CN111470300A

CN111470300A - TYPE-C data transmission line and data transmission joint production equipment and method

Info

Publication number: CN111470300A
Application number: CN202010291405.0A
Authority: CN
Inventors: 孙延林; 万梅叶; 万绍民
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-14
Filing date: 2020-04-14
Publication date: 2020-07-31

Abstract

The invention relates to the technical field of TYPE-C data transmission connector assembly. A TYPE-C data transmission connector production device comprises a rack, and a connector conveying device, a pin inserting conveying device and a pin cutting device which are arranged on the rack; connect conveyor and transversely set up in the frame, contact pin conveyor vertically sets up in the frame, and contact pin conveyor is used for carrying the contact pin area from top to bottom, connects conveyor's discharge end and contact pin conveyor's middle part to link up mutually, connects conveyor and is used for connecting the front side of carrying the contact pin area to contact pin conveyor middle part. The conveying device has the advantages that the conveying efficiency of the conveying joint is improved, and conveying blockage is prevented; the pin conveying efficiency is improved, and pin belts are convenient to recycle; the assembly efficiency and the assembly precision of transmission joint and contact pin are promoted.

Description

TYPE-C data transmission line and data transmission joint production equipment and method

Technical Field

The invention relates to the technical field of TYPE-C data transmission connector assembly, in particular to TYPE-C data transmission connector production equipment and a TYPE-C data transmission connector production method.

Background

With the rapid development of electronic products, most of the electronic products are developed toward smaller and more precise directions, which makes people have higher requirements for miniaturization and high density of connector terminals. The biggest characteristic of the Type-C interface is that forward and reverse insertion in 2 directions is supported.

The existing TYPE-C data transmission connector assembling equipment has the following problems: in the conveying process of the transmission joints, the conventional device conveys the materials through a transmission joint vibration disc, so that the conveying quantity is not easy to control in the conveying process, a large number of transmission joints are easy to accumulate on a conveying channel, the conveying is not smooth, and the conveying quantity and the conveying speed are not easy to control due to the absence of a connection and a pushing mechanism, so that the conveying efficiency is influenced; in the pin conveying process, the conventional device drives and conveys the pins through the pin carrying belts, so that the conveying precision of a conveying mode is low, the pin belts cannot be well tensioned, the pin belts are easily overlapped or too loose, and the conveying efficiency is influenced; thirdly, the pin strips cut by the pins are easy to stack on the rack and are difficult to process, so that the subsequent material changing work is influenced, the trouble of material changing is brought to workers, and the material changing efficiency is reduced; (IV) cutting the inserting process at the contact pin, can't be accurate cut off the contact pin, the phenomenon that the clamping degree is not enough appears cutting easily, lead to can't decide the contact pin area fast to it is lower with insertion efficiency to insert alignment degree in inserting process, influence the equipment quality.

Disclosure of Invention

The invention aims to solve the problem of poor quality of the contact pin of the conventional TYPE-C data transmission connector, and provides a connector conveying device for improving the conveying stability and conveying efficiency of the transmission connector and preventing the transmission connector from being blocked in the conveying process; the pin conveying efficiency and the pin conveying stability are improved through the pin conveying device, the cut pin belt is conveniently cut off and recovered, and the portability is improved; through cutting the contact pin device and being convenient for also can insert the contact pin to the transmission joint when taking quick cut-off with the contact pin, promote the TYPE-C data transmission of packaging efficiency and equipment precision and connect production facility.

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

A TYPE-C data transmission connector production device comprises a rack, and a connector conveying device, a pin inserting conveying device and a pin cutting device which are arranged on the rack; the connector conveying device is transversely arranged on the rack, the contact pin conveying device is longitudinally arranged on the rack, the contact pin conveying device is used for conveying the contact pin belt from top to bottom, the discharge end of the connector conveying device is connected with the middle part of the contact pin conveying device, and the connector conveying device is used for conveying a connector to the front side of the contact pin belt in the middle of the contact pin conveying device; the pin cutting device comprises a first pin cutting component and a second pin cutting component; first cutting contact pin subassembly and second cut contact pin subassembly and are located contact pin conveyor's the left and right sides respectively, cut the contact pin that the contact pin took and cut and insert to the joint in through first cutting contact pin subassembly and second cutting contact pin subassembly cooperate.

Preferably, the joint conveying device comprises a joint conveying support, a joint conveying platform, a joint conveying motor, a conveyor belt conveying assembly, a pushing assembly and a connecting assembly; the joint conveying assembly comprises a conveying driving wheel, two conveying driven wheels and a conveying belt; the joint conveying motor penetrates through the joint conveying support to be connected with the conveying driving wheel, the two conveying driven wheels are respectively positioned in two ends of the joint conveying platform, the conveying belt is connected to the conveying driving wheel and the two conveying driven wheels in a tensioning mode and is positioned in the joint conveying groove for conveying, and conveying auxiliary wheels are arranged on the joint conveying support and between the conveying driving wheel and the two conveying driven wheels on two sides; the pushing assembly comprises a pushing support, a pushing cylinder, a pushing moving plate and a pushing block; the pushing support is arranged on the joint conveying platform, the pushing cylinder is horizontally arranged on the pushing support, the moving part of the pushing cylinder is connected with the pushing moving plate, the pushing moving plate is arranged on the pushing support through the pushing sliding rail, the pushing block is arranged at the rear part of the pushing moving plate, the pushing block is positioned above the joint conveying groove, the discharging end of the pushing block is provided with an arc-shaped matching notch matched with the side part of the joint, and the linking assembly comprises a linking support, a linking lifting cylinder, a linking lifting block and a linking lifting platform; the linking support is arranged on the frame and is located on the side of the discharge end of the joint conveying platform, the linking lifting cylinder is arranged on the linking support, the top of the linking lifting cylinder is connected with the linking lifting block, the linking lifting block is arranged on the linking support through the linking slide rail, the linking lifting platform is arranged on the linking lifting block, the linking lifting platform comprises a lower linking support plate and an upper linking support plate, a U-shaped joint linking channel is formed between the lower linking support plate and the upper linking support plate, and the joint linking channel is matched with the pushing block.

