a schematic perspective view of a weld-cut cutting mechanism;

FIG. 5 is a schematic view of a partial perspective view of a weld seam cutting mechanism;

FIG. 6 is a schematic perspective view of a molding mechanism;

FIG. 7 is a schematic perspective view of a polish straightening mechanism;

fig. 8 is a schematic perspective view of a press die;

FIG. 9 is a schematic perspective view of a stamping assembly;

FIG. 10 is a top view of the punch assembly;

FIG. 11 is a cross-sectional view taken along line A-A of FIG. 10;

FIG. 12 is a schematic perspective view of a cutting mechanism;

FIG. 13 is an enlarged view at B in FIG. 12;

FIG. 14 is a schematic perspective view of a transport mechanism;

FIG. 15 is a schematic perspective view of a bending apparatus;

FIG. 16 is a schematic diagram of a bending apparatus in a second perspective view;

Fig. 17 is a schematic perspective view of the engaging member.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown.

Referring to fig. 1 to 17, an embodiment of the present invention provides a production line for a mobile phone frame, including a feeding mechanism 1, a flattening mechanism 2, a welding port cutting mechanism 3, a forming mechanism 4, a polishing straightening mechanism 5, a stamping die 6, a cutting mechanism 7, a transporting mechanism 8, a bending device 9 and a manipulator 10, where the feeding mechanism 1, the flattening mechanism 2, the welding port cutting mechanism 3, the forming mechanism 4, the polishing straightening mechanism 5, the stamping die 6 and the cutting mechanism 7 are sequentially arranged, the bending device 9 is located beside the cutting mechanism 7 and the transporting mechanism 8 is located between the bending device 9 and the cutting mechanism 7, the manipulator 10 is located beside the bending device 9, the welding port cutting mechanism 3 includes a base 31, a shell 32, an upper cutting assembly 33 and a lower cutting assembly 34, the shell 32 is installed between the base 31, the upper cutting assembly 33 and the lower cutting assembly 34 are structurally the same and are centrally symmetrically arranged in the shell 32, a discharging channel 311 is arranged in the base 31, and the lower part of the shell 32 is communicated with the discharging channel 311; when the metal wire, the pipe or the section bar is fed through the feeding mechanism 1, flattened and formed into circular arc edges through the flattening mechanism 2, the middle part of the metal wire, the pipe or the section bar is continuously cut into a stepped welding opening through the welding opening cutting mechanism 3, then the metal wire, the pipe or the section bar is rolled and formed through the forming mechanism 4, the metal wire, the pipe or the section bar is circular arc-shaped, the current polishing and straightening are performed through the polishing and straightening mechanism 5, holes are continuously formed at the current fixed-length position through the stamping die 6, the cut metal wire, the pipe or the section bar is cut into one section through the cutting mechanism 7, the cut metal wire, the cut pipe or the cut section bar is transported to the bending device 9 through the transporting mechanism 8, the cut metal wire, the cut section bar or the cut section bar is bent into a frame shape through the bending device 9, and finally the mechanical arm 10 is used for blanking, wherein the mechanical arm 10 adopts the prior art, and details are omitted.

The feeding mechanism 1 comprises a mounting seat 11, a feeding disc 12, a limiting frame 13, a feeding motor 14, two feeding shafts 15, two feeding gears 16 and two feeding wheels 17, wherein the mounting seat 11 is fixed on the ground, the feeding disc 12 is rotatably provided with the upper end of the mounting seat 11 and is rotatably connected with the mounting seat 11, the limiting frame 13 is arranged at the upper end of the feeding disc 12 and is in threaded connection with the upper end of the feeding disc 12, a fixed seat 18 is arranged at the side of the feeding disc 12, a feeding plate 19 is arranged at the upper end of the fixed seat 18, the two feeding shafts 15 penetrate through the feeding plate 19 and are rotatably connected with the feeding plate 19, the two feeding wheels 17 are respectively sleeved at one ends of the two feeding shafts 15, the two feeding gears 16 are respectively sleeved at the other ends of the two feeding shafts 15 and are mutually meshed, and the feeding motor 14 is horizontally arranged and is fixedly connected with one end of one feeding shaft 15; the coiled metal wire, pipe or section bar is placed on the feeding disc 12, the feeding motor 14 works to drive the feeding shaft 15 to rotate, the two feeding gears 16 cooperate to drive the two feeding wheels 17 to synchronously and reversely rotate, and then the metal wire, pipe or section bar is pulled, so that the metal wire, pipe or section bar is conveyed to the flattening mechanism 2.

The flattening mechanism 2 comprises a mounting frame 21, two limiting rods 22, two limiting blocks 23, three limiting wheel sets 24 and six first adjusting components 25, wherein the two limiting rods 22 are horizontally arranged, two ends of the two limiting rods 22 are fixedly connected with the mounting frame 21, the two limiting blocks 23 are symmetrically arranged, one adjacent side of each limiting block 23 is provided with a limiting half groove, one side of each limiting block 23 is provided with two moving rods 26, each side of the mounting frame 21 is provided with two moving holes which are in sliding fit with the moving rods 26, the three limiting wheel sets 24 are arranged at equal intervals, each limiting wheel set 24 comprises an upper limiting wheel 241 and a lower limiting wheel 242, two ends of all the lower limiting wheels 242 are rotatably connected with the mounting frame 21, the six first adjusting components 25 are evenly arranged on two sides of the mounting frame 21 respectively, two ends of each upper limiting wheel 241 are connected with one first adjusting component 25, and a first driving component 27 for driving all the limiting wheel sets 24 to work is arranged beside the mounting frame 21; the position that gets into through two gag lever posts 22 restriction metal wire rod, tubular product or section bar, the position of rethread two stopper 23 to metal wire rod, tubular product or section bar is further restricted, then metal wire rod, tubular product or section bar is advanced three spacing wheelset 24 in proper order, roll-in through last spacing wheel 241 and lower spacing wheel 242 flattens metal wire rod, tubular product or section bar, the subsequent processing of being convenient for, wherein, first drive assembly 27 is prior art, drive three spacing wheelset 24 simultaneously through prior art such as motor, gear, rack and rotate, for the commonly used technique, do not make the details here, the size of distance between two stopper 23 can be adjusted in the setting of movable rod 26, and then can be used for restricting not unidimensional metal wire rod, tubular product or section bar, increase application range.

