CN111799636A - Pin header waste removing device for producing double-pin header connector - Google Patents

Abstract

The invention belongs to the field of electronic connector production. A pin header scrap removing device for producing a double-pin header connector comprises a material removing bracket, a material removing mobile positioning assembly, a material removing driving assembly and a material removing swinging assembly; the material removing support is arranged on the rack, the material removing movable positioning assembly is positioned at the top of the material removing support, the material removing driving assembly is arranged on the material removing movable positioning assembly, and the material removing movable positioning assembly drives the material removing driving assembly to perform movable positioning; remove material swing subassembly and remove material drive assembly and be connected, drive through removing material drive assembly and remove the material swing subassembly and carry out the row needle waste material area on the first row needle material area and be convenient for get rid of after the luffing motion. The advantage of this patent has promoted row needle waste material area and has removed efficiency and get rid of the quality.

Description

Pin header waste removing device for producing double-pin header connector

Technical Field

The invention belongs to the field of electronic connector production, and particularly relates to a pin header waste removing device for producing a double-pin header connector.

Background

The existing production process of the double-pin connector comprises the steps of conveying and feeding a connecting seat and transferring the connecting seat to a first pin assembly part; the first row of needles are conveyed and fed in a material belt form through the first row of needle carrier belts, the first row of needle groups on the first row of needle material belt are cut off one by one, and the first row of needle groups are inserted into the first row of needle grooves on the connecting seat after being cut off; after the assembly, the pin header connecting seat assembly is conveyed to a pin header waste material strip cutting position, the pin header waste material strip on the first pin header group is cut, the assembly of the first pin header group and the connecting seat is completed after the cutting, and the second pin header group assembles the second pin header group into a second pin header groove of the connecting seat in the same mode.

The prior double-pin connector has the following problems in the production process: in the rotary conveying process of the double-pin connector, a station clamp on a rotary device has poor limiting effect on a connecting seat, the connecting seat cannot be well fixed, the connector is easy to drop in the rotary conveying process, and the connecting seat is easy to move in the assembling process, so that pins cannot be accurately and effectively inserted into the connecting seat, the conveying of the connecting seat is influenced, and the assembling of the pins and the connecting seat is influenced; secondly, the pin header material belt cannot be well limited on the conveying channel in the pin header material belt conveying process, so that the pin header material belt moves in the conveying process, the pin header material belt is folded or stacked on the conveying channel, the positioning precision of subsequent pin header material belt cutting is influenced due to the fact that the pin header material belt is too loose in the conveying process, the pin header material belt is prone to being cut in a wrong position in the cutting process, frequent manual inspection is needed, and troubles are brought to workers; in the process of cutting the pin header material belt, the conventional device directly cuts off a section of the pin header material belt through a cutting cylinder, so that in the cutting process, particularly, the reciprocating lifting amplitude of the cylinder is large, the pin header material belt is easy to move, the cutting position is not accurate, the pin header material belt is directly cut off through the cylinder, the cutting position deviation is easy to occur, and the pin header material belt is scrapped; the phenomenon that the cutting part is damaged due to the fact that the needle-arranging material belt cannot be cut off or the cutting part collides with the needle-arranging material belt conveying support due to the fact that the air cylinder descends too deeply can also occur, and not only is the cutting precision not high enough, but also parts are easy to damage; in the process of inserting the needle discharge material belt into the connecting seat after clamping the needle discharge material belt, the existing equipment only clamps the needle discharge waste material belt of the needle discharge material belt through the air cylinder clamping jaw, so that the clamping force of the air cylinder clamping jaw is insufficient, the needle discharge material belt falls off in the inserting process or the needles on the needle discharge material belt cannot be completely inserted into the connecting seat, and the assembling stability between the needles and the connecting seat is influenced; the existing equipment finishes integral assembly after the needle-arranging waste tape is cut, and correction is not carried out after the needle-arranging waste tape is cut; thereby lead to too not hard up between the row's needle and the connecting seat of accomplishing the equipment, appear the untight phenomenon of both equipments, follow-up still needs the manual work to carry out the pressfitting, increases artifical intensity of labour and production time cost.

Particularly, after the pin header material belt is inserted into the connecting seat, in the process of cutting the pin header waste material belt on the pin header material belt, the existing mode drives the cutting knife to move downwards through the air cylinder to cut off, the moving position precision is deviated due to the long-time work of the air cylinder, the phenomenon that the cutting knife moves downwards too deeply or does not reach the position can occur, when the cutting knife moves downwards too deeply, the inserted pin headers can be directly taken out together in the cutting process, and the prior processing is easily finished; when the needle-arranging waste tape is not moved down in place, the phenomenon that the needle-arranging waste tape cannot be completely cut off is caused, and troubles are added to subsequent detection work.

Disclosure of Invention

The invention aims to solve the problem of low waste removing efficiency and precision of the existing pin header group, and provides a pin header waste removing device for producing a double-pin header connector.

For the purpose of the invention, the following technical scheme is adopted for realizing the purpose: a pin header scrap removing device for producing a double-pin header connector comprises a material removing bracket, a material removing mobile positioning assembly, a material removing driving assembly and a material removing swinging assembly; the material removing support is arranged on the rack, the material removing movable positioning assembly is positioned at the top of the material removing support, the material removing driving assembly is arranged on the material removing movable positioning assembly, and the material removing movable positioning assembly drives the material removing driving assembly to perform movable positioning; the material removing swing assembly is connected with the material removing driving assembly, and the material removing driving assembly drives the material removing swing assembly to swing the needle arranging waste material belt on the first needle arranging material belt up and down so as to be conveniently removed; the material removing swing assembly comprises a driving rotating shaft, a material removing lifting fixing frame, a material removing lifting plate and a material removing matching block; the driving rotating shaft is connected with the material removing driving assembly, and a cam rod is eccentrically arranged in the middle of the driving rotating shaft; the material removing lifting fixing frame is arranged at the rear part of the material removing mobile positioning component; the driving rotating shaft is arranged on the material removing lifting fixing frame through a bearing; a material removing lifting plate groove is formed in the rear part of the material removing lifting fixing frame; the material removing lifting plate is positioned in the material removing lifting plate groove; a runway-type swing through hole is formed in the material removing lifting plate; the cam rod on the driving rotating shaft penetrates through the blanking lifting fixing frame and is positioned in the swinging through hole; the material removing matching block is arranged at the top of the material removing lifting plate, and a pin-arranging waste material belt material removing groove is horizontally arranged in the middle of the material removing matching block.

Preferably, the needle waste tape removing groove is provided with a needle waste tape insertion through hole.

Preferably, the lower part of the material removing and matching block is provided with a matching inclined surface.

Preferably, the material removing moving positioning assembly comprises a material removing moving positioning plate and a material removing moving cylinder; the material removing and moving positioning plate is movably matched and arranged on the material removing support, and the material removing and moving cylinder is connected with the front part of the material removing and moving positioning plate.

Preferably, the material removing driving assembly comprises a material removing driving motor and a driving rotating shaft sleeve; the material removing driving motor is arranged on the material removing movable positioning plate through a material removing driving motor bracket; the rotating shaft of the material removing driving motor is connected with the driving rotating shaft through a driving rotating shaft sleeve.

Preferably, a needle-arranging waste material belt discharging channel is arranged at the rear part of the material-removing lifting fixing frame.

Preferably, a pin-arranging waste material belt collecting box is arranged at the discharging end of the waste material discharging channel.

A pin header scrap removing method for a double pin header connector uses the pin header scrap removing device for producing the double pin header connector; the material removing and moving cylinder on the material removing and moving positioning component drives the material removing lifting fixing frame on the material removing and moving positioning plate to move to the outer side of the needle arranging connecting seat assembly on the dividing plate rotating device, so that a needle arranging waste material belt on the needle arranging connecting seat assembly is inserted into a needle arranging waste material belt removing groove on the material removing matching block and extends into a needle arranging waste material belt inserting through hole, a rotating shaft of the material removing driving motor drives a cam rod on the driving rotating shaft to eccentrically rotate, the cam rod is matched with a swinging through hole on the material removing lifting plate, the material removing lifting plate drives the needle arranging waste material belt of the material removing matching block to vertically swing to separate the needle arranging waste material belt from a first row of needles, and the needle arranging waste material belt is collected into the needle arranging waste material belt collecting box along a needle arranging waste material belt discharging channel.

