CN213602161U

CN213602161U - Electric connector assembling device

Info

Publication number: CN213602161U
Application number: CN202022745216.4U
Authority: CN
Inventors: 杜畅波
Original assignee: Shenzhen Yuanai Electronic Technology Co ltd
Current assignee: Shenzhen Yuanai Electronic Technology Co ltd
Priority date: 2020-11-24
Filing date: 2020-11-24
Publication date: 2021-07-02
Anticipated expiration: 2030-11-24

Abstract

The utility model discloses an electric connector assembly device, comprises a workbench be equipped with main track mechanism on the workstation, follow main track mechanism both sides are equipped with respectively, and first terminal feed mechanism, first clip terminal mechanism, first welding mechanism, tilting mechanism, second clip terminal mechanism, second welding mechanism, second terminal feed mechanism are cut to first terminal feed mechanism, first clip terminal mechanism. The utility model provides an electric connector assembly device sets up a plurality of processing agency along main track mechanism both sides, transmits the semi-manufactured goods that will process to next mechanism through main track mechanism and continues equipment processing to realize automatic equipment production, also can accomplish simultaneously and all carry out the welded fastening of terminal to electric connector's tow sides, thereby improved production efficiency, made the quality of product obtain guaranteeing.

Description

Electric connector assembling device

Technical Field

The utility model relates to an electric connector production technical field especially relates to an electric connector assembly device.

Background

The electric connector is a component often used in the electronic field, and is mainly used at a blocked position in a circuit or between isolated and non-communicated circuits to erect a communicated bridge so as to circulate current and realize a predetermined function of the circuit.

The existing electric connector mainly comprises a shell, a PCB (printed circuit board) and a golden finger connected with the PCB, and when the electric connector is assembled, all parts are required to be assembled in a one-to-one correspondence manner so as to ensure that the electric connector can normally work. Particularly, when assembling a Lightning connector, a type-C connector, or the like, it is necessary to solder the gold fingers on both sides of the PCB, and the PCB is turned over to solder both sides during the process. And in current assembling process, need overturn the PCB board through the mode of artifical manual upset, adopt artifical supplementary semi-automatization equipment to accomplish the production equipment, it is lower to make production efficiency to consume the manpower, the cost of labor is high, and product quality also is difficult to guarantee.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electric connector assembly device adopts automatic assembly device, all carries out the welding of golden finger to electric connector's two sides to improve production efficiency, make product quality obtain guaranteeing.

The utility model discloses an electric connector assembly device adopts technical scheme is:

an electric connector assembling device comprises a workbench, wherein a main rail mechanism is arranged on the workbench, an electric connector shell with a PCB inserted therein is arranged on the main rail mechanism, and the electric connector assembling device is respectively arranged along two sides of the main rail mechanism; the first terminal feeding mechanism is used for combining two different terminal material belts into a front terminal material belt and transmitting the front terminal material belt to the next mechanism; a first terminal cutting and clamping mechanism is arranged on one side of the first terminal feeding mechanism and used for cutting the front terminal material belt into the required number of terminals, and the cut front terminal material belt is pushed to the upper part of the shell of the assembled PCB board through the first terminal cutting and clamping mechanism; the main track mechanism is provided with a first welding mechanism at one side opposite to the first cutting clamp terminal mechanism, and the first welding mechanism is used for welding and fixing the front terminal material belt and the PCB; the first clamping terminal mechanism is characterized in that a turnover mechanism is arranged on one side of the first clamping terminal mechanism and used for turning over the electric connectors welded with the two ends of the front terminal to enable the back sides of the electric connectors to face upwards; a second cutting and clamping terminal mechanism is arranged on one side of the turnover mechanism, the second cutting and clamping terminal mechanism has the same structure as the first cutting and clamping terminal mechanism, the second cutting and clamping terminal mechanism cuts the back terminal material belt into the required number of terminals, and pushes the cut back terminal material belt to the upper part of the back of the electric connector; a second welding mechanism is arranged on one side, opposite to the second cutting and clamping terminal mechanism, of the main track mechanism, the second welding mechanism is identical to the first welding mechanism in structure, the second welding mechanism is opposite to the second cutting and clamping terminal mechanism, the second welding mechanism is identical to the first welding mechanism in structure, and the second welding mechanism is used for welding and fixing the back terminal material belt and the back of the PCB; and a second terminal feeding mechanism is arranged on one side of the second cutting and clamping terminal mechanism, the second terminal feeding mechanism and the first terminal feeding mechanism are identical in structure, and the second terminal feeding mechanism is used for combining two different terminal material belts into a back terminal material belt and transmitting the back terminal material belt towards one side of the second cutting and clamping terminal mechanism.