Preferably, the contact pin conveying device comprises a contact pin conveying support, a contact pin conveying support plate, a contact pin conveying motor and a contact pin conveying straight plate; inserting a pin conveying support; the contact pin conveying support is longitudinally arranged on the rack, the contact pin conveying support plate is transversely arranged at the front part of the contact pin conveying support, the contact pin conveying motor is arranged at the rear part of the left side of the contact pin conveying support plate, the front end of the contact pin conveying motor penetrates through the contact pin conveying support plate to be connected with a contact pin conveying wheel, a plurality of conveying teeth are regularly arranged on the outer ring of the contact pin conveying wheel in the circumferential direction, and the distance between every two adjacent conveying teeth is matched with the distance between every two adjacent contact pins on the contact pin belt; the contact pin is carried the straight board and is vertically set up the well side front portion of backup pad is carried at the contact pin, the contact pin is carried and is provided with the contact pin trough of belt that vertically just is used for carrying the contact pin on the straight board, the contact pin trough of belt aligns with the contact pin delivery wheel, the bottom that the straight board was carried to the contact pin is provided with and compresses tightly the arc notch, it is linked together with the contact pin trough of belt to compress tightly the arc notch, the left side that the backup pad was carried to the contact pin is provided with the contact pin and compresses tightly the cylinder, the removal portion that the contact pin compressed tightly the cylinder is connected with the contact pin and compresses tightly the movable block, and the contact pin.

Preferably, the rear side of the upper part of the straight pin conveying plate is provided with an auxiliary supporting frame, the left side of the middle upper part of the auxiliary supporting frame is provided with an auxiliary conveying wheel, and the auxiliary conveying wheel and the pin conveying wheel are identical in structure.

Preferably, a first auxiliary roller is arranged on the left side of the upper portion of the auxiliary supporting frame, a second auxiliary roller and a third auxiliary roller are arranged at the top of the auxiliary supporting frame, the second auxiliary roller and the third auxiliary roller are horizontally aligned, and a gap for allowing the needle inserting belt to pass through is formed between the second auxiliary roller and the third auxiliary roller.

Preferably, a waste channel frame is arranged below the contact pin conveying straight plate on the rack; the bottom of the rack is provided with a cutting assembly below the waste channel rack, and the cutting assembly comprises a cutting rotating motor, a cutting rotating connecting rod and a cutting block; decide the rotating electrical machines setting in the frame bottom, decide the piece through deciding the swivelling joint pole with decide the rotating electrical machines and be connected, be provided with on the cutting piece and cut off the mouth, cut off the mouth and align with waste material passageway frame.

Preferably, the pin cutting device comprises a first pin cutting component and a second pin cutting component; first cutting contact pin subassembly and second cutting contact pin subassembly horizontal symmetry set up in the frame, and first cutting contact pin subassembly and second cutting contact pin subassembly structure is the same.

preferably, the first cutting pin assembly comprises a cutting pin supporting seat, a cutting module and an inserting module, the cutting pin supporting seat is arranged on a rack, the cutting module comprises a cutting support, a cutting cylinder, a cutting connecting plate, a cutting matching block, a cutting matching inserting block, a cutting movable plate and a cutting matching head, the cutting support is arranged at the top of the cutting pin supporting seat, the cutting cylinder is arranged on the cutting support, the cutting connecting plate is connected to the moving portion of the cutting cylinder, the section of the cutting connecting plate is L-shaped, a first matching cutting wheel is arranged at the inner end of a transverse plate of the cutting connecting plate, cutting matching notches are respectively arranged on the upper side and the lower side of the cutting matching block, the cutting matching notch on the upper side is matched with the first matching cutting wheel, a second matching cutting wheel is arranged on the inner side of the cutting matching inserting block, an inserting matching wheel is arranged at the outer end of the cutting matching inserting block and matched with the inserting module, the cutting movable plate is connected with the matching block through the cutting movable frame and is matched with the cutting movable plate, the cutting matching head is horizontally arranged on the cutting movable plate, and a cutting pin is matched with a cutting head on the second cutting supporting seat, and a heat dissipation fan is arranged at the rear portion of the cutting.

Preferably, the insertion module comprises an insertion motor, an insertion driving wheel, an insertion driven wheel, an insertion conveying belt, a rotating shaft and a rotary matching wheel; insert the motor setting and cutting the inboard of contact pin supporting seat, insert the motor and pass and cut the contact pin supporting seat and insert the action wheel and be connected, insert from the driving wheel through inserting the conveyer belt with insert and be connected from the driving wheel tensioning, rotation axis horizontal connection is inserting the center from the driving wheel, the rotation axis passes and cuts the contact pin supporting seat, rotatory cooperation wheel cover is established on the rotation axis, and be located the inboard that cuts the contact pin supporting seat, rotatory cooperation takes turns to and is provided with annular cooperation groove, annular cooperation groove takes turns to with inserting the cooperation and cooperatees, and the width in annular cooperation groove is greater than the diameter that inserts the cooperation wheel, it inserts the cooperation wheel still to be provided with the assistance on the contact.

A production method of a TYPE-C data transmission connector sequentially comprises the following steps:

Joint conveying: the conveying joint enters the conveying belt from the feeding end of the joint conveying groove, the joint conveying motor is matched with the conveying driving wheel and the two conveying driven wheels to drive the conveying joint on the conveying belt to be conveyed into a joint connecting channel of the connecting lifting platform, the conveying joint in the joint connecting channel is driven to ascend to the position aligned with the pushing block through the connecting lifting cylinder, the pushing block is driven by the pushing cylinder to sequentially push the conveying joint to the cutting insertion position, and a contact pin is waited to be inserted;

(II) pin conveying: the pin belt enters between the second auxiliary roller and the third auxiliary roller from the upper end and enters into the pin belt groove, the pin conveying motor drives the pin conveying wheel to rotate, the conveying teeth are matched with pin belt holes in the pin belt, the pin belt is conveyed from top to bottom in order and conveyed to the middle of the pin conveying straight plate for cutting and assembling the pins; the cut pin belt falls into the waste material channel frame and extends to the cutting part of the cutting block, and the cutting part is driven to rotate in the front-back direction by a cutting rotating motor, so that the pin belt is cut and recycled;

And (III) pin assembly: cut the connecting plate through cutting the cylinder drive and remove, thereby make first cooperation cutting wheel drive cut cooperation piece to the inboard removal, thereby make two on first cutting contact pin subassembly and the second cut contact pin subassembly cut the cooperation head that cuts in the movable plate mutually support and decide the contact pin on the contact pin area, and simultaneously, cooperate with the second cooperation cutting wheel through cutting cooperation piece, it inserts the piece looks inboard removal to drive to cut the cooperation, make and insert the cooperation wheel and contact with the cooperation of rotation wheel, the rotation cooperation wheel drives rotatoryly through inserting the motor, through rotatory cooperation wheel and the cooperation of contacting of inserting the cooperation wheel, thereby make and decide the back tight contact pin of clamp insert fast to the contact pin groove that is located the transmission of front side in, accomplish the contact pin equipment.

