CN109411988B - Connector assembling equipment - Google Patents

Abstract

The invention discloses connector assembling equipment which comprises a transmission line, a first feeding mechanism, two first assembling mechanisms, a second assembling mechanism and a third assembling mechanism, wherein the transmission line comprises a first transmission rail; the first feeding mechanism is arranged at the starting end of the first conveying track and used for simultaneously conveying the two first rubber shells to the first conveying track; the two first assembling mechanisms are arranged at the side of the first conveying track at intervals and used for respectively inserting the contact pins into the two first rubber shells; the second assembling mechanism is arranged beside the first conveying track and used for respectively and one-by-one buckling and assembling the two second rubber shells on the two first rubber shells which are assembled by the contact pins; the third assembly mechanism is arranged beside the first conveying track and used for simultaneously inserting and assembling two semi-finished products obtained by assembling the first rubber shell, the contact pin and the second rubber shell into the two metal shells one by one. The invention can assemble two connectors on one production line, and greatly improves the production efficiency.

Description

Connector assembling equipment

Technical Field

The invention relates to the field of connector assembling equipment, in particular to connector assembling equipment.

Background

At present, the connector includes the contact pin and is used for the gluey shell of fixed contact pin, glues the shell and includes that first gluey shell and second glue the shell, and there is the jack on the first shell of gluing, supplies the contact pin to insert, and first gluey shell and second glue the shell lock, press from both sides the contact pin in the centre to fixed contact pin glues the shell and still overlaps to be equipped with metal casing, and one side of metal casing is uncovered, is connected with the separation blade that can overturn on the uncovered edge, and current equipment can only assemble one at every turn when the assembly connector, and efficiency is lower.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a connector assembling device which is used for solving the problem that the prior connector assembling device can only assemble one connector at a time in each production line.

One of the purposes of the invention is realized by adopting the following technical scheme:

a connector assembling device comprises a transmission line, a first feeding mechanism, two first assembling mechanisms, a second assembling mechanism and a third assembling mechanism, wherein the transmission line comprises a first transmission rail; the first feeding mechanism is arranged at the starting end of the first conveying track and used for simultaneously conveying the two first rubber shells to the first conveying track; the two first assembling mechanisms are arranged beside the first conveying track at intervals and used for respectively inserting the contact pins into the two first rubber shells; the second assembling mechanism is arranged beside the first conveying track and used for respectively and one-by-one buckling and assembling the two second rubber shells on the two first rubber shells which are assembled by the contact pins; and the third assembling mechanism is arranged beside the first conveying track and used for simultaneously and respectively inserting and assembling two semi-finished products obtained by assembling the first rubber shell, the contact pin and the second rubber shell into the two metal shells one by one.

Furthermore, first feed mechanism includes first material loading spare and transfer mechanism, first material loading spare is used for sending a plurality of first shell of glue to first transfer track side, transfer mechanism is used for simultaneously with two the first shell of glue from first material loading spare transfer to on the first transfer track.

Furthermore, the transfer mechanism comprises a first pushing mechanism and a second pushing mechanism, the first pushing mechanism is used for pushing two first rubber shells on the first feeding part to the second pushing mechanism at the same time along the width direction of the first conveying track, and the second pushing mechanism is used for pushing two first rubber shells to the first conveying track at the same time along the conveying direction of the first conveying track.

Furthermore, first assembly device includes second material loading spare and first equipment mechanism that shifts, the second material loading spare is used for delivering to the contact pin first conveying track side, first equipment mechanism that shifts is used for transferring the contact pin from the second material loading spare to on the first conveying track and with first gluey shell equipment.

Furthermore, first transfer equipment mechanism includes third push mechanism and fourth push mechanism, third push mechanism be used for along orbital direction of transfer of first transfer will the contact pin is followed second feed mechanism delivers to on the fourth push mechanism, fourth push mechanism is used for along orbital width direction of first transfer will the contact pin push into in the first gluey shell.

Furthermore, the second assembly mechanism comprises a third feeding part and a second transfer assembly mechanism, the third feeding part is used for simultaneously conveying two second glue shells to the side of the first conveying track, and the second transfer assembly mechanism is used for simultaneously transferring the two second glue shells from the second feeding part to the first conveying track and respectively assembling the two second glue shells with the two first glue shells.