As a preferred scheme, the main track mechanism comprises a processing long platform arranged along the workbench, a clamping groove is formed in one side of the processing long platform, a clamping plate is arranged in the clamping groove, and the upper end of the clamping plate is of a sawtooth structure.

As the preferred scheme, first terminal feed mechanism includes that material loading guide rail, briquetting, terminal material loading push rod motor, terminal material loading rotate the motor and rotate the wheel, the material loading guide rail sets up in main track mechanism one side, the briquetting passes through terminal material loading push rod motor and sets up in material loading guide rail top, the terminal material loading rotates the motor and sets up in material loading push rod motor one side, rotate wheel and terminal material loading and rotate motor fixed connection, it is located material loading guide rail top to rotate the wheel, through it drives positive terminal material area and transmits towards next mechanism to rotate the wheel.

As the preferred scheme, the bottom of the pressing block is provided with a plurality of contact pins, the contact pins are installed at the same interval and are arranged, and the contact pins are inserted into the alignment holes of the two terminal material belts, so that the alignment calibration is carried out on the two different terminal material belts.

As preferred scheme, first clip terminal mechanism includes that first clip push rod motor, catch bar, fixed block, second surely press from both sides push rod motor, clamp splice and terminal cutting off cutter, first clip push rod motor sets up in material loading guide rail one side, catch bar and first clip push rod motor fixed connection, the fixed block sets up and keeps away from first clip push rod motor one side in the catch bar, the fixed block with be located material loading guide rail one side, just the fixed block is on same horizontal plane with the material loading guide rail, the clamp splice is surely pressed from both sides push rod motor through the second and is set up in the fixed block top, terminal cutting off cutter sets up between clamp splice and material loading guide rail, through terminal cutting off cutter cuts off positive terminal material area.

As the preferred scheme, first welded structure includes vertical guide rail, welding driving motor and welding copper billet, welding driving motor sets up in the vertical guide rail top, welding copper billet and welding driving motor fixed connection, the welding copper billet slides from top to bottom along vertical guide rail through welding driving motor, the welding copper billet is located main track mechanism top.

As a preferred scheme, a first terminal material belt cutting mechanism is further arranged between the first clamping terminal mechanism and the turnover mechanism, and the first terminal material belt cutting mechanism is used for cutting off a belt body of the front terminal material belt, so that the turnover mechanism can turn over conveniently.

As the preferred scheme, first terminal material area shutdown mechanism includes that material area cutter and material area cut off the push rod motor, material area cutter cuts off push rod motor fixed connection with the material area, material area cutter is used for cutting off the area body in positive terminal material area, material area cutter cuts off the push rod motor through the material area and reciprocates.

Preferably, a second terminal material strip cutting mechanism is arranged on one side of the second welding mechanism, the second terminal material strip cutting mechanism has the same structure as the first terminal material strip cutting mechanism, and the second terminal material strip cutting mechanism is used for cutting off the strip body of the back terminal material strip.

As the preferred scheme, still include PCB board feed mechanism, PCB board dress shell mechanism and shell feed mechanism; the PCB feeding mechanism is arranged on one side of the first terminal feeding mechanism and used for preprocessing a PCB to be installed; the PCB board shell installing mechanism is arranged on one side of the PCB board feeding mechanism and used for inserting the PCB board into a shell of the electric connector; the shell feeding mechanism is arranged opposite to the PCB shell loading mechanism, the shell feeding mechanism corresponds to the PCB shell loading mechanism, and the shell feeding mechanism is used for transporting the shell of the electric connector to the main track mechanism.