The utility model provides a production facility of double pin connector, this equipment includes frame and index plate rotary device, connecting seat feeding transfer device, first row needle feeding assembly device, second row needle remove waste material device, correcting unit, discharging device and foretell first row needle remove waste material device on it.

Adopt the row needle of above-mentioned technical scheme to remove waste material device for producing double needle connector, the device can realize through cam lever eccentric settings that cam lever reciprocates for the drive pivot when rotatory to the realization is with row needle waste material area luffing motion, thereby makes row needle waste material area not hard up, and then is convenient for follow-up the cylinder that goes to directly cut off row needle waste material area. Swing through-hole through the runway type be convenient for better cooperate with the cam lever to realize going the swing that the lifter plate carries out relative small amplitude, if too big swing can lead to first row of needle of male and second to arrange the needle and put out along with arranging needle waste material area in the lump, and then break away from the connecting seat, lead to wholly to remove the waste material failure. Insert to row needle waste material area through row needle waste material area and remove the silo and get into to row needle waste material area and insert the through-hole and be convenient for better drive row needle waste material area and swing, promote the luffing motion effect, the row needle waste material area of being convenient for better and arrange the connectivity reduction between the needle, the follow-up better row needle waste material area of being convenient for cuts off.

This equipment is still through chucking cooperation between base cooperation groove in the graduated disk rotary device and the station base spacing groove, is convenient for make to connect between station base and the station fixed block inseparabler to further increased joint strength between the two, prevented to lead to not hard up between the two in rotatory process, and then promoted the stability of connecting seat among the rotary conveying process. The connecting base is convenient to make the connecting base limiting ejector block better enter the cavity of the connecting base through the matching chamfer, so that the inner side of the connecting base is further subjected to limiting support, and friction between the connecting base limiting ejector block and the inner side of the connecting base is prevented. Further promoted the joint strength between connecting seat supporting shoe and the station fixed block through interact between fixed fixture block and the fixed slot, further promoted the fixed action to further carry out spacing support with the connecting seat, promote the stability in the connecting seat transportation process, prevent rotatory in-process departure. Support the gag lever post and form the connecting seat through two connecting seats and place the neutral gear between two removal stopper spacing grooves, the connecting seat is placed and is placed the neutral gear and two connecting seats support the gag lever post and carry on spacingly with the inside and outside both sides and the left and right sides of connecting seat at the connecting seat, prevents the connecting seat roll-off, promotes the connecting seat and places the stability support nature effect in the neutral gear at the connecting seat.

Through the first row of needle kink conveyer trough on the first row of needle feeding conveyor assembly be convenient for better messenger's the kink on the first row of needle group place, also better simultaneously with first row of needle group carry on spacingly, promote the accuracy of carrying. The row needle waste material area on being convenient for make first row needle group through first row needle material area conveyer trough is carried, and the row needle locating hole in row needle waste material area is located first row needle material area conveyer trough top simultaneously, is convenient for advance line location and carries, promotes the convenience and the accuracy of carrying. First row needle material area conveyer trough, first row needle kink conveyer trough and first row needle conveyer trough parallel arrangement, the better cooperates the transport with first row needle material area of being convenient for. Through apron U type groove be convenient for better cooperate with first row needle transport fluted disc, cooperate through the dogtooth on the first row needle transport fluted disc and the waste hole on the first row needle material area simultaneously, be convenient for carry out orderly accurate transport with first row needle material area, promote whole location accuracy nature and the smoothness nature of carrying.

The cutting limiting rod on the first pin header cutting assembly penetrates through the first limiting round hole and the second limiting round hole, the connecting block and the cutting block are cut through the cutting limiting rod to be highly positioned, and follow-up better cutting matching is facilitated. The connecting block and the cutting block have a certain descending space, so that the function of cutting the first row of needle material belt is realized, meanwhile, the connecting block and the cutting block are convenient to buffer in the cutting process, and the connecting block and the cutting block are prevented from being collided with the connecting support in a hard mode. Cut through the discharge end of cutting the piece and cut first row needle material area one by one first row needle group, the follow-up effectual equipment of being convenient for is convenient for effectively more swift cut first row needle material area through the slope form, promotes holistic cutting efficiency and promotes the precision of cutting the in-process, prevents through cylinder round trip movement always, leads to the deviation in the precision. The bottom of the cutting connecting block and the bottom of the cutting block are supported through the supporting springs, so that the better descending is buffered when the cutting is performed, and the whole cutting fluency is improved due to subsequent recovery positions.

The first row of needle assembly joint block on the first row of needle assembly is convenient for link up better with first row of needle cutting assembly, is convenient for make better entering into of first row of needle assembly link up the groove on. The removal portion through first row needle die clamping cylinder removes the anterior upwards rotation jack-up that makes first row needle clamp articulated slab to make the rear end must first row needle pinch plate rotate downwards, and then link up the piece with first row needle assembly and cooperate the row needle waste material area centre gripping on first row needle group, promote whole tight effect of clamp, prevent that first row needle group from dropping on the way when removing, also promote the smoothness nature of whole product processing when promoting and pressing from both sides tight stability.

The correction device well solves the problems that the existing equipment finishes integral assembly after being assembled on a needle-arranging waste material belt and cut, and correction is not carried out after the needle-arranging waste material belt is cut off; thereby lead to accomplishing too not hard up between the row's needle of equipment and the connecting seat, appear the untight phenomenon of both equipments.

To sum up, the advantage of this patent has promoted row needle waste material area and has removed efficiency and get rid of the quality.

Drawings

Fig. 1 is a schematic structural view of a production apparatus of a double pin connector according to the present invention.

Fig. 2 is a schematic structural diagram of the front side of the dual pin connector of the present invention.

Fig. 3 is a schematic structural view of the reverse side of the dual pin connector of the present invention.

Fig. 4 is a schematic structural diagram of the connecting seat feeding and transferring device of the present invention.

Fig. 5 is a schematic structural view of the index plate rotating device of the present invention.

FIG. 6 is a schematic diagram of an assembly station according to the present invention.

Fig. 7 is a schematic structural diagram of the first row needle feeding and assembling device of the invention.

FIG. 8 is a schematic diagram of the first row of needle feed delivery assemblies of the present invention.

FIG. 9 is a schematic view of a first row of pin cutting assemblies of the present invention.

Fig. 10 is a schematic structural diagram of the first pin header assembly according to the present invention.

Fig. 11 is a schematic structural view of the first row needle waste removing device of the present invention.

FIG. 12 is a schematic structural diagram of a calibration device 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, a production apparatus for a double-row pin connector comprises a rack, and an index plate rotating device 1, a connecting seat feeding and transferring device 2, a first row pin feeding and assembling device 3, a first row pin waste removing device 4, a second row pin feeding and assembling device 5, a second row pin waste removing device 6, a correcting device 7 and a discharging device 8 which are arranged on the rack; the connecting seat feeding and transferring device 2, the first row needle feeding and assembling device 3, the first row needle waste removing device 4, the second row needle feeding and assembling device 5, the second row needle waste removing device 6, the correcting device 7 and the discharging device 8 are sequentially positioned on the circumferential outer side of the dividing plate rotating device 1 along the feeding direction and the discharging direction; the index plate rotating device 1 is used for driving parts to be assembled to rotate to corresponding assembling positions; the connecting seat feeding and transferring device 2 is used for conveying the connecting seat to the dividing plate rotating device 1; the first row of needle feeding and assembling device 3 is used for conveying and feeding the first row of needle material belts and assembling the first row of needle material belts on the connecting seat; the first row needle waste removing device 4 is used for removing a needle waste belt on a first row needle material belt of the first row needle connecting seat assembly; the second row of needle feeding and assembling device 5 is used for conveying and feeding a second row of needle material belt and assembling the second row of needle material belt to the first row of needle connecting seat assembly; the second needle-arranging waste-removing device 6 is used for removing the needle-arranging waste material belt on the second needle-arranging material belt of the needle-arranging connecting seat assembly; the correcting device 7 is used for correcting the first pin header and the second pin header; the discharging device 8 conveys and discharges the finished product through the discharging transfer manipulator and the discharging conveyer belt.

