CN117410794A - Automatic assembly equipment applied to connector - Google Patents

Abstract

The invention discloses automatic assembly equipment applied to connectors, which comprises an equipment body, wherein an upper connector pushing channel and a lower connector pushing channel are arranged on the equipment body, a matched assembly pressing mechanism used for pressing the upper connector in the upper connector pushing channel onto the lower connector for installation is arranged on the equipment body, and a plurality of upper connectors and a plurality of lower connectors can be automatically fed and are independently positioned and assembled; before the assembly is completed once, the lower connector can be automatically cut off, so that the unloading is convenient; after each time of assembly, the plurality of upper connectors and the plurality of lower connectors can automatically feed the distance of one connector width, and the one-way drive is realized by matching with a push rod motor; and a push rod motor is adopted to complete the work of independent assembly, feeding, positioning, discharging, cutting and the like between a plurality of upper connectors and a plurality of lower connectors.

Description

Automatic assembly equipment applied to connector

Technical Field

The invention relates to connector matching assembly processing, in particular to automatic assembly equipment applied to a connector.

Background

The connector generally comprises an upper connector and a lower connector, and is assembled and packaged after production, so that subsequent sales and processing are facilitated, a set of die can generally produce a plurality of lower connector shells, cutting work is needed during subsequent assembly, workers on a production line need to press-fit the lower connectors with the upper connectors independently after cutting off the lower connectors, manpower and material resources are wasted in the process, the working efficiency is reduced, and therefore, a device capable of realizing automatic assembly of the upper connectors in batches and the lower connectors in batches is needed to be designed, and meanwhile, the lower connectors can be cut off.

Accordingly, there is a need for further improvements in the mating and assembling processes of existing connectors.

Disclosure of Invention

The invention aims to provide automatic assembly equipment applied to connectors, which can realize the work of automatic feeding, automatic positioning, automatic assembly, automatic cutting-off, automatic feeding and the like of an upper connector and a lower connector.

In order to achieve the above purpose, the present invention adopts the following scheme:

the utility model provides an automatic equipment that is applied to among the connector, includes the equipment body, be provided with connector propelling movement passageway and lower connector propelling movement passageway on the equipment body, be provided with on the equipment body and be used for with last connector compress tightly in the last connector propelling movement passageway and carry out the cooperation assembly hold-down mechanism of installing to the connector down, be provided with on the cooperation assembly hold-down mechanism and be used for with the synchronous cutting structure that cuts off of lower connector in the lower connector propelling movement passageway, be provided with on the cooperation assembly hold-down mechanism every time drive after the cooperation assembly hold-down mechanism accomplishes a reciprocating motion lower connector propelling movement passageway and lower connector propelling movement passageway carry out unidirectional linkage mechanism of unidirectional distance propulsion.

Further, the upper connector pushing channel comprises an upper channel, a lower opening is formed below one side of the upper channel, a first guide hole is formed in the other side of the upper channel, a first pushing shaft is movably arranged in the first guide hole, and a first pushing plate connected with the first pushing shaft is movably arranged in the upper channel.

Further, the lower connector pushing channel comprises a lower channel, a side opening is formed in one side, close to the lower opening, of the lower channel, a second guide hole is formed in the other side of the lower channel, a second pushing shaft is movably arranged in the second guide hole, and a second pushing plate connected with the second pushing shaft is movably arranged in the lower channel.

Further, the upper channel and the lower channel are arranged in a staggered manner, and the upper channel and the lower channel are arranged at intervals up and down.

Further, the cooperation assembly hold-down mechanism is including setting up in push rod motor cabinet directly over the lower opening, be provided with the push rod motor in the push rod motor cabinet, the output of push rod motor is provided with and is used for adapting the upper surface of connector to cooperate pushing down the push head.

Further, the synchronous cutting structure comprises an extension plate arranged on one side of the pushing head, and a cutting knife for cutting off the lower connector is arranged at the lower end of the extension plate.

Further, the unidirectional linkage mechanism comprises two transverse linkage mechanisms arranged on the upper channel and the lower channel, and two unidirectional driving mechanisms;

one of the unidirectional driving mechanisms is arranged between the first push plate and one of the transverse linkage mechanisms;

the other one of the unidirectional driving mechanisms is arranged between the second push plate and the other one of the transverse linkage mechanisms.