The first adjusting assembly 25 comprises an adjusting frame 251, an adjusting block 252, an adjusting rod 253 and a fixing block 254, wherein the adjusting frame 251 is vertically arranged on one side of the mounting frame 21, an adjusting groove 255 is formed in the upper end of the adjusting frame 251, the adjusting block 252 is arranged in the adjusting groove 255, two ends of the adjusting block 252 are respectively in sliding fit with two side walls of the adjusting groove 255, the fixing block 254 is horizontally arranged at a notch of the adjusting groove 255 and is fixedly connected with the adjusting frame 251 through a bolt, the lower end of the adjusting rod 253 is in running fit with the upper end of the adjusting block 252, an adjusting hole is formed in the middle of the fixing block 254, and the adjusting rod 253 is in threaded fit with the adjusting hole; the fixing block 254 can be driven to move in the vertical direction by rotating the adjusting rod 253, and then the upper limiting wheel 241 fixedly connected with the fixing block is driven to adjust in the vertical reverse direction, so that metal wires, pipes or sectional materials with different sizes can be processed, and the application range is further increased.

The upper cutting assembly 33 comprises a cutting bearing block 331, a bearing seat 332, a bearing adjusting rod 333, a cutting electric push rod 334 and a lifting frame 335, wherein the bearing seat 332 is fixedly connected with the shell 32, the middle part of the bearing seat 332 is provided with a cutting adjusting groove 255, the cutting bearing block 331 is arranged in the cutting adjusting groove 255 and is in sliding fit with the cutting adjusting groove 255, the upper end of the cutting bearing block 331 is provided with a bearing groove 337, the bearing adjusting rod 333 penetrates through the lower part of the bearing seat 332 and is in threaded fit with the bearing adjusting rod 333, the upper end of the bearing adjusting rod 333 is in rotary connection with the lower end of the cutting bearing block 331, the cutting electric push rod 334 is vertically arranged at the upper end of the shell 32, the lifting frame 335 is fixedly connected with the output end of the cutting electric push rod 334, the lower end of the lifting frame 335 is provided with a cutting shaft 338, the cutting knife 339 and a driven gear 3310 are sleeved on the cutting shaft 338, the upper end of the lifting frame 335 is provided with a cutting motor 3311 which is horizontally arranged, the output end of the cutting motor 1 is provided with a driving gear 3312, and the driving gear 3312 and the driven gear 3310 are connected through a transmission chain; the driving gear 3312 is driven to rotate through the work of the cutting motor 3311, the driving gear 3312 drives the driven gear 3310 to rotate under the transmission of a chain, and then the cutting shaft 338 and the cutting knife 339 are driven to rotate, when cutting is needed, the lifting frame 335 is pushed by the cutting electric push rod 334, the cutting blade moves downwards, the metal wire, the pipe or the section bar is thinned through the rotation of the cutting blade, the middle part of the thinned part is cut off, the welding step openings can be formed at the two ends, and scraps generated during cutting can be blocked in the shell 32 and are intensively discharged through the discharging channel 311 to be processed, so that the metal wire, the pipe or the section bar is convenient to collect.

The forming mechanism 4 comprises a forming frame 41 and a plurality of forming wheel sets 42, the forming wheel sets 42 are arranged at the upper end of the forming frame 41 at equal intervals, each forming wheel set 42 comprises an upper forming wheel 421 and a lower forming wheel 422, two ends of each upper forming wheel 421 are respectively provided with a second adjusting component 43, the second adjusting components 43 are identical to the first adjusting components 25 in structure, the second adjusting components 43 are fixedly connected with the forming frame 41, the middle part of each upper forming wheel 421 is respectively provided with a forming convex block 44, the middle part of each lower forming wheel 422 is respectively provided with a forming groove 45 matched with the forming convex block 44, and a second driving component 46 for driving all forming wheel sets 42 to work is arranged beside the forming frame 41; the second driving assembly 46 and the first driving assembly 27 have the same structure, and the prior art is omitted herein, and during operation, the metal wire, the tube or the section bar is rolled through the plurality of forming wheel sets 42, and meanwhile, the metal wire, the tube or the section bar is gradually rolled into a required arc structure through the cooperation of the forming protruding blocks 44 and the forming grooves 45.