The utility model discloses an electric connector assembly device's beneficial effect is: first terminal feed mechanism is used for making up into positive terminal material area with two kinds of different terminal material areas and transmits, first clip terminal mechanism cuts into the terminal of corresponding quantity with the positive terminal material area that first terminal feed mechanism transmitted, and the shell top that is equipped with the PCB board on the positive terminal material area propelling movement to the main track mechanism that will cut, make positive terminal material area and PCB board contact, the rethread first welding mechanism carries out welded fastening with positive terminal material area and PCB board, after welding positive terminal material area, overturn through tilting mechanism. The electric connector after the turnover is well welded with the back terminal through the second welding mechanism, the second cutting and clamping terminal mechanism and the second terminal feeding mechanism are utilized to feed and cut the back terminal material belt, the back terminal is pushed to the lower part of the second welding mechanism, the back terminal material belt is made to be in contact with the back of the PCB, the welding of the back terminal of the PCB is completed, and the assembling process of the double-sided terminal structure of the electric connector is completed. Set up a plurality of processing mechanisms along main track mechanism both sides, transmit the semi-manufactured goods that will process to next mechanism through main track mechanism and continue equipment processing to realize automatic equipment production, also can accomplish simultaneously and all carry out the welded fastening of terminal to electric connector's tow sides, thereby improved production efficiency, made the quality of product obtain the assurance.

Drawings

Fig. 1 is a schematic structural view of an electrical connector assembly apparatus of the present invention;

fig. 2 is a schematic structural view of a main rail mechanism of the electric connector assembling device of the present invention;

fig. 3 is a schematic structural view of a first terminal feeding mechanism of the electric connector assembling device of the present invention;

fig. 4 is a schematic structural view of a first clip terminal mechanism of the electric connector assembling apparatus of the present invention;

fig. 5 is a schematic structural view of a first welding mechanism of the electric connector assembling device of the present invention;

fig. 6 is a schematic structural view of a turnover mechanism of the electric connector assembling device of the present invention;

fig. 7 is a schematic structural view of a first terminal material tape cutting mechanism of the electric connector assembling apparatus of the present invention;

fig. 8 is a schematic structural view of a PCB board feeding mechanism of the electric connector assembling device of the present invention;

fig. 9 is a schematic structural view of a PCB board housing mechanism of the electric connector assembly device of the present invention;

fig. 10 is a schematic structural view of a housing feeding mechanism of the electric connector assembling device of the present invention.

Detailed Description

The invention will be further elucidated and described with reference to the following embodiments and drawings in which:

referring to fig. 1, an electrical connector assembly apparatus includes a worktable 10, a main rail mechanism 11 disposed on the worktable 10, and an electrical connector housing having a PCB board inserted therein and disposed on the main rail mechanism 11.

Referring to fig. 2, the main rail mechanism 11 includes a long processing table 111 disposed along the worktable 10, a slot 112 is disposed on one side of the long processing table 111, a clamping plate 113 is disposed in the slot 112, and an upper end of the clamping plate 113 is of a saw-toothed structure. The clamping plate 113 can move up and down in the clamping groove 112, the clamping plate 113 is inserted between the PCBs, and then the clamping plate 113 moves horizontally in the clamping groove 112, so that the PCBs are moved to the next processing mechanism for processing.

Referring to fig. 1 again, a first terminal feeding mechanism 12, a first clip terminal mechanism 13, a first welding structure, a turning mechanism 15, a second clip terminal mechanism 16, a second welding mechanism 17, and a second terminal feeding mechanism 18 are respectively disposed along two sides of the main rail mechanism 11.

Referring to fig. 3, the first terminal feeding mechanism 12 includes a feeding rail 121, a pressing block 122, a terminal feeding push rod motor 123, a terminal feeding rotating motor 124 and a rotating wheel 125, the feeding rail 121 is disposed on one side of the main rail mechanism 11, the pressing block 122 is disposed above the feeding rail 121 through the terminal feeding push rod motor 123, the terminal feeding rotating motor 124 is disposed on one side of the feeding push rod motor, the rotating wheel 125 is fixedly connected to the terminal feeding rotating motor 124, and the rotating wheel 125 is located above the feeding rail 121.

