CN213460445U - Assembly system of multi-pin connector - Google Patents

Abstract

The utility model relates to an equipment system of many needles connector, a be used for installing the PAF board on the connector, the equipment system is including the material loading sender that is used for carrying the PAF board, a blowing that is used for placing the PAF board on the connector and pushes down the installation pushes down the subassembly, a Pin needle locating component that is used for going on fixing a position the Pin needle on the connector and the connector fixing base that is used for the fixed mounting connector, the shape and the connector adaptation of connector fixing base, the end that the material loading sender was located to the blowing pushes down the subassembly on the connector fixing base is located to the connector fixing base, the connector fixing base is located under the blowing pushes down the subassembly, the side of connector fixing base is located to Pin needle locating component. Compared with the prior art, the utility model discloses the condition that the yields is low when avoiding Pin needle error to lead to installing the PAF board on the connector, whole flow adopts mechanical production, effectively reduces the cost of labor, improves production efficiency.

Description

Assembly system of multi-pin connector

Technical Field

The present invention relates to an assembly system, and more particularly, to an assembly system for a multi-pin connector.

Background

An ecu (electronic Control unit) is called an electronic Control unit, and is also called a "drive computer", an "in-vehicle computer", and the like. The controller is a microcomputer controller special for the automobile and is also called a singlechip special for the automobile in terms of application. It is the same as common single-chip microcomputer, and usually consists of a microprocessor (CPU), a memory (ROM, RAM), an output/input interface (I/O), an analog-to-digital converter (A/D), a whole drive and other large-scale integrated circuits. The electric control unit is used for calculating, processing and judging the air flow meter and the input information of various sensors according to programs and data stored in the electric control unit, then outputting instructions and providing electric pulse signals with certain width for the oil sprayer so as to control the oil spraying quantity. The electric control unit consists of a microcomputer, an input circuit, an output circuit, a control circuit and the like.

The Pin needle is arranged on the connector of the ECU, the position of the fisheye at the PCB end of the connector is fixed through PAF (Pin Alignment feature), and the position degree of the fisheye at the PCB end of the connector is related to the yield of the PCB crimping process, so that the position degree of the connector is guaranteed to be in the specification.

At present, the existing PAF assembly is performed by firstly performing manual preassembly and then putting the PAF into a jig for pressing, the requirements on the inserting and bending process and the dimensional tolerance of a terminal are high, the Pin needle positioning effect is poor, the defective scrapping is high, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to overcoming the above-mentioned deficiencies of the prior art and to providing an assembly system for a multi-pin connector.

The purpose of the utility model can be realized through the following technical scheme:

an assembly system of a multi-Pin connector is used for installing a PAF plate on the connector, the connector is provided with a plurality of Pin pins, the PAF plate is provided with holes corresponding to the Pin pins, the assembly system comprises a feeding conveyer for conveying the PAF plate, a discharging and pressing assembly for placing the PAF plate on the connector and pressing down the PAF plate, a Pin Pin positioning assembly for positioning the Pin pins on the connector and a connector fixing seat for fixedly installing the connector, the shape of the connector fixing seat is matched with that of the connector, the connector is fixedly arranged on the connector fixing seat, the discharging and pressing assembly is arranged at the tail end of the feeding conveyer, the connector fixing seat is arranged under the discharging and pressing assembly, and the Pin positioning assembly is arranged on the side surface of the connector fixing seat,

when the PAF board mounting device is used, the Pin needle positioning assembly is used for fixing the position of the Pin needle on the connector, the discharging and pressing assembly is used for placing the PAF board conveyed by the feeding conveyor on the connector and pressing down the PAF board, and therefore installation of the PAF board and the connector is completed.

Preferably, the Pin needle positioning assembly includes a lateral Pin needle positioning device for gripping and positioning the Pin needle in a lateral direction and a longitudinal Pin needle positioning device for gripping and positioning the Pin needle in a longitudinal direction and a vertical direction.