A TYPE-C data transmission line comprises a data transmission connector, and the production method of the TYPE-C data transmission connector is as above.

According to the TYPE-C data transmission joint production equipment adopting the technical scheme, the conveying joints are conveyed orderly through the conveying belt conveying assembly on the joint conveying device, and the conveying stability is improved through the mode of the motor and the conveying belt; be convenient for link up the transmission better of joint through linking up the subassembly, through preventing only a passageway to prevent to block up the card at the joint conveyer trough and die, promote the smoothness degree of carrying, cooperate through propelling movement subassembly and linking up the subassembly and further promote conveying precision, be convenient for connect stable the propelling movement that carries on with the transmission through the propelling movement cylinder, make the transmission simultaneously connect propelling movement to accurate position. The conveying efficiency is further improved through an auxiliary conveying wheel, a first auxiliary roller wheel, a second auxiliary roller wheel and a third auxiliary roller wheel in the contact pin conveying device, and the conveying stability is improved; be convenient for better through the contact pin delivery wheel and cooperate with the contact pin area, compress tightly the cylinder through the contact pin and drive the contact pin pinch roller and be convenient for carry the tensioning of contact pin area, promote the smoothness nature of carrying, prevent that the card from pausing, it is rotatory to drive the fore-and-aft direction of cutting out the mouth through deciding the rotating electrical machines to decide the contact pin area, be convenient for better recovery and follow-up clearance. The cutting cylinder in the cutting pin device drives the cutting connecting plate to horizontally move back and forth, so that the horizontal moving precision is improved; the cutting matching notch is matched with the first matching cutting wheel, and the second matching cutting wheel is matched with the cutting matching notch on the lower side, so that the cutting matching block is driven to horizontally move and position, the positioning precision is improved, and the contact pin can be conveniently and better inserted in a roller manner; cut the cooperation head through two and be convenient for decide the contact pin area press from both sides tightly, cooperate with inserting the cooperation wheel through annular cooperation groove, and the width in annular cooperation groove is greater than the diameter that inserts the cooperation wheel, is convenient for make insert the cooperation wheel by the space that removes to when cutting the contact pin back, insert the contact pin to the transmission joint in through rotatory cooperation wheel rotation can be quick, promote packaging efficiency and equipment precision. In summary, the conveying device has the advantages that conveying efficiency of the conveying joint is improved, and conveying blockage is prevented; the pin conveying efficiency is improved, and pin belts are convenient to recycle; the assembly efficiency and the assembly precision of transmission joint and contact pin are promoted.

Drawings

FIG. 1 is a schematic structural diagram of a TYPE-C data transmission connector production device of the present invention.

Fig. 2 is a schematic diagram of the structure of the transmission connector and the pin.

Fig. 3 is a schematic structural diagram of the joint conveying device of the invention.

Fig. 4 is a schematic structural diagram of the pin conveying device of the present invention.

FIG. 5 is a schematic structural diagram of the pin trimming apparatus according to the present invention.

Detailed Description

The following describes a detailed embodiment of the present invention with reference to the accompanying drawings.

As shown in fig. 1, the TYPE-C data transmission connector production equipment comprises a rack, and a connector conveying device 1, a pin inserting conveying device 2 and a pin cutting device 3 arranged on the rack; the connector conveying device 1 is transversely arranged on the rack, the pin conveying device 2 is longitudinally arranged on the rack, the pin conveying device 2 is used for conveying a pin belt from top to bottom, the discharge end of the connector conveying device 1 is connected with the middle part of the pin conveying device 2, and the connector conveying device 1 is used for conveying a connector to the front side of the pin belt in the middle of the pin conveying device 2; the pin cutting device 3 comprises a first pin cutting component and a second pin cutting component; first cutting contact pin subassembly and second cut contact pin subassembly and are located contact pin conveyor 2's the left and right sides respectively, cut the contact pin that the contact pin took and cut and insert to the joint in through first cutting contact pin subassembly and second cutting contact pin subassembly cooperate.

Fig. 2 shows the products assembled by the apparatus, which are the transmission connector 10 and the pin strip 10, and the pin assembly is completed by cutting the pins on the pin strip 10 and inserting the cut pins into the pin grooves of the transmission connector 10.