Further, the transverse linkage mechanism comprises a transverse guide rail, a reciprocating frame is movably arranged on the transverse guide rail, a first hinge seat is arranged on the reciprocating frame, a second hinge seat is arranged on one side of the pushing head, and a connecting rod is hinged between the first hinge seat and the second hinge seat.

Further, the unidirectional driving mechanism comprises unidirectional driving plates arranged on the first pushing shaft and the second pushing shaft, unidirectional driving racks are arranged on the side walls of the unidirectional driving plates, unidirectional elastic ratchet assemblies are arranged on the side walls of the reciprocating frame, the unidirectional elastic ratchet assemblies and the unidirectional driving racks work in a matched mode, and each time when the reciprocating frame moves on one side, the unidirectional elastic ratchet assemblies cannot drive the unidirectional driving racks to move; when the reciprocating frame resets, the unidirectional elastic ratchet assembly drives the unidirectional driving rack to move.

The unidirectional elastic ratchet assembly comprises vertical shaft seats arranged in the outer ends of two sides of the reciprocating frame, vertical shaft bodies are rotatably arranged in the vertical shaft seats, unidirectional clamping hooks used for being matched with one side of the unidirectional driving racks to drive are arranged at the lower ends of the vertical shaft bodies, reset rods are arranged at the upper ends of the vertical shaft bodies, elastic piece fixing seats are arranged on the reciprocating frame, and elastic pieces used for pressing the unidirectional clamping hooks towards the inner sides are arranged between the elastic piece fixing seats and the reset rods;

the unidirectional driving rack comprises a plurality of unidirectional teeth, and a first chamfer is arranged on one side of the unidirectional teeth, facing the reciprocating frame;

the unidirectional clamping hook is provided with a second chamfer towards one side of the first chamfer.

In summary, compared with the prior art, the invention has the following beneficial effects:

the invention solves the defects existing in the assembly process of the existing connector, and has the following advantages that 1, a plurality of upper connectors and a plurality of lower connectors can automatically feed and can be independently positioned and assembled through the structural arrangement of the invention; 2. before the assembly is completed once, the lower connector can be automatically cut off, so that the unloading is convenient; 3. after each time of assembly, the plurality of upper connectors and the plurality of lower connectors can automatically feed the distance of one connector width, and the one-way drive is realized by matching with a push rod motor; 4. the push rod motor is adopted to complete the work of independent assembly, feeding, positioning, discharging, cutting and the like between a plurality of upper connectors and a plurality of lower connectors, and the push rod motor is simple in structure and convenient to use.

Drawings

FIG. 1 is one of the perspective views of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a front view of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at B;

FIG. 6 is a right side view of the present invention;

FIG. 7 is a cross-sectional view taken along line C-C of FIG. 6;

fig. 8 is a cross-sectional view of fig. 7 taken along line D-D.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the invention provides an automatic assembly device applied to a connector, comprising a device body 1, wherein an upper connector pushing channel 2 and a lower connector pushing channel 3 are arranged on the device body 1, a matched assembly pressing mechanism 4 for pressing the upper connector in the upper connector pushing channel 2 onto the lower connector for installation is arranged on the device body 1, a synchronous cutting structure 5 for cutting off the lower connector in the lower connector pushing channel 3 is arranged on the matched assembly pressing mechanism 4, and a unidirectional linkage mechanism 6 for driving the lower connector pushing channel 3 and the lower connector pushing channel 3 to perform unidirectional distance pushing after one reciprocating movement of the matched assembly pressing mechanism 4 is completed is arranged on the matched assembly pressing mechanism 4;

pre-storing a plurality of upper connectors on the upper connector pushing channel 2;

a row of lower connectors are prestored on the lower connector pushing channel 3;

at this time, one of the rightmost upper connectors and one of the leftmost lower connectors are aligned up and down;

starting the matched assembly pressing mechanism 4 to press down the upper connector, wherein at the moment, the upper connector pushing channel 2 is matched with the matched assembly pressing mechanism 4 to press down the upper surface of the upper connector, so that the upper connector and the lower connector are in press fit installation; simultaneously, in the process of downward moving of the matched assembly pressing mechanism 4, the synchronous cutting structure 5 cuts off the leftmost lower connector;

when the matched assembly compressing mechanism 4 is reset, the unidirectional linkage mechanism 6 is driven to work;

the unidirectional linkage mechanism 6 can enable the connectors in the upper connector pushing channel 2 and the lower connector pushing channel 3 to be fed by a connector width distance;

at this time, after feeding, the connector previously assembled is dropped to complete discharging.