Further, the second transfer and assembly mechanism comprises an absorbing part, a fifth pushing mechanism and a sixth pushing mechanism, the absorbing part is arranged on the sixth pushing mechanism, the sixth pushing mechanism is connected with the fifth pushing mechanism, the absorbing part is used for grabbing the second rubber shell and buckling the second rubber shell on the first rubber shell, the fifth pushing mechanism is used for driving the sixth pushing mechanism to reciprocate along the width direction of the first conveying track, and the sixth pushing mechanism is used for driving the absorbing part to move up and down.

Furthermore, the transmission line further comprises a second conveying track staggered with the first conveying track, the third assembling mechanism comprises a fourth feeding part and a third transferring and assembling mechanism, the fourth feeding part is used for simultaneously conveying two metal shells to the second conveying track, and the third transferring and assembling mechanism is used for simultaneously transferring two semi-finished products from the first conveying track to the second conveying track and respectively assembling the semi-finished products with the metal shells one by one.

Further, the second transfer and assembly mechanism comprises an eighth pushing mechanism, a turnover mechanism and a ninth pushing mechanism, the ninth pushing mechanism is used for pushing the two first rubber shells to the turnover mechanism along the width direction of the first conveying track, the eighth pushing mechanism is used for pushing the two first rubber shells to the turnover mechanism along the conveying direction of the first conveying track, the turnover mechanism is used for rotating the first rubber shells so that the first rubber shells are vertically placed after being horizontally placed, the turnover mechanism is provided with two first accommodating grooves used for accommodating the first rubber shells, and the ninth pushing mechanism is used for pushing the two first rubber shells to the metal shell one by one.

Further, the connector assembling apparatus further includes a transfer boxing mechanism for transferring the connectors from the second transfer rail to a containing plate having a plurality of containing lattices.

Compared with the prior art, the invention has the beneficial effects that: be equipped with on first transmission track one side and be used for simultaneously delivering to the first feed mechanism on the first transmission track with two first shells of gluing, the interval is equipped with two and is used for inserting two respectively with the contact pin first assembly mechanism in the first shell of gluing, still is equipped with and is used for simultaneously gluing two second and glues second assembly mechanism on two first shells of gluing of accomplishing the contact pin equipment one by one lock respectively and be used for simultaneously gluing two by first shell of gluing, contact pin and second and glue half-finished product that the shell assembly obtained and insert the third group assembly mechanism in two metal casing card one by one respectively for can assemble two connectors on a production line, production efficiency improves greatly.

Drawings

Fig. 1 is a schematic structural diagram of a connector assembling apparatus according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

FIG. 4 is an enlarged view of a portion of FIG. 1 at C;

FIG. 5 is an enlarged view of a portion of FIG. 1 at D;

fig. 6 is a schematic structural view of another angle of a connector assembling apparatus according to an embodiment of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 6 at E;

FIG. 8 is a schematic view of the connector;

fig. 9 is an exploded view of fig. 8.

In the figure:

