CN112202032A - Female seat automatic assembly equipment of USB - Google Patents

Abstract

The invention provides automatic USB female socket assembling equipment which comprises a rack and a working panel arranged on the rack, wherein the working panel comprises a first connecting plate and a second connecting plate; the working panel is provided with a production line for processing and assembling; the insulating body feeding mechanism is matched with the assembly line through the insulating body feeding mechanism; compared with the prior art, the invention has the beneficial effects that: all processing operations of this scheme all adopt automatic operation, have improved work efficiency and yields greatly.

Description

Female seat automatic assembly equipment of USB

Technical Field

The invention relates to the technical field of USB female socket assembly, in particular to automatic USB female socket assembly equipment.

Background

The USB female socket generally comprises a metal shell, an insulating body, a connecting terminal and other parts which are matched and assembled; under the ordinary condition, each step is operated by manually matching with a single device, and the next procedure arrangement operation is carried out on the processed product in one step in sequence, so that the working efficiency is low and the yield is low.

Disclosure of Invention

First, technical problem to be solved

The invention aims at the defects in the prior art, and particularly provides automatic assembly equipment for a USB female socket, which solves the problem that the USB female socket generally comprises a metal shell, an insulating body, a connecting terminal and other parts which are matched and assembled; under the ordinary condition, each step is operated by manually matching with a single device, and the next procedure arrangement operation is carried out on the processed product in one step in sequence, so that the technical problems of low working efficiency and low yield are caused.

Second, technical scheme

In order to solve the technical problem, the invention provides automatic USB female socket assembling equipment which comprises a rack and a working panel arranged on the rack; the working panel is provided with a production line for processing and assembling;

the insulating body feeding mechanism is matched with the assembly line through the insulating body feeding mechanism;

a connecting terminal feeding and cutting mechanism which is arranged on the working panel and supplies the connecting terminals to the production line;

the first pressing processing mechanism is arranged on the production line and presses the insulating body to be assembled by matching with the connecting terminal feeding and cutting mechanism;

a bending mechanism which is arranged on the working panel and bends the connecting terminal on the production line;

the second pressing processing mechanism is arranged on the production line and presses the insulation body to be matched with the bending mechanism for bending treatment;

a cutting mechanism which is arranged on the working panel and performs cutting processing on the connecting terminal on the production line;

the testing mechanism is arranged on the working panel and is used for testing the connecting terminals on the production line;

the waste treatment mechanism is arranged on the production line and used for pushing and post-treating the waste;

the metal shell feeding mechanism is fixedly arranged on one side of the rack and used for feeding the metal shell feeding mechanism;

the metal shell processing line is arranged on the metal shell feeding mechanism and is butted with the metal shell feeding mechanism;

the metal shell downward pressing and material moving mechanism is arranged on the metal shell feeding mechanism and is used for performing downward pressing and material moving operation on the metal shell of the metal shell processing line;

the material pushing mechanism is arranged on the metal shell feeding mechanism and pushes the products on the production line to the metal shell processing production line;

the integral bending mechanism is arranged on the metal shell feeding mechanism and is used for bending a product of the metal shell processing line;

and the product blanking mechanism is arranged on the metal shell feeding mechanism and is used for carrying out blanking operation on the metal shell processing line.

Preferably, the assembly line comprises a plurality of assembly line supporting frames arranged on the working panel, a first assembly line main body and a second assembly line main body which are vertically arranged on the plurality of assembly line supporting frames, and a translation mechanism for the assembly line arranged on one side of the plurality of assembly line supporting frames;

the translation mechanism for the assembly line comprises a support frame for translation for the assembly line, a translation sliding table for the assembly line, a translation connecting block for the assembly line, a translation rod for the assembly line, and a plurality of material stirring assemblies, wherein the support frame for translation for the assembly line is fixedly arranged on the working panel;

the first assembly line main body and the second assembly line main body are matched in pairs to form a processing cavity; a pressing block for a production line covers the processing cavity;

the material shifting assembly is positioned right below the processing cavity and can shift a product in the processing cavity to translate to a next station;

the material shifting assembly comprises a material shifting fixed block fixedly arranged on the translation rod for the assembly line and a material shifting part movably arranged on the material shifting fixed block; the material stirring piece is movably arranged in the material stirring fixing block through a return spring;

the first pressing mechanism comprises a first pressing fixing block fixedly arranged on the second assembly line main body, a first pressing cylinder arranged on the first pressing fixing block in a matched mode, a first pressing connecting block arranged at the output end of the first pressing cylinder, and a first pressing piece for pressing, wherein the first pressing piece is fixedly matched with the first pressing connecting block and penetrates through a pressing block for the assembly line;

the second pressing mechanism comprises a second pressing fixing block fixedly arranged on the support frame for the assembly line, a second pressing cylinder arranged on the second pressing fixing block in a matched mode, a second pressing connecting block arranged at the output end of the second pressing cylinder, a second pressing connecting rod arranged on the second pressing connecting block, and a second pressing piece for pressing, which is fixedly matched with the second pressing connecting rod and penetrates through the pressing block for the assembly line;

the waste treatment mechanism comprises a waste treatment supporting block fixedly arranged on the supporting frame for the production line, a waste treatment air cylinder fixedly arranged on the waste treatment supporting block, a waste treatment pushing block arranged at the output end of the waste treatment air cylinder, and a waste treatment material channel arranged on the main body of the first production line, wherein the waste treatment pushing block is positioned below the waste treatment pushing block for the production line.

Preferably, the insulation body feeding mechanism comprises an insulation body feeding vibration disc fixedly arranged on the outer side of the rack and an insulation body feeding mechanism butted with the insulation body feeding vibration disc; the insulating body feeding mechanism comprises an insulating body pushing support frame fixedly arranged on the working panel, an insulating body pushing support plate and an insulating body pushing sliding table which are perpendicular to the insulating body pushing support frame, an insulating body pushing limiting block fixedly arranged on the insulating body pushing support plate, an insulating body pushing guide block movably arranged on the insulating body pushing limiting block and matched with the output end of the insulating body pushing sliding table, and an insulating body feeding seat matched with the insulating body feeding belt; the insulating body feeding belt is fixedly arranged on the working panel through a supporting rod for feeding the insulating body.