The upper connector pushing channel 2 comprises an upper channel 201, a lower opening 202 is arranged below one side of the upper channel 201, a first guide hole 203 is arranged on the other side of the upper channel 201, a first pushing shaft 204 is movably arranged in the first guide hole 203, and a first pushing plate 205 connected with the first pushing shaft 204 is movably arranged in the upper channel 201;

the rightmost upper connector passes through the lower opening 202 and then is matched and installed with the lower connector;

the lower connector pushing channel 3 of the present invention comprises a lower channel 301, wherein a side opening 302 is arranged on one side of the lower channel 301 close to the lower opening 202, a second guiding hole 303 is arranged on the other side of the lower channel 301, a second pushing shaft 304 is movably arranged in the second guiding hole 303, and a second pushing plate 305 connected with the second pushing shaft 304 is movably arranged in the lower channel 301;

when the fitting of the upper connector and the lower connector is completed, and the fitting hold-down mechanism 4 is reset, the connector completed at this time falls from the side opening 302, and the discharging is completed.

In the present invention, the upper channel 201 and the lower channel 301 are arranged in a staggered manner, and the upper channel 201 and the lower channel 301 are arranged at an upper-lower interval.

The fit assembly pressing mechanism 4 of the present invention includes a push rod motor seat 401 disposed right above the lower opening 202, a push rod motor 402 is disposed in the push rod motor seat 401, and a pressing pushing head 403 for adapting to the upper surface of the upper connector to perform fit pressing is disposed at the output end of the push rod motor 402.

The synchronous cutting structure 5 of the present invention comprises an extension plate 501 disposed at one side of the pushing head 403, and a cutting knife 502 for cutting off the lower connector is disposed at the lower end of the extension plate 501.

The unidirectional linkage mechanism 6 of the present invention comprises two transverse linkage mechanisms 601 arranged on the upper channel 201 and the lower channel 301, and two unidirectional driving mechanisms 602;

one of the unidirectional drive mechanisms 602 is disposed between the first push plate 205 and one of the lateral linkages 601;

the other one of the unidirectional drive mechanisms 602 is disposed between the second push plate 305 and the other one of the lateral linkages 601.

The transverse linkage 601 of the present invention includes a transverse guide 6011, a reciprocating frame 6012 is movably disposed on the transverse guide 6011, a first hinge seat 6013 is disposed on the reciprocating frame 6012, a second hinge seat 6014 is disposed on one side of the pushing head 403, and a connecting rod 6015 is hinged between the first hinge seat 6013 and the second hinge seat 6014.

The unidirectional driving mechanism 602 of the present invention includes a unidirectional driving plate 6021 disposed on the first pushing shaft 204 and the second pushing shaft 304, a unidirectional driving rack 6022 is disposed on a sidewall of the unidirectional driving plate 6021, a unidirectional elastic ratchet assembly 6023 is disposed on a sidewall of the reciprocating frame 6012, and the unidirectional elastic ratchet assembly 6023 and the unidirectional driving rack 6022 cooperate.

In the invention, whenever the reciprocating frame 6012 moves to one side, the unidirectional elastic ratchet assembly 6023 cannot drive the unidirectional driving rack 6022 to perform a moving operation;

when the reciprocating frame 6012 is reset, the unidirectional elastic ratchet assembly 6023 drives the unidirectional driving rack 6022 to perform a moving operation;

the unidirectional elastic ratchet assembly 6023 comprises vertical shaft seats 1000 arranged in the outer ends of two sides of the reciprocating frame 6012, a vertical shaft body 2000 is rotatably arranged in the vertical shaft seats 1000, a unidirectional clamping hook 3000 used for being matched with one side of the unidirectional driving rack 6022 to drive is arranged at the lower end of the vertical shaft body 2000, a reset rod 8000 is arranged at the upper end of the vertical shaft body 2000, an elastic piece fixing seat 4000 is arranged on the reciprocating frame 6012, and an elastic piece 9000 used for pressing the unidirectional clamping hook 3000 towards the inner side is arranged between the elastic piece fixing seat 4000 and the reset rod 8000;