Insert two kinds of different terminal material strips from material loading guide rail 121 one side, utilize terminal material loading push rod motor 123 to drive briquetting 122 downstream, thereby compress tightly two kinds of terminal material strips and form positive terminal material strip, rotate motor 124 through the terminal material loading again and drive and rotate wheel 125 and rotate, utilize and rotate wheel 125 and will compress tightly positive terminal material strip and transmit towards first cutting clamp terminal mechanism 13 direction, thereby first terminal feed mechanism 12 is used for making up into positive terminal material strip towards next mechanism transmission with two kinds of different terminal material strips.

And be equipped with a plurality of contact pin in briquetting 122 bottom, the same interval of contact pin installation sets up, inserts the counterpoint hole in two kinds of terminal material areas through the contact pin to carry out counterpoint calibration with two kinds of different terminal material areas, make the terminal material area of two kinds of differences can be more accurate counterpoint.

Referring to fig. 4, a first clip terminal mechanism 13 is disposed on one side of the first terminal feeding mechanism 12, the first clip terminal mechanism 13 includes a first clip push rod motor 131, a push plate 132, a fixed block 133, a second clip push rod motor 134, a clip block 135 and a terminal cutting knife 136, the first clip push rod motor 131 is disposed on one side of the feeding rail 121, the push plate 132 is fixedly connected to the first clip push rod motor 131, the fixed block 133 is disposed on one side of the push plate 132 away from the first clip push rod motor 131, the fixed block 133 is disposed on one side of the feeding rail 121, the fixed block 133 and the feeding rail 121 are located on the same horizontal plane, the clip block 135 is disposed above the fixed block 133 through the second clip push rod motor 134, and the terminal cutting knife 136 is disposed between the clip block 135 and the feeding rail 121.

The front terminal material tape transmitted to the first clip terminal mechanism 13 is placed above the fixing block 133, the second clip push rod motor 134 drives the clip block 135 and the terminal cutting knife 136 to move downward, the front terminal material tape is cut into a set number, and then the first clip push rod motor 131 pushes the push plate 132 to face the first welding mechanism 14, so that the terminals on the fixing block 133 are placed above the housing of the assembled PCB. Therefore, the first cutting and clamping terminal mechanism 13 is used for cutting the front terminal material belt into the required number of terminals, and the cut front terminal material belt is pushed to the upper part of the shell of the assembled PCB board through the first cutting and clamping terminal mechanism 13.

Referring to fig. 5, a first welding mechanism 14 is disposed on a side of the main rail mechanism 11 opposite to the first clip terminal mechanism 13, the first welding mechanism includes a vertical rail 141, a welding pushing motor 142 and a welding copper block 143, the welding pushing motor 142 is disposed above the vertical rail 141, the welding copper block 143 is fixedly connected to the welding pushing motor 142, the welding copper block 143 slides up and down along the vertical rail 141 through the welding pushing motor 142, and the welding copper block 143 is disposed above the main rail mechanism 11.

The welding copper block 143 is heated, the welding copper block 143 is moved downwards by the welding pushing motor 142, the terminal and the PCB are extruded by the welding copper block 143, and soldering tin preset on the PCB is heated and melted to weld and fix the front terminal and the PCB.

Referring to fig. 6, a turning mechanism 15 is disposed on one side of the first clip terminal mechanism 13, the turning mechanism 15 is used for turning over the electrical connectors welded with the two ends of the front terminal, so that the back of the electrical connectors faces upward, the back of the PCB board welded with the front terminal faces upward, and the rear terminal is welded by a subsequent mechanism, thereby realizing the automatic welding processing of the two-sided terminals of the PCB board.

A second cutting and clamping terminal mechanism 16 is arranged on one side of the turnover mechanism 15, the second cutting and clamping terminal mechanism 16 has the same structure as the first cutting and clamping terminal mechanism 13, the second cutting and clamping terminal mechanism 16 cuts the back terminal material belt into the required number of terminals, and pushes the cut back terminal material belt to the back upper side of the electric connector.