The polishing and straightening mechanism 5 comprises a cleaning frame 51 and a straightening frame 52, the cleaning frame 51 and the straightening frame 52 are sequentially arranged at the tail end of the forming frame 41, a cleaning brush 53 and an air ejector tube 54 are arranged on the cleaning frame 51, a carrier roller 55 and a polishing motor 56 are arranged at one end of the straightening frame 52, two sides of the carrier roller 55 are rotationally connected with the straightening frame 52, a limit groove 57 is formed in the middle of the carrier roller 55, the polishing motor 56 is horizontally arranged above the carrier roller 55, a polishing wheel 58 is arranged at the output end of the polishing motor 56, and a polishing bump 59 is arranged in the middle of the polishing wheel 58; the cleaning brush 53 is used for brushing off impurities adhered to the metal wire, the pipe or the section bar, then is connected with the air pump through the air injection pipe 54, and blows air at present, so that the impurities on the metal wire, the pipe or the section bar are cleaned off, and then the polishing motor 56 works to drive the polishing wheel 58 to rotate so as to polish the metal wire, the pipe or the section bar, and burrs generated in the processing and forming process are removed.

The middle part of the straightening frame 52 is provided with three straightening lower wheels 510 and two straightening upper wheels 511, two ends of the three straightening lower wheels 510 are respectively connected with the straightening frame 52 in a rotating way, two ends of each straightening upper wheel 511 are respectively provided with a third adjusting component 512, the third adjusting components 512 are identical to the first adjusting components 25 in structure, the middle part of each straightening lower wheel 510 is respectively provided with a straightening groove 513, the middle part of each straightening upper wheel 511 is respectively provided with a straightening convex block 514, the side of the straightening frame 52 is provided with a third driving component 515 for driving all the straightening lower wheels 510 and the straightening upper wheels 511 to rotate, the structure of the third driving component 515 is identical to that of the first driving component 27, the structure of the third driving component is realized by adopting the prior art, and the straightening upper wheels 511 and the straightening lower wheels 510 are used for straightening metal wires, pipes or sectional materials, so that the alignment in the subsequent processing process is accurate.

The stamping die 6 comprises a traction component and three stamping components 62 which are distributed at equal intervals, the three stamping components 62 are sequentially arranged at the tail end of the traction component at equal intervals, each stamping component 62 comprises a stamping component 621, a fixing component 622, a lower die 623, a die holder 624 and an unfolding component 625, the lower die 623 is arranged at the upper end of the die holder 624, the two ends of the lower die 623 are both provided with unfolding dies 6257 hinged with the lower die 623, the unfolding component 625 is arranged at the lower part of the lower die holder 624 and matched with the two unfolding dies 6257, the stamping component 621 is arranged at the upper end of the die holder 624, the fixing components 622 are two, the two fixing components 622 are symmetrically arranged at the two sides of the stamping component 621, the upper ends of the unfolding dies 6257 and the lower die 623 are both provided with die grooves 6258, and the die holder 624 is internally provided with a discharging component 626; the work through expansion part 625 can expand or pack up the expansion mould 6257 of bed die 623 both sides, when expanding, can be connected with other equipment and carry out serialization production, when pack up, can be used as stamping mechanism alone, punch out the metal cell-phone frame, and the punching press in-process can be assisted fixedly through fixed part 622, need not artifical the fixed, the potential safety hazard has been eliminated, the setting of discharge part 626 is supplementary to get rid of the waste material that produces with the punching press, can avoid causing the waste material jam, can concentrate and handle the waste material for workshop environment is clean, also can not cause the fish tail to the workman.

The unfolding component 625 comprises an unfolding electric push rod 6251, a first driving rod 6252, two second driving rods 6253 and four unfolding rods 6254, the unfolding electric push rod 6251 is vertically arranged at the lower end of the die holder 624, the first driving rod 6252 is installed at the output end of the unfolding electric push rod 6251, the two second driving rods 6253 are respectively and fixedly connected with the two ends of the first driving rod 6252, the end part of each second driving rod 6253 is provided with a sliding block 6255, two sliding rails 6256 are respectively arranged on the side walls of the two sides of the die holder 624, the sliding blocks 6255 are in sliding fit with the sliding rails 6256, the lower ends of the four unfolding rods 6254 are respectively hinged with the four sliding blocks 6255, and the upper ends of the four unfolding rods 6254 are respectively hinged with the corresponding unfolding dies 6257; by means of the unfolding electric push rod 6251 pushing the first driving rod 6252 to move in the vertical direction, the first driving rod 6252 can push the two second driving rods 6253 to move, the two second driving rods 6253 drive the sliding blocks to move on the sliding track 6256, the four unfolding rods 6254 push the two unfolding dies 6257 to rotate upwards to be in a vertical rotation state, and then the two unfolding dies 6257 can be used as independent stamping equipment, and if the two unfolding dies 6257 are all horizontal, the two unfolding dies can work in combination with other equipment to carry out assembly line operation.

The upper end of each unfolding die 6257 is provided with a limiting block 6259, the cross section of each limiting block 6259 is L-shaped, metal wires, pipes or profiles can be limited in the die grooves 6258, and when the two unfolding dies 6257 are in a vertical state, the lower ends of the two limiting blocks 6259 can also limit the metal mobile phone frames in the die grooves 6258 of the lower die 623.