Preferably, the connecting terminal feeding and cutting mechanism comprises a plurality of connecting terminal feeding and cutting supporting rods fixedly arranged on the working panel, a connecting terminal feeding and cutting supporting plate arranged on the connecting terminal feeding and cutting supporting rods, a connecting terminal cutting assembly arranged on the connecting terminal feeding and cutting supporting plate and a connecting terminal pushing assembly;

the connecting terminal cutting assembly comprises a supporting block for cutting the connecting terminal, an auxiliary supporting block for cutting the connecting terminal, a material pressing block for cutting the connecting terminal, a translation cylinder and a translation connecting block, wherein the supporting block is arranged on a supporting plate for feeding and cutting the connecting terminal, the auxiliary supporting block is arranged on the supporting block for cutting the connecting terminal, the material pressing block is covered on the supporting block for cutting the connecting terminal, the translation cylinder is arranged on the side surface of the supporting block for cutting the connecting terminal, the translation connecting block is arranged at the output end of, the cutting device comprises a connecting terminal cutting translation fixing block fixedly arranged on a connecting terminal cutting translation connecting block, upper and lower connecting cylinders matched with the connecting terminal cutting translation fixing block, a connecting terminal cutting clamp arranged at the output end of the connecting terminal cutting upper and lower cylinders, a connecting terminal cutting blade fixedly arranged on the connecting terminal cutting clamp, and a connecting terminal waste material channel arranged on an auxiliary supporting block for cutting the connecting terminal;

the connecting terminal cutting blade can penetrate through the connecting terminal cutting material pressing block to cut the connecting terminal on the auxiliary supporting block for cutting the connecting terminal;

the connecting terminal pushing assembly comprises a connecting terminal material pressing cylinder and a connecting terminal translation cylinder which are fixedly arranged on a connecting terminal material feeding and cutting support plate, a connecting terminal material pressing connecting rod arranged at the output end of the connecting terminal material pressing cylinder, a connecting terminal material pressing block arranged at the connecting terminal material pressing connecting rod, a connecting terminal translation connecting block arranged at the output end of the connecting terminal translation cylinder, and a connecting terminal translation vertical plate vertically and fixedly arranged on the connecting terminal translation connecting block, the connecting terminal horizontal moving device comprises a connecting terminal horizontal moving plate arranged on a connecting terminal horizontal moving vertical plate, an upper sliding table and a lower sliding table fixedly arranged on the connecting terminal horizontal moving plate and used for pressing materials, a connecting terminal upper pressing block arranged at the output ends of the upper sliding table and the lower sliding table used for pressing materials and used for pressing materials, and a connecting terminal lower pressing block matched with the connecting terminal upper pressing block and fixed on the connecting terminal pressing block.

Preferably, the bending mechanism comprises a first bending support plate fixedly arranged on the working panel, a second bending support plate vertically fixed with the first bending support plate, a supporting horizontal plate and a supporting vertical plate for bending arranged on the second bending support plate, a first bending translation cylinder and a second bending translation cylinder arranged on the supporting vertical plate for bending, a supporting sliding plate for bending arranged at the output end of the first bending translation cylinder and movably arranged on the supporting horizontal plate for bending, a first bending rod and a second bending rod fixedly arranged on the supporting sliding plate for bending, a third bending rod arranged at the output end of the second bending translation cylinder, an upper and lower sliding table for bending fixedly arranged on the second bending support plate, and a material ejecting block for bending arranged at the output end of the upper and lower sliding table for bending; and the ejection block for bending is positioned right below the first bending rod.

Preferably, the cutting mechanism comprises a cutting support fixedly arranged on the working panel, a cutting translation cylinder fixedly arranged on the cutting support, a cutting translation fixing block arranged at the output end of the cutting translation cylinder, a cutting translation cylinder connecting fixing block arranged on the cutting translation fixing block, a cutting upper and lower cylinders fixedly arranged on the cutting translation cylinder connecting fixing block, and a cutting piece arranged at the output end of the cutting upper and lower cylinders; the cutting guide block is covered on the cutting piece.

Preferably, the testing mechanism comprises a testing ejection component fixedly arranged on one side of the assembly line and a testing component fixedly arranged on the other side of the assembly line; the test ejection assembly comprises a test ejection air cylinder fixedly arranged on the cutting support frame and a test ejection rod arranged at the output end of the test ejection air cylinder; the test assembly comprises a test support frame fixedly arranged on the working panel, a test sliding seat fixedly arranged on the test support frame, a test translation cylinder fixedly arranged on the side face of the test support frame, a test sliding block arranged at the output end of the test translation cylinder, a test mounting seat arranged on the test sliding block, and a plurality of test needles arranged on the test mounting seat.

Preferably, the metal shell feeding mechanism comprises a metal shell feeding vibration disc fixedly arranged on the outer side of the rack, a metal shell feeding rail assembly butted with the metal shell feeding vibration disc, and a metal shell feeding mechanism butted with the metal shell feeding rail assembly.