As shown in fig. 1 and 3, the splice feeding device 1 includes a splice feeding support 11, a splice feeding platform 12, a splice feeding motor 13, a conveyor belt feeding assembly 14, a pushing assembly 15, and a joining assembly 16; the joint conveying support 11 is arranged on the rack, the joint conveying platform 12 is horizontally arranged at the top of the joint conveying support 11, a horizontal joint conveying groove 121 is formed in the joint conveying platform 12, and the transmission joint is horizontally conveyed in the joint conveying groove 121. The joint conveying motor 13 is arranged at the front part of the joint conveying bracket 11, and the conveyor belt conveying assembly 14 comprises a conveying driving wheel 141, two conveying driven wheels 142 and a conveyor belt 143; the joint conveying motor 13 penetrates through the joint conveying support 11 to be connected with the conveying driving wheel 141, the two conveying driven wheels 142 are respectively located at two ends of the joint conveying platform 12, the conveying driving wheel 141 and the two conveying driven wheels 142 are connected in a tensioning mode through the conveying belt 143, the conveying belt 143 is located in the joint conveying groove 121 to be conveyed, the conveying belt 143 is driven to rotate through the joint conveying motor 13 to convey the conveying joint 10 sequentially and horizontally to the cutting position. Conveying auxiliary wheels 144 are arranged between the conveying driving wheel 141 and the two conveying driven wheels 142 on the two sides of the joint conveying support 11, the conveying auxiliary wheels 144 further tension the conveying belt 143, and the stability and conveying fluency of the conveying belt 143 are improved. The pushing assembly 15 comprises a pushing bracket 151, a pushing cylinder 152, a pushing moving plate 153 and a pushing block 154; the pushing support 151 is arranged on the joint conveying platform 12, the pushing cylinder 152 is horizontally arranged on the pushing support 151, the moving portion of the pushing cylinder 152 is connected with the pushing moving plate 153, the pushing moving plate 153 is arranged on the pushing support 151 through the pushing sliding rail, and the pushing moving plate 153 is driven by the pushing cylinder 152 to horizontally move and position on the pushing support 151. The pushing block 154 is arranged at the rear part of the pushing moving plate 153, the pushing block 154 is positioned above the joint conveying groove 121, and the conveying joints are pushed by the pushing block 154 to be conveyed in order. The discharge end of the pushing block 154 is provided with an arc-shaped matching notch 1541 matched with the side of the joint, and better matching with the side of the transmission joint is facilitated through the arc-shaped matching notch 1541, so that the transmission joint is better conveyed to an assembly position. The engaging assembly 16 comprises an engaging support 160, an engaging lifting cylinder 161, an engaging lifting block 162 and an engaging lifting platform 163; linking support 160 sets up in the frame, and is located the discharge end side that connects conveying platform 12, links up lift cylinder 161 and sets up on linking support 160, links up lift cylinder 161's top and links up elevator 162 and be connected, and links up elevator 162 and set up on linking support 160 through linking the slide rail, drives to link up elevator 162 through linking lift cylinder 161 and carries out the lift removal location. Linking lift platform 163 sets up on linking lift piece 162, linking lift platform 163 includes linking up supporting plate 1631 down and linking up supporting plate 1632 up, link up supporting plate 1631 down and link up the joint linking passageway 1633 that forms the U type between the supporting plate 1632 up with linking up, connect linking passageway 1633 and propelling movement piece 154 phase-match, link up the transmission joint propelling movement to the equipment department from linking up passageway 1633 with the joint through propelling movement piece 154, promote better linking effect, also prevent that transmission joint 10 from blockking up in connecting conveyer trough 121, promote the smoothness degree of carrying, also be convenient for with connecting the highly better control of linking passageway 1633, promote the flexibility.

During operation, transmission joint 10 enters into on conveyer belt 143 by the feed end that connects conveyer trough 121, cooperate from driving wheel 141 and two transport follow driving wheels 142 with carrying through connecting conveying motor 13, drive transmission joint 10 on conveyer belt 143 and carry to linking up in the joint linking passageway 1633 that links up lift platform 163, it connects transmission joint 10 to rise to the department of lining up with propelling movement piece 154 to drive in linking up passageway 1633 through linking up lift cylinder 161, it connects the orderly propelling movement of 10 to cutting the department of inserting to drive propelling movement piece 154 through propelling movement cylinder 152, wait for the contact pin to insert.

The conveying joints 10 are conveyed in order by the conveyor belt conveying assembly 14 on the joint conveying device 1, and the conveying stability is improved by the motor and the conveyor belt; be convenient for link up the transmission better of joint through linking up subassembly 16, through preventing only a passageway to prevent to block up the card at joint conveyer trough 121 and die, promote the smoothness degree of carrying, cooperate through propelling movement subassembly 15 and linking up subassembly 16 and further promote conveying precision, be convenient for link up the stable propelling movement that carries out of transmission 10 through propelling movement cylinder 152, make the transmission connect 10 propelling movement to accurate position simultaneously.

As shown in fig. 1 and 4, the pin conveying device 2 includes a pin conveying support 21, a pin conveying support plate 22, a pin conveying motor 23, and a pin conveying straight plate 24; a pin delivery bracket 21; the pin conveying support 21 is longitudinally arranged on the rack, the pin conveying support plate 22 is transversely arranged at the front part of the pin conveying support 21, the pin conveying motor 23 is arranged at the rear part of the left side of the pin conveying support plate 22, the front end of the pin conveying motor 23 penetrates through the pin conveying support plate 22 to be connected with a pin conveying wheel 221, and the pin conveying motor 23 drives the pin conveying wheel 221 to rotate and convey. The outer ring of the pin conveying wheel 221 is regularly arranged with a plurality of conveying teeth 222, and the distance between two adjacent conveying teeth 222 matches with the distance between two adjacent pins on the pin belt, so that the pin belt can be conveyed more stably. The pin conveying straight plate 24 is longitudinally arranged at the front part of the middle side of the pin conveying support plate 22, a pin belt groove 241 which is longitudinal and used for conveying pins is arranged on the pin conveying straight plate 24, the pin belt groove 241 is aligned with the pin conveying wheel 221, the pin belt 20 is convenient to limit through the pin belt groove 241, and meanwhile, the pin belt 20 is convenient to convey better. The bottom of the straight board 24 is provided with and compresses tightly arc notch 242 for the contact pin, it is linked together with contact pin trough of belt 241 to compress tightly arc notch 242 for the contact pin, the left side that the backup pad 22 was carried to the contact pin is provided with contact pin and compresses tightly cylinder 25, the removal portion that the contact pin compressed tightly cylinder 25 is connected with contact pin and compresses tightly movable block 251, and contact pin compresses tightly movable block 251 and compresses tightly the setting of removal slide rail through the contact pin and carry on backup pad 22, compress tightly cylinder 25 through the contact pin and drive contact pin and compress tightly movable block 251 and carry out horizontal migration on backup pad 22 for the contact pin, the left part that the contact pin compressed tightly movable. The rear side of the upper part of the pin conveying straight plate 24 is provided with an auxiliary supporting frame 26, the left side of the middle upper part of the auxiliary supporting frame 26 is provided with an auxiliary conveying wheel 261, the auxiliary conveying wheel 261 and the pin conveying wheel 221 are identical in structure, the stability of ordered conveying is further improved conveniently through the auxiliary conveying wheel 261, and the phenomenon that the pin belt 20 is too loose or the pin belt is stacked is prevented. The left side of the upper part of the auxiliary supporting frame 26 is provided with a first auxiliary roller 262, and the smoothness of conveying is further promoted through the first auxiliary roller 262. The top of auxiliary stay frame 26 is provided with second auxiliary roller wheel 263 and third auxiliary roller wheel 264, and second auxiliary roller wheel 263 and the setting of the 264 horizontal alignment of third auxiliary roller wheel, has the clearance that is used for the contact pin area to pass through between second auxiliary roller wheel 263 and the third auxiliary roller wheel 264, is convenient for take 20 the contact pin better carry on spacingly to be convenient for better carry on the straight line and carry. A waste channel frame 27 is arranged on the rack below the pin conveying straight plate 24; the passage of waste material into the lower part of the frame is facilitated by the waste passage frame 27 and prevented from accumulating on the frame. A cutting assembly is arranged at the bottom of the frame below the waste channel frame 27 and comprises a cutting rotating motor 271, a cutting rotating connecting rod 272 and a cutting block 273; decide the rotating electrical machines 271 setting in the frame bottom, cut piece 273 and be connected with deciding the rotating electrical machines 271 through deciding swivel link 272, decide and be provided with on the piece 273 and decide mouthful 2731, decide mouthful 2731 and align with waste material passageway frame 27, it is rotatory to drive the fore-and-aft direction of cutting mouthful 2731 through deciding the rotating electrical machines 271 to decide the contact pin area, be convenient for better recovery and follow-up clearance.