The stamping part 621 comprises a hydraulic part 6211, a first stamping block 6212 and a second stamping block 6213, wherein the first stamping block is installed at the lower end of the hydraulic part 6211, a stamping track 6214 is arranged on the inner side wall of the hydraulic part 6211, a stamping sliding block 6215 in sliding fit with the stamping track 6214 is arranged on the stamping track 6214, the second stamping block 6213 is fixedly connected with the stamping sliding block 6215, a plurality of stamping heads 6216 are arranged at the lower end of the second stamping block 6213, a plurality of stamping holes 6217 matched with the stamping heads 6216 are arranged in a die cavity 6258 of the lower die 623, a return spring 6218 is arranged at the upper part of the stamping track 6214, and the lower end of the return spring 6218 is fixedly connected with the upper end of the stamping sliding block 6215; the hydraulic component 6211 is hydraulic equipment in the prior art, when stamping operation is performed, most of the hydraulic equipment is adopted for driving, the power is sufficient, the effect is good, details are not needed, the hydraulic component 6211 is used for pushing the first stamping block 6212 to move downwards, the first stamping block 6212 impacts the second stamping block 6213, the second stamping block 6213 moves downwards, the stamping head 6216 and the stamping hole 6217 are matched with each other to form a hole in a metal wire, a pipe or a section, then the second stamping block 6213 is sprung up through the action of the reset spring 6218, the next stamping is convenient, and the reason for arranging the second stamping block 6213 is that when the hydraulic component 6211 is singly used as stamping equipment, the metal mobile phone frame is stamped in a rectangular structure, and if the first stamping block 6212 is directly stamped, the upper edge of the frame is damaged.

Each fixing member 622 includes a shrinkage groove 6221, a fixing rod 6222, a compression spring 6223 and an elastic block 6224, the shrinkage groove 6221 is disposed at a lower end of one side of the second punching block 6213, the compression spring 6223 is disposed at a bottom of the shrinkage groove 6221, an upper portion of the fixing rod 6222 is inserted into the shrinkage groove 6221 and an upper end of the fixing rod 6222 is connected to a lower end of the compression spring 6223, the elastic block 6224 is disposed at a lower end of the fixing rod 6222, and a lower portion of the elastic block 6224 is shaped to be matched with the mold groove 6258; when the second stamping block 6213 is stamped downwards, the elastic block 6224 is contacted with the metal wire, the pipe or the profile, and then the elastic block is fixed in the die cavity 6258, so that the metal wire, the pipe or the profile cannot move during stamping, and the accuracy of stamping positions is ensured.

The discharging component 626 comprises a first discharging channel 6261 and a plurality of second discharging channels 6262, the plurality of second discharging channels 6262 are all arranged at the upper part of the die holder 624 and the plurality of second discharging channels 6262 are in one-to-one correspondence with the plurality of punching holes 6217, the first discharging channel 6261 is obliquely arranged at the lower part of the die holder 624, the upper part of the first discharging channel 6261 is communicated with all the second discharging channels 6262, a discharging shaft 6263 is arranged above the first discharging channel 6261, one end of the discharging shaft 6263 is provided with a discharging motor 6264 fixedly connected with the discharging shaft 6264, a plurality of discharging wheels 6265 are arranged on the discharging shaft 6263, and the plurality of discharging wheels 6265 are corresponding to the plurality of second discharging channels 6262; the waste generated by stamping falls into the second discharging channel 6262 and then is discharged after falling into the first discharging channel 6261, so as to avoid the blockage of the second discharging channel 6262 caused by the waste, and the discharging motor 6264 works to drive the discharging wheel 6265 to rotate, so that the waste is driven to rapidly move downwards.

The traction assembly comprises a traction frame 611, two limiting rods 612 and two traction wheels 613, wherein the two limiting rods 612 are horizontally arranged, two ends of the two limiting rods 612 are fixedly connected with the traction frame 611, two ends of the two traction wheels 613 are rotatably connected with the traction frame 611, one side of the traction frame 611 is provided with a traction motor, and the output end of the traction motor is fixedly connected with one of the traction wheels 613; the motor is used for driving the traction wheel 613 to traction the metal wire, the pipe or the section bar for conveying.

The cutting mechanism 7 comprises a driving piece 79, a driving block 710 and a cutting seat 711, wherein the driving block 710 is arranged at the lower end of the driving piece 79, the cutting seat 711 is arranged below the driving block 710, a cutting groove 71 and a cutter groove 72 which is perpendicular to the cutting groove 71 are arranged on the cutting seat 711, a cutting cutter 73 is arranged in the middle of the lower end of the driving block 710, a plurality of telescopic grooves are formed in two sides of the cutting cutter 73, telescopic rods 75 are inserted in each telescopic groove, an extrusion spring 76 is sleeved on each telescopic rod 75, extrusion blocks 77 are fixedly connected with the lower ends of the corresponding telescopic rods 75, and extrusion lugs 78 are arranged at the lower ends of the two extrusion blocks 77; the driving member 79 adopts the hydraulic equipment in the prior art, which is not described in detail herein, the driving member 79 provides power to enable the driving block 710 to move downwards, the driving block 710 drives the cutting knife 73 and the two frame pressing blocks to move downwards, the pressurizing protruding blocks at the lower ends of the two extruding blocks 77 are firstly contacted with and fixed on the metal wire, the pipe or the section bar, meanwhile, the shape of the extruding protruding block 78 is the same as the arc structure at the upper end of the metal wire, the pipe or the section bar, the cutting knife 73 cuts the extruding protruding block 78, and the metal wire, the pipe or the section bar cannot be deformed due to the limitation of the extruding protruding block 78.