Preferably, the transverse Pin needle positioning device comprises a first frame, a positioning row sliding rail, a positioning row sliding plate, a positioning row fixing seat and a Pin needle positioning row matched with the arrangement shape of the Pin needles, wherein the positioning row sliding rail is fixed on the first frame, the positioning row sliding plate is movably clamped in the positioning row sliding rail, the positioning row fixing seat is fixedly arranged on the positioning row sliding plate, the Pin needle positioning row is fixed on the positioning row fixing seat, and the positioning row sliding plate horizontally moves along the positioning row sliding rail to drive the Pin needle positioning row to be inserted between the Pin needles and clamp the Pin needles.

Preferably, the longitudinal Pin needle positioning device comprises a second frame, a positioning plate slide rail, a positioning plate slide plate and a Pin needle positioning plate, wherein the tail end of the Pin needle positioning plate is provided with positioning teeth matched with the arrangement shape of the Pin needles, the positioning plate slide rail is arranged on the side surface of the second frame, the positioning plate slide plate is movably clamped in the positioning plate slide rail, the Pin needle positioning plate is fixedly connected with the top of the positioning plate slide plate, and the positioning plate slide plate moves up and down along the positioning plate slide rail to drive the Pin needle positioning plate to move up and down and drive the positioning teeth to clamp the Pin needles.

Preferably, the blowing push down the subassembly include first frame, translation bottom plate, first horizontal slide rail, second horizontal slide rail, translation board, push down device, vacuum adsorption device and horizontal migration motor, the vertical side that is fixed in first frame of translation bottom plate, first horizontal slide rail and the parallel side that is fixed in the translation bottom plate of second horizontal slide rail, translation board activity card locate in first horizontal slide rail, the horizontal slide rail of second, push down device and vacuum adsorption device fix the side of locating the translation board, the horizontal migration motor operation, drive the translation board along first horizontal slide rail, the horizontal migration of second.

Preferably, the vacuum adsorption device comprises a first lifting base plate, a first lifting motor, an adsorption head fixing member and a vacuum adsorption head, the first lifting base plate is fixedly arranged on the side surface of the translation plate, the first lifting base plate is provided with a first lifting slide rail, the first lifting plate is movably clamped in the first lifting slide rail, the adsorption head fixing member is fixed on the side surface of the first lifting plate, the vacuum adsorption head is fixedly arranged at the bottom of the adsorption head fixing member, the bottom of the vacuum adsorption head is provided with a vacuum adsorption port and a PAF plate fixing groove matched with the PAF plate in shape,

first elevator motor operation, drive first lifter plate, absorption head mounting and vacuum adsorption head go up and down, the vacuum adsorption mouth adsorb the PAF board, make the PAF integrated circuit board locate in the PAF board fixed slot.

Preferably, the pushing device include second lift base plate, second lifter plate, second elevator motor, push down fixed plate and holding down piece, second lift base plate fixed locate the side of translation board, second lift base plate on be equipped with second lift slide rail, second lifter plate activity card establish with second lift slide rail in, the side of holding down fixed plate and the side fixed connection of first lifter plate, the holding down piece locate the bottom of holding down the fixed plate, the bottom of holding down piece be equipped with PAF plate shape and the holding down groove of Pin needle form looks adaptation of arranging.

Preferably, the assembly system further comprises a connector conveyor belt, and the connector fixing seat is arranged on the connector conveyor belt.

Preferably, the feeding conveyor comprises a feeding rack and a feeding trough matched with the PAF plate in shape, and the feeding trough is arranged at the top of the feeding rack.

Preferably, the bottom of the PAF plate is provided with a clamping plate, and the connector is provided with a buckle matched with the shape of the clamping plate.

Compared with the prior art, the utility model has the advantages of as follows:

(1) the utility model discloses utilize material loading conveyer, blowing to push down subassembly, Pin needle locating component and connector fixing base cooperation operation, press from both sides the Pin needle on the connector earlier and tightly fix a position, ensure the position of Pin needle and the hole looks adaptation on the PAF board, location effect is good, then utilize blowing to push down subassembly location and impress the PAF board, avoid the condition that the Pin needle error on the connector leads to the yields when installing the PAF board low, the whole flow adopts mechanical production, effectively reduce the cost of labor, improve production efficiency;

(2) the Pin needle positioning assembly of the utility model comprises a transverse Pin needle positioning device and a longitudinal Pin needle positioning device, and can position and clamp the Pin needle from the transverse direction, the longitudinal direction and the vertical direction, thereby ensuring the accurate position during installation and improving the production efficiency and the product quality;