The main track mechanism 11 is provided with a second welding mechanism 17 on one side relative to the second cutting and clamping terminal mechanism 16, the second welding mechanism 17 is identical to the first welding mechanism 14 in structure, the second welding mechanism 17 is opposite to the second cutting and clamping terminal mechanism 16, the second welding mechanism 17 is identical to the first welding mechanism 14 in structure, and the second welding mechanism 17 is used for welding and fixing the back terminal material belt and the back of the PCB.

A second terminal feeding mechanism 18 is arranged on one side of the second clip terminal mechanism 16, the second terminal feeding mechanism 18 and the first terminal feeding mechanism 12 have the same structure, and the second terminal feeding mechanism 18 is used for combining two different terminal tapes into a back terminal tape and transmitting the back terminal tape towards one side of the second clip terminal mechanism 16.

Because the second cutting and clamping terminal mechanism 16 has the same structure as the first cutting and clamping terminal mechanism 13, the second welding mechanism 17 has the same structure as the first welding machine mechanism, and the second terminal feeding mechanism 18 has the same structure as the first terminal feeding mechanism 12, the understanding can be carried out by referring to the working principle of the first cutting and clamping terminal mechanism 13, the first welding structure and the first terminal feeding mechanism 12, and the welding of terminals on both sides of a PCB can be ensured.

First terminal feed mechanism 12 is used for making up into positive terminal material area with two kinds of different terminal material areas and transmitting, first clip terminal mechanism 13 cuts into the terminal of corresponding quantity with the positive terminal material area that first terminal feed mechanism 12 transmitted, and the shell top that is equipped with the PCB board on will cutting positive terminal material area propelling movement to main track mechanism 11, make positive terminal material area and PCB board contact, rethread first welding mechanism 14 carries out welded fastening with positive terminal material area and PCB board, after welding positive terminal material area, overturn through tilting mechanism 15.

The electric connector after the turnover is welded with the back terminal through the second welding mechanism 17, the second cutting and clamping terminal mechanism 16 and the second terminal feeding mechanism 18 are used for feeding and cutting the back terminal material belt, the back terminal is pushed to the lower part of the second welding mechanism 17, the back terminal material belt is made to contact with the back of the PCB, the welding of the back terminal of the PCB is completed, and the assembling process of the double-sided terminal structure of the electric connector is completed.

Set up a plurality of processing agency along main track mechanism 11 both sides, transmit the semi-manufactured goods that will process to next mechanism through main track mechanism 11 and continue equipment processing to realize automatic equipment production, also can accomplish simultaneously and all carry out the welded fastening of terminal to electric connector's tow sides, thereby improved production efficiency, made the quality of product obtain the assurance.

Referring to fig. 1 and 7, a first terminal material tape cutting mechanism 19 is further disposed between the first clip terminal mechanism 13 and the turning mechanism 15, and the first terminal material tape cutting mechanism 19 is used for cutting off the tape body of the front terminal material tape, so as to facilitate turning of the turning mechanism 15.

First terminal material area shutdown mechanism 19 includes that material area cutter 191 and material area cut off push rod motor 192, and material area cutter 191 cuts off push rod motor 192 fixed connection with the material area, and material area cutter 191 is used for cutting off the area body in front terminal material area, and material area cutter 191 cuts off push rod motor 192 through the material area and reciprocates to utilize the material area cutter 191 to cut off the area body in front terminal material area, only required reservation terminal part.

And a second terminal material strip cutting mechanism 20 is arranged at one side of the second welding mechanism 17, the second terminal material strip cutting mechanism 20 has the same structure as the first terminal material strip cutting mechanism 19, and the second terminal material strip cutting mechanism 20 is used for cutting the strip body of the back terminal material strip. In the same way, the second terminal tape cutting mechanism 20 can cut off the tape body of the back terminal tape to complete the assembly of the electrical connector.

Please refer to fig. 1, 8, 9 and 10, and further includes a PCB loading mechanism 21, a PCB housing mechanism 22 and a housing loading mechanism 23. The PCB feeding mechanism 21 is disposed on one side of the first terminal feeding mechanism 12, and the PCB feeding mechanism 21 pre-processes a PCB to be mounted.