The conveying mechanism 8 comprises a conveying motor 81, a conveying seat 82, a conveying block 83 and four screw rod sliding tables 84, wherein the conveying motor 81 is vertically arranged at the upper end of the conveying seat 82, the conveying block 83 is arranged at the output end of the conveying motor 81, the four screw rod sliding tables 84 are circumferentially distributed beside the conveying block 83, the lower end of each screw rod sliding table 84 is provided with a connecting plate 85, the lower end of each connecting plate 85 is provided with a rotating motor 86, the output end of the rotating motor 86 is provided with a three-jaw chuck 87, and the tail end of each screw rod sliding table 84 is provided with a limiting bucket 88; one end of a metal wire, a pipe or a section bar is clamped by the three-jaw chuck 87, the three-jaw chuck 87 is driven to draw out the metal wire, the pipe or the section bar through the operation of the screw rod sliding table 84, the rotating motor 86 is driven to rotate the metal wire, the pipe or the section bar by 90 degrees, the metal wire, the pipe or the section bar is transported to the bending device 9 through the operation of the transporting motor 81, one end of the metal wire, the pipe or the section bar is transported to the bending device 9 through the operation of the screw rod sliding table 84, and the metal wire, the pipe or the section bar passes through the limiting hopper 88 to be limited and aligned.

The bending device 9 comprises a pressing component 91, a rotating component 92, a clamping component 93, a moving component 94 and a clamping component 95, wherein the clamping component 93 is fixedly arranged at the upper end of the rotating component 92, the pressing component 91 is arranged at the side of the rotating component 92 and is matched with the clamping component 93, the moving component 94 is arranged at one side of the rotating component 92, and the clamping component 95 is arranged at the upper end of the moving component 94 and is matched with the clamping component 93; when the metal wire, the pipe or the section bar is conveyed to be matched with the clamping piece 93, the movable component 94 works to push the clamping component 95 to fix the metal wire, the pipe or the section bar, the metal wire, the pipe or the section bar is pressed on the clamping piece 93 through the pressing component 91, the rotating component 92 works to drive the clamping piece 93 and the clamping component 95 to rotate and bend the metal wire, the pipe or the section bar, and after repeated working for a plurality of times, the metal wire, the pipe or the section bar is bent to be in a rectangular frame shape.

The rotating assembly 92 comprises a rotating cylinder 921, a rotating column 922 and a rotating block 923, the rotating cylinder 921 is vertically arranged, the rotating column 922 is installed on the output end of the rotating cylinder 921, the rotating block 923 is sleeved on the upper portion of the output end of the rotating cylinder 921, the clamping piece 93 is installed on the upper end of the rotating column 922, the rotating column 922 and the rotating block 923 are driven to rotate through the operation of the rotating cylinder, and then the clamping assembly 95 and the clamping piece 93 are driven to rotate, and meanwhile the clamping assembly and the rotating block 923 drive clamped metal wires, pipes or profiles to bend.

The engaging member 93 includes a connecting portion 931, an engaging portion 932, an engaging protrusion 933 and a top 934, wherein the lower end of the connecting portion 931 is fixedly connected with the upper end of the rotation column 922, the engaging portion 932 is located at the upper end of the connecting portion 931, the outer side wall of the engaging portion 932 is in a U-shaped structure, the engaging protrusion 933 is disposed on the outer side wall of the engaging portion 932, the top 934 is located at the upper end of the engaging portion 932, two top blocks 935 are disposed on the outer side wall of the connecting portion 931, the two top blocks 935 are located at the upper end and the lower end of the engaging protrusion 933, and an engaging groove 936 is formed between the two top blocks 935 and the engaging protrusion 933; the engagement protrusion 933 is provided and the engagement groove 936 is formed to fix the shape of the metal wire, the pipe or the profile, so as to avoid damaging the arc structure of the metal wire, the pipe or the profile in the bending process.

The moving assembly 94 comprises a moving frame 941, a moving block 942 and a moving air cylinder 943, wherein one end of the moving frame 941 is fixedly connected with the rotating block 923, the moving block 942 is positioned above the moving frame 941, four moving connecting rods 944 are arranged between the moving frame 941 and the moving block 942, the lower ends of the four moving connecting rods 944 are respectively and rotatably connected with the moving frame 941, the upper ends of the four moving connecting rods 944 are respectively and rotatably connected with the moving block 942, the rear end of the moving air cylinder 943 is hinged with the moving frame 941, and the output end of the moving air cylinder 943 is hinged with one end of the moving block 942; the moving block 942 can be pushed to move at the upper end of the moving frame 941 by the operation of the moving cylinder 943, so as to drive the clamping assembly 95 to move.

The clamping assembly 95 comprises a clamping seat 951 and a clamping block 952, wherein one end of the clamping seat 951 is fixedly connected with the moving block 942, the clamping block 952 is arranged at the other end of the clamping seat 951, and one end of the clamping block 952 is provided with a clamping groove 953 matched with the clamping convex block 933; when fixed, drive the fixed subassembly 95 slope through remove the subassembly 94 and remove and fix metal wire rod, tubular product or section bar, can upwards promote metal wire rod, tubular product or section bar when fixed, be one end by the centre gripping in the transportation process of metal wire rod, tubular product or section bar, carry its other end to block subassembly department, metal wire rod, tubular product or section bar's the other end can be under the effect of gravity downwarping a bit, remove the subassembly 94 work through this kind of mode, the card solid piece 952 can promote metal wire rod, tubular product or section bar and upwards calibrate and get into card solid recess 953 and branch and bump fixed, fix its position, avoid in fixed process, metal wire rod, tubular product or section bar skew, produce the deformation when causing the extrusion to fix.