Preferably, the metal shell feeding mechanism comprises a metal shell feeding track in butt joint with the metal shell feeding track component, a metal shell feeding platform I in butt joint with the metal shell feeding track, a plurality of metal shell feeding support rods for supporting the metal shell feeding platform I on the working panel, a metal shell feeding platform II arranged on the metal shell feeding support rods, a metal shell feeding pushing component arranged on the metal shell feeding platform, and a metal shell processing line arranged on the metal shell feeding platform II;

the metal shell feeding pushing assembly comprises a metal shell feeding seat I butted with the metal shell feeding rail, a metal shell feeding seat II vertically arranged with the metal shell feeding seat I, a metal shell material baffle plate covering the metal shell feeding seat I, a metal shell feeding pushing cylinder used for pushing the metal shell, a metal shell feeding pushing rod arranged at the output end of the metal shell feeding pushing cylinder, and a metal shell material baffle assembly fixedly arranged on the metal shell feeding seat I;

the metal shell material blocking assembly comprises an upper cylinder and a lower cylinder for metal shell material blocking, which are fixedly arranged on a metal shell material blocking plate, and a metal shell material blocking piece arranged at the output end of the upper cylinder and the lower cylinder for metal shell material blocking, and the metal shell material blocking piece can penetrate through the metal shell material blocking plate to fix the metal shell;

the metal shell feeding pushing rod is movably arranged on the metal shell feeding seat II and can push the metal shell of the metal shell feeding seat I to the metal shell processing line;

the metal shell downward pressing and moving mechanism comprises a metal shell downward pressing support plate fixedly arranged on a metal shell feeding platform II, an upper sliding table, a lower sliding table, a metal shell downward pressing connecting plate, a metal shell downward pressing horizontal sliding table, a metal shell downward pressing sliding block and a metal shell downward pressing block, wherein the metal shell downward pressing support plate is fixedly arranged on the metal shell downward pressing support plate; the metal shell downward pressing and material moving mechanism performs downward pressing operation on a product on the metal shell processing line through a metal shell downward pressing block to fix the next processing;

the pushing mechanism comprises a metal shell pushing support table fixedly arranged on the working panel, a metal shell pushing sliding table fixedly arranged on the metal shell pushing support table, a metal shell pushing rod arranged at the output end of the metal shell pushing sliding table, and a metal shell pushing guide seat which is used for guiding the position of the metal shell pushing rod and is fixedly arranged on the metal shell feeding platform II;

the integral bending mechanism comprises an integral bending air cylinder fixedly arranged on the metal shell feeding platform II, an integral bending air cylinder supporting rod used for supporting the integral bending air cylinder, an integral bending connecting block arranged at the output end of the integral bending air cylinder, and a group of integral bending pieces fixedly arranged on the integral bending connecting block.

Preferably, the product blanking mechanism is butted with the metal shell processing line and comprises a product blanking translation cylinder fixedly arranged on the second metal shell feeding platform, a product blanking rod fixedly arranged at the output end of the product blanking translation cylinder and a product blanking seat fixedly connected with the product blanking rod; and a material channel which is butted with the metal shell processing line is arranged on the product blanking seat.

Third, beneficial effect

Compared with the prior art, the invention has the beneficial effects that: all processing operations of this scheme all adopt automatic operation, have improved work efficiency and yields greatly.

Drawings

FIG. 1 is a schematic perspective view of an automatic USB socket assembling apparatus according to the present invention;

FIG. 2 is a schematic top view of an automatic USB socket assembling apparatus according to the present invention;

FIG. 3 is a schematic perspective view of a feeding mechanism of an insulation body of an automatic USB female socket assembling device according to the present invention;

FIG. 4 is a schematic perspective view of a production line of an automatic USB socket assembling apparatus according to the present invention;

FIG. 5 is a schematic perspective view of a production line of an automatic USB socket assembling apparatus according to the present invention;

FIG. 6 is a schematic structural diagram of a material pulling assembly of the automatic USB female socket assembling device according to the present invention;

FIG. 7 is a schematic perspective view of a connecting terminal feeding and cutting mechanism of the automatic USB female socket assembling device according to the present invention;

FIG. 8 is a schematic perspective view of a connecting terminal feeding and cutting mechanism of the automatic USB female socket assembling device according to the present invention;

FIG. 9 is a schematic perspective view of a bending mechanism of the automatic USB female socket assembling apparatus according to the present invention;

FIG. 10 is a schematic perspective view of a cutting mechanism of an automatic USB socket assembling device according to the present invention;

FIG. 11 is a schematic perspective view of a testing mechanism of an automatic USB socket assembling apparatus according to the present invention;

FIG. 12 is a schematic perspective view of an automatic USB socket assembling apparatus according to the present invention;

FIG. 13 is a schematic perspective view of a metal shell feeding mechanism of an automatic USB female socket assembling device according to the present invention;

fig. 14 is a schematic perspective view of a metal shell processing line and a metal shell feeding mechanism of the automatic USB female socket assembling apparatus according to the present invention;

FIG. 15 is a schematic perspective view of a metal shell downward pressing and transferring mechanism of an automatic USB female socket assembling device according to the present invention;

FIG. 16 is a schematic perspective view of an integral bending mechanism of the automatic USB female socket assembling apparatus according to the present invention;

fig. 17 is a schematic perspective view of a product blanking mechanism of the automatic USB female socket assembling device according to the present invention.

Detailed Description

As shown in fig. 1 to 17, the automatic USB female socket assembling apparatus according to the present invention includes a rack 1, a work panel 101 disposed on the rack 1; the working panel 101 is provided with a production line 2 for processing and assembling; the insulating body feeding mechanism 3 is matched with the assembly line 2 through the insulating body feeding mechanism 30; a connection terminal feeding and cutting mechanism 4 which is provided on the work panel 101 and supplies connection terminals to the flow line 2; the first pressing and processing mechanism 5 is arranged on the assembly line 2 and presses the insulating body to be assembled by matching with the connecting terminal feeding and cutting mechanism 4; a bending mechanism 6 that is provided on the work panel 101 and performs bending processing on the connection terminals on the line 2; the second pressing and processing mechanism 7 is arranged on the assembly line 2 and presses the insulation body to be matched with the bending mechanism 6 for bending treatment; a cutting mechanism 8 which is provided on the work panel 101 and performs cutting processing on the connection terminals on the line 2; a test mechanism 9 which is provided on the work panel 101 and performs a test process on the connection terminals on the line 2; a waste treatment mechanism 10 which is provided on the line 2 and which performs a pushing post-treatment on the waste; the metal shell feeding mechanism 11 is fixedly arranged on one side of the rack 1 and is used for feeding the metal shell feeding mechanism 12; a metal shell processing line 13 provided at and butted against the metal shell feed mechanism 12; a metal shell downward pressing and material moving mechanism 14 which is arranged on the metal shell feeding mechanism 12 and performs downward pressing and material moving operation on the metal shell of the metal shell processing line 13; a pusher mechanism 15 that is provided on the metal shell feed mechanism 12 and pushes the products on the line 2 onto the metal shell processing line 13; an integral bending mechanism 16 that is provided on the metal shell feed mechanism 12 and bends a product of the metal shell processing line 13; and a product blanking mechanism 17 which is provided in the metal shell feeding mechanism 12 and performs blanking work on the metal shell processing line 13.

