CN214640028U - Connector terminal riveting device - Google Patents

Abstract

The utility model relates to a connector terminal riveting set solves the problem that current connector terminal riveting is inefficient. The riveting machine comprises a machine base, a sleeve feeding mechanism, a contact pin feeding mechanism, a riveting mechanism and a discharging mechanism; the riveting mechanism comprises a riveting pressure lever arranged on the riveting station and a riveting driving mechanism; during operation sleeve feed mechanism automatic feed sleeve, contact pin feed mechanism automatic feed contact pin, sleeve feed mechanism's sleeve material loading base sends the sleeve to riveting station, contact pin feeding mechanism sends the contact pin to the logical inslot of contact pin riveting location, the logical drive mechanism drive contact pin riveting location moves down and makes contact pin and sleeve align, riveting actuating mechanism drive riveting depression bar moves down and rivets contact pin and sleeve, discharge mechanism is with the ejection of compact of riveted connector terminal, thereby realize the automatic riveting ejection of compact of connector terminal, high production efficiency, the cost of labor is saved, and is suitable for batch production.

Description

Connector terminal riveting device

Technical Field

The utility model relates to a connector terminal riveting set.

Background

The current connector terminal and the sleeve 9 are generally formed by placing the pin 10 in the sleeve and then riveting, and the current assembly mode is formed by manually feeding and then riveting, so that the efficiency is low, and the current assembly mode is not suitable for mass production.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve the problem of current connector terminal riveting inefficiency.

For solving the utility model provides a technical scheme that technical problem adopted does: the utility model discloses a connector terminal riveting device, which comprises a machine base, a sleeve feeding mechanism, a contact pin feeding mechanism, a riveting mechanism for assembling a contact pin and a sleeve, and a discharging mechanism; the riveting mechanism comprises a riveting pressure lever arranged on a riveting station; the riveting driving mechanism drives the riveting pressing rod to move downwards to rivet the contact pin and the sleeve;

the sleeve feeding mechanism comprises a first vibrating disk for vibrating and discharging the sleeve and a first slide way connected with the first vibrating disk; the sleeve feeding mechanism comprises a sleeve feeding base which is arranged on the base in a sliding mode, and a sleeve feeding base driving mechanism which drives the sleeve feeding base to move so as to send the sleeve to the riveting station, wherein a sleeve positioning riveting groove used for positioning and riveting the sleeve is formed in the sleeve feeding base;

contact pin feed mechanism including the second vibration dish that is used for the contact pin vibration ejection of compact, the second slide of being connected with the second vibration dish, contact pin feed mechanism lead to the groove including the contact pin riveting location that is used for the contact pin joint location that corresponds riveting depression bar below, drive contact pin riveting location lead to the groove and move down with the sleeve riveting location that the sleeve location was riveted in the inslot leads to groove actuating mechanism to and send the contact pin that the second slide flows to the contact pin feeding mechanism that the inslot was led to in contact pin riveting location, riveting depression bar and the cooperation of leading to the groove setting in contact pin riveting location, the logical groove of contact pin riveting location slides from top to bottom and locates on the frame.

Right the utility model discloses do further limited technical scheme and include:

the riveting driving mechanism comprises a lead screw and a motor, the lead screw drives the first sliding block to slide up and down, and the lead screw is provided with a threaded hole matched with the first sliding block.

The sliding block is fixedly provided with a second vertical sliding rail, the contact pin riveting positioning through groove is arranged on the second vertical sliding rail in a vertically sliding mode through the second sliding block, the second sliding block is elastically connected with the first sliding block through a spring, and the contact pin riveting positioning through groove driving mechanism and the riveting driving mechanism are driven in the same mode.

Contact pin feeding mechanism including the contact pin baffle box that makes the vertical derivation of contact pin that corresponds the export setting of second slide, locate the material loading push pedal supporting bench of the logical groove side of contact pin riveting location, slide and locate the contact pin pay-off push pedal on the material loading push pedal supporting bench to and drive contact pin pay-off push pedal remove with the contact pin that flows out in the contact pin baffle box deliver to the contact pin pay-off push pedal actuating mechanism in the contact pin riveting constant head tank, contact pin pay-off push pedal on be equipped with the logical groove of the vertical complex contact pin pay-off of contact pin.