a first rubber case 20, a pin 30, a second rubber case 40, a metal shell 50, a first conveying track 10, a second conveying track 20, a first vibration plate 11, a first guide rail 12, a first pushing mechanism 13, a second pushing mechanism 14, a third pushing mechanism 21, a third air cylinder 211, a third pushing member 212, a fourth pushing mechanism 22, a fourth air cylinder 221, a fourth pushing member 222, a turntable 231, a second guide rail 232, a second assembling mechanism 3, a third guide rail 311, a fifth pushing mechanism 321, a sixth pushing mechanism 322, a first suction member 323, a first suction nozzle 324, a third assembling mechanism 4, a seventh pushing mechanism 41, an eighth pushing mechanism 42, a first turnover mechanism 43, a ninth pushing mechanism 44, a third accommodating groove 401, a third vibration plate 441, a fourth guide rail 442, an eleventh pushing mechanism 51, a twelfth pushing mechanism 52, a second 53, a tenth pushing mechanism 6, The cutting device comprises an up-and-down pushing mechanism 61, a horizontal pushing mechanism 6262, a pushing mechanism 71, a containing plate 72, a first cutting mechanism 8, a thirteenth cylinder 81, a first lever 82, a first supporting seat 83, a second cutting mechanism 9, a fourteenth cylinder 91, a second lever 92, a second supporting seat 93, a third cutting mechanism 10, a thirteenth cylinder 101, a third lever 102 and a third supporting seat 103.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict. Referring to fig. 1-9, a connector assembling apparatus includes a transmission line, a first feeding mechanism, two first assembling mechanisms, a second assembling mechanism 3 and a third assembling mechanism 4, the transmission line includes a first conveying rail 10, the first feeding mechanism is disposed at a start end of the first conveying rail 10, for simultaneously conveying two first rubber cases 20 onto the first conveying track 10, two first assembling mechanisms are arranged at the side of the first conveying track 10, for inserting the pins 30 into the two first rubber cases 20, respectively, the second assembling mechanism 3 is arranged at the side of the first conveying track 10, for simultaneously buckling and assembling the two second rubber cases 40 on the two first rubber cases 20 which finish the assembly of the contact pins 30 one by one, respectively, the third assembly mechanism 4 is arranged at the side of the first conveying track 10, the two semi-finished products assembled by the first rubber shell 20, the contact pin 30 and the second rubber shell 40 are respectively inserted into the two metal shells 50 one by one. So that two connectors are simultaneously assembled on one first conveying track 10, and the production efficiency is greatly improved.

Preferably, referring to fig. 2, the first feeding mechanism includes a first feeding member for feeding a plurality of first glue shells 20 to the side of the first conveying track 10, and a transferring mechanism for simultaneously transferring two first glue shells 20 from the first feeding member to the first conveying track 10.

Referring to fig. 1, the first feeding member includes a first vibrating plate 11 and a first guide rail 12 having one end connected to the other end of the first feeding member and located beside the first conveying rail 10.

Referring to fig. 2, the transfer mechanism includes a first pushing mechanism 13 and a second pushing mechanism 14, the first pushing mechanism 13 is configured to push two first plastic shells 20 on the first guide rail 12 to the second pushing mechanism 14 along the width direction of the first conveying rail 10, and the second pushing mechanism 14 is configured to push two first plastic shells 20 to the first conveying rail 10 along the conveying direction of the first conveying rail 10.

The second pushing mechanism 14 has two second receiving slots for receiving the first plastic shell 20.

Preferably, the first pushing mechanism 13 includes a first cylinder and a first pushing member, and the second pushing mechanism 14 includes a second cylinder and a second pushing member.

Preferably, referring to fig. 2 and 3, the first assembling mechanism includes a second feeding member for delivering the contact pin 30 to the side of the first conveying rail 10, and a first transferring and assembling mechanism for transferring the contact pin 30 from the second feeding member to the first conveying rail 10 and assembling with the first glue casing 20.

Preferably, the second feeding member includes a turntable 231 and a second guide rail 232 having one end connected to the turntable 231 and the other end located beside the first conveying rail 10. The pins 30 are wound around the first rotary plate 231, rotated with the rotary plate 231 and transferred onto the first transfer rail 10 under the guidance of the second guide rail 232.

Preferably, the first transferring and assembling mechanism includes a third pushing mechanism 21 and a fourth pushing mechanism 22, the third pushing mechanism 21 is configured to send the contact pins 30 from the second guide rail 232 to the fourth pushing mechanism 22 along the conveying direction of the first conveying track 10, and the fourth pushing mechanism 22 is configured to push the contact pins 30 into the first glue casing 20 along the width direction of the first conveying track 10. The first conveying track 10 conveys the two first plastic cases 20 to one of the first assembling mechanisms, the first assembling mechanism inserts the contact pin 30 into one of the first plastic cases 20, the first conveying track 10 continuously conveys the two first plastic cases 20 to the other first assembling mechanism, and the first assembling mechanism inserts the contact pin 30 into the other first plastic case 20.

The fourth pushing mechanism 22 has a third receiving slot 401 for receiving the pin 30.

Preferably, the third pushing mechanism 21 includes a third cylinder 211 and a third pushing member 212, and the fourth pushing mechanism 22 includes a fourth cylinder 221 and a fourth pushing member 222.