(3) the utility model adopts vacuum adsorption conveying, the adsorption and pressing shape is matched with the shape of the PAF plate, and the accuracy and efficiency of conveying and installation are effectively improved;

(4) the utility model discloses a material loading sender and connector conveyer belt are carried PAF board and connector, effectively improve production efficiency, improve the production security.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

FIG. 2 is a structural diagram of the horizontal Pin needle positioning assembly of the present invention;

FIG. 3 is a structural diagram of the longitudinal Pin needle positioning assembly of the present invention;

FIG. 4 is a schematic view of the connector and the PAF board;

fig. 5 is a schematic structural view of the PAF board.

Wherein, 1, a translation plate, 2, a first lifting base plate, 3, a first lifting plate, 4, an adsorption head fixing part, 5, a vacuum adsorption head, 6, a feeding rack, 7, a feeding groove, 8, a second lifting base plate, 9, a second lifting plate, 10, a pressing fixing plate, 11, a pressing part, 12, a first horizontal slide rail, 13, a second horizontal slide rail, 14, a horizontal moving motor, 15, a translation bottom plate, 16, a transverse Pin needle positioning device, 17, the connector comprises a connector 18, a connector fixing seat, 19, a connector conveying belt, 20, a longitudinal Pin needle positioning device, 21, a first rack, 22, a positioning row sliding rail, 23, a positioning row sliding plate, 24, a positioning row fixing seat, 25, a Pin needle positioning row, 26, a second rack, 27, a positioning plate sliding rail, 28, a Pin needle positioning plate, 29, a positioning tooth, 30, a clamping plate, 31, a PAF plate, 32, a Pin needle, 33 and a positioning plate sliding plate.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments. Note that the following description of the embodiments is merely an example of the nature, and the present invention is not intended to limit the application or the use thereof, and the present invention is not limited to the following embodiments.

Examples

An assembly system of a multi-Pin connector is disclosed, as shown in fig. 1-5, for mounting a PAF board 31 on a connector 17, the connector 17 has a plurality of Pin pins 32, the PAF board 31 has holes corresponding to the Pin pins 32, the assembly system includes a feeding conveyor for conveying the PAF board 31, a discharging and pressing component for placing the PAF board 31 on the connector 17 and pressing down, a Pin positioning component for positioning the Pin pins 32 on the connector 17, and a connector holder 18 for fixedly mounting the connector 17, the connector holder 18 has a shape adapted to the connector 17, the connector 17 is fixedly disposed on the connector holder 18, the discharging and pressing component is disposed at the end of the feeding conveyor, the connector holder 18 is disposed under the discharging and pressing component, the Pin positioning component is disposed on the side of the connector holder 18, when in use, the Pin pins 32 on the connector 17 are fixed by the Pin positioning component, and the PAF board 31 conveyed by the feeding conveyor is placed on the connector 17 by the discharging and pressing-down assembly and the installation of the PAF board 31 and the connector 17 is completed.

Specifically, the specific structure of each component of the present invention is as follows.

With respect to the Pin needle positioning assembly, the Pin needle positioning assembly includes a lateral Pin needle positioning device 16 for gripping and positioning the Pin needle 32 in the lateral direction and a longitudinal Pin needle positioning device 20 for gripping and positioning the Pin needle 32 in the longitudinal and vertical directions.

Further, the transverse Pin needle positioning device 16 includes a first frame 21, a positioning row sliding rail 22, a positioning row sliding plate 23, a positioning row fixing seat 24 and a Pin needle positioning row 25 matched with the arrangement shape of the Pin needles 32, the positioning row sliding rail 22 is fixed on the first frame 21, the positioning row sliding plate 23 is movably clamped in the positioning row sliding rail 22, the positioning row fixing seat 24 is fixedly arranged on the positioning row sliding plate 23, the Pin needle positioning row 25 is fixed on the positioning row fixing seat 24, the positioning row sliding plate 23 horizontally moves along the positioning row sliding rail 22, and the Pin needle positioning row 25 is driven to be inserted between the Pin needles 32 and clamp the Pin needles 32. In this embodiment, the horizontal Pin needle positioning device 16 further includes a positioning row motor for driving the positioning row sliding plate 23 to move horizontally, and the positioning row motor can drive the positioning row sliding plate 23 to move in a direction close to or away from the connector 17.