As shown in fig. 1 to 17, the assembly line 2 includes a plurality of assembly line support frames 21 disposed on the work panel 101, a first assembly line main body 22 and a second assembly line main body 23 vertically disposed on the plurality of assembly line support frames 21, and an assembly line translation mechanism 24 disposed on one side of the plurality of assembly line support frames 21; the assembly line translation mechanism 24 comprises an assembly line translation support 241 fixedly arranged on the working panel 101, an assembly line translation sliding table 242 arranged on the assembly line translation support 241, an assembly line translation connecting block 243 arranged at the output end of the assembly line translation sliding table 242, an assembly line translation rod 244 fixedly matched with the assembly line translation connecting block 243, and a plurality of material shifting assemblies 245 uniformly arranged on the assembly line translation rod 244; the first assembly line main body 22 and the second assembly line main body 23 are matched with each other in pairs to form a processing cavity 25; a material pressing block 26 for a production line covers the processing cavity 25; the material shifting assembly 245 is positioned right below the processing cavity and can shift a product in the processing cavity to translate to the next station; the material shifting assembly 245 comprises a material shifting fixed block 2451 fixedly arranged on the horizontal moving rod 244 for the assembly line and a material shifting piece 2452 movably arranged on the material shifting fixed block 2451; the material stirring piece 2452 is movably arranged in the material stirring fixed block 2451 through a return spring 2453; the first pressing mechanism 5 comprises a first pressing fixing block 51 fixedly arranged on the second assembly line main body 23, a first pressing cylinder 52 arranged on the first pressing fixing block 51 in a matched mode, a first pressing connecting block 53 arranged at the output end of the first pressing cylinder 52, and a first pressing part 54 which is fixedly matched with the first pressing connecting block 53 and penetrates through the assembly line pressing block 26; the second pressing mechanism 7 comprises a second pressing fixing block 71 fixedly arranged on the assembly line supporting frame 21, a second pressing cylinder 72 arranged on the second pressing fixing block 71 in a matched mode, a second pressing connecting block 73 arranged at the output end of the second pressing cylinder 72, a second pressing connecting rod 74 arranged on the second pressing connecting block 73, and a second pressing piece 75 which is fixedly matched with the second pressing connecting rod 74 and penetrates through the assembly line pressing block 26;

the waste treatment mechanism 10 comprises a waste treatment supporting block 1001 fixedly arranged on the supporting frame 21 for the production line, a waste treatment air cylinder 1002 fixedly arranged on the waste treatment supporting block 1001, a waste treatment pushing block 1003 arranged at the output end of the waste treatment air cylinder 1002, and a waste treatment material channel 1004 arranged on the first production line main body 22, wherein the waste treatment pushing block 1003 is positioned below the pressing block 26 for the production line.

As shown in fig. 1-17, the feeding mechanism 30 includes an insulation feeding vibration plate 301 fixedly disposed outside the frame 1, and an insulation feeding mechanism 3 abutting against the insulation feeding vibration plate 301; the insulating body feeding mechanism 3 comprises an insulating body pushing support frame 3031 fixedly arranged on the working panel 101, an insulating body pushing support plate 3032 and an insulating body pushing sliding table 3033 which are perpendicular to the insulating body pushing support frame 3031, an insulating body pushing limiting block 3034 fixedly arranged on the insulating body pushing support plate 3032, an insulating body pushing guide block 3035 movably arranged on the insulating body pushing limiting block 3034 and matched with the output end of the insulating body pushing sliding table 3033, and an insulating body feeding seat 3036 matched with the insulating body feeding belt 3030; the insulating body feeding belt 3030 is fixedly arranged on the working panel 101 through a supporting rod 3037 for feeding the insulating body.

As shown in fig. 1 to 17, the connecting terminal feeding and cutting mechanism 4 includes a plurality of connecting terminal feeding and cutting support rods 41 fixedly disposed on the working panel 101, a connecting terminal feeding and cutting support plate 42 disposed on the connecting terminal feeding and cutting support rods 41, a connecting terminal cutting assembly 43 and a connecting terminal pushing assembly 44 disposed on the connecting terminal feeding and cutting support plate 42; the connection terminal trimming unit 43 includes a connection terminal trimming support block 431 provided on the connection terminal feeding and trimming support plate 42, a connection terminal trimming auxiliary support block 432 provided on the connection terminal trimming support block 431, a connection terminal trimming pressure block 433 covering the connection terminal trimming support block 431, a connection terminal trimming translational cylinder 434 provided on the side of the connection terminal trimming support block 431, a connection terminal trimming translational connection block 435 provided at the output end of the connection terminal trimming translational cylinder 434, a connection terminal trimming translational fixing block 436 fixedly provided on the connection terminal trimming translational connection block 435, a connection terminal trimming jig 438 provided at the output end of the connection terminal trimming vertical cylinder 437, a connection terminal trimming blade 439, a connection terminal trimming blade controller provided on the connection terminal trimming jig 438, A connecting terminal scrap passage 430 provided on the connecting terminal trimming auxiliary support block 432; the connecting terminal cutting blade 439 can cut the connecting terminal on the auxiliary supporting block 432 for cutting the connecting terminal through the connecting terminal cutting pressing block 433; the connecting terminal pushing member 44 includes a connecting terminal pressing cylinder 441 and a connecting terminal translation cylinder 440 fixedly provided on the connecting terminal feeding and trimming support plate 42, a connecting terminal pressing rod 442 provided at an output end of the connecting terminal pressing cylinder 441, a connecting terminal pressing block 443 provided at the connecting terminal pressing rod 442, a connecting terminal translation connecting block 444 provided at an output end of the connecting terminal translation cylinder 440, a connecting terminal translation vertical plate 445 vertically and fixedly provided on the connecting terminal translation connecting block 444, a connecting terminal translation horizontal plate 446 provided on the connecting terminal translation vertical plate 445, a connecting terminal pressing upper and lower slide table 447 fixedly provided on the connecting terminal translation horizontal plate 446, an upper connecting terminal pressing block 448 provided at an output end of the connecting terminal pressing upper and lower slide table 447, a lower connecting terminal pressing block 448 provided at an output end of the connecting terminal pressing upper and lower slide table 447, a pressing block 448, and a pressing block 448, A connecting terminal lower presser 449 fitted to the connecting terminal upper presser 448 and fixed to the connecting terminal pressing block 443.