The pressing assembly 91 comprises a pressing sliding rail 911, a pressing air cylinder 912, a pressing block 913 and a pressing wheel 914, wherein the pressing sliding rail 911 is horizontally arranged, the pressing sliding rail 911 is provided with a pressing sliding block 915 which is in sliding fit with the pressing sliding rail 911, the pressing air cylinder 912 is arranged at one end of the pressing sliding rail 911, the output end of the pressing air cylinder 912 is fixedly connected with the pressing sliding block 915, the pressing wheel 914 is arranged at one end of the pressing block 913, and the side wall of the pressing wheel 914 is provided with a pressing groove 916 which is matched with the clamping convex block 933; the pressing block 913 is pushed to slide on the pressing track through the operation of the pressing cylinder 912, so that one end of the pressing wheel 914 is abutted against the clamping piece 93, and the clamping piece 93 can be driven to rotate and continuously fix the metal wire, the pipe or the section bar between the pressing wheel 914 and the clamping piece 93 when the pressing wheel is rotated.

Working principle: the coiled metal wire, pipe or section bar is placed on the upper material tray 12, the upper material tray 14 is operated to drive the material loading shaft 15 to rotate, the two material loading gears 16 are matched to drive the two material loading wheels 17 to synchronously rotate reversely, the metal wire, pipe or section bar is pulled, the metal wire, pipe or section bar is conveyed to the flattening mechanism 2, the position where the metal wire, pipe or section bar enters is limited by the two limiting rods 22, the position where the metal wire, pipe or section bar is further limited by the two limiting blocks 23, then the metal wire, pipe or section bar sequentially enters the three limiting wheel sets 24, the metal wire, pipe or section bar is flattened by the rolling of the upper limiting wheels 241 and the lower limiting wheels 242, the driving gear 3312 is driven to rotate by the operation of the cutting motor 3311, the driving gear 3312 is driven by the chain to rotate, and then drive cutting shaft 338 and cutting knife 339 to rotate, when need cut, push lifting frame 335 and cutting edge to move downwards through cutting electric push rod 334, cutting edge rotate to thin metal wire, pipe or section bar, then cut off in the middle of the thinned part, making both ends able to form welding step mouth, waste scraps produced during cutting will be blocked in shell 32 and intensively discharged through discharge channel 311 for processing, several forming wheel sets 42 roll metal wire, pipe or section bar, at the same time, metal wire, pipe or section bar is gradually rolled into required arc structure through cooperation of forming convex block 44 and forming groove 45, impurities adhered on metal wire, pipe or section bar are brushed down through cleaning brush 53 after forming, then connected with air pump through air jet pipe 54, blowing at present, so as to clean impurities on metal wires, pipes or sections, then the grinding wheel 58 is driven to rotate by the grinding motor 56 to grind the metal wires, pipes or sections, burrs generated in the processing and forming process are removed, the traction wheel 613 is driven by the motor to traction the metal wires, the pipes or sections to be conveyed, the unfolding dies 6257 on two sides of the lower die 623 can be unfolded by the operation of the unfolding component 625, the first stamping block 6212 is pushed to move downwards by the operation of the hydraulic component 6211, the first stamping block 6212 impacts the second stamping block 6213, the second stamping block 6213 moves downwards, the stamping head 6216 is matched with the stamping hole 6217 to form a hole on the metal wires, the pipes or the sections, when the second stamping block 6213 punches downwards, the elastic block 6224 is contacted with the metal wires, the pipes or the sections firstly, and then is fixed in the die cavity 6258, and the waste generated by stamping falls into the second discharging channel 6262, then the waste material is discharged in the first discharging channel 6261, in order to avoid blocking the second discharging channel 6262 caused by the waste material, the discharging motor 6264 is operated to drive the discharging wheel 6265 to rotate to drive the waste material to move downwards rapidly, the metal wire, the pipe or the section bar is conveyed to the cutting mechanism 7, the driving piece 79 is used for providing power to drive the driving piece 710 to move downwards, the driving piece 710 drives the cutting knife 73 and the two frame pressing pieces to move downwards, the pressurizing protruding blocks at the lower ends of the two extruding pieces 77 are firstly contacted with the metal wire, the pipe or the section bar and fix the metal wire, the pipe or the section bar, then the cutting knife 73 is used for cutting off the metal wire, the pipe or the section bar, the three-jaw chuck 87 is operated to drive the three-jaw chuck 87 to draw out the metal wire, the pipe or the section bar, the rotating motor 86 is operated to drive the metal wire, the pipe or the section bar to rotate 90 degrees, then the metal wire, the pipe or the section bar is transported to the bending device 9 through the operation of the transportation motor 81, one end of the metal wire, the pipe or the section bar is transported to the bending device 9 through the operation of the screw rod sliding table 84, the metal wire, the pipe or the section bar firstly passes through the limiting hopper 88 and moves to one side of the clamping piece 93 after being subjected to limiting alignment, the moving block 942 can be pushed to move at the upper end of the moving frame 941 through the operation of the moving cylinder 943 so as to drive the clamping assembly 95 to move so as to fix the metal wire, the pipe or the section bar, the compressing cylinder 912 is pushed to push the compressing block 913 to slide on the compressing rail, one end of the compressing wheel 914 is further abutted against the clamping piece 93, the metal wire, the pipe or the section bar is further fixed, the rotating column 922 and the rotating block 923 are driven to rotate through the operation of the rotating cylinder, and the clamping assembly 95 and the clamping piece 93 are driven to rotate, and simultaneously, the clamped metal wire, the pipe or the section bar are bent, and the cut metal wire, the pipe or the section bar are repeatedly bent to be rectangular frame, and then the manipulator 10 performs blanking.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (10)