And a first photoelectric switch for detecting whether a contact pin exists in the contact pin guide groove is arranged in the contact pin guide groove.

The sleeve feeding mechanism comprises a sleeve pushing plate arranged corresponding to the first slide discharge port and a sleeve pushing plate driving mechanism for driving the sleeve pushing plate to push the sleeve out, a sleeve feeding groove matched with the sleeve is formed in the sleeve pushing plate, and the sleeve feeding mechanism further comprises a feeding clamp for feeding the sleeve in the sleeve feeding groove into the sleeve positioning riveting groove and a clamp driving mechanism for driving the feeding clamp to feed.

Discharge mechanism be ejection of compact anchor clamps, feeding jig and ejection of compact anchor clamps parallel locate on the anchor clamps mount, the anchor clamps mount be on a parallel with first slide setting, anchor clamps actuating mechanism including the upper and lower displacement actuating mechanism that drives the anchor clamps mount and reciprocate to and the material level that sends out that drives the anchor clamps mount and remove along the anchor clamps mount and move actuating mechanism, sleeve material loading base pass through horizontal slide rail and base sliding connection, horizontal slide rail set up with the anchor clamps mount is perpendicular.

When setting up the detection station, the anchor clamps mount on still including being used for sending the terminal after riveting to the detection anchor clamps that detect the station, detect that anchor clamps are located between feeding anchor clamps and the ejection of compact anchor clamps, when the material loading anchor clamps material loading, detect that anchor clamps correspond the setting of detection station.

The feeding base driving mechanism is a cylinder driving mechanism.

The through groove for riveting and positioning the contact pin is internally provided with an elastic clamping piece used for clamping the contact pin in the through groove for riveting and positioning the contact pin.

Through the technical scheme, the beneficial effects of the utility model are that: the utility model discloses a connector terminal riveting set's during operation sleeve feed mechanism automatic feed sleeve, contact pin feed mechanism automatic feed contact pin, the sleeve material loading base of sleeve feed mechanism sends the sleeve to the riveting station, contact pin feeding mechanism sends the contact pin to the logical inslot of contact pin riveting location, the logical groove of drive pin riveting location is led to the drive pin riveting location of contact pin riveting location, it makes the contact pin align with the sleeve to move down, riveting actuating mechanism drive riveting depression bar moves down and rivets contact pin and sleeve, discharge mechanism is with the connector terminal ejection of compact that rivets, thereby realize the automatic riveting ejection of compact of connector terminal, high production efficiency, the cost of using manpower sparingly, and is suitable for batch production.

Drawings

Fig. 1 is a schematic perspective view of a connector terminal riveting apparatus according to the present invention.

Fig. 2 is a schematic perspective view of a connector terminal riveting apparatus according to the present invention.

Fig. 3 is a schematic view of a cutting structure of the connector terminal riveting device of the present invention.

Fig. 4 is a schematic structural view of the riveting mechanism and the pin feeding mechanism of the connector terminal riveting device of the present invention.

Fig. 5 is a schematic structural diagram of a sleeve feeding mechanism and a sleeve feeding mechanism of the connector terminal riveting device of the present invention.

Detailed Description

The structure of the present invention will be further explained with reference to the accompanying drawings.

Referring to fig. 1 to 5, a connector terminal riveting apparatus includes a housing 1, a sleeve feeding mechanism 2, a pin feeding mechanism 3, a sleeve feeding mechanism 4, a pin feeding mechanism 5, a riveting mechanism 6 for assembling a pin and a sleeve, and a discharging mechanism 7; the riveting mechanism 6 comprises a riveting pressure lever 61 arranged on a riveting station; the riveting driving mechanism 62 drives the riveting pressing rod to move downwards to rivet the contact pin 10 and the sleeve 9;