Further, the longitudinal Pin needle positioning device 20 includes a second frame 26, a positioning plate slide rail 27, a positioning plate slide plate 33 and a Pin needle positioning plate 28, a positioning tooth 29 adapted to the arrangement shape of the Pin needles 32 is disposed at the end of the Pin needle positioning plate 28, the positioning plate slide rail 27 is disposed on the side surface of the second frame 26, the positioning plate slide plate 33 is movably clamped in the positioning plate slide rail 27, the Pin needle positioning plate 28 is fixedly connected to the top of the positioning plate slide plate 33, and the positioning plate slide plate 33 moves up and down along the positioning plate slide rail 27 to drive the Pin needle positioning plate 28 to move up and down and drive the positioning tooth 29 to clamp the Pin needles 32. In this embodiment, the horizontal and vertical Pin needle positioning device 20 further includes a positioning plate motor driving the positioning plate sliding plate 33 to be vertical, and the positioning plate motor can drive the positioning plate sliding plate 33 to lift along the vertical direction.

To blowing push down the subassembly, the blowing pushes down the subassembly and includes first frame 21, translation bottom plate 15, first horizontal slide rail 12, second horizontal slide rail 13, translation board 1, the push down device, vacuum adsorption device and horizontal migration motor 14, the vertical side that is fixed in first frame 21 of translation bottom plate 15, first horizontal slide rail 12 and the parallel side that is fixed in translation bottom plate 15 of second horizontal slide rail 13, first horizontal slide rail 12 is located to translation board 1 activity card, in the second horizontal slide rail 13, push down device and the fixed side of locating translation board 1 of vacuum adsorption device, horizontal migration motor 14 moves, drive translation board 1 along first horizontal slide rail 12, second horizontal slide rail 13 horizontal migration.

Further, the vacuum adsorption device comprises a first lifting base plate 2, a first lifting plate 3, a first lifting motor, an adsorption head fixing part 4 and a vacuum adsorption head 5, the first lifting base plate 2 is fixedly arranged on the side face of the translation plate 1, a first lifting slide rail is arranged on the first lifting base plate 2, the first lifting plate 3 is movably clamped in the first lifting slide rail, the adsorption head fixing part 4 is fixed on the side face of the first lifting plate 3, the vacuum adsorption head 5 is fixedly arranged at the bottom of the adsorption head fixing part 4, a vacuum adsorption port and a PAF plate fixing groove matched with the PAF plate 31 in shape are formed in the bottom of the vacuum adsorption head 5, the first lifting motor runs to drive the first lifting plate 3, the adsorption head fixing part 4 and the vacuum adsorption head 5 to lift, and the vacuum adsorption port adsorbs the PAF plate 31, so that the PAF plate 31 is clamped in the PAF plate fixing groove.

Further, the pressing device comprises a second lifting base plate 8, a second lifting plate 9, a second lifting motor, a pressing fixing plate 10 and a pressing piece 11, the second lifting base plate 8 is fixedly arranged on the side face of the translation plate 1, a second lifting slide rail is arranged on the second lifting base plate 8, the second lifting plate 9 is movably clamped in the second lifting slide rail, the side face of the pressing fixing plate 10 is fixedly connected with the side face of the first lifting plate 3, the pressing piece 11 is arranged at the bottom of the pressing fixing plate 10, and a pressing groove matched with the shape of the PAF plate 31 and the arrangement form of the Pin pins 32 is formed in the bottom of the pressing piece 11.

In this embodiment, in order to facilitate conveying the connectors, the assembly system further includes a connector conveyor belt 19, and the connector holders 18 are disposed on the connector conveyor belt 19.

In this embodiment, the feeding conveyor includes a feeding frame 6 and a feeding chute 7 adapted to the PAF plate 31, and the feeding chute 7 is disposed at the top of the feeding frame 6. The PAF plate 31 is clamped in the feeding groove for transportation, and can be transported in a pneumatic and electric pushing mode.