As shown in fig. 2 and 3, the double-pin header connector produced by the present invention includes a connecting seat 9, a first pin header group 100 and a second pin header group 200, wherein the upper and lower sides of the connecting seat 9 are respectively provided with a plurality of first pin header grooves 91 and a plurality of second pin header grooves 92 which are regularly arranged, the first pin header grooves 51 and the second pin header grooves 52 are aligned in parallel, the first pin header grooves 51 and the second pin header grooves 52 are the same in number and are symmetrically arranged, the rear portion of the connecting seat 9 is provided with a cavity 93, and the left and right sides in the cavity 93 are provided with connecting seat protrusions 94; first row of needle group 100 and second row of needle group 200 structure are the same, first row of needle group 100 includes many first row of needles 101 and row needle waste material area 102, every first row of needle 101 cross-section all is the L type form, first row of needle 101 assembles the back with connecting seat 9, the quarter butt of first row of needle 101 is located the connecting seat 9 outside and sets up, many first row of kink rules of needle 101 are connected on row needle waste material area 102, be provided with on row needle waste material area 102 and be used for row needle to carry the row needle locating hole 103 of location. The connecting seat 9 is conveyed to the dividing plate rotating device 1 through the connecting seat feeding and transferring device 2; correspondingly inserting the first row of needle groups 100 into a plurality of first row of needle grooves 91 through the first row of needle feeding and assembling device 3; the row needle connecting seat assembly is conveyed to a first row needle waste removing device 4 through the index plate rotating device 1, a row needle waste material belt on a first row needle of the row needle connecting seat assembly is cut off through the first row needle waste removing device 4, the second row needle group 200 is correspondingly inserted into a plurality of second row needle grooves 92 in the same mode, and finally the first row needle group 100 and the second row needle group 200 are subjected to press fit correction through the correcting device 7.

As shown in fig. 4, the connecting seat feeding transfer device 2 includes a connecting seat feeding vibrator 21, a connecting seat feeding engagement bracket 22, a connecting seat feeding engagement moving block 23, a connecting seat feeding moving cylinder 24, a connecting seat feeding engagement block 25 and a connecting seat feeding transfer assembly 26; the discharge end of the connecting seat feeding vibrator 21 is connected with the connecting seat feeding connecting support 22, a connecting seat feeding connecting moving groove 221 is formed in the connecting seat feeding connecting support 22, a connecting seat feeding connecting moving block 23 is located in the connecting seat feeding connecting moving groove 221, a connecting seat feeding moving cylinder 24 is arranged on the connecting seat feeding connecting support 22, a moving portion of the connecting seat feeding moving cylinder 24 is connected with the connecting seat feeding connecting moving block 23, and a connecting seat feeding connecting block 25 is arranged on the connecting seat feeding connecting moving block 23; the connecting seat feeding connection block 25 is provided with a horizontal connecting seat connection groove 251, the connecting seat feeding connection block 25 is provided with a connecting seat grabbing groove 252 in the front-back direction, and the connecting seat feeding transfer component 26 grabs and transfers the connecting seat which is conveyed to enter to the dividing plate rotating device 1 in a transfer manipulator mode.

During operation, on carrying the connecting seat to the connecting seat on the connecting seat feeding linking block 25 through connecting seat feeding vibrator 21 and linking on the groove 251, drive the connecting seat feeding linking block 25 on the connecting seat feeding linking movable block 23 through the connecting seat feeding moving cylinder 24 and move to the assigned position to graduated disk rotary device 1 direction, press from both sides through the transfer on the connecting seat feeding transfer component 26 and get and descend to the connecting seat and snatch in the groove 252 and get the connecting seat 9 clamp to on the transfer graduated disk rotary device 1.

As shown in fig. 1, 5 and 6, the index plate rotating device 1 includes an index plate drive assembly 11 and an index plate 12; the index plate 12 is connected with a driving part of the index plate driving assembly 11, and the index plate driving assembly 11 realizes the rotary driving of the index plate 12 in a motor driving mode. Eight assembly stations 120 are regularly arranged on the outer side of the dividing plate 12 in the circumferential direction, and each assembly station 120 corresponds to the connecting seat feeding and transferring device 2, the first row of needle feeding and assembling device 3, the first row of needle waste removing device 4, the second row of needle feeding and assembling device 5, the second row of needle waste removing device 6, the correcting device 7 and the discharging device 8. Each assembling station 120 comprises a station base 121, a station fixing block 122, a station moving block 123 and a connecting seat supporting block 124; the station base 121 is arranged on the outer side of the dividing plate 12; a station base limiting groove 1211 is formed in the middle of the top surface of the station base 121; station fixed block 122 is fixed to be set up on station base 121, station fixed block 122 bottom is provided with base cooperation groove 1221, base cooperation groove 1221 and station base 1211 chucking cooperation, through the chucking cooperation between base cooperation groove 1221 and the station base spacing groove 1211, it is inseparabler to be convenient for connect between messenger's station base 121 and the station fixed block 122, thereby further increased joint strength between the two, prevent to lead to becoming flexible between the two in rotatory process, and then promote the stability of connecting seat 9 rotatory transportation in-process. The middle of the top of the station fixing block 122 is provided with a station moving groove 1222, the station moving block 123 is located in the station moving groove 1222, the station moving block 123 is movably matched with the station fixing block 122, the moving smoothness of the station moving block 123 is further improved through the station moving groove 1222, and meanwhile a certain limiting effect is achieved on the station moving block 123. The left and right outer sides of the station fixing block 122 are provided with movable limiting blocks 1223, the inner and outer directions of the connecting base 9 are further limited by the movable limiting blocks 1223, each movable limiting block 1223 is provided with a movable limiting block limiting groove 1224, and the left and right directions of the connecting base 9 are further limited by the movable limiting block limiting grooves 1224. The left side and the right side of the outer part of the station moving block 123 are provided with matching lugs 1231, and the two matching lugs 1231 are positioned above the station fixing block 122; and two cooperation lugs 1231 cooperate with two removal stopper 1223 rear portions, through the cooperation between two cooperation lugs 1231 and two removal stopper 1223, prevent that station movable block 123 from moving the head, move the station movable block 123 spacing, be convenient for better press from both sides tight cooperation, when making row needle and connecting seat 9 assemble, promote the assembly stability and assemble accurate nature. The outer end of station movable block 123 is provided with the spacing kicking block 1232 of connecting seat, and the inboard top of connecting seat 9 through the spacing kicking block 1232 of connecting seat is convenient for better. The upper and lower two of the spacing kicking block 1232 of connecting seat all is provided with cooperation chamfer 1233, be convenient for make the better entering of the spacing kicking block 1232 of connecting seat to the cavity 93 of connecting seat 9 in through cooperation chamfer 1233 to further carry out spacing support with the connecting seat 9 inboard, prevent to take place the friction between the spacing kicking block 1232 of connecting seat and the connecting seat 9 is inboard, with connecting seat 9 wearing and tearing, promote the stability in the assembling process, also further guaranteed the product quality of connecting seat 9. The left part and the right part of the connecting seat limiting top block 1232 are both provided with connecting seat limiting clamping grooves 1234, and the connecting seat limiting top block 1232 is matched with the inner side of the connecting seat to carry out limiting support; be used for cooperating with two connecting seat lugs 94 of connecting seat 9 through the spacing draw-in groove 1234 of connecting seat, be convenient for make the spacing kicking block 1232 of connecting seat push into darker to further play the effect of better spacing support, prevent when pin header and connecting seat equipment, connecting seat 9 takes place not hard up phenomenon that leads to the equipment quality not high, further promoted tight support nature of clamp and equipment quality. The connecting seat supporting block 124 is arranged at the bottom of the outer side of the station fixing block 122; the outside lower part of station fixed block 122 is provided with fixed fixture block 1225, the lower part inboard of connecting seat supporting shoe 124 is provided with fixed slot 1242, fixed fixture block 1225 cooperates the chucking with fixed slot 1242, interact has further promoted the joint strength between connecting seat supporting shoe 124 and the station fixed block 122 between fixed fixture block 1225 and fixed slot 1242, the fixed action has further been promoted, thereby further carry out spacing support with connecting seat 9, promote the stability among the connecting seat 9 transportation process, prevent rotatory in-process departure. The front part of the outer side of the connecting seat supporting block 124 is provided with two connecting seat supporting limiting rods 1241; two connecting seats support the gag lever post 1241 and are located and remove the stopper spacing groove 1224 outside, and two connecting seats support the gag lever post 1241 and two and remove and form the connecting seat between the stopper spacing groove 1224 and place the neutral gear 125, connecting seat 9 is placed in the connecting seat places the neutral gear 125, support the gag lever post 1241 through two removal stoppers 1223 and two connecting seats and carry on spacingly with the inside and outside both sides and the left and right sides of connecting seat 9, prevent the roll-off of connecting seat 9, promote the stability support nature effect of connecting seat 9 in the connecting seat places the neutral gear 125.