the sleeve feeding mechanism 2 comprises a first vibrating disk 21 for vibrating and discharging the sleeve and a first slide way 22 connected with the first vibrating disk; the sleeve feeding mechanism 4 comprises a sleeve feeding base 41 arranged on the base in a sliding mode and a sleeve feeding base driving mechanism 42 for driving the sleeve feeding base to move so as to send the sleeve to the riveting station, and the sleeve feeding base driving mechanism is a cylinder driving mechanism. The sleeve feeding base 42 is provided with a sleeve positioning riveting groove 421 for positioning riveting the sleeve, and the sleeve feeding mechanism further comprises a sleeve feeding mechanism 43 for feeding the sleeve flowing out of the first slideway into the sleeve positioning riveting groove;

contact pin feeding mechanism 3 is including the second vibration dish 31 that is used for the contact pin vibration ejection of compact, second slide 32 of being connected with the second vibration dish, contact pin feed mechanism 5 is including corresponding riveting depression bar below the contact pin riveting location that is used for the contact pin joint location to lead to groove 51, drive contact pin riveting location leads to the groove and moves down with sleeve positioning riveting location that the sleeve in the riveting groove aligns and leads to groove actuating mechanism 52, and send the contact pin that the second slide flows to contact pin riveting location and lead to the contact pin feeding mechanism 53 in the groove, the riveting depression bar leads to the groove cooperation setting with contact pin riveting location, the logical groove of contact pin riveting location slides from top to bottom and locates on the frame.

In this embodiment, a first vertical slide rail 11 is arranged on the base 1, the first vertical slide rail is provided with a plurality of connecting members, the riveting press rod 61 is arranged on the first vertical slide rail through the first slide block 12 in a vertically sliding manner, the riveting driving mechanism 62 comprises a screw rod 621 driving the first slide block to slide vertically and a motor 622 driving the screw rod to rotate, and a threaded hole matched with the first slide block is arranged on the screw rod. The motor drives the screw rod to rotate to drive the first sliding block to move up and down for riveting.

In this embodiment, a second vertical slide rail 13 is fixedly arranged on the slide block, the first vertical slide rail is provided with two continuous slide rails, the two first slide blocks are fixedly connected through the second vertical slide rail, the pin riveting positioning through groove 51 is arranged on the second vertical slide rail through the second slide block 14 in a vertically sliding manner, the second slide block is elastically connected with the first slide block through a spring, and the pin riveting positioning through groove driving mechanism and the riveting driving mechanism are driven in the same manner. When the motor drives the screw rod to rotate to drive the first slider and the riveting pressing rod to move downwards, the first slider drives the second slider to move downwards, the second slider drives the contact pin riveting positioning through groove to move downwards to be in butt joint with the sleeve in the sleeve positioning riveting groove on the riveting station, so that the contact pin in the contact pin riveting positioning through groove is aligned with the sleeve, and when the riveting pressing rod continues to move downwards, the contact pin riveting positioning through groove does not move downwards under the elastic action of the spring, so that the riveting pressing rod rivets the contact pin with the sleeve.

In this embodiment, the pin feeding mechanism 53 includes a pin guiding groove 531 corresponding to the outlet of the second slideway and used for vertically guiding the pins, a feeding push plate supporting table 532 disposed on the side of the through groove for riveting and positioning the pins, a pin feeding push plate 533 slidably disposed on the feeding push plate supporting table, and a pin feeding push plate driving mechanism 534 for driving the pin feeding push plate to move so as to send the pins flowing out of the pin guiding groove to the through groove for riveting and positioning the pins, wherein the pin feeding push plate is provided with a pin feeding through groove 5331 vertically matched with the pins. In this embodiment, a first photoelectric switch 535 for detecting whether there is a pin in the pin guiding groove is disposed in the pin guiding groove 531. The first photoelectric switch is used for detecting whether the contact pin passes through the contact pin guide groove. In this embodiment, the through groove 51 for riveting and positioning the pin is provided with an elastic clip 511 for clipping the pin into the through groove. The contact pin feeding push plate driving mechanism is an air cylinder driving mechanism. The contact pin is vibrated out by the second vibration disc, the contact pin falls into the contact pin guide groove along the sliding of the second slide way, then the contact pin falls into the contact pin feeding through groove from the contact pin guide groove, then the contact pin feeding push plate driving mechanism drives the contact pin feeding push plate to push out to enable the contact pin feeding through groove to be aligned with the contact pin riveting positioning groove, and the contact pin falls into the contact pin riveting positioning groove in a sliding manner and is clamped by the elastic clamping piece.