The utility model discloses a bottom of PAF board 31 is equipped with joint board 30, is equipped with the buckle with the 30 shape adaptations of joint board on connector 17.

The utility model discloses during the use, at first install connector 17 on connector fixing base 18, and deliver to between Pin needle locating component, the blowing pushes down under the subassembly, horizontal Pin needle positioner 16 moves, will drive Pin needle location row 25 and insert between Pin needle 32 and press from both sides tight Pin needle 32, accomplish the transverse orientation of Pin needle 32, then vertical Pin needle positioner 20 moves, Pin needle locating plate 28 reciprocates, and drive location tooth 29 and press from both sides tight Pin needle 32, accomplish vertical, the vertical direction location of Pin needle 32.

Then the PAF plate 31 is sent to the position under the vacuum adsorption device through the feeding conveyer, the first lifting motor drives the vacuum adsorption head 5 to descend, the first lifting motor runs to drive the first lifting plate 3, the adsorption head fixing part 4 and the vacuum adsorption head 5 to ascend and descend, the vacuum adsorption port adsorbs the PAF plate 31, the PAF plate 31 is clamped in a PAF plate fixing groove, the horizontal moving motor 14 runs to move the vacuum adsorption device to the position above the connector, the first lifting motor drives the PAF plate 31 to descend until the PAF plate is contacted with a Pin 32 on the connector 17, adsorption is stopped, and the PAF plate is arranged on the connector. The horizontal moving motor 14 operates to drive the pressing device to move to the upper part of the connector, the second lifting motor operates to drive the pressing piece 11 to move downwards, so that the Pin needle 32 is inserted into the PAF plate 31, and the clamping plate 30 is connected with the buckle on the connector in a matching manner, and the installation is completed.

The above embodiments are merely examples and do not limit the scope of the present invention. These embodiments may be implemented in other various manners, and various omissions, substitutions, and changes may be made without departing from the technical spirit of the present invention.

Claims (10)

1. The assembling system of the multi-Pin connector is characterized in that the assembling system is used for installing a PAF plate (31) on a connector (17), a plurality of Pin pins (32) are arranged on the connector (17), holes corresponding to the Pin pins (32) are formed in the PAF plate (31), the assembling system comprises a feeding conveyer used for conveying the PAF plate (31), a discharging and pressing component used for placing the PAF plate (31) on the connector (17) and pressing down, a Pin Pin positioning component used for positioning the Pin pins (32) on the connector (17) and a connector fixing seat (18) used for fixedly installing the connector (17), the shape of the connector fixing seat (18) is matched with that of the connector (17), the connector (17) is fixedly arranged on the connector fixing seat (18), the discharging and pressing down component is arranged at the tail end of the feeding conveyer, the connector fixing seat (18) is arranged below the discharging and pressing component, the Pin needle positioning component is arranged on the side surface of the connector fixing seat (18),

when the PAF board mounting device is used, the Pin needle (32) on the connector (17) is fixed in position by the Pin needle positioning assembly, the PAF board (31) conveyed by the feeding conveyor is placed on the connector (17) by the discharging and pressing assembly and pressed downwards, and the installation of the PAF board (31) and the connector (17) is completed.

2. A multi-Pin connector assembly system as claimed in claim 1, wherein the Pin locating assembly includes a lateral Pin locating means (16) for gripping and locating the Pin (32) in a lateral direction and a longitudinal Pin locating means (20) for gripping and locating the Pin (32) in a longitudinal and vertical direction.

3. The assembly system of a multi-pin connector of claim 2, the transverse Pin needle positioning device (16) comprises a first frame (21), a positioning row sliding rail (22), a positioning row sliding plate (23), a positioning row fixing seat (24) and a Pin needle positioning row (25) matched with the arrangement shape of the Pin needles (32), the positioning row sliding rail (22) is fixed on the first frame (21), the positioning row sliding plate (23) is movably clamped in the positioning row sliding rail (22), the positioning row fixing seat (24) is fixedly arranged on the positioning row sliding plate (23), the Pin needle positioning row (25) is fixed on the positioning row fixing seat (24), the positioning row sliding plate (23) moves horizontally along the positioning row sliding rail (22) to drive the Pin needle positioning row (25) to be inserted between the Pin needles (32) and clamp the Pin needles (32).