the unidirectional driving rack 6022 comprises a plurality of unidirectional teeth 6000, and a first chamfer 10000 is arranged on one side of the unidirectional teeth 6000 facing the reciprocating frame 6012;

a second chamfer 7000 is arranged on one side of the unidirectional clamping hook 3000 facing the first chamfer 10000;

as shown in fig. 3, when the push rod motor 402 moves downward, the connecting rods 6015 at both sides are opened to move a distance outwards corresponding to one of the reciprocating frames 6012, at this time, the reciprocating frame 6012 drives the vertical shaft seat 1000, the vertical shaft body 2000, the unidirectional fastening hook 3000, the elastic member fixing seat 4000 and the elastic member 9000 to move towards one of the unidirectional teeth 6000 (when the push rod motor 402 descends once, the movement distance of the unidirectional fastening hook 3000 is the distance between two adjacent unidirectional teeth 6000);

because the first chamfer 10000 and the second chamfer 7000 are provided, at this time, the first chamfer 10000 and the second chamfer 7000 cooperate to enable the unidirectional hook 3000 to open outwards, the vertical shaft body 2000 rotates angularly during the process of opening the unidirectional hook 3000 outwards, and drives the reset rod 8000 on the other side to compress towards the elastic member fixing seat 4000, when the unidirectional hook 3000 passes over one unidirectional tooth 6000, at this time, the elastic member 9000 resets the reset rod 8000 and the unidirectional hook 3000, and the reset unidirectional hook 3000 is clamped on the back surface of one unidirectional tooth 6000; (the back surface of the unidirectional hook 3000 and the back surface of the unidirectional tooth 6000 are plane and mutually pressed against each other), so as to complete the matching of the first unidirectional tooth 6000 and the unidirectional hook 3000;

at this time, when the push rod motor 402 moves upwards, the unidirectional hook 3000 is driven to reset inwards, and the unidirectional hook 3000 pulls the reciprocating frame 6012 to move by the distance between two adjacent unidirectional teeth 6000;

the complex movement frame 6012 drives the first push plate 205 or the second push plate 305 to move inwards, so that the corresponding workpiece moves inwards by a distance of one workpiece;

then the push rod motor 402 repeats the lifting operation to repeat the operation of the next one-way tooth 6000 and the one-way hook 3000, and pushes a workpiece inwards again.

While there has been shown and described what is at present considered to be the fundamental principles and the main features of the invention and the advantages thereof, it will be understood by those skilled in the art that the present invention is not limited to the foregoing embodiments, but is described in the foregoing description merely illustrates the principles of the invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention as hereinafter claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An automated assembly device for use in a connector, comprising a device body (1), characterized in that: the device comprises an equipment body (1), wherein an upper connector pushing channel (2) and a lower connector pushing channel (3) are arranged on the equipment body (1), the upper connector in the upper connector pushing channel (2) is tightly pressed to a matched assembly pressing mechanism (4) installed on the lower connector, a synchronous cutting structure (5) for cutting off the lower connector in the lower connector pushing channel (3) is arranged on the matched assembly pressing mechanism (4), and a unidirectional linkage mechanism (6) for propelling the lower connector pushing channel (3) and the lower connector pushing channel (3) at a unidirectional distance is arranged on the matched assembly pressing mechanism (4) every time after the matched assembly pressing mechanism (4) completes one-time reciprocating motion.

2. An automated assembly device for use in a connector as claimed in claim 1, wherein: the upper connector pushing channel (2) comprises an upper channel (201), a lower opening (202) is formed in the lower portion of one side of the upper channel (201), a first guide hole (203) is formed in the other side of the upper channel (201), a first pushing shaft (204) is movably arranged in the first guide hole (203), and a first pushing plate (205) connected with the first pushing shaft (204) is movably arranged in the upper channel (201).