In this embodiment, the sleeve feeding mechanism 43 includes a sleeve pushing plate 431 disposed corresponding to the first chute discharge port, and a sleeve pushing plate driving mechanism 432 for driving the sleeve pushing plate to push the sleeve out, where the sleeve pushing plate driving mechanism is a cylinder driving mechanism. The sleeve material pushing plate is provided with a sleeve feeding groove 4311 matched with the sleeve, and the sleeve feeding mechanism further comprises a sleeve detection photoelectric switch 435 for detecting whether the sleeve is arranged in the sleeve feeding groove or not. The sleeve feeding mechanism further comprises a feeding clamp 433 used for feeding the sleeve in the sleeve feeding groove into the sleeve positioning riveting groove, and a clamp driving mechanism 434 used for driving the feeding clamp to feed.

In this embodiment, discharge mechanism 7 is ejection of compact anchor clamps, and feeding jig and ejection of compact anchor clamps parallel locate on the anchor clamps mount, and the anchor clamps mount sets up in parallel with first slide, and anchor clamps actuating mechanism 434 is including the upper and lower displacement actuating mechanism that drives the anchor clamps mount and reciprocate to and the material level that sends out that drives the anchor clamps mount and remove along the anchor clamps mount shifts actuating mechanism, and sleeve material loading base passes through horizontal slide rail 15 and base sliding connection, and horizontal slide rail sets up with the anchor clamps mount is perpendicular. The clamp driving mechanism drives the feeding clamp and the discharging clamp to move up and down horizontally and along the first slide way to carry out feeding and discharging. When setting up the detection station, still including being used for sending the terminal after riveting to the detection anchor clamps 8 that detect the station on the anchor clamps mount, detect that anchor clamps are located between feeding anchor clamps and the ejection of compact anchor clamps, when the material loading anchor clamps material loading, detect that anchor clamps correspond and detect the station setting.

The utility model discloses a connector terminal riveting device's during operation sleeve feed mechanism automatic feed sleeve, contact pin feed mechanism automatic feed contact pin, sleeve material loading base of sleeve material loading mechanism sends the sleeve to riveting station, contact pin feeding mechanism sends the contact pin to contact pin riveting location logical inslot and is blocked by the elasticity card, then riveting actuating mechanism drive riveting depression bar moves down and contact pin riveting location logical groove moves down, when contact pin riveting location logical groove and the sleeve in the sleeve location riveting groove on riveting station dock, the contact pin in the contact pin riveting location logical groove aligns with the sleeve, then the riveting continues to move down, contact pin riveting location logical groove does not move down under the elastic action of spring, thereby riveting depression bar rivets contact pin and sleeve, ejection of compact anchor clamps are the connector terminal ejection of compact that rivets, thereby realize the automatic riveting ejection of compact of connector terminal, high production efficiency, the labor cost is saved, and the method is suitable for batch production.

While the present invention has been described in detail and with reference to the accompanying drawings, it is not to be understood as limited by the scope of the invention. Various modifications and changes may be made by those skilled in the art without inventive work within the scope of the present invention as described in the claims.

Claims (10)

1. A connector terminal riveting device is characterized in that: the riveting machine comprises a machine base, a sleeve feeding mechanism, a contact pin feeding mechanism, a riveting mechanism for assembling a contact pin and a sleeve and a discharging mechanism; the riveting mechanism comprises a riveting pressure lever arranged on a riveting station; the riveting driving mechanism drives the riveting pressing rod to move downwards to rivet the contact pin and the sleeve;

the sleeve feeding mechanism comprises a first vibrating disk for vibrating and discharging the sleeve and a first slide way connected with the first vibrating disk; the sleeve feeding mechanism comprises a sleeve feeding base which is arranged on the base in a sliding mode, and a sleeve feeding base driving mechanism which drives the sleeve feeding base to move so as to send the sleeve to the riveting station, wherein a sleeve positioning riveting groove used for positioning and riveting the sleeve is formed in the sleeve feeding base;