As shown in fig. 5, the index plate driving assembly 11 is provided with a fixed plate 13 through a rotating shaft sleeve; the fixed disc 13 is provided with a clamping moving cylinder 131 corresponding to the first row needle feeding and assembling device 3, the second row needle feeding and assembling device 5 and the correcting device 7, a moving part of the clamping moving cylinder 131 is provided with a clamping moving block 132, the section of the clamping moving block 132 is in a T shape, the lower part of the clamping moving block 132 is located in the station moving groove 1222, the clamping moving cylinder 131 drives the clamping moving block 132 to move the station moving block 123 outwards, and therefore the connecting seat limiting ejector 1232 on the clamping moving block 132 can be used for ejecting and fixing the inner side of the connecting seat 9. The fixed disc 13 is provided with a material removing supporting block 133 corresponding to the first row needle waste removing device 4 and the second row needle waste removing device 6; a material removing cylinder 134 is arranged outside the material removing support block 133, the material removing cylinder 134 is positioned above the assembling station 120, and the material removing cylinder 134 is used for moving the needle discharge waste tape 102 on the first needle discharge group 100 downwards to rotate and separate from the first needle discharge 101.

Through 1 fine solution of graduated disk rotary device, station anchor clamps on the rotary device are not good to the limiting displacement of connecting seat in 9 swivelling conveying processes of connecting seat, and unable fine messenger's connecting seat is fixed, makes the connector drop at the swivelling conveying in-process easily to make also easy messenger's connecting seat take place the problem that removes at the equipment.

Through the chucking cooperation between base cooperation groove 1221 in the graduated disk rotary device 1 and the station base spacing groove 1211, be convenient for make and connect more closely between station base 121 and the station fixed block 122 to further increased joint strength between the two, prevented to lead to becoming flexible between the two in rotatory process, and then promoted the stability of connecting seat 9 in the rotary conveying process. Be convenient for make the better entering into to the cavity 93 of connecting seat 9 of the spacing kicking block 1232 of connecting seat through cooperation chamfer 1233 to further carry out spacing support with connecting seat 9 is inboard, prevent to take place the friction between the spacing kicking block 1232 of connecting seat and the connecting seat 9 is inboard. Further promoted the joint strength between connecting seat supporting shoe 124 and the station fixed block 122 through interact between fixed fixture block 1225 and fixed slot 1242, further promoted the fixed action to further carry out spacing support with connecting seat 9, promote the stability in the connecting seat 9 transportation process, prevent rotatory in-process departure. Form the connecting seat through two connecting seats support gag lever post 1241 and two between removing stopper spacing groove 1224 and place neutral gear 125, connecting seat 9 is placed in the connecting seat places neutral gear 125, supports gag lever post 1241 through two removal stoppers 1223 and two connecting seats and carries on spacingly with the inside and outside both sides and the left and right sides of connecting seat 9, prevents connecting seat 9 roll-off, promotes the stable support nature effect of connecting seat 9 in neutral gear 125 is placed to the connecting seat.

As shown in fig. 1 and 7, the first row needle feeding assembly device 3 and the second row needle feeding assembly device 5 are identical in structure; the first row needle feeding and assembling device 3 comprises a first row needle feeding and assembling bracket 30, a first row needle feeding and conveying assembly 31, a first row needle cutting assembly 32 and a first row needle assembling assembly 33; the first row needle feeding assembly support 30 is arranged on the rack, the first row needle feeding conveying assembly 31, the first row needle cutting assembly 32 and the first row needle assembly 33 are sequentially arranged on the first row needle feeding assembly support 30 in parallel from a feeding direction to a discharging direction in an aligned mode, and the first row needle feeding conveying assembly 31 is used for conveying a first row needle material belt to be fed and conveyed to the first row needle cutting assembly 32; the first row needle cutting assembly 32 is used for cutting the fed first row needle material belt into specified small sections; the first row needle assembly 33 is used to insert the first row needle material belt cut into small sections into the connecting seat.

As shown in fig. 8, the first row of needle feed conveyor assembly 31 includes a first row of needle feed carrier tape, a first row of needle conveyor carriage 311, a first row of needle conveyor motor 312, and a first row of needle conveyor sprocket 313; the discharge end of first row needle feeding carrier tape links up with the feed end of first row needle carriage 311 mutually, is provided with the first row needle conveyer trough 3111 of level setting on the first row needle carriage 311, carries first row needle material area to the first row needle conveyer trough 3111 on the first row needle carriage 311 in through first row needle feeding carrier tape. The front side that is located first row of needle conveyer trough 3111 is provided with first row of needle kink conveyer trough 3112, and the kink that makes on the first row of needle group 100 better through first row of needle kink conveyer trough 3112 is convenient for is placed, and the while is also better carries on spacingly with first row of needle group 100, promotes the accuracy of carrying.

The front side that is located first row of needle kink conveyer trough 3112 is provided with first row of needle material area conveyer trough 3113, is convenient for make the row needle waste material area 102 on the first row of needle group 100 carry through first row of needle material area conveyer trough 3113, arranges needle waste material area 102's row needle locating hole 103 simultaneously and is located first row needle material area conveyer trough 3113 top, is convenient for advance line location and carries, promotes the convenience and the accuracy of carrying. First row of needle material area conveyer trough 3113, first row of needle kink conveyer trough 3112 and first row of needle conveyer trough 3111 parallel arrangement, be convenient for better cooperate the transport with first row of needle material area. Be provided with first row of needle conveying apron 314 on first row of needle conveying support 311, carry apron 314 to be convenient for carry on spacingly with the upper portion in first row of needle material area through first row of needle, prevent to lead to first row of needle material area to pile up or block up when carrying, promote the smoothness degree of whole transport, also protected first row of needle material area simultaneously. The left and right sides that apron 314 was carried to first row needle is provided with supplementary guide pulley groove 3141, transversely is provided with supplementary guide pulley 3142 through supplementary guide pulley pivot in every supplementary guide pulley groove 3141, and the bottom of supplementary guide pulley 3142 is located first row needle material area conveyer trough 3113 top and cooperatees with first row needle material area, is convenient for further promote the transport smoothness nature in first row needle material area through two supplementary guide pulleys 3142, further promotes whole conveying efficiency. A cover plate U-shaped groove 3143 is arranged in the middle of the front part of the first row of needle conveying cover plate 314; first row of needle conveyor motor 312 sets up on first row needle feeding equipment support 30 through first row needle conveyor motor support 3121, and first row needle conveyor motor 312 is located first row needle conveyor support 311 top, first row needle transport fluted disc 313 is connected with first row needle conveyor motor 312, first row needle transport fluted disc 313 lower extreme passes apron U type groove 3143 and is located first row needle material area conveyer trough 3113, it cooperatees with first row needle transport fluted disc 313 to be convenient for better through apron U type groove 3143, cooperate through the dogtooth on first row needle transport fluted disc 313 and the waste hole on the first row needle material area simultaneously, be convenient for carry out orderly accurate transport with first row needle material area, promote whole location accuracy nature and the smoothness nature of carrying.