3. An automated assembly device for use in a connector as claimed in claim 2, wherein: the lower connector pushing channel (3) comprises a lower channel (301), a side opening (302) is formed in one side, close to the lower opening (202), of the lower channel (301), a second guide hole (303) is formed in the other side, a second pushing shaft (304) is movably arranged in the second guide hole (303), and a second pushing plate (305) connected with the second pushing shaft (304) is movably arranged in the lower channel (301).

4. An automated assembly device for use in a connector according to claim 3, wherein: the upper channel (201) and the lower channel (301) are arranged in a staggered mode, and the upper channel (201) and the lower channel (301) are arranged at intervals up and down.

5. An automated assembly apparatus for use in a connector as claimed in claim 4, wherein: the cooperation assembly hold-down mechanism (4) including set up in push rod motor cabinet (401) directly over lower opening (202), be provided with push rod motor (402) in push rod motor cabinet (401), the output of push rod motor (402) is provided with and is used for adapting to go up connector upper surface and cooperate push down push head (403) of pushing down.

6. An automated assembly apparatus for use in a connector as claimed in claim 5, wherein: the synchronous cutting structure (5) comprises an extension plate (501) arranged on one side of the pushing head (403), and a cutting knife (502) for cutting off the lower connector is arranged at the lower end of the extension plate (501).

7. An automated assembly apparatus for use in a connector as claimed in claim 6, wherein: the unidirectional linkage mechanism (6) comprises two transverse linkage mechanisms (601) arranged on the upper channel (201) and the lower channel (301), and also comprises two unidirectional driving mechanisms (602);

one of the unidirectional drive mechanisms (602) is arranged between the first push plate (205) and one of the transverse linkage mechanisms (601);

the other one of the unidirectional driving mechanisms (602) is arranged between the second push plate (305) and the other one of the transverse linkage mechanisms (601).

8. An automated assembly apparatus for use in a connector as claimed in claim 7, wherein: the transverse linkage mechanism (601) comprises a transverse guide rail (6011), a reciprocating frame (6012) is movably arranged on the transverse guide rail (6011), a first hinging seat (6013) is arranged on the reciprocating frame (6012), a second hinging seat (6014) is arranged on one side of the pushing head (403), and a connecting rod (6015) is hinged between the first hinging seat (6013) and the second hinging seat (6014).

9. An automated assembly device for use in a connector as claimed in claim 8, wherein: the unidirectional driving mechanism (602) comprises a unidirectional driving plate (6021) arranged on the first pushing shaft (204) and the second pushing shaft (304), unidirectional driving racks (6022) are arranged on the side wall of the unidirectional driving plate (6021), unidirectional elastic ratchet assemblies (6023) are arranged on the side wall of the reciprocating frame (6012), and the unidirectional elastic ratchet assemblies (6023) and the unidirectional driving racks (6022) work in a matched mode;

each time the reciprocating frame (6012) moves to one side, the unidirectional elastic ratchet assembly (6023) cannot drive the unidirectional driving rack (6022) to move;

when the reciprocating frame (6012) is reset, the unidirectional elastic ratchet assembly (6023) drives the unidirectional driving rack (6022) to perform movement.

10. An automated assembly apparatus for use in a connector as claimed in claim 9, wherein: the unidirectional elastic ratchet assembly (6023) comprises vertical shaft seats (1000) arranged in the outer ends of two sides of the reciprocating frame (6012), vertical shaft bodies (2000) are rotationally arranged in the vertical shaft seats (1000), unidirectional clamping hooks (3000) used for being matched with one side of the unidirectional driving racks (6022) to drive are arranged at the lower ends of the vertical shaft bodies (2000), reset rods (8000) are arranged at the upper ends of the vertical shaft bodies (2000), elastic piece fixing seats (4000) are arranged on the reciprocating frame (6012), and elastic pieces (9000) used for pressing the unidirectional clamping hooks (3000) towards the inner sides are arranged between the elastic piece fixing seats (4000) and the reset rods (8000);

the unidirectional driving rack (6022) comprises a plurality of unidirectional teeth (6000), and a first chamfer (10000) is arranged on one side of the unidirectional teeth (6000) facing the reciprocating frame (6012);

one-way trip (3000) towards first chamfer (10000) one side is provided with second chamfer (7000).