When the device works, the pin belt 20 enters between the second auxiliary roller 263 and the third auxiliary roller 264 from the upper end and enters into the pin belt groove 241, the pin conveying motor 23 drives the pin conveying wheel 221 to rotate, the conveying teeth 222 are matched with the pin belt holes on the pin belt, the pin belt 20 is conveyed from top to bottom in order and conveyed to the middle of the pin conveying straight plate 24 for pin cutting and assembling; the cut pin strip falls into the waste channel frame 27 and extends to the cutting opening 2731 of the cutting block 273, and the cutting opening 2731 is driven to rotate in the front-back direction by the cutting rotating motor 271, so that the pin strip is cut and recycled.

The device solves the problems that in the process of pin conveying, a pin belt cannot be well tensioned, the pin belt is easily overlapped or too loose, and the conveying efficiency is influenced; and the pin belt cut by the pins is easy to stack on the rack and is not easy to process, and the subsequent material changing work is influenced.

The conveying efficiency is further improved through the auxiliary conveying wheel 261, the first auxiliary roller 262, the second auxiliary roller 263 and the third auxiliary roller 264 in the contact pin conveying device 2, and the conveying stability is improved; it cooperatees with contact pin area 20 better to be convenient for through contact pin conveying wheel 221, compresses tightly cylinder 25 through the contact pin and drives contact pin pinch roller 252 and be convenient for carry contact pin area 20 tensioning, promotes the smoothness nature of carrying, prevents to block, drives through deciding rotating electrical machines 271 and cuts out the face-to-face direction rotation of fracture 2731 to decide the contact pin area, be convenient for better recovery and follow-up clearance.

as shown in fig. 1 and 5, the cutting pin device 3 includes a first cutting pin assembly 31 and a second cutting pin assembly 32, the first cutting pin assembly 31 and the second cutting pin assembly 32 are horizontally and symmetrically arranged on a frame, and the first cutting pin assembly 31 and the second cutting pin assembly 32 have the same structure, the first cutting pin assembly 31 includes a cutting pin supporting seat 33, a cutting module 34 and an inserting module 35, the cutting pin supporting seat 33 is arranged on the frame, the cutting module includes a cutting bracket 341, a cutting cylinder 342, a cutting connecting plate 343, a cutting fitting block 344, a cutting fitting insertion block 345, a cutting moving plate 346 and a cutting fitting head 347, the cutting bracket 341 is arranged on the top of the cutting pin supporting seat 33, the cutting cylinder 342 is arranged on the cutting bracket 341, the cutting connecting plate 343 is connected to a moving part of the cutting cylinder 342, the cutting connecting plate 343 is driven by the cutting cylinder 342 to horizontally move back and forth by the cutting connecting plate 343, the cutting connecting plate 343 has an L-shaped cross section, a transverse plate 343 of the cutting connecting plate 343 is provided with a first fitting cutting wheel 3431, upper side and a cutting pin 344 is arranged on both sides of the cutting block 344, the cutting block 344 is provided with a notch 3441, the cutting head 3441 is arranged on the cutting wheel 3441, the cutting head 51 is driven by the cutting wheel to be fitted with the cutting head 51, the cutting head is matched with the cutting head, the cutting head 51, the cutting head is matched with the cutting head, the cutting head 3452, the cutting head 3452, the cutting head is matched with the cutting head, the cutting,

The insertion module 35 includes an insertion motor 351, an insertion driving pulley 352, an insertion driven pulley 353, an insertion conveyance belt 354, a rotation shaft 355, and a rotation fitting pulley 356; the insertion motor 351 is disposed inside the cutting pin support 33, and the insertion motor 351 penetrates through the cutting pin support 33 to be connected with the insertion driving wheel 352, and the insertion driving wheel 352 is driven to rotate by the insertion motor 351. The insertion driven wheel 353 is connected to the insertion driven wheel 353 in a tensioned manner by the insertion transmission belt 354, and the insertion driven wheel 353 is rotated by the insertion driven wheel 353 via the insertion transmission belt 354. Rotation axis 355 horizontal connection inserts the center from driving wheel 353, rotation axis 355 passes and cuts contact pin supporting seat 33, it rotates to drive rotation axis 355 through inserting from driving wheel 353, rotatory cooperation wheel 356 cover is established on rotation axis 355, and be located the inboard of cutting contact pin supporting seat 33, be provided with annular cooperation groove 3561 on the rotatory cooperation wheel 356, annular cooperation groove 3561 cooperatees with inserting cooperation wheel 3452, and the width of annular cooperation groove 3561 is greater than the diameter of inserting cooperation wheel 3452, be convenient for make insert the space that cooperation wheel 3452 is by the removal, thereby when cutting the contact pin after, insert the contact pin to transmission joint 10 in through rotatory cooperation wheel 356 rotation ability is quick, promote packaging efficiency and assembly precision. The cutting pin supporting seat 33 is provided with an auxiliary insertion matching wheel 332, the auxiliary insertion matching wheel 332 is matched with the insertion conveying belt 354, and the conveying stability is further improved through the auxiliary insertion matching wheel 332. The rear portion of the cutting pin supporting seat 33 is further provided with a heat radiation fan 331, and a heat radiation effect is further achieved through the heat radiation fan 331, so that the equipment can be more effectively assembled.