As shown in fig. 1 to 17, the bending mechanism 6 includes a first bending support plate 60 fixedly provided on the work panel 101, a second bending support plate 61 perpendicularly fixed to the first bending support plate 60, a horizontal bending support plate 62 and a vertical bending support plate 63 provided on the second bending support plate 61, a first bending translation cylinder 64 and a second bending translation cylinder 65 provided on the vertical bending support plate 63, and a support slide plate 66 provided at an output end of the first bending translation cylinder 64 and movably provided on the horizontal bending support plate 62, a first bending rod 661 and a second bending rod 662 fixedly arranged on the support sliding plate 66 for bending, a third bending rod 67 arranged at the output end of the second translation cylinder 65 for bending, an upper and lower sliding table 68 for bending fixedly arranged on the second support plate 61 for bending, and a material ejecting block 69 for bending arranged at the output end of the upper and lower sliding table 68 for bending; the bending ejector block 69 is located right below the first bending rod 661.

As shown in fig. 1 to 17, the cutting mechanism 8 includes a cutting support 81 fixed to the work panel 101, a cutting translation cylinder 82 fixed to the cutting support 81, a cutting translation fixing block 83 provided at an output end of the cutting translation cylinder 82, a cutting translation cylinder connection fixing block 84 provided at the cutting translation fixing block 83, a cutting upper and lower cylinder 85 fixed to the cutting translation cylinder connection fixing block 84, and a cutting member 86 provided at an output end of the cutting upper and lower cylinder 85; the cutting guide block 87 is arranged on the cutting piece 86 in a covering mode, and the cutting guide block 87 is designed, so that the cutting piece 86 can accurately perform cutting work, and the yield is greatly improved.

As shown in fig. 1 to 17, the testing mechanism 9 includes a testing ejector assembly 91 fixedly disposed at one side of the assembly line 2, and a testing assembly 92 fixedly disposed at the other side of the assembly line 2; the test ejection assembly 91 comprises a test ejection cylinder 911 fixedly arranged on the cutting support frame 81 and a test ejection rod 912 arranged at the output end of the test ejection cylinder 911; the test assembly 92 includes that the fixed setting is with the support frame 921, the fixed test that sets up on the support frame 921 is used with sliding seat 922, the fixed test of establishing in the support frame 921 side is used with translation cylinder 923, the setting is with the test of the output of test translation cylinder 923 with slider 924, the setting is with the test mount 925 on the slider 924 for the test, set up a plurality of test needles 926 on the test mount 925, wherein, dry test needle 926 contacts the product and will output signal make the product whether have the problem to make the selection, comes to provide the signal for waste product handling mechanism 10.

As shown in fig. 1 to 17, the metal shell feeding mechanism 11 includes a metal shell feeding vibration disk 111 fixedly disposed at the outer side of the frame 1, a metal shell feeding rail assembly 112 butted with the metal shell feeding vibration disk 111, and a metal shell feeding mechanism 12 butted with the metal shell feeding rail assembly 112; the metal shell feeding mechanism 12 comprises a metal shell feeding rail 121 butted with the metal shell feeding rail component 112, a first metal shell feeding platform 122 butted with the metal shell feeding rail 121, a plurality of metal shell feeding support rods 123 used for supporting the first metal shell feeding platform 122 on the working panel 101, a second metal shell feeding platform 125 arranged on the plurality of metal shell feeding support rods 123, a metal shell feeding pushing component 124 arranged on the metal shell feeding platform 122, and a metal shell processing line 13 arranged on the second metal shell feeding platform 125; the metal shell feeding pushing assembly 124 comprises a metal shell feeding seat I1241 butted with the metal shell feeding rail 121, a metal shell feeding seat II 1242 vertically arranged with the metal shell feeding seat I1241, a metal shell striker plate 1246 covering the metal shell feeding seat I1241, a metal shell feeding pushing cylinder 1243 for pushing a metal shell, a metal shell feeding pushing rod 1244 arranged at the output end of the metal shell feeding pushing cylinder 1243, and a metal shell striker assembly 1245 fixedly arranged on the metal shell feeding seat I1241; the metal shell material blocking assembly 1245 comprises an upper and a lower metal shell material blocking cylinders 12451 fixedly arranged on the metal shell material blocking plate 1246 and a metal shell material blocking piece 12452 arranged at the output end of the upper and the lower metal shell material blocking cylinders 12451, and the metal shell material blocking piece 1246 can be penetrated through to fix the metal shell; the metal shell feeding pushing rod 1244 is movably arranged on the metal shell feeding seat II 1242 and can push the metal shell of the metal shell feeding seat I1241 into the metal shell processing line 13; the metal shell downward pressing and shifting mechanism 14 comprises a metal shell downward pressing support plate 141 fixedly arranged on the metal shell feeding platform II 125, an upper and lower metal shell downward pressing sliding table 142 fixedly arranged on the metal shell downward pressing support plate 141, a metal shell downward pressing connecting plate 143 arranged at the output end of the upper and lower metal shell downward pressing sliding table 142, a metal shell downward pressing horizontal sliding table 144 fixedly connected with the metal shell downward pressing connecting plate 143, a metal shell downward pressing sliding block 145 arranged at the output end of the metal shell downward pressing horizontal sliding table 144, and a metal shell downward pressing block 146 fixedly arranged on the metal shell downward pressing sliding block 145; the metal shell downward pressing and material moving mechanism 14 performs downward pressing operation on the product on the metal shell processing line 13 through the metal shell downward pressing block 146 to fix the next processing;