During operation, first row needle material area is carried to first row needle conveyer trough 3111 on first row needle conveying support 311 in through first row needle feeding carrier band to make the kink on first row needle group 100 be located first row needle kink conveyer trough 3112, make row needle waste material area 102 on first row needle group 100 be located first row needle material area conveyer trough 3113, it cooperatees with the waste hole on first row needle material area to drive the dogtooth that first row needle carried fluted disc 313 through first row needle conveyor motor 312, thereby it carries out orderly horizontal transport to drive first row needle material area.

Through the fine solution of first row needle feeding conveyor assembly 31 in row needle material area transportation process, unable fine will arrange the needle material area spacing on transfer passage to make row needle material area remove in transportation process, and then make row needle material area fold or pile up the problem on transfer passage.

Through the first row of needle kink conveyer trough 3112 on the first row of needle feeding conveyor assembly 31 be convenient for the better kink that makes on the first row of needle group 100 place, also better carry on first row of needle group 100 spacing simultaneously, promote the accuracy of carrying. Be convenient for make row needle waste material area 102 on the first row of needle group 100 carry through first row needle material area conveyer trough 3113, arrange needle waste material area 102's row needle locating hole 103 simultaneously and be located first row needle material area conveyer trough 3113 top, be convenient for carry out the location, promote the convenience and the accuracy of carrying. First row of needle material area conveyer trough 3113, first row of needle kink conveyer trough 3112 and first row of needle conveyer trough 3111 parallel arrangement, be convenient for better cooperate the transport with first row of needle material area. Through apron U type groove 3143 be convenient for better and first row of needle transport fluted disc 313 cooperate, cooperate through the dogtooth on first row of needle transport fluted disc 313 and the waste material hole on the first row of needle material area simultaneously, be convenient for carry out orderly accurate transport with first row of needle material area, promote whole location accuracy nature and the smoothness nature of carrying.

As shown in fig. 9, the first row pin cutting assembly 32 includes a cutting engagement bracket 321, a cutting engagement block 322, a cutting block 323, a cutting press bar bracket 324, a cutting press bar 325, and a cutting press bar jacking cylinder 326. The feed end of the cutting and connecting support 321 is connected with the discharge end of the first row of needle conveying support 311, and the first row of needle material belts are conveyed to the cutting and connecting support 321 through the first row of needle feeding and conveying assembly 31. The front side and the rear side of the cutting and connecting bracket 321 are respectively and longitudinally provided with a cutting and connecting block groove 3211 and a cutting block groove 3212; the cutting connection block 322 and the cutting block 323 are respectively positioned in the cutting connection block groove 3211 and the cutting block groove 3212, and the cutting connection block 322 is positioned below the cutting block 323; the cutting connection block 322 is connected with a first row of needle bending part conveying groove 3112 on the first row of needle feeding conveying assembly 31, and the cutting connection block 322 is used for supporting a first row of needle material belts to be conveyed. The cutting block 323 is used to cut the first row of needle material strips. The lower parts of the cutting connecting block 322 and the cutting block 323 are respectively provided with a first limiting round hole 3221 and a second limiting round hole 3231; the cutting connection block 322 and the cutting block 323 are limited by a cutting limit rod 327; the front and back directions of the cutting limiting rod 327 are arranged on the cutting connection support 321, the cutting limiting rod 327 penetrates through the first limiting circular hole 3221 and the second limiting circular hole 3231, the cutting connection block 322 and the cutting block 323 are highly positioned through the cutting limiting rod 327, and subsequent better cutting matching is facilitated. The diameter of the cutting limiting rod 327 is smaller than the first limiting circular hole 3221 and the second limiting circular hole 3231, so that the cutting joining block 322 and the cutting block 323 have a certain descending space, the function of cutting the first row of needle material belts is achieved, meanwhile, the cutting joining block 322 and the cutting block 323 are buffered in the cutting process, and the cutting joining block 322 and the cutting block 323 are prevented from being collided with the cutting joining support 321. The area of the upper part of the cutting connection block 322 is larger than that of the cutting connection block groove 3211, so that the cutting connection block 322 is prevented from dropping, and better connection conveying is facilitated. The cutting and connecting conveying channel 3222 used for conveying the first row of needle material strips is arranged on the cutting and connecting block 322, the first row of needle material strips can be better limited and conveyed through the cutting and connecting conveying channel 3222, and the conveying limiting effect is improved. Be located to cut linking up transfer passage 3222 rear side and be provided with the first row needle that is used for first row needle material to take to support and cut support lug 3223, cut through first row needle and support lug 3223 and be convenient for better support first row needle 101 on first row needle group 100, promote the supporting effect in the transportation, be convenient for carry on leveling. A waste material supporting and cutting and connecting waste material groove 3224 for supporting the waste material of the first row of needle material belt is arranged on the front side of the cutting and connecting conveying channel 3222, the waste material belt 102 on the first row of needle group 100 is conveniently supported through the cutting and connecting waste material groove 3224, and the waste material belt 102 is limited. The upper area of the cutting block 323 is larger than the area of the cutting block groove 3212, so that the cutting block 323 can be prevented from falling off, and better cutting can be achieved. The bottom of the front end of the cutting block 323 is inclined; and the discharge end that cuts piece 323 front end bottom is less than the feed end of front end bottom, cuts first row needle material area one by one and arranges needle group 100 through the discharge end that cuts piece 323, the follow-up effectual equipment of being convenient for, the form is convenient for effectively more swift through the slope cuts first row needle material area, promote holistic cutting efficiency and promote the accurate nature of cutting the in-process, prevent to cut round trip movement always through the cylinder, lead to the deviation in the precision. The bottom that is located to cut and links up piece 322 and cut piece 323 all is provided with supporting spring, supports through supporting spring to cutting links up piece 322 and the bottom that cuts piece 323 to be convenient for when cutting better decline cushion, later subsequent answer normal position promotes whole smoothness nature of cutting. Cut depression bar support 324 and set up on first row needle feeding equipment support 30 and be located and cut the front side that links up support 321, cut the middle part of depression bar 325 and articulate at the top of cutting depression bar support 324, and cut the depression bar 325 left and right sides direction slope setting, set up through the slope and further reduce occupation space. The cross section of the cutting pressure lever 325 is L-shaped; the cutting pressure rod jacking cylinder 326 is arranged on the first row needle feeding assembly support 30 and is positioned on the front side of the cutting pressure rod support 324, the moving part of the cutting pressure rod jacking cylinder 326 is positioned below the front end of the long rod of the cutting pressure rod 325, and the cutting pressure rod jacking cylinder 326 is matched with the front end of the cutting pressure rod 325; the bottom of the rear end of the short rod of the cutting pressure rod 325 is positioned above the cutting block 323, and the cutting pressure rod 325 is driven by the cutting pressure rod jacking cylinder 326 to press the cutting block 323, so that the cutting block 323 descends to cut the first row of needle material strips.

During operation, first row of needle material area is carried to cutting linking up transfer passage 3222 on cutting linking piece 322, drives through cutting depression bar jacking cylinder 326 and cuts the depression bar 325 and press to cutting piece 323, makes cutting piece 323 descend and make cutting piece 323 bottom discharge end press to cutting the first row of needle material area on linking piece 322 through the spacing round hole 3231 of second and cut the clearance between gag lever post 327, also makes simultaneously to cut linking piece 322 and descend certain space, finally becomes first row of needle material area through cutting piece 323 bottom discharge end and cuts into first row of needle group 100 one by one.