Preferably, referring to fig. 1 and fig. 4, the second assembling mechanism 3 includes a third feeding member and a second transferring and assembling mechanism, the third feeding member is configured to simultaneously convey two second glue shells 40 to the side of the first conveying track 10, and the second transferring and assembling mechanism is configured to simultaneously transfer two second glue shells 40 from the second feeding member to the first conveying track 10 and respectively assemble with two first glue shells 20.

The third feeding part comprises a second vibrating disk and two third guide rails 311, one end of each third guide rail is connected with the second vibrating disk, and the other end of each third guide rail is located beside the first conveying track 10.

The second shifts equipment mechanism and includes to inhale and gets piece, fifth push mechanism 321 and propelling movement sixth push mechanism 322, it locates to inhale the piece on the sixth push mechanism 322, sixth push mechanism 322 with fifth push mechanism 321 is connected, it is used for snatching the second and glues shell 40 to inhale to get the piece, fifth push mechanism 321 is used for following the width direction reciprocating motion of first transfer track 10, will sixth push mechanism 322 propelling movement extremely first transfer track 10 top, sixth push mechanism 322 is used for the drive to inhale and gets the piece, will it moves down to second transfer track 20 on.

Preferably, the first suction member 323 is provided at a lower end thereof with a first suction nozzle 324 for sucking the second rubber case 40.

Preferably, the fifth pushing mechanism 321 includes a fifth air cylinder and a fifth pushing member, and the sixth pushing mechanism 322 includes a sixth air cylinder and a sixth pushing member.

Preferably, referring to fig. 1 and 5, the conveying line further includes a second conveying rail 20 staggered from the first conveying rail 10, the second assembling mechanism 3 includes a fourth feeding mechanism and a third transferring and assembling mechanism, the fourth feeding mechanism is used for simultaneously conveying two metal shells 50 onto the second conveying rail 20, and the second transferring and assembling mechanism is used for simultaneously transferring two semi-finished products from the first conveying rail 10 onto the second conveying rail 20 and respectively assembling the two semi-finished products with the metal shells 50 one by one.

Preferably, the second feeding mechanism includes a third vibrating disk 441 and two fourth guide rails 442 having one end connected to the third vibrating disk 441 and the other end located beside the second conveying rail 20, and a seventh pushing mechanism 41 for pushing the metal shell 50 onto the second conveying rail 20.

Preferably, the second transferring and assembling mechanism includes an eighth pushing mechanism 42, a first turnover mechanism 43 and a ninth pushing mechanism 44, the eighth pushing mechanism 42 is configured to push two first plastic shells 20 to the turnover mechanism simultaneously along the conveying direction of the first conveying track 10, the first turnover mechanism 43 is configured to rotate the first plastic shells 20, the turnover mechanism has a third accommodating groove 401 for accommodating the first plastic shells 20, and the ninth pushing mechanism 44 is configured to push two first plastic shells 20 to the metal casing 50 one by one along the width direction of the first conveying track 10.

Preferably, the seventh pushing mechanism 41 includes a seventh cylinder and a seventh pusher, the eighth pushing mechanism 42 includes an eighth cylinder and an eighth pusher, and the ninth pushing mechanism 44 includes a ninth cylinder and a ninth pusher.

Preferably, referring to fig. 5, a tenth pushing mechanism 6 is further disposed on one side of the second conveying track 20, and is used for simultaneously pushing the blocking pieces of the two metal shells 50 to close the opening. The assembly of the connector is completed. The tenth pushing mechanism 6 includes an up-down pushing mechanism 61 that pushes up the shutter from below and a horizontal pushing mechanism that pushes the shutter tight.

Preferably, a second turnover mechanism 53 is further provided at one side of the second transfer rail 20 for turning the vertically arranged connector upside down and horizontally arranged.

Preferably, referring to fig. 1, a transfer boxing mechanism is further disposed on one side of the second conveying track 20 for transferring the connector from the second conveying track 20 to the accommodating plate 72, wherein the accommodating plate 72 has a plurality of rows of accommodating cells, and each row has a plurality of accommodating cells.