In operation, drive through cutting cylinder 342 and cut connecting plate 343 and remove, thereby make first cooperation cutting wheel 3431 drive and cut cooperation piece 344 and remove to the inboard, thereby make two on first cutting contact pin subassembly 31 and the second cutting contact pin subassembly 32 cut cooperation head 347 in the movable plate 346 mutually support and decide the contact pin on the contact pin area 20, and simultaneously, cooperate with second cooperation cutting wheel 3451 through cutting cooperation piece 344, it inserts piece 345 and removes to drive the cooperation, make and insert cooperation wheel 3452 and contact with rotatory cooperation wheel 356, rotatory cooperation wheel 356 drives rotatoryly through inserting motor, cooperate through rotatory cooperation wheel 356 with inserting cooperation wheel 3452 and contact, thereby make and decide the tight contact pin of back clamp and insert fast to the contact pin groove in the transmission joint 10 that is located the front side, accomplish the contact pin equipment.

The device has solved and has appeared cutting the phenomenon that the clamp degree is not enough easily, leads to can't decide the contact pin area fast to the lower problem of the alignment degree of inserting and insertion efficiency in the insertion process.

The cutting cylinder 342 in the cutting pin device 3 drives the cutting connecting plate 343 to horizontally move back and forth, so that the horizontal movement precision is improved; the cutting matching notch 3441 is matched with the first matching cutting wheel 3431, and the second matching cutting wheel 3451 is matched with the cutting matching notch 3441 on the lower side, so that the cutting matching block 344 is driven to horizontally move and position, the positioning precision is improved, and the insertion of the insertion pin is facilitated in a roller manner; it is tight to be convenient for decide the contact pin area through two cooperation heads 347 that cut, cooperate with inserting cooperation wheel 3452 through annular cooperation groove 3561, and the width of annular cooperation groove 3561 is greater than the diameter of inserting cooperation wheel 3452, be convenient for make insert the space that cooperation wheel 3452 was by the removal, thereby after cutting the contact pin, insert the contact pin to transmission joint 10 in through rotatory ability of cooperation wheel 356, promote packaging efficiency and assembly precision.

A TYPE-C data transmission line comprises a data transmission joint, and a production method of the TYPE-C data transmission joint sequentially comprises the following steps:

Joint conveying: the transmission joint 10 enters the conveying belt 143 from the feeding end of the joint conveying groove 121, and is matched with the conveying driving wheel 141 and the two conveying driven wheels 142 through the joint conveying motor 13 to drive the transmission joint 10 on the conveying belt 143 to be conveyed into the joint connecting channel 1633 connected with the lifting platform 163, the joint lifting cylinder 161 is used for driving the transmission joint 10 in the joint connecting channel 1633 to ascend to the position aligned with the pushing block 154, the pushing cylinder 152 is used for driving the pushing block 154 to sequentially push the transmission joint 10 to the cutting insertion position, and the insertion of a contact pin is waited;

(II) pin conveying: the pin belt 20 enters between the second auxiliary roller 263 and the third auxiliary roller 264 from the upper end and enters the pin belt groove 241, the pin conveying motor 23 drives the pin conveying wheel 221 to rotate, the conveying teeth 222 are matched with the pin belt holes on the pin belt, the pin belt 20 is conveyed from top to bottom in order and conveyed to the middle of the pin conveying straight plate 24 for cutting and assembling pins; the cut pin belt falls into the waste material channel frame 27 and extends to a cutting opening 2731 of the cutting block 273, and the cutting opening 2731 is driven to rotate in the front-back direction by a cutting rotating motor 271, so that the pin belt is cut and recycled;

And (III) pin assembly: drive through cutting cylinder 342 and cut connecting plate 343 and remove, thereby make first cooperation cutting wheel 3431 drive and cut cooperation piece 344 and move to the inboard, thereby make two on first cutting contact pin subassembly 31 and the second cutting contact pin subassembly 32 cut the cooperation head 347 that cuts in the movable plate 346 mutually support and decide the contact pin on the contact pin area 20, and simultaneously, cooperate with second cooperation cutting wheel 3451 through cutting cooperation piece 344, it inserts piece 345 and moves to drive to cut the cooperation, make and insert cooperation wheel 3452 and contact with rotatory cooperation wheel 356, rotatory cooperation wheel 356 drives rotatoryly through inserting motor 351, cooperate through rotatory cooperation wheel 356 and insert cooperation wheel 3452 and contact, thereby make the tight contact pin of clamp insert fast to the contact pin groove in the transmission joint 10 that is located the front side after deciding, accomplish the contact pin equipment.

The equipment facilitates orderly conveying of the conveying joints 10 through the conveyor belt conveying assembly 14 on the joint conveying device 1, and improves the conveying stability through the motor and the conveyor belt; be convenient for link up the transmission better of joint through linking up subassembly 16, through preventing only a passageway to prevent to block up the card at joint conveyer trough 121 and die, promote the smoothness degree of carrying, cooperate through propelling movement subassembly 15 and linking up subassembly 16 and further promote conveying precision, be convenient for link up the stable propelling movement that carries out of transmission 10 through propelling movement cylinder 152, make the transmission connect 10 propelling movement to accurate position simultaneously. The conveying efficiency is further improved through the auxiliary conveying wheel 261, the first auxiliary roller 262, the second auxiliary roller 263 and the third auxiliary roller 264 in the contact pin conveying device 2, and the conveying stability is improved; it cooperatees with contact pin area 20 better to be convenient for through contact pin conveying wheel 221, compresses tightly cylinder 25 through the contact pin and drives contact pin pinch roller 252 and be convenient for carry contact pin area 20 tensioning, promotes the smoothness nature of carrying, prevents to block, drives through deciding rotating electrical machines 271 and cuts out the face-to-face direction rotation of fracture 2731 to decide the contact pin area, be convenient for better recovery and follow-up clearance. The cutting cylinder 342 in the cutting pin device 3 drives the cutting connecting plate 343 to horizontally move back and forth, so that the horizontal movement precision is improved; the cutting matching notch 3441 is matched with the first matching cutting wheel 3431, and the second matching cutting wheel 3451 is matched with the cutting matching notch 3441 on the lower side, so that the cutting matching block 344 is driven to horizontally move and position, the positioning precision is improved, and the insertion of the insertion pin is facilitated in a roller manner; it is tight to be convenient for decide the contact pin area through two cooperation heads 347 that cut, cooperate with inserting cooperation wheel 3452 through annular cooperation groove 3561, and the width of annular cooperation groove 3561 is greater than the diameter of inserting cooperation wheel 3452, be convenient for make insert the space that cooperation wheel 3452 was by the removal, thereby after cutting the contact pin, insert the contact pin to transmission joint 10 in through rotatory ability of cooperation wheel 356, promote packaging efficiency and assembly precision.