the pushing mechanism 15 comprises a metal shell pushing support table 153 fixedly arranged on the working panel 101, a metal shell pushing sliding table 151 fixedly arranged on the metal shell pushing support table 153, a metal shell pushing rod 152 arranged at the output end of the metal shell pushing sliding table 151, and a metal shell pushing guide seat 154 used for guiding the position of the metal shell pushing rod 152 and fixedly arranged on the second metal shell feeding platform 125;

the integral bending mechanism 16 comprises an integral bending cylinder 161 fixedly arranged on the metal shell feeding platform II 125, an integral bending cylinder support rod 160 used for supporting the integral bending cylinder 161, an integral bending connecting block 162 arranged at the output end of the integral bending cylinder 161, and a group of integral bending pieces 163 fixedly arranged on the integral bending connecting block 162.

Preferably, the product blanking mechanism 17 is butted with the metal shell processing line 13 and comprises a product blanking translation cylinder 171 fixedly arranged on the second metal shell feeding platform 125, a product blanking rod 172 fixedly arranged at the output end of the product blanking translation cylinder 171, and a product blanking seat 173 fixedly connected with the product blanking rod 172; the product blanking base 173 is provided with a material channel 1731 which is butted with the metal shell processing line 13.

Compared with the prior art, the invention has the beneficial effects that: all processing operations of this scheme all adopt automatic operation, have improved work efficiency and yields greatly.

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several improvements and modifications without departing from the technical principle of the present invention, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims (10)

1. The utility model provides a female seat automatic assembly equipment of USB which characterized in that: the device comprises a rack (1) and a working panel (101) arranged on the rack (1); the working panel (101) is provided with a production line (2) for processing and assembling;

the insulating body feeding mechanism (3) is matched with the assembly line (2) through the insulating body feeding mechanism (30);

a connecting terminal feeding and cutting mechanism (4) which is arranged on the working panel (101) and supplies connecting terminals to the assembly line (2);

the first pressing processing mechanism (5) is arranged on the assembly line (2) and presses the insulating body to be assembled by matching with the connecting terminal feeding and cutting mechanism (4);

a bending mechanism (6) which is provided on the work panel (101) and which performs bending processing on the connection terminals on the flow line (2);

the second pressing processing mechanism (7) is arranged on the assembly line (2) and presses the insulating body to be matched with the bending mechanism (6) for bending;

a cutting mechanism (8) which is arranged on the working panel (101) and performs cutting processing on the connecting terminals on the production line (2);

a testing mechanism (9) which is arranged on the working panel (101) and tests the connecting terminals on the assembly line (2);

the waste treatment mechanism (10) is arranged on the production line (2) and used for pushing and post-treating the waste;

the metal shell feeding mechanism (11) is fixedly arranged on one side of the rack (1) and is used for feeding the metal shell feeding mechanism (12);

a metal shell processing line (13) which is arranged on the metal shell feeding mechanism (12) and is butted with the metal shell feeding mechanism;

the metal shell downward pressing and material moving mechanism (14) is arranged on the metal shell feeding mechanism (12) and is used for performing downward pressing and material moving operation on the metal shell of the metal shell processing line (13);

a pushing mechanism (15) which is arranged on the metal shell feeding mechanism (12) and pushes the products on the production line (2) to the metal shell processing production line (13);

an integral bending mechanism (16) which is arranged on the metal shell feeding mechanism (12) and bends the products of the metal shell processing line (13);

and the product blanking mechanism (17) is arranged on the metal shell feeding mechanism (12) and is used for carrying out blanking operation on the metal shell processing production line (13).

2. The female USB socket automatic assembly apparatus according to claim 1, wherein: the assembly line (2) comprises a plurality of assembly line supporting frames (21) arranged on the working panel (101), a first assembly line main body (22) and a second assembly line main body (23) which are vertically arranged on the plurality of assembly line supporting frames (21), and a translation mechanism (24) for the assembly line arranged on one side of the plurality of assembly line supporting frames (21);

the translation mechanism (24) for the assembly line comprises a support frame (241) for translation for the assembly line, a translation sliding table (242) for the assembly line, a translation connecting block (243) for the assembly line, a translation rod (244) for the assembly line, and a plurality of material shifting assemblies (245), wherein the support frame (241) for translation for the assembly line is fixedly arranged on the working panel (101), the translation sliding table (242) for the assembly line is arranged on the support frame (241) for translation for the assembly line, the translation connecting block (243) for the assembly line is arranged at the output end of the translation sliding table (242) for the assembly line, the;

the first assembly line main body (22) and the second assembly line main body (23) are matched with each other in pairs to form a processing cavity (25); a pressing block (26) for a production line covers the processing cavity (25);

the material poking assembly (245) is positioned right below the processing cavity and can poke a product in the processing cavity to translate to the next station;

the material shifting assembly (245) comprises a material shifting fixed block (2451) fixedly arranged on the horizontal moving rod (244) for the assembly line and a material shifting piece (2452) movably arranged on the material shifting fixed block (2451); the material stirring piece (2452) is movably arranged in the material stirring fixed block (2451) through a return spring (2453);

the first pressing mechanism (5) comprises a first pressing fixing block (51) fixedly arranged on the second assembly line main body (23), a first pressing air cylinder (52) arranged on the first pressing fixing block (51) in a matched mode, a first pressing connecting block (53) arranged at the output end of the first pressing air cylinder (52), and a first pressing part (54) which is fixedly matched with the first pressing connecting block (53) and penetrates through the pressing block (26) for the assembly line;