Preferably, the transfer-binning mechanism comprises a second suction member and a second transfer mechanism for moving the second suction member to be transferred from the second transfer rail 20 onto the receiving plate 72.

Preferably, the second transfer mechanism includes a second suction member, an eleventh pushing mechanism 51 for pushing along the conveying direction of the second conveying rail 20, and a twelfth pushing mechanism 52 for pushing along the up-down direction, the second suction member is disposed on the twelfth pushing mechanism 52, the twelfth pushing mechanism 52 is connected to the eleventh pushing mechanism 51, the second suction member is used for grabbing the connector, the eleventh pushing mechanism 51 is used for pushing the twelfth pushing mechanism 52 from the first conveying rail 10 to the position above the accommodating plate 72, and the second pushing mechanism 14 is used for moving the second suction member downward to the accommodating plate 72.

Preferably, the eleventh pushing mechanism 51 includes an eleventh air cylinder and an eleventh pushing member, the twelfth pushing mechanism 52 includes a twelfth air cylinder and a twelfth pushing member,

preferably, a second suction nozzle is provided at a lower end of the second suction member for sucking the connector.

Preferably, a pushing mechanism 71 is arranged below the accommodating plate 72, each row of accommodating grids is filled, and the pushing mechanism 71 pushes the accommodating plate 72 forward one grid.

Preferably, in order to protect one end of the contact pin 30, a first metal sheet is connected to one end of the contact pin 30, a first cutting mechanism 8 is disposed on one side of the first conveying rail 10, and a second cutting mechanism 9 is disposed at an outlet of the second guide rail 232 for cutting off the first metal sheet before the contact pin 30 enters the first transfer assembly mechanism.

Preferably, referring to fig. 1 and 2, the first cutting mechanism 8 includes a thirteenth cylinder 10181, a first lever 82 having one end connected to an output shaft of the thirteenth cylinder 10181, a first chopper connected to the other end of the lever, and a first support base 83 rotatably connected to a middle portion of the lever. The knife face of the first chopper extends along the width direction of the first conveying track 10, the knife edge is vertical, when the contact pin 30 passes through the second cutting mechanism 9, the thirteenth cylinder 10181 jacks up one end of the first lever 82, the other end faces downwards, and the first chopper chops the first metal sheet.

Preferably, a plurality of pins 30 are connected in a row for convenient transmission, and a second cutting mechanism 9 is further provided at one side of the first transmission track 10 for cutting off the adjacent pins 30 before the pins 30 enter the first transfer assembly mechanism.

Preferably, referring to fig. 1 and 2, the second cutting mechanism 9 includes a fourteenth cylinder 91, a second lever 92 having one end connected to an output shaft of the fourteenth cylinder 91, a first chopper connected to the other end of the second lever 92, and a second support seat 93 rotatably connected to a middle portion of the lever. The knife face of the first chopper extends along the width direction of the first conveying track 10, the knife edge is vertical, when the contact pin 30 passes through the second cutting mechanism 9, the fourteenth cylinder 91 jacks up one end of the first lever 82, so that the other end faces downwards, and the first chopper chops the adjacent contact pin 30.

Preferably, in order to protect the other end of the contact pin 30, a second metal sheet is connected to the other end of the contact pin 30, and two third cutting mechanisms 10 are further disposed on one side of the first conveying rail 10, and are used for cutting off the second metal sheet connected to the other end of the contact pin 30 after the second pushing mechanism 14 pushes the contact pin 30 into the first plastic case 20.

Preferably, referring to fig. 1 and 2, the third cutting mechanism 10 includes a fifteenth cylinder, a third lever 102 having one end connected to an output shaft of the fifteenth cylinder, a third chopper connected to the other end of the third lever 102, and a third support 103 rotatably connected to a middle portion of the third lever 102, a knife face of the third chopper extends along a conveying direction of the first conveying rail 10, the knife edge is vertical, when the contact pin 30 passes through the third cutting mechanism 10, the third cylinder 211 jacks up one end of the second lever 92 to make the other end face downward, and the third chopper chops the second metal piece.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (8)