Through the fine solution of first row needle cutting assembly 32 at row needle material area cutting in-process, current device is direct to be cut off one section row needle material area through cutting off the cylinder, and in the in-process of cutting off like this, especially the cylinder makes a round trip the amplitude of rise is great, causes row needle material area to remove easily and leads to cutting the inaccurate problem in position.

The cutting limiting rod 327 on the first pin header cutting assembly 32 penetrates through the first limiting circular hole 3221 and the second limiting circular hole 3231, the cutting connection block 322 and the cutting block 323 are highly positioned by the cutting limiting rod 327, and subsequent better cutting matching is facilitated. A certain descending space is reserved between the cutting connecting block 322 and the cutting block 323, so that the function of cutting the first row of needle material belts is achieved, meanwhile, certain buffering is provided for the cutting connecting block 322 and the cutting block 323 in the cutting process, and hard collision between the cutting connecting block 322 and the cutting block 323 and the cutting connecting support 321 is prevented. Cut through the discharge end of cutting block 323 and cut first row needle material area one by one first row needle group 100, the follow-up effectual equipment of being convenient for is convenient for more effectively swift cut first row needle material area through the slope form, promotes holistic cutting efficiency and promotes the accurate nature of cutting the in-process, prevents through cylinder round trip movement always, leads to the deviation in the precision. The bottoms of the cutting connecting block 322 and the cutting block 323 are supported by the supporting springs, so that better descending is buffered when cutting is performed, and later subsequent recovery positions are improved, and the smoothness of overall cutting is improved.

As shown in fig. 10, the first pin header assembling unit 33 includes a first pin header assembling bracket 331, a first pin header assembling moving plate 332, a first pin header assembling cylinder 333, a first pin header clamping hinge plate 334, and a first pin header clamping cylinder 335; first row needle equipment support 331 sets up on first row needle feeding equipment support 30, and the feed end of first row needle equipment support 331 links up with the discharge end of first row needle cutting components 32, and a first row needle group 100 is carried to first row needle equipment support 331 on by first row needle cutting components 32. The first row needle assembling support 331 is provided with an assembling moving groove 3311, the first row needle assembling moving plate 332 is located in the assembling moving groove 3311, the first row needle assembling moving plate 332 is convenient to move through the assembling moving groove 3311, and meanwhile, the first row needle assembling moving plate 332 is limited in the left and right directions, so that the overall moving effect and the limiting effect are improved. The front end of the first pin header assembly moving plate 332 is connected with the moving part of the first pin header assembly cylinder 333, and the first pin header assembly moving plate 332 is driven by the first pin header assembly cylinder 333 to move back and forth for positioning. The rear portion of the first row of needle assembling moving plate 332 is provided with a first row of needle assembling joining block 3321, the first row of needle assembling joining block 3322 is provided with a first row of needle assembling joining groove 3322, the first row of needle assembling joining block 3321 is convenient to better join with the first row of needle cutting assembly 32, and the first row of needle assembling joining block 3321 is convenient to make the first row of needle assembly 100 better enter the first row of needle assembling joining groove 3322. The rear part of the first row needle clamping hinged plate 334 is hinged with the rear part of the first row needle assembly moving plate 332, and the rear end of the first row needle clamping hinged plate 334 is provided with a first row needle pressing plate 3341; the first pin header pressing plate 3341 is matched with the first pin header assembling and connecting block 3321 to clamp the pin header waste tape 102 on the first pin header 100, so that the pin header can be stably and accurately inserted into the first pin header groove 91 of the connecting base 9. The first row needle clamping cylinder 335 is arranged in front of the first row needle clamping hinge plate 334, a moving part of the first row needle clamping cylinder 335 penetrates through the first row needle clamping hinge plate 334 to be matched with the first row needle assembly moving plate 332, the moving part of the first row needle clamping cylinder 335 moves to enable the front part of the first row needle clamping hinge plate 334 to rotate upwards and jack up, so that the first row needle pressing plate 3341 at the rear end rotates downwards, and the first row needle assembly connecting block 3321 is matched with the first row needle assembly connecting block 3321 to clamp the row needle waste material belt 102 on the first row needle assembly 100, the overall clamping effect is improved, the first row needle assembly 100 is prevented from falling on the way when moving, the clamping stability is improved, and meanwhile the smoothness of overall product processing is improved.

During operation, the first row of needle group 100 after cutting is conveyed to the assembly moving groove 3311 of the first row of needle assembly bracket 331 one by one, the moving part of the first row of needle clamping cylinder 335 drives the front part of the first row of needle clamping hinged plate 334 to rotate upwards and jack up, so that the first row of needle clamping plate 3341 at the rear end rotates downwards, and then the first row of needle assembly connecting block 3321 is matched with the needle waste material belt 102 on the first row of needle group 100 to clamp the needle waste material belt 102, after clamping, the first row of needle assembly cylinder 333 drives the first row of needle group 100 clamped on the first row of needle assembly moving plate 332 to assemble, and a plurality of first row of needles 101 on the first row of needle group 100 are inserted into the first row of needle groove 91 of the connecting base 9.

The in-process of inserting the connecting seat after pressing from both sides tightly is taken to row needle material through first row needle equipment subassembly 33 has been solved well, and present equipment only clips the row needle waste material area in row needle material area through the cylinder clamping jaw, and cylinder clamping jaw clamping dynamics can appear like this inadequately, leads to row needle material area to drop or can't be with the complete problem of inserting to the connecting seat of row needle on arranging the needle material area in the insertion process.

The first row needle assembly joint block 3321 on the first row needle assembly 33 facilitates better joint with the first row needle cutting assembly 32, and facilitates better entering of the first row needle assembly 100 onto the first row needle assembly joint groove 3322. The removal portion through first row of needle die clamping cylinder 335 removes the anterior upwards rotation jack-up that makes first row of needle clamp articulated slab 334, thereby make the rear end get first row of needle die clamping plate 3341 and rotate downwards, and then join in marriage with first row of needle equipment and grasp the row of needle waste material area 102 on the first row of needle group 100 with the cooperation of first row of needle equipment joint block 3321, promote whole tight effect of clamp, prevent that first row of needle group 100 from dropping on the way when removing, promote the smoothness nature that also promotes whole product processing when pressing from both sides tight stability.

As shown in fig. 1 and 11, the first pin header scrap removing device 4 and the second pin header scrap removing device 6 have the same structure; the first pin header scrap removing device 4 comprises a scrap removing bracket 41, a scrap removing and moving positioning assembly 42, a scrap removing driving assembly 43 and a scrap removing swinging assembly 44. The material removing bracket 41 is arranged on the rack, the material removing mobile positioning component 42 is positioned at the top of the material removing bracket 41, the material removing driving component 43 is arranged on the material removing mobile positioning component 42, and the material removing mobile positioning component 42 drives the material removing driving component 43 to perform mobile positioning; go material swing assembly 44 and go material drive assembly 43 and be connected, drive through going material drive assembly 43 and go material swing assembly 44 and be convenient for get rid of after carrying out the luffing motion with the row needle waste material area on the first row needle material area.

The material removing and moving positioning assembly 42 comprises a material removing and moving positioning plate 421 and a material removing and moving cylinder 422; the material removing and moving positioning plate 421 is movably matched with the material removing support 41, the material removing and moving cylinder 422 is connected with the front part of the material removing and moving positioning plate 421, and the material removing and moving assembly 44 on the material removing and moving positioning plate 421 is driven to move and position by the material removing and moving cylinder 422.

The material removing and moving assembly 43 comprises a material removing driving motor 431 and a driving rotating shaft sleeve 432; the material removing driving motor 431 is arranged on the material removing movable positioning plate 421 through a material removing driving motor bracket; the rotating shaft of the material removing driving motor 431 is connected with the driving rotating shaft 441 through a driving rotating shaft sleeve 432, and the material removing swinging assembly 44 is driven to rotate and drive through the material removing driving motor 431. A needle-arranging waste material belt discharging channel 45 is arranged at the rear part of the material-removing lifting fixing frame 442; a pin-arranging waste material belt collecting box 46 is arranged at the discharging end of the waste material discharging channel 45.