4. The assembling system of the multi-Pin connector as claimed in claim 2, wherein the longitudinal Pin positioning device (20) comprises a second frame (26), a positioning plate slide rail (27), a positioning plate slide plate (33) and a Pin positioning plate (28), wherein the tail end of the Pin positioning plate (28) is provided with positioning teeth (29) matched with the arrangement shape of the Pin pins (32), the positioning plate slide rail (27) is arranged on the side surface of the second frame (26), the positioning plate slide plate (33) is movably clamped in the positioning plate slide rail (27), the Pin positioning plate (28) is fixedly connected with the top of the positioning plate slide plate (33), and the positioning plate slide plate (33) moves up and down along the positioning plate slide rail (27) to drive the Pin positioning plate (28) to move up and down and drive the positioning teeth (29) to clamp the Pin pins (32).

5. The assembling system of the multi-pin connector according to claim 1, wherein the discharging and pressing assembly comprises a first rack (21), a translation bottom plate (15), a first horizontal slide rail (12), a second horizontal slide rail (13), a translation plate (1), a pressing device, a vacuum adsorption device and a horizontal moving motor (14), the translation bottom plate (15) is vertically fixed on the side surface of the first rack (21), the first horizontal slide rail (12) and the second horizontal slide rail (13) are fixed on the side surface of the translation bottom plate (15) in parallel, the translation plate (1) is movably clamped in the first horizontal slide rail (12) and the second horizontal slide rail (13), the pressing device and the vacuum adsorption device are fixedly arranged on the side surface of the translation plate (1), and the horizontal moving motor (14) operates to drive the translation plate (1) to press along the first horizontal slide rail (12), The second horizontal sliding rail (13) moves horizontally.

6. The assembly system of a multi-pin connector according to claim 5, wherein the vacuum adsorption device comprises a first lifting base plate (2), a first lifting plate (3), a first lifting motor, an adsorption head fixing member (4) and a vacuum adsorption head (5), the first lifting base plate (2) is fixedly arranged on the side surface of the translation plate (1), a first lifting slide rail is arranged on the first lifting base plate (2), the first lifting plate (3) is movably clamped in the first lifting slide rail, the adsorption head fixing member (4) is fixed on the side surface of the first lifting plate (3), the vacuum adsorption head (5) is fixedly arranged at the bottom of the adsorption head fixing member (4), the bottom of the vacuum adsorption head (5) is provided with a vacuum adsorption port and a PAF plate fixing groove matched with the PAF plate (31) in shape,

the first lifting motor runs to drive the first lifting plate (3), the adsorption head fixing piece (4) and the vacuum adsorption head (5) to lift, and the vacuum adsorption port adsorbs the PAF plate (31), so that the PAF plate (31) is clamped in the PAF plate fixing groove.

7. The assembling system of the multi-Pin connector according to claim 5, wherein the pressing device comprises a second lifting base plate (8), a second lifting plate (9), a second lifting motor, a pressing fixing plate (10) and a pressing piece (11), the second lifting base plate (8) is fixedly arranged on the side surface of the translation plate (1), a second lifting slide rail is arranged on the second lifting base plate (8), the second lifting plate (9) is movably clamped in the second lifting slide rail, the side surface of the pressing fixing plate (10) is fixedly connected with the side surface of the first lifting plate (3), the pressing piece (11) is arranged at the bottom of the pressing fixing plate (10), and a pressing groove matched with the shape of the PAF plate (31) and the arrangement form of the Pin pins (32) is arranged at the bottom of the pressing piece (11).

8. A multi-pin connector assembly system according to claim 1, further comprising a connector transfer tape (19), wherein the connector holders (18) are provided on the connector transfer tape (19).

9. The system for assembling a multi-pin connector according to claim 1, wherein the feeding conveyor comprises a feeding frame (6) and a feeding groove (7) matched with the shape of the PAF plate (31), and the feeding groove (7) is arranged at the top of the feeding frame (6).

10. The assembly system of claim 1, wherein the bottom of the PAF plate (31) is provided with a snap plate (30), and the connector (17) is provided with a snap fit with the snap plate (30).

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