contact pin feed mechanism including the second vibration dish that is used for the contact pin vibration ejection of compact, the second slide of being connected with the second vibration dish, contact pin feed mechanism lead to the groove including the contact pin riveting location that is used for the contact pin joint location that corresponds riveting depression bar below, drive contact pin riveting location lead to the groove and move down with the sleeve riveting location that the sleeve location was riveted in the inslot leads to groove actuating mechanism to and send the contact pin that the second slide flows to the contact pin feeding mechanism that the inslot was led to in contact pin riveting location, riveting depression bar and the cooperation of leading to the groove setting in contact pin riveting location, the logical groove of contact pin riveting location slides from top to bottom and locates on the frame.

2. A connector terminal caulking device according to claim 1, wherein: the riveting driving mechanism comprises a lead screw and a motor, the lead screw drives the first sliding block to slide up and down, and the lead screw is provided with a threaded hole matched with the first sliding block.

3. A connector terminal caulking device according to claim 2, wherein: the sliding block is fixedly provided with a second vertical sliding rail, the contact pin riveting positioning through groove is arranged on the second vertical sliding rail in a vertically sliding mode through the second sliding block, the second sliding block is elastically connected with the first sliding block through a spring, and the contact pin riveting positioning through groove driving mechanism and the riveting driving mechanism are driven in the same mode.

4. A connector terminal caulking device according to claim 1, wherein: contact pin feeding mechanism including the contact pin baffle box that makes the vertical derivation of contact pin that corresponds the export setting of second slide, locate the material loading push pedal supporting bench of the logical groove side of contact pin riveting location, slide and locate the contact pin pay-off push pedal on the material loading push pedal supporting bench to and drive contact pin pay-off push pedal remove with the contact pin that flows out in the contact pin baffle box deliver to the contact pin pay-off push pedal actuating mechanism in the contact pin riveting constant head tank, contact pin pay-off push pedal on be equipped with the logical groove of the vertical complex contact pin pay-off of contact pin.

5. A connector terminal caulking device according to claim 4, wherein: and a first photoelectric switch for detecting whether a contact pin exists in the contact pin guide groove is arranged in the contact pin guide groove.

6. A connector terminal caulking device according to claim 1, wherein: the sleeve feeding mechanism comprises a sleeve pushing plate arranged corresponding to the first slide discharge port and a sleeve pushing plate driving mechanism for driving the sleeve pushing plate to push the sleeve out, a sleeve feeding groove matched with the sleeve is formed in the sleeve pushing plate, and the sleeve feeding mechanism further comprises a feeding clamp for feeding the sleeve in the sleeve feeding groove into the sleeve positioning riveting groove and a clamp driving mechanism for driving the feeding clamp to feed.

7. A connector terminal caulking device according to claim 6, wherein: discharge mechanism be ejection of compact anchor clamps, feeding jig and ejection of compact anchor clamps parallel locate on the anchor clamps mount, the anchor clamps mount be on a parallel with first slide setting, anchor clamps actuating mechanism including the upper and lower displacement actuating mechanism that drives the anchor clamps mount and reciprocate to and the material level that sends out that drives the anchor clamps mount and remove along the anchor clamps mount and move actuating mechanism, sleeve material loading base pass through horizontal slide rail and base sliding connection, horizontal slide rail set up with the anchor clamps mount is perpendicular.

8. A connector terminal caulking device according to claim 7, wherein: when setting up the detection station, the anchor clamps mount on still including being used for sending the terminal after riveting to the detection anchor clamps that detect the station, detect that anchor clamps are located between feeding anchor clamps and the ejection of compact anchor clamps, when the material loading anchor clamps material loading, detect that anchor clamps correspond the setting of detection station.

9. A connector terminal caulking device according to claim 1, wherein: the feeding base driving mechanism is a cylinder driving mechanism.

10. A connector terminal caulking device according to claim 1, wherein: the through groove for riveting and positioning the contact pin is internally provided with an elastic clamping piece used for clamping the contact pin in the through groove for riveting and positioning the contact pin.

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