Claims

1. The TYPE-C data transmission connector production equipment is characterized by comprising a rack, a connector conveying device (1), a pin inserting conveying device (2) and a pin cutting device (3), wherein the connector conveying device, the pin inserting conveying device and the pin cutting device are arranged on the rack; the connector conveying device (1) is transversely arranged on the rack, the pin conveying device (2) is longitudinally arranged on the rack, the pin conveying device (2) is used for conveying a pin belt from top to bottom, the discharge end of the connector conveying device (1) is connected with the middle part of the pin conveying device (2), and the connector conveying device (1) is used for conveying a connector to the front side of the pin belt in the middle of the pin conveying device (2); the pin cutting device (3) comprises a first pin cutting component and a second pin cutting component; the first cutting pin component and the second cutting pin component are respectively located on the left side and the right side of the pin conveying device (2), and the first cutting pin component and the second cutting pin component are matched with a pin on a pin belt to cut and insert the pin into the connector.

2. A TYPE-C data transmission splice production device according to claim 1, characterized in that the splice feeding means (1) comprises a splice feeding holder (11), a splice feeding platform (12), a splice feeding motor (13), a conveyor belt feeding assembly (14), a pushing assembly (15) and a splicing assembly (16); the joint conveying assembly comprises a joint conveying support (11), a joint conveying platform (12), a joint conveying groove (121), a joint conveying motor (13), a conveying driving wheel (141), two conveying driven wheels (142) and a conveying belt (143), wherein the joint conveying support (11) is arranged on a rack; the joint conveying motor (13) penetrates through the joint conveying support (11) to be connected with the conveying driving wheel (141), the two conveying driven wheels (142) are respectively positioned in two ends of the joint conveying platform (12), the conveying belt (143) is connected to the conveying driving wheel (141) and the two conveying driven wheels (142) in a tensioning mode, the conveying belt (143) is positioned in the joint conveying groove (121) to carry, and conveying auxiliary wheels (144) are arranged between the conveying driving wheel (141) and the two conveying driven wheels (142) on the two sides of the joint conveying support (11); the pushing assembly (15) comprises a pushing support (151), a pushing cylinder (152), a pushing moving plate (153) and a pushing block (154); the pushing support (151) is arranged on the joint conveying platform (12), the pushing cylinder (152) is horizontally arranged on the pushing support (151), the moving part of the pushing cylinder (152) is connected with the pushing moving plate (153), the pushing moving plate (153) is arranged on the pushing support (151) through a pushing sliding rail, the pushing block (154) is arranged at the rear part of the pushing moving plate (153), the pushing block (154) is positioned above the joint conveying groove (121), the discharging end of the pushing block (154) is provided with an arc-shaped matching notch (1541) matched with the side part of the joint, and the linking assembly (16) comprises a linking support (160), a linking lifting cylinder (161), a linking lifting block (162) and a linking lifting platform (163); linking up support (160) and setting in the frame, and be located the ejection of compact side that connects conveying platform (12), link up lift cylinder (161) and set up on linking up support (160), the top that links up lift cylinder (161) is connected with linking up lifting block (162), and link up lifting block (162) and set up on linking up support (160) through linking up the slide rail, link up lift platform (163) and set up on linking up lifting block (162), link up lift platform (163) and include down link up backup pad (1631) and upper link up backup pad (1632), form U type's joint linking up passageway (1633) between lower link up backup pad (1631) and the upper link up backup pad (1632), joint linking up passageway (1633) and propelling movement piece (154) phase-match.

3. A TYPE-C data transmission joint production apparatus according to claim 1, wherein the pin conveying device (2) includes a pin conveying bracket (21), a pin conveying support plate (22), a pin conveying motor (23), and a pin conveying straight plate (24); a pin delivery bracket (21); the pin conveying support (21) is longitudinally arranged on the rack, the pin conveying support plate (22) is transversely arranged at the front part of the pin conveying support (21), the pin conveying motor (23) is arranged at the rear part of the left side of the pin conveying support plate (22), the front end of the pin conveying motor (23) penetrates through the pin conveying support plate (22) to be connected with a pin conveying wheel (221), a plurality of conveying teeth (222) are arranged in the circumferential direction of the outer ring of the pin conveying wheel (221) regularly, and the distance between every two adjacent conveying teeth (222) is matched with the distance between every two adjacent pins on the pin belt; the pin conveying straight plate (24) is longitudinally arranged at the front part of the middle side of the pin conveying support plate (22), a pin belt groove (241) which is longitudinal and used for conveying pins is arranged on the pin conveying straight plate (24), the pin belt groove (241) is aligned with the pin conveying wheel (221), a pressing arc-shaped notch (242) is arranged at the bottom of the pin conveying straight plate (24), the pressing arc-shaped notch (242) is communicated with the pin belt groove (241), a pin pressing air cylinder (25) is arranged at the left side of the pin conveying support plate (22), a pin pressing moving block (251) is connected with the moving part of the pin pressing air cylinder (25), and the contact pin pressing moving block (251) is arranged on the contact pin conveying supporting plate (22) through the contact pin pressing moving slide rail, the left part of the contact pin pressing moving block (251) is connected with a contact pin pressing wheel (252), and the contact pin pressing wheel (252) is matched with the pressing arc-shaped notch (242).

4. The TYPE-C data transmission joint production equipment according to claim 1, wherein an auxiliary support frame (26) is arranged at the rear side of the upper part of the pin conveying straight plate (24), an auxiliary conveying wheel (261) is arranged at the left side of the middle upper part of the auxiliary support frame (26), and the auxiliary conveying wheel (261) and the pin conveying wheel (221) have the same structure; a first auxiliary roller (262) is arranged on the left side of the upper portion of the auxiliary supporting frame (26), a second auxiliary roller (263) and a third auxiliary roller (264) are arranged at the top of the auxiliary supporting frame (26), the second auxiliary roller (263) and the third auxiliary roller (264) are horizontally aligned, and a gap for passing a needle inserting belt exists between the second auxiliary roller (263) and the third auxiliary roller (264).