1. A cell-phone frame production line, its characterized in that: including feed mechanism (1), flattening mechanism (2), welding seam cutting mechanism (3), forming mechanism (4), polishing straightening mechanism (5), stamping die (6), cutting mechanism (7), transport mechanism (8), bending device (9) and manipulator (10), feed mechanism (1), flattening mechanism (2), welding seam cutting mechanism (3), forming mechanism (4), polishing straightening mechanism (5), stamping die (6) and cutting mechanism (7) set gradually, bending device (9) are located the side of cutting mechanism (7) and transport mechanism (8) are located between bending device (9) and cutting mechanism (7), manipulator (10) set up the side at bending device (9), welding seam cutting mechanism (3) are including base (31), shell (32), go up cutting component (33) and lower cutting component (34), shell (32) are installed between base (31), go up cutting component (33) and lower cutting component (34) structure are the same and are central symmetry setting in shell (32), be equipped with row material passageway (311) in base (31), the lower part of the shell (32) is communicated with the discharge channel (311);

The bending device (9) comprises a pressing component (91), a rotating component (92), a clamping component (93), a moving component (94) and a clamping component (95), wherein the clamping component (93) is fixedly arranged at the upper end of the rotating component (92), the pressing component (91) is arranged at the side of the rotating component (92) and matched with the clamping component (93), the moving component (94) is arranged at one side of the rotating component (92), the clamping component (95) is arranged at the upper end of the moving component (94) and matched with the clamping component (93), the rotating component (92) comprises a rotating cylinder (921), a rotating column (922) and a rotating block (923), the rotating cylinder (921) is vertically arranged, the rotating column (922) is arranged at the output end of the rotating cylinder (921), the rotating block (923) is sleeved at the upper part of the output end of the rotating cylinder (921), and the clamping component (93) is arranged at the upper end of the rotating column (922). The clamping piece (93) comprises a connecting portion (931), a clamping portion (932), a clamping projection (933) and a top portion (934), wherein the lower end of the connecting portion (931) is fixedly connected with the upper end of the rotating column (922), the clamping portion (932) is located at the upper end of the connecting portion (931), the outer side wall of the clamping portion (932) is of a U-shaped structure, the clamping projection (933) is arranged on the outer side wall of the clamping portion (932), the top portion (934) is located at the upper end of the clamping portion (932), two jacking blocks (935) are arranged on the outer side wall of the connecting portion (931), the two jacking blocks (935) are located at the upper end and the lower end of the clamping projection (933) respectively, and clamping grooves (936) are formed between the two jacking blocks (935) and the clamping projection (933); the movable assembly (94) comprises a movable frame (941), a movable block (942) and a movable air cylinder (943), one end of the movable frame (941) is fixedly connected with the rotary block (923), the movable block (942) is located above the movable frame (941), four movable connecting rods (944) are arranged between the movable frame (941) and the movable block (942), the lower ends of the four movable connecting rods (944) are respectively and rotatably connected with the movable frame (941), the upper ends of the four movable connecting rods (944) are respectively and rotatably connected with the movable block (942), the rear end of the movable air cylinder (943) is hinged with the movable frame (941), and the output end of the movable air cylinder (943) is hinged with one end of the movable block (942); the clamping assembly (95) comprises a clamping seat (951) and a clamping block (952), one end of the clamping seat (951) is fixedly connected with the moving block (942), the clamping block (952) is arranged at the other end of the clamping seat (951), and one end of the clamping block (952) is provided with a clamping groove (953) matched with the clamping projection (933).

2. The cell phone frame production line according to claim 1, wherein: feed mechanism (1) is including mount pad (11), charging tray (12), spacing (13), charging motor (14), two material loading axles (15), two material loading gears (16) and two material loading wheels (17), mount pad (11) are fixed subaerial, charging tray (12) rotate and set up the upper end at mount pad (11), threaded connection between the upper end and the two of charging tray (12) is installed to spacing (13), the side of charging tray (12) is equipped with fixing base (18), the upper end of fixing base (18) is equipped with loading plate (19), two material loading axles (15) all run through loading plate (19) and both are connected with loading plate (19) rotation, and two material loading wheels (17) are respectively overlapped and are established in the one end of two material loading axles (15), and two material loading gears (16) are overlapped respectively and are established in the other end and two material loading gears (16) of two material loading axles (15), the upper end that loading motor (14) are in mutual engagement and one of them is fixed material loading axle (14) and one of them is connected.

3. The cell phone frame production line according to claim 1, wherein: flattening mechanism (2) including mounting bracket (21), two gag lever posts (22), two stopper (23), three spacing wheelset (24) and six first adjusting part (25), two gag lever posts (22) all are the level setting and the both ends of two gag lever posts (22) all with mounting bracket (21) fixed connection, two stopper (23) are symmetrical setting and two adjacent one side of stopper (23) all are equipped with spacing half groove, one side of two stopper (23) all is equipped with two movable rod (26), each side of mounting bracket (21) all is equipped with two and movable rod (26) sliding fit's removal hole, three spacing wheelset (24) are equidistant setting and every spacing wheelset (24) all include spacing wheel (241) and spacing wheel (242) down, all the both ends of spacing wheel (242) down all rotate with mounting bracket (21) and be connected, six first adjusting part (25) distribute in the both sides of mounting bracket (21) and the both ends of spacing wheel (241) all are connected with a first adjusting part (25), all side that is used for driving wheel set (27) by one side of driving wheel set (24).