The PCB housing mechanism 22 is disposed on one side of the PCB loading mechanism 21, and the PCB housing mechanism 22 is used for inserting the PCB into the housing of the electrical connector.

The shell feeding mechanism 23 is arranged opposite to the PCB board shell loading mechanism 22, the shell feeding mechanism 23 corresponds to the PCB board shell loading mechanism 22, and the shell feeding mechanism 23 is used for transporting the shell of the electrical connector to the main rail mechanism 11. And can also dock with shell feed mechanism 23 through the vibration dish to make the shell can not need artifical mode to put into shell feed mechanism 23.

The whole assembling device realizes the whole assembling operation of the electric connector, and carries out the production of an automatic assembly line, thereby improving the production efficiency.

The utility model provides an electric connector assembly device, first terminal feed mechanism is used for making up into positive terminal material area with the terminal material area of two kinds of differences and transmits, the positive terminal material area that first clip terminal mechanism transmitted first terminal feed mechanism and comes cuts into the terminal of corresponding quantity, and the shell top that is equipped with the PCB board on will cutting positive terminal material area propelling movement to the main track mechanism, make positive terminal material area and contact with the PCB board, the first welding mechanism of rethread carries out welded fastening with positive terminal material area and PCB board, after welding positive terminal material area, overturn through tilting mechanism. The electric connector after the turnover is well welded with the back terminal through the second welding mechanism, the second cutting and clamping terminal mechanism and the second terminal feeding mechanism are utilized to feed and cut the back terminal material belt, the back terminal is pushed to the lower part of the second welding mechanism, the back terminal material belt is made to be in contact with the back of the PCB, the welding of the back terminal of the PCB is completed, and the assembling process of the double-sided terminal structure of the electric connector is completed. Set up a plurality of processing mechanisms along main track mechanism both sides, transmit the semi-manufactured goods that will process to next mechanism through main track mechanism and continue equipment processing to realize automatic equipment production, also can accomplish simultaneously and all carry out the welded fastening of terminal to electric connector's tow sides, thereby improved production efficiency, made the quality of product obtain the assurance.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. An electric connector assembling device is characterized by comprising a workbench, wherein a main rail mechanism is arranged on the workbench, an electric connector shell with a PCB inserted therein is arranged on the main rail mechanism, and the main rail mechanism is respectively arranged along two sides of the main rail mechanism;

the first terminal feeding mechanism is used for combining two different terminal material belts into a front terminal material belt and transmitting the front terminal material belt to the next mechanism;

a first terminal cutting and clamping mechanism is arranged on one side of the first terminal feeding mechanism and used for cutting the front terminal material belt into the required number of terminals, and the cut front terminal material belt is pushed to the upper part of the shell of the assembled PCB board through the first terminal cutting and clamping mechanism;

the main track mechanism is provided with a first welding mechanism at one side opposite to the first cutting clamp terminal mechanism, and the first welding mechanism is used for welding and fixing the front terminal material belt and the PCB;

the first clamping terminal mechanism is characterized in that a turnover mechanism is arranged on one side of the first clamping terminal mechanism and used for turning over the electric connectors welded with the two ends of the front terminal to enable the back sides of the electric connectors to face upwards;

a second cutting and clamping terminal mechanism is arranged on one side of the turnover mechanism, the second cutting and clamping terminal mechanism has the same structure as the first cutting and clamping terminal mechanism, the second cutting and clamping terminal mechanism cuts the back terminal material belt into the required number of terminals, and pushes the cut back terminal material belt to the upper part of the back of the electric connector;

a second welding mechanism is arranged on one side, opposite to the second cutting and clamping terminal mechanism, of the main track mechanism, the second welding mechanism is identical to the first welding mechanism in structure, the second welding mechanism is opposite to the second cutting and clamping terminal mechanism, the second welding mechanism is identical to the first welding mechanism in structure, and the second welding mechanism is used for welding and fixing the back terminal material belt and the back of the PCB;

and a second terminal feeding mechanism is arranged on one side of the second cutting and clamping terminal mechanism, the second terminal feeding mechanism and the first terminal feeding mechanism are identical in structure, and the second terminal feeding mechanism is used for combining two different terminal material belts into a back terminal material belt and transmitting the back terminal material belt towards one side of the second cutting and clamping terminal mechanism.