the second pressing machining mechanism (7) comprises a second pressing fixing block (71) fixedly arranged on the assembly line supporting frame (21), a second pressing air cylinder (72) arranged on the second pressing fixing block (71) in a matched mode, a second pressing connecting block (73) arranged at the output end of the second pressing air cylinder (72), a second pressing connecting rod (74) arranged on the second pressing connecting block (73), and a second pressing part (75) which is fixedly matched with the second pressing connecting rod (74) and penetrates through the assembly line pressing block (26);

the waste product processing mechanism (10) comprises a waste product processing supporting block (1001) fixedly arranged on a supporting frame (21) for the assembly line, a waste product processing air cylinder (1002) fixedly arranged on the waste product processing supporting block (1001), a waste product processing pushing block (1003) arranged at the output end of the waste product processing air cylinder (1002), and a waste product processing material channel (1004) arranged on the first assembly line main body (22), wherein the waste product processing pushing block (1003) is positioned below the assembly line pressing block (26).

3. The female USB socket automatic assembly apparatus according to claim 2, wherein: the insulating body feeding mechanism (30) comprises an insulating body feeding vibration disc (301) fixedly arranged on the outer side of the rack (1) and an insulating body feeding mechanism (3) butted with the insulating body feeding vibration disc (301); the insulation body feeding mechanism (3) comprises an insulation body pushing support frame (3031) fixedly arranged on the working panel (101), an insulation body pushing support plate (3032) and an insulation body pushing sliding table (3033) which are perpendicular to the insulation body pushing support frame (3031), an insulation body pushing limiting block (3034) fixedly arranged on the insulation body pushing support plate (3032), an insulation body pushing guide block (3035) movably arranged on the insulation body pushing limiting block (3034) and matched with the output end of the insulation body pushing sliding table (3033), and an insulation body feeding seat (3036) matched with the insulation body feeding belt (3030); the insulating body feeding belt (3030) is fixedly arranged on the working panel (101) through a supporting rod (3037) for feeding the insulating body.

4. The female USB socket automatic assembly apparatus according to claim 3, wherein: the connecting terminal feeding and cutting mechanism (4) comprises a plurality of connecting terminal feeding and cutting support rods (41) fixedly arranged on the working panel (101), a connecting terminal feeding and cutting support plate (42) arranged on the connecting terminal feeding and cutting support rods (41), a connecting terminal cutting assembly (43) arranged on the connecting terminal feeding and cutting support plate (42) and a connecting terminal pushing assembly (44);

the connecting terminal cutting assembly (43) comprises a supporting block (431) for cutting the connecting terminal, an auxiliary supporting block (432) for cutting the connecting terminal, a pressing block (433) for cutting the connecting terminal, a translation cylinder (434) for cutting the side connecting terminal, a translation connecting block (435) for cutting the connecting terminal, a translation fixing block (436) for cutting the connecting terminal, an upper and lower cylinder (437) for cutting the connecting terminal and a clamp (438) for cutting the connecting terminal, wherein the supporting block (431) is arranged on a supporting plate (42) for feeding and cutting the connecting terminal, the auxiliary supporting block (432) is arranged on the supporting block (431) for cutting the connecting terminal, the pressing block (433) is covered on the supporting block (431) for cutting the connecting terminal, the translation cylinder (434) for cutting the side connecting terminal is arranged on the supporting block (431) for cutting the connecting terminal, the, A connecting terminal cutting blade (439) fixedly arranged on the connecting terminal cutting clamp (438), and a connecting terminal scrap channel (430) arranged on the connecting terminal cutting auxiliary supporting block (432);

the connecting terminal cutting blade (439) can cut the connecting terminal on the auxiliary supporting block (432) for cutting the connecting terminal through the pressing block (433) for cutting the connecting terminal;

the connecting terminal pushing assembly (44) comprises a connecting terminal material pressing cylinder (441) and a connecting terminal translation cylinder (440) which are fixedly arranged on a connecting terminal material feeding and cutting support plate (42), a connecting terminal material pressing connecting rod (442) arranged at the output end of the connecting terminal material pressing cylinder (441), a connecting terminal material pressing block (443) arranged on the connecting terminal material pressing connecting rod (442), a connecting terminal translation connecting block (444) arranged at the output end of the connecting terminal translation cylinder (440), a connecting terminal translation vertical plate (445) vertically and fixedly arranged on the connecting terminal translation connecting block (444), a connecting terminal translation horizontal plate (446) arranged on the connecting terminal translation vertical plate (445), an upper and lower sliding table (447) for connecting terminal material pressing fixedly arranged on the connecting terminal translation horizontal plate (446), and a lower sliding table (447) for connecting terminal material pressing, The connecting terminal pressing device comprises a connecting terminal upper pressing block (448) arranged at the output end of an upper sliding table (447) and a connecting terminal lower pressing block (449) matched with the connecting terminal upper pressing block (448) and fixed on the connecting terminal pressing block (443).

5. The female USB socket automatic assembly apparatus according to claim 4, wherein: the bending mechanism (6) comprises a first bending supporting plate (60) fixedly arranged on the working panel (101), a second bending supporting plate (61) vertically fixed with the first bending supporting plate (60), a first bending supporting horizontal plate (62) and a second bending supporting vertical plate (63) arranged on the second bending supporting plate (61), a first bending translation cylinder (64) and a second bending translation cylinder (65) arranged on the first bending supporting vertical plate (63), a first bending support rod (661) and a second bending support rod (662) fixedly arranged on the first bending translation cylinder (64), a third bending support rod (67) arranged at the output end of the second bending translation cylinder (65), and a second bending upper sliding table (68) and a second bending sliding table (68) fixedly arranged on the second bending supporting horizontal plate (61) and used for bending, wherein the first bending support plate (60) is used for bending, the first bending supporting horizontal plate (62) and the second bending supporting vertical plate (63) are used for bending, the first bending translation cylinder (62) and the second bending support cylinder (65) are movably, A bending ejector block (69) arranged at the output end of the upper and lower bending sliding tables (68); the ejection block (69) for bending is located right below the first bending rod (661).