As shown in fig. 11, the material-removing swinging assembly 44 includes a driving shaft 441, a material-removing lifting fixing frame 442, a material-removing lifting plate 443 and a material-removing matching block 444; the driving rotating shaft 441 is connected with the material removing driving assembly 43, the cam rod 4411 is eccentrically arranged in the middle of the driving rotating shaft 441, the cam rod 4411 can move up and down relative to the driving rotating shaft 441 when the cam rod 4411 is eccentrically arranged to rotate, so that the needle discharge waste belt 102 can swing up and down, the needle discharge waste belt 102 is loosened, and the subsequent material removing cylinder 134 can directly cut the needle discharge waste belt 102. The material removing lifting fixing frame 442 is arranged at the rear part of the material removing moving and positioning component 42; the driving rotating shaft 441 is arranged on the material removing lifting fixing frame 442 through a bearing; a material removing lifting plate groove 4421 is formed in the rear part of the material removing lifting fixing frame 442; the material-removing lifting plate 443 is positioned in the material-removing lifting plate groove 4421; the material removing lifting plate 443 is provided with a track-type swing through hole 4431, and the track-type swing through hole 4431 is convenient to be better matched with the cam rod 4411, so that the material removing lifting plate 443 swings to a relatively small extent, if the swing is too large, the inserted first row of needles 100 and the inserted second row of needles 200 may swing out together with the needle discharging waste material belt 102, and then the needle discharging waste material belt is separated from the connecting seat 9, and the whole waste material removing process fails. The cam rod 4411 on the driving rotating shaft 441 penetrates through the material-removing lifting fixing frame 442 and is located in the swinging through hole 4431, the cam rod 4411 is matched with the swinging through hole 4431 to better drive the material-removing lifting plate 443 to lift and swing, and the connection strength between the originally connected needle-discharging waste material belt 102 and the needle-discharging 101 is reduced after the needle-discharging waste material belt 102 swings up and down for multiple times, so that the needle-discharging waste material belt 102 is conveniently and better removed in the follow-up process, and the rapidness and effectiveness of waste material removal are improved. The phenomena that the needle discharge waste tape 102 is cut continuously and the needles 101 are removed together are prevented. The material removing matching block 444 is arranged at the top of the material removing lifting plate 443, a needle discharging waste material belt material removing groove 4441 is horizontally arranged in the middle of the material removing matching block 444, and the needle discharging waste material belt 102 is located in the needle discharging waste material belt material removing groove 4441 to be limited when being cut. Arrange needle waste material area and remove and be provided with row needle waste material area on the silo 4441 and insert through-hole 4442, insert through row needle waste material area 10 and remove silo 4441 to row needle waste material area and get into and insert through-hole 4442 and be convenient for better drive row needle waste material area 102 and swing, promote the luffing motion effect, be convenient for arrange needle waste material area 102 better and arrange needle 101 between the connectivity reduction, be convenient for follow-up better will arrange needle waste material area 102 and cut off. The lower part of going material cooperation piece 444 is provided with cooperation inclined plane 4443, prevents through cooperation inclined plane 4443 that to go material cooperation piece 444 and the part in the outside from contacting the collision, also is convenient for link up the needle waste material area 102 that will arrange better simultaneously, promotes whole material effect of getting.

When the device works, the material removing moving cylinder 422 on the material removing moving positioning component 42 drives the material removing lifting fixing frame 442 on the material removing moving positioning plate 421 to move to the outer side of the needle discharging connecting seat assembly on the indexing disk rotating device 1, so that the needle discharging waste material belt 102 on the needle discharging connecting seat assembly is inserted into the needle discharging waste material belt material removing groove 4441 on the material removing matching block 444 and extends into the needle discharging waste material belt inserting through hole 4442, the rotating shaft of the material removing driving motor 431 drives the cam rod 4411 on the driving rotating shaft 441 to eccentrically rotate through the driving rotating shaft sleeve 432, and the cam lever 4411 is matched with the swing through hole 4431 on the material removing lifting plate 443, so that the material removing lifting plate 443 drives the needle waste material belt 102 of the material removing matching block 444 to swing up and down to separate the needle waste material belt 102 from the first row of needles, and receives pin waste tape 102 along pin waste tape receiving channel 45 into pin waste tape receiving magazine 46.

Remove waste material device 4 fine solution through first row needle and cut off the in-process at the row needle waste material area that will arrange the needle material on the area, current mode drives the cutting off cutter through the cylinder and moves down to cut off, because the long-time work of cylinder can lead to the shift position precision to appear the deviation, can appear that the cutting off cutter moves down the problem of too deep or not reaching the position.

Cam pole 4411 eccentrically arranged in first row needle waste removing device 4 can realize that cam pole 4411 moves up and down relative to driving rotating shaft 441 during rotation, so that needle waste strip 102 swings up and down, needle waste strip 102 is loosened, and subsequent needle waste strip 102 is directly cut by material removing cylinder 134. The runway-type swing through hole 4431 is convenient to better match with the cam rod 4411, so that the material removing lifting plate 443 can swing relatively slightly, if the swing is too large, the inserted first row needles 100 and the inserted second row needles 200 can swing out together with the needle discharging waste material belt 102, and then the needles are separated from the connecting base 9, and the whole waste material removing failure is caused. Insert to row needle waste material area through row needle waste material area 10 and remove silo 4441 and get into to row needle waste material area and insert through-hole 4442 and be convenient for better drive row needle waste material area 102 and swing, promote the luffing motion effect, be convenient for arrange needle waste material area 102 better and arrange the connectivity between the needle 101 and reduce, be convenient for follow-up better will arrange needle waste material area 102 and cut off.

As shown in fig. 1 and 12, the correcting device 7 includes a correcting bracket 71, a correcting moving plate 72, a correcting moving cylinder 73, and a correcting press block 74; the correcting bracket 71 is arranged on the frame; the correction moving plate 72 is in sliding fit with the top of the correction bracket 71; the correcting moving cylinder 73 is arranged on the correcting bracket 71, the moving part of the correcting moving cylinder 73 is connected with the correcting moving plate 72, and the correcting press block 74 is arranged at the front end of the correcting moving plate 72; the cross section of the correcting press block 74 is in a convex shape.

During operation, the correcting press block 74 on the correcting moving plate 72 is driven by the correcting moving cylinder 73 to move towards the pin header connecting seat assembly on the index plate rotating device, so that the pins on the first pin header group 100 and the second pin header group 200, which are partially not completely inserted, are better inserted, and the raised head of the correcting press block 74 is pushed against the bent part of the pins during correction of the correcting press block 74, so that the first pin header group 100 and the second pin header group 200 can be better pushed into and corrected.

The correction device 7 well solves the problems that the existing equipment finishes integral assembly after the needle waste material belt is cut, and correction is not carried out after the needle waste material belt is cut; thereby lead to accomplishing too not hard up between the row's needle of equipment and the connecting seat, appear the untight phenomenon of both equipments.