1. A connector assembling apparatus, comprising:

a transmission line including a first transmission track;

the first feeding mechanism is arranged at the starting end of the first conveying track and is used for simultaneously conveying the two first rubber shells to the first conveying track;

the two first assembling mechanisms are arranged beside the first conveying track at intervals and used for respectively inserting the contact pins into the two first rubber shells;

the second assembling mechanism is arranged beside the first conveying track and used for simultaneously buckling and assembling the two second rubber shells on the two first rubber shells which are assembled by the contact pins one by one;

the third assembly mechanism is arranged beside the first conveying track and used for simultaneously and respectively inserting and assembling two semi-finished products obtained by assembling the first rubber shell, the contact pin and the second rubber shell into the two metal shells one by one;

the first assembling mechanism comprises a second feeding part, the second assembling mechanism comprises a third feeding part and a second transferring and assembling mechanism, the third feeding part is used for simultaneously conveying two second rubber shells to the side of the first conveying track, and the second transferring and assembling mechanism is used for simultaneously transferring the two second rubber shells from the second feeding part to the first conveying track and respectively assembling the two second rubber shells with the two first rubber shells;

the second transfer assembly mechanism comprises an absorbing part, a fifth pushing mechanism and a sixth pushing mechanism, the absorbing part is arranged on the sixth pushing mechanism, the sixth pushing mechanism is connected with the fifth pushing mechanism, the absorbing part is used for capturing a second rubber shell and buckling the second rubber shell on a first rubber shell, the fifth pushing mechanism is used for driving the sixth pushing mechanism to reciprocate along the width direction of the first conveying track, and the sixth pushing mechanism is used for driving the absorbing part to move up and down.

2. The connector assembling apparatus according to claim 1, wherein said first feeding mechanism includes a first feeding member for feeding a plurality of said first glue cases to the side of said first conveying rail, and a transfer mechanism for simultaneously transferring two of said first glue cases from said first feeding member onto said first conveying rail.

3. The connector assembling apparatus according to claim 2, wherein the transfer mechanism includes a first pushing mechanism for pushing the two first rubber cases on the first loading member onto the second pushing mechanism simultaneously in the width direction of the first conveying rail, and a second pushing mechanism for pushing the two first rubber cases onto the first conveying rail simultaneously in the conveying direction of the first conveying rail.

4. The connector assembling apparatus according to claim 1, wherein the first assembling mechanism further includes a first transferring and assembling mechanism, the second loading member is used for conveying the pins to the side of the first conveying rail, and the first transferring and assembling mechanism is used for transferring the pins from the second loading member to the first conveying rail and assembling the pins with the first glue shell.

5. The connector assembling apparatus according to claim 4, wherein the first transfer assembling mechanism includes a third pushing mechanism and a fourth pushing mechanism, the third pushing mechanism is configured to push the pins from the second feeding mechanism to the fourth pushing mechanism along the conveying direction of the first conveying track, and the fourth pushing mechanism is configured to push the pins into the first rubber housing along the width direction of the first conveying track.

6. The connector assembling apparatus according to claim 1, wherein the transfer line further includes a second transfer rail that is staggered from the first transfer rail, and the third assembling mechanism includes a fourth loading member for simultaneously transferring two metal shells onto the second transfer rail and a third transferring and assembling mechanism for simultaneously transferring two semi-finished products from the first transfer rail onto the second transfer rail and respectively assembling the semi-finished products with the metal shells one by one.

7. The connector assembling apparatus according to claim 6, wherein the second transferring and assembling mechanism includes an eighth pushing mechanism, a turnover mechanism, and a ninth pushing mechanism for pushing along a width direction of the first conveying track, the eighth pushing mechanism is configured to push two first plastic shells onto the turnover mechanism simultaneously along the conveying direction of the first conveying track, the turnover mechanism is configured to rotate the first plastic shells so as to turn the first plastic shells from a horizontal placement to a vertical placement, the turnover mechanism has two first receiving grooves for receiving the first plastic shells, and the ninth pushing mechanism is configured to push two first plastic shells into the metal shell one by one simultaneously.

8. The connector assembling apparatus according to claim 6, further comprising a transfer-binning mechanism for transferring connectors from said second transfer rail onto a receiving plate having a plurality of receiving cells.

Images