5. A TYPE-C data transmission joint production device according to claim 1, characterized in that a waste channel rack (27) is arranged on the rack below the pin conveying straight plate (24); a cutting assembly is arranged at the bottom of the rack below the waste channel rack (27), and comprises a cutting rotating motor (271), a cutting rotating connecting rod (272) and a cutting block (273); decide rotating electrical machines (271) and set up in the frame bottom, cut piece (273) and decide rotating electrical machines (271) and be connected through deciding swivelling joint pole (272), be provided with on cutting piece (273) and cut mouth (2731), cut mouth (2731) and waste material passageway frame (27) and align.

6. A TYPE-C data transmission joint production apparatus according to claim 1, characterized in that the cutting pin device (3) comprises a first cutting pin assembly (31) and a second cutting pin assembly (32); the first cutting pin component (31) and the second cutting pin component (32) are horizontally and symmetrically arranged on the rack, and the first cutting pin component (31) and the second cutting pin component (32) are identical in structure.

7. the TYPE-C data transmission joint production equipment as claimed in claim 1, wherein the first cutting pin assembly (31) comprises a cutting pin supporting seat (33), a cutting module (34) and an inserting module (35), the cutting pin supporting seat (33) is arranged on the frame, the cutting module comprises a cutting bracket (341), a cutting cylinder (342), a cutting connecting plate (343), a cutting matching block (344), a cutting matching inserting block (345), a cutting moving plate (346) and a cutting matching head (347), the cutting bracket (341) is arranged on the top of the cutting pin supporting seat (33), the cutting cylinder (342) is arranged on the cutting bracket (341), the cutting connecting plate (343) is connected to a moving part of the cutting cylinder (342), the section of the cutting connecting plate (343) is L-shaped, a first matching cutting wheel (3431) is arranged at the inner end of a transverse plate of the cutting connecting plate (343), a cutting matching notch (41) is respectively arranged at the upper side and the lower side of the cutting matching block (344), a second matching cutting wheel (3452) is arranged on the cutting matching with a cutting matching moving block (3431), the cutting matching with a cutting head (347), the cutting matching with a cutting head (347), the cutting moving block (3452), the cutting matching and a cutting matching notch (3452) is arranged on the cutting matching with the cutting matching block (3452), the cutting matching block (3452), the cutting matching with the cutting matching block (3452), and a cutting matching block (3452) is arranged on the cutting matching with the cutting matching block (3452), the cutting matching with the cutting matching block (3452), and the cutting matching with the cutting matching block (3452) and the cutting matching block (3452) is arranged on the cutting matching with the cutting matching block (.

8. A TYPE-C data transmission joint production apparatus according to claim 7, wherein the insertion module (35) comprises an insertion motor (351), an insertion driving wheel (352), an insertion driven wheel (353), an insertion conveyor belt (354), a rotation shaft (355), a rotation fitting wheel (356); the inserting motor (351) is arranged on the inner side of the cutting inserting needle supporting seat (33), the inserting motor (351) penetrates through the cutting inserting needle supporting seat (33) to be connected with an inserting driving wheel (352), an inserting driven wheel (353) is connected with the inserting driven wheel (353) in a tensioning mode through an inserting conveying belt (354), a rotating shaft (355) is horizontally connected to the center of the inserting driven wheel (353), the rotating shaft (355) penetrates through the cutting inserting needle supporting seat (33), a rotating matching wheel (356) is sleeved on the rotating shaft (355) and located on the inner side of the cutting inserting needle supporting seat (33), an annular matching groove (3561) is formed in the rotating matching wheel (356), the annular matching groove (3561) is matched with the inserting matching wheel (3452), the width of the annular matching groove (3561) is larger than the diameter of the inserting matching wheel (3452), and an auxiliary inserting matching wheel (332) is further arranged on the cutting inserting, an auxiliary insertion-fitting wheel (332) fits with the insertion conveyor belt (354).

9. A production method of a TYPE-C data transmission connector is characterized by sequentially comprising the following steps:

Joint conveying: the conveying joint (10) enters the conveying belt (143) from the feeding end of the joint conveying groove (121), is matched with the conveying driving wheel (141) and the two conveying driven wheels (142) through the joint conveying motor (13), drives the conveying joint (10) on the conveying belt (143) to be conveyed into a joint connecting channel (1633) of the connecting and lifting platform (163), drives the conveying joint (10) in the joint connecting channel (1633) to ascend to the position aligned with the pushing block (154) through the connecting and lifting cylinder (161), drives the pushing block (154) through the pushing cylinder (152) to sequentially push the conveying joint (10) to the cutting and inserting position, and waits for inserting of a contact pin;

And (3) pin conveying: the pin belt (20) enters between the second auxiliary roller wheel (263) and the third auxiliary roller wheel (264) from the upper end and enters the pin belt groove (241), the pin conveying motor (23) drives the pin conveying wheel (221) to rotate, the conveying teeth (222) are matched with pin belt holes in the pin belt, the pin belt (20) is conveyed from top to bottom in order and conveyed to the middle of the pin conveying straight plate (24) for cutting and assembling pins; the cut pin belt falls into a waste material channel frame (27) and extends to a cutting opening (2731) of a cutting block (273), and the cutting opening (2731) is driven to rotate in the front-back direction by a cutting rotating motor (271), so that the pin belt is cut and recycled;

Assembling a contact pin: the cutting connecting plate (343) is driven to move by a cutting cylinder (342), so that a cutting matching block (344) is driven to move inwards by a first matching cutting wheel (3431), pins on the pin belt (20) are cut by matching cutting matching heads (347) in two cutting moving plates (346) on the first cutting pin assembly (31) and a second cutting pin assembly (32), meanwhile, the cutting matching block (344) is matched with a second matching cutting wheel (3451) to drive a cutting matching inserting block (345) to move inwards, so that an inserting matching wheel (3452) is contacted with a rotating matching wheel (356), the rotating matching wheel (356) is driven to rotate by an inserting motor (351), and the rotating matching wheel (356) is contacted and matched with the inserting matching wheel (3452), so that the pins clamped after being cut are quickly inserted into a pin groove in a transmission joint (10) positioned on the front side, and completing the pin assembly.

10. A TYPE-C data transmission line comprising a data transmission connector, characterized in that the TYPE-C data transmission connector is produced according to claim 9.