4. A cell phone frame production line according to claim 3, characterized in that: the first adjusting component (25) comprises an adjusting frame (251), an adjusting block (252), an adjusting rod (253) and a fixing block (254), wherein the adjusting frame (251) is vertically arranged on one side of the mounting frame (21), an adjusting groove (255) is formed in the upper end of the adjusting frame (251), the adjusting block (252) is arranged in the adjusting groove (255) and two ends of the adjusting block (252) are respectively in sliding fit with two side walls of the adjusting groove (255), the fixing block (254) is horizontally arranged at a notch of the adjusting groove (255) and is fixedly connected with the adjusting frame (251) through bolts, the lower end of the adjusting rod (253) is in rotary fit with the upper end of the adjusting block (252), an adjusting hole is formed in the middle of the fixing block (254), and the adjusting rod (253) is in threaded fit with the adjusting hole.

5. The cell phone frame production line according to claim 1, wherein: the upper cutting assembly (33) comprises a cutting supporting block (331), a supporting seat (332), a supporting adjusting rod (333), a cutting electric push rod (334) and a lifting frame (335), wherein the supporting seat (332) is fixedly connected with a shell (32), the middle part of the supporting seat (332) is provided with a cutting adjusting groove (255), the cutting supporting block (331) is arranged in the cutting adjusting groove (255) and is in sliding fit with the cutting adjusting groove, the upper end of the cutting supporting block (331) is provided with a supporting groove (337), the supporting adjusting rod (333) penetrates through the lower part of the supporting seat (332) and is in threaded fit with the supporting seat, the upper end of the supporting adjusting rod (333) is connected with the lower end of the cutting supporting block (331) in a rotating mode, the cutting electric push rod (334) is vertically arranged at the upper end of the shell (32), the lifting frame (335) is fixedly connected with the output end of the cutting electric push rod (334), the lower end of the lifting frame (335) is provided with a cutting shaft (338), the upper end of the cutting shaft (338) is provided with a cutting motor (335) and the upper end (3311) is provided with a driving motor (3312), the driving gear (3312) and the driven gear (3310) are connected through a chain transmission.

6. The cell phone frame production line according to claim 1, wherein: the forming mechanism (4) comprises a forming frame (41) and a plurality of forming wheel groups (42), wherein the forming wheel groups (42) are arranged at the upper ends of the forming frame (41) at equal intervals, each forming wheel group (42) comprises an upper forming wheel (421) and a lower forming wheel (422), each forming wheel (421) is provided with a second adjusting component (43) at two ends, the second adjusting components (43) are identical to the first adjusting components (25) in structure, the second adjusting components (43) are fixedly connected with the forming frame (41), forming lugs (44) are arranged at the middle parts of the upper forming wheels (421), forming grooves (45) matched with the forming lugs (44) are formed in the middle parts of the lower forming wheels (422), and second driving components (46) used for driving all forming wheel groups (42) to work are arranged at the sides of the forming frame (41).

7. The cell phone frame production line according to claim 1, wherein: the polishing straightening mechanism (5) comprises a cleaning frame (51) and a straightening frame (52), the cleaning frame (51) and the straightening frame (52) are sequentially arranged at the tail end of a forming frame (41), a cleaning brush (53) and an air ejector tube (54) are arranged on the cleaning frame (51), a carrier roller (55) and a polishing motor (56) are arranged at one end of the straightening frame (52), limit grooves (57) are formed in the middle of the supporting roller (55) and are rotatably connected with the straightening frame (52), the polishing motor (56) is horizontally arranged above the supporting roller (55), polishing wheels (58) are arranged at the output end of the polishing motor (56), and polishing protruding blocks (59) are arranged in the middle of the polishing wheels (58).

8. The cell phone frame production line according to claim 7, wherein: the middle part of straightening frame (52) is equipped with three straightening lower wheel (510) and two straightening upper wheels (511), and is three the both ends of straightening lower wheel (510) all rotate with straightening frame (52) and are connected, every the both ends of straightening upper wheel (511) all are equipped with third adjusting part (512), third adjusting part (512) are the same with the structure of first adjusting part (25), every the middle part of straightening lower wheel (510) all is equipped with straightening recess (513), every the middle part of straightening upper wheel (511) all is equipped with straightening lug (514), the side of straightening frame (52) is equipped with and is used for driving all straightening lower wheels (510) and straightening upper wheels (511) pivoted third drive assembly (515).

9. The cell phone frame production line according to claim 1, wherein: the utility model provides a cutting mechanism (7) is including driver (79), drive piece (710) and cut seat (711), drive piece (710) set up the lower extreme at driver (79), cut seat (711) setting in the below of drive piece (710), be equipped with cut groove (71) on cutting seat (711) and with cut groove (71) perpendicular sword groove (72) that set up, the lower extreme middle part of drive piece (710) is equipped with cutter (73), the both sides of cutter (73) all are equipped with a plurality of expansion groove, have all pegged graft telescopic link (75) in every expansion groove, all overlap on every telescopic link (75) and are equipped with extrusion spring (76), the both sides of cutter (73) all are equipped with extrusion piece (77), the lower extreme fixed connection of extrusion piece (77) and corresponding telescopic link (75), the lower extreme of two extrusion pieces (77) all are equipped with extrusion lug (78).

10. The cell phone frame production line according to claim 1, wherein: transport mechanism (8) are including transportation motor (81), transportation seat (82), transportation piece (83) and four lead screw slip tables (84), transportation motor (81) are vertical setting in the upper end of transportation seat (82), transportation piece (83) are installed on the output of transportation motor (81), four lead screw slip tables (84) are circumference distribution in the side of transportation piece (83), and the lower extreme of every lead screw slip table (84) all is equipped with connecting plate (85), and the lower extreme of every connecting plate (85) all is equipped with rotation motor (86), be equipped with three claw chuck (87) on the output of rotation motor (86), the end of every lead screw slip table (84) all is equipped with spacing fill (88).