6. The female USB socket automatic assembly apparatus according to claim 5, wherein: the cutting mechanism (8) comprises a cutting support frame (81) fixedly arranged on the working panel (101), a cutting translation cylinder (82) fixedly arranged on the cutting support frame (81), a cutting translation fixing block (83) arranged at the output end of the cutting translation cylinder (82), a cutting translation cylinder connecting fixing block (84) arranged on the cutting translation fixing block (83), a cutting upper and lower cylinder (85) fixedly arranged on the cutting translation cylinder connecting fixing block (84), and a cutting piece (86) arranged at the output end of the cutting upper and lower cylinder (85); and a cutting guide block (87) is covered on the cutting piece (86).

7. The female USB socket automatic assembly apparatus according to claim 6, wherein: the testing mechanism (9) comprises a testing ejection component (91) fixedly arranged on one side of the assembly line (2) and a testing component (92) fixedly arranged on the other side of the assembly line (2); the test ejection assembly (91) comprises a test ejection cylinder (911) fixedly arranged on the cutting support frame (81), and a test ejection rod (912) arranged at the output end of the test ejection cylinder (911); the test assembly (92) is including fixed setting with support frame (921) on work panel (101), fixed test sliding seat (922) that sets up on support frame (921) for test, fixed test translation cylinder (923) of establishing in support frame (921) for test side, the test sliding block (924) of setting at the output of test translation cylinder (923), test mount pad (925) of setting on slide block (924) for test, set up a plurality of test needles (926) on test mount pad (925).

8. The female USB socket automatic assembly apparatus according to claim 7, wherein: the metal shell feeding mechanism (11) comprises a metal shell feeding vibration disc (111) fixedly arranged on the outer side of the rack (1), a metal shell feeding rail component (112) butted with the metal shell feeding vibration disc (111), and a metal shell feeding mechanism (12) butted with the metal shell feeding rail component (112).

9. The female USB socket automatic assembly apparatus according to claim 8, wherein: the metal shell feeding mechanism (12) comprises a metal shell feeding rail (121) butted with the metal shell feeding rail component (112), a metal shell feeding platform I (122) butted with the metal shell feeding rail (121), a plurality of metal shell feeding support rods (123) used for supporting the metal shell feeding platform I (122) on the working panel (101), a metal shell feeding platform II (125) arranged on the metal shell feeding support rods (123), a metal shell feeding pushing component (124) arranged on the metal shell feeding platform (122), and a metal shell processing line (13) arranged on the metal shell feeding platform II (125);

the metal shell feeding pushing assembly (124) comprises a metal shell feeding seat I (1241) butted with the metal shell feeding rail (121), a metal shell feeding seat II (1242) vertically arranged with the metal shell feeding seat I (1241), a metal shell baffle plate (1246) covering the metal shell feeding seat I (1241), a metal shell feeding pushing cylinder (1243) used for pushing a metal shell, a metal shell feeding pushing rod (1244) arranged at the output end of the metal shell feeding pushing cylinder (1243), and a metal shell baffle assembly (1245) fixedly arranged on the metal shell feeding seat I (1241);

the metal shell material blocking assembly (1245) comprises an upper and lower metal shell material blocking cylinders (12451) fixedly arranged on the metal shell material blocking plate (1246) and a metal shell material blocking piece (12452) arranged at the output end of the upper and lower metal shell material blocking cylinders (12451), and the metal shell material blocking piece (1246) can be penetrated to fix the metal shell;

the metal shell feeding pushing rod (1244) is movably arranged on the metal shell feeding seat II (1242) and can push the metal shell of the metal shell feeding seat I (1241) to a metal shell processing line (13)

Performing the following steps;

the metal shell downward pressing and moving mechanism (14) comprises a metal shell downward pressing support plate (141) fixedly arranged on a metal shell feeding platform II (125), an upper and lower sliding table (142) fixedly arranged on the metal shell downward pressing support plate (141), a metal shell downward pressing connecting plate (143) arranged at the output end of the upper and lower sliding table (142) for metal shell downward pressing, a horizontal sliding table (144) fixedly connected with the metal shell downward pressing connecting plate (143), a sliding block (145) arranged at the output end of the horizontal sliding table (144) for metal shell downward pressing, and a metal shell downward pressing block (146) fixedly arranged on the metal shell downward pressing sliding block (145); the metal shell downward pressing and material moving mechanism (14) presses down the product on the metal shell processing assembly line (13) through the metal shell downward pressing block (146) to fix the next processing;

the pushing mechanism (15) comprises a metal shell pushing support table (153) fixedly arranged on the working panel (101), a metal shell pushing sliding table (151) fixedly arranged on the metal shell pushing support table (153), a metal shell pushing rod (152) arranged at the output end of the metal shell pushing sliding table (151), and a metal shell pushing guide seat (154) which is used for guiding the position of the metal shell pushing rod (152) and is fixedly arranged on the metal shell feeding platform II (125);

the integral bending mechanism (16) comprises an integral bending cylinder (161) fixedly arranged on the metal shell feeding platform II (125), an integral bending cylinder support rod (160) used for supporting the integral bending cylinder (161), an integral bending connecting block (162) arranged at the output end of the integral bending cylinder (161), and a group of integral bending pieces (163) fixedly arranged on the integral bending connecting block (162).

10. The female USB socket automatic assembly apparatus according to claim 9, wherein: the product blanking mechanism (17) is butted with the metal shell processing line (13) and comprises a product blanking translation cylinder (171) fixedly arranged on the second metal shell feeding platform (125), a product blanking rod (172) fixedly arranged at the output end of the product blanking translation cylinder (171), and a product blanking seat (173) fixedly connected with the product blanking rod (172); and a material channel (1731) butted with the metal shell processing line (13) is arranged on the product blanking seat (173).

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