2. The electrical connector assembly device of claim 1, wherein the main track mechanism comprises a long processing platform disposed along the working platform, a slot is disposed on one side of the long processing platform, a clamping plate is disposed in the slot, and an upper end of the clamping plate has a saw-toothed structure.

3. The electrical connector assembly device as claimed in claim 1, wherein the first terminal feeding mechanism comprises a feeding guide rail, a pressing block, a terminal feeding push rod motor, a terminal feeding rotating motor and a rotating wheel, the feeding guide rail is disposed on one side of the main track mechanism, the pressing block is disposed above the feeding guide rail through the terminal feeding push rod motor, the terminal feeding rotating motor is disposed on one side of the feeding push rod motor, the rotating wheel is fixedly connected with the terminal feeding rotating motor, the rotating wheel is disposed above the feeding guide rail, and the rotating wheel drives the front terminal material strip to be conveyed towards the next mechanism.

4. The electrical connector assembly device as claimed in claim 3, wherein the bottom of the pressing block is provided with a plurality of pins, the pins are installed at the same intervals and inserted into the alignment holes of two kinds of terminal tapes, so as to align and calibrate two different kinds of terminal tapes.

5. The electrical connector assembly device of claim 3, wherein the first cutting and clamping terminal mechanism comprises a first cutting and clamping push rod motor, a push plate, a fixed block, a second cutting and clamping push rod motor, a clamping block and a terminal cutting knife, the first cutting and clamping push rod motor is arranged on one side of the feeding guide rail, the push plate is fixedly connected with the first cutting and clamping push rod motor, the fixed block is arranged on one side of the push plate, which is far away from the first cutting and clamping push rod motor, the fixed block is arranged on one side of the feeding guide rail, the fixed block and the feeding guide rail are on the same horizontal plane, the clamping block is arranged above the fixed block through the second cutting and clamping push rod motor, the terminal cutting knife is arranged between the clamping block and the feeding guide rail, and the front terminal material belt is cut off through the terminal cutting knife.

6. The electrical connector assembly device of claim 1, wherein the first soldering structure comprises a vertical rail, a soldering pusher motor and a soldering copper block, the soldering pusher motor is disposed above the vertical rail, the soldering copper block is fixedly connected to the soldering pusher motor, the soldering copper block slides up and down along the vertical rail by the soldering pusher motor, and the soldering copper block is located above the main rail mechanism.

7. The electrical connector assembly device as claimed in claim 1, wherein a first terminal strip cutting mechanism is further provided between the first clip terminal mechanism and the flipping mechanism, the first terminal strip cutting mechanism being adapted to cut off the strip of the front terminal strip to facilitate the flipping mechanism to flip.

8. The electrical connector assembly device of claim 7 wherein the first terminal strip cutting mechanism comprises a strip cutter and a strip cut push rod motor, the strip cutter is fixedly connected to the strip cut push rod motor, the strip cutter is used for cutting off the strip of the front terminal strip, and the strip cutter moves up and down via the strip cut push rod motor.

9. The electrical connector assembly of claim 8 wherein said second soldering means has a second terminal strip cutting means on one side, said second terminal strip cutting means being identical in construction to said first terminal strip cutting means, said second terminal strip cutting means being adapted to cut the strip of the rear terminal strip.

10. The electrical connector assembly device of claim 1, further comprising a PCB board loading mechanism, a PCB board housing mechanism, and a housing loading mechanism;

the PCB feeding mechanism is arranged on one side of the first terminal feeding mechanism and used for preprocessing a PCB to be installed;

the PCB board shell installing mechanism is arranged on one side of the PCB board feeding mechanism and used for inserting the PCB board into a shell of the electric connector;

the shell feeding mechanism is arranged opposite to the PCB shell loading mechanism, the shell feeding mechanism corresponds to the PCB shell loading mechanism, and the shell feeding mechanism is used for transporting the shell of the electric connector to the main track mechanism.