The use method of the production equipment of the double-pin connector sequentially comprises the following steps:

feeding a connecting seat: the connecting base is conveyed to a connecting base connecting groove 251 on a connecting base feeding connecting block 25 through a connecting base feeding vibrator 21, the connecting base feeding connecting block 25 on a connecting base feeding connecting moving block 23 is driven to move to a specified position in the direction of the dividing disc rotating device 1 through a connecting base feeding moving cylinder 24, and the connecting base 9 is clamped and transferred to the dividing disc rotating device 1 by descending into a connecting base grabbing groove 252 through transfer clamping on a connecting base feeding transferring component 26;

(II) assembling a first row of needles: the connecting seat 9 is conveyed to the corresponding outer side of the first row of needle feeding assembly device 3 through the dividing disc rotating device 1; carry to first row needle conveying support 311 through first row needle feeding carrier band through first row needle material area on, it cooperatees with the waste hole on the first row needle material area to drive first row needle material area and carry out orderly level through first row needle conveying motor 312 and carry out and carry to cut on the link piece 322, drive through cutting depression bar jacking cylinder 326 and cut the depression bar 325 and press to cutting the piece 323, make through spacing round hole 3231 of second and cut the clearance between the gag lever post 327 cut the piece 323 decline and make cutting the piece 323 bottom discharge end press to cutting the first row needle material area on the link piece 322, cut into first row needle group 100 one by one through cutting piece 323 bottom discharge end. The first row of needle groups 100 after being cut are conveyed to a first row of needle assembly bracket 331 one by one, the moving part of a first row of needle clamping cylinder 335 drives the front part of a first row of needle clamping hinged plate 334 to rotate upwards and jack up, so that a first row of needle clamping plate 3341 at the rear end rotates downwards, the first row of needle clamping plate 3341 is matched with a first row of needle assembly connecting block 3321 to clamp a row of needle waste material belt 102 on the first row of needle groups 100, and after clamping, the first row of needle assembly cylinder 333 drives the first row of needle groups 100 clamped on the first row of needle assembly moving plate 332 to be assembled into a first row of needle groove 91 of a connecting seat 9;

(III) removing waste materials by the first row of needles: the index plate rotating device 1 conveys the pin header connecting seat assembly to the outer side corresponding to the first pin header scrap removing device 4; the material removing moving cylinder 422 on the material removing moving positioning component 42 drives the material removing lifting fixing frame 442 on the material removing moving positioning plate 421 to move to the outer side of the needle discharging connecting seat assembly on the indexing disk rotating device 1, so that the needle discharging waste material belt 102 on the needle discharging connecting seat assembly is inserted into the needle discharging waste material belt removing groove 4441 on the material removing matching block 444 and extends into the needle discharging waste material belt inserting through hole 4442, the rotating shaft of the material removing driving motor 431 drives the cam rod 4411 on the rotating shaft 441 to eccentrically rotate, the cam rod 4411 is matched with the swinging through hole 4431 on the material removing lifting plate 443, the material removing lifting plate 443 drives the needle discharging waste material belt 102 of the material removing matching block 444 to swing up and down to separate the needle discharging waste material belt 102 from the first needle discharging, and the needle discharging waste material belt 102 is taken into the needle discharging waste material belt receiving box 46 along the needle discharging waste material belt discharging channel 45;

and (IV) assembling a second row of needles: the second row of needles are assembled in the same assembling mode as the first row of needles;

(V) correcting and discharging: the pin header connecting seat assembly is conveyed to the corresponding outer side of the correcting device 7 through the dividing disc rotating device 1; the correcting press block 74 on the correcting moving plate 72 is driven by the correcting moving cylinder 73 to move towards the needle arrangement connecting seat assembly on the index plate rotating device 1, so that the partial needles on the first needle arrangement group 100 and the second needle arrangement group 200 which are not completely inserted are completely inserted into the first needle arrangement groove 91 and the second needle arrangement groove 92 of the connecting seat 9, and the discharging device 8 conveys and discharges the finished product through the discharging transfer manipulator and the discharging conveyer belt.

Claims (9)

1. A pin header scrap removing device for producing a double-pin header connector is characterized by comprising a material removing bracket (41), a material removing mobile positioning assembly (42), a material removing driving assembly (43) and a material removing swinging assembly (44); the material removing support (41) is arranged on the rack, the material removing mobile positioning component (42) is positioned at the top of the material removing support (41), the material removing driving component (43) is arranged on the material removing mobile positioning component (42), and the material removing mobile positioning component (42) drives the material removing driving component (43) to perform mobile positioning; the material removing swing assembly (44) is connected with the material removing driving assembly (43), and the material removing swing assembly (44) is driven by the material removing driving assembly (43) to swing the needle arranging waste material belt on the first needle arranging material belt up and down so as to be conveniently removed; the material removing swing assembly (44) comprises a driving rotating shaft (441), a material removing lifting fixing frame (442), a material removing lifting plate (443) and a material removing matching block (444); the driving rotating shaft (441) is connected with the material removing driving assembly (43), and the middle part of the driving rotating shaft (441) is eccentrically provided with a cam rod (4411); the material removing lifting fixing frame (442) is arranged at the rear part of the material removing moving positioning component (42); the driving rotating shaft (441) is arranged on the material removing lifting fixing frame (442) through a bearing; a material removing lifting plate groove (4421) is formed in the rear part of the material removing lifting fixing frame (442); the material removing lifting plate (443) is positioned in the material removing lifting plate groove (4421); the material removing lifting plate (443) is provided with a track-type swing through hole (4431); a cam rod (4411) on the driving rotating shaft (441) penetrates through the material passing lifting fixing frame (442) and is positioned in the swinging through hole (4431); the material removing matching block (444) is arranged at the top of the material removing lifting plate (443), and the middle part of the material removing matching block (444) is horizontally provided with a pin arranging waste material belt material removing groove (4441).

2. The pin scrap remover for producing a double pin connector as claimed in claim 1, wherein the pin scrap tape stripper groove (4441) is provided with a pin scrap tape insertion through hole (4442).

3. The pin header scrap removing device for producing a double pin header connector as claimed in claim 1, wherein the lower portion of the material removing fitting block (444) is provided with a fitting slope (4443).

4. The pin header scrap removing device for producing the double pin header connector as recited in claim 1, wherein the blanking moving positioning assembly (42) comprises a blanking moving positioning plate (421) and a blanking moving cylinder (422); the material removing and moving positioning plate (421) is movably matched and arranged on the material removing support (41), and the material removing and moving cylinder (422) is connected with the front part of the material removing and moving positioning plate (421).

5. The pin header scrap removal apparatus for producing a double pin header connector as claimed in claim 1, wherein the material removal driving assembly (43) comprises a material removal driving motor (431) and a driving shaft sleeve (432); the material removing driving motor (431) is arranged on the material removing movable positioning plate (421) through a material removing driving motor bracket; the rotating shaft of the material removing driving motor (431) is connected with the driving rotating shaft (441) through a driving rotating shaft sleeve (432).

6. The pin header scrap removal apparatus for producing a double pin header connector as claimed in claim 1, wherein the pin header scrap removal passage (45) is provided at the rear of the stock removal elevating fixing frame (442).

7. The pin header scrap removal apparatus for producing a double pin header connector as claimed in claim 1, wherein a pin header scrap tape receiving magazine (46) is provided at the discharge end of the scrap blanking passage (45).

8. A pin header scrap removing method for a double pin header connector, characterized by using the pin header scrap removing apparatus for producing a double pin header connector according to claim 1; a material removing and moving cylinder (422) on a material removing and moving positioning component (42) drives a material removing lifting fixing frame (442) on a material removing and moving positioning plate (421) to move to the outer side of a pin arranging connecting seat assembly on an index plate rotating device, a pin arranging waste material belt (102) on the pin arranging connecting seat assembly is inserted into a pin arranging waste material belt material removing groove (4441) on a material removing matching block (444) and extends into a pin arranging waste material belt insertion through hole (4442), a rotating shaft of a material removing driving motor (431) drives a cam rod (4411) on a driving rotating shaft (441) to eccentrically rotate, the cam rod (4411) is matched with a swinging through hole (4431) on a material removing lifting plate (443), the material removing lifting plate (443) drives the pin arranging waste material belt (102) of the material removing matching block (444) to vertically swing so as to separate the pin arranging waste material belt (102) from a first pin arranging material and enable the pin arranging waste material belt (102) to be collected into a pin arranging waste material belt material collecting box (46) along a pin arranging waste material belt material discharging channel (45) of the ) And (4) the following steps.

9. Production equipment of a double-row-pin connector is characterized by comprising a rack and an index plate rotating device (1) arranged on the rack, a connecting seat feeding and transferring device (2), a first row-pin feeding and assembling device (3), a second row-pin feeding and assembling device (5), a second row-pin waste removing device (6), a correcting device (7), a discharging device (8) and a first row-pin waste removing device (4), wherein the first row-pin waste removing device (4) is the row-pin waste removing device for producing the double-row-pin connector in claim 1.

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