CN211966605U - Feeder line connector elbow assembly machine - Google Patents

Abstract

The utility model discloses a feeder connector elbow assembly machine, which comprises a base, a PLC controller arranged on the base, a side feeding mechanism, a top feeding mechanism and a rotating motor; the side feeding mechanism is characterized by comprising a fixed plate, an installation cylinder, a side pushing cylinder and a pushing cylinder; the support plate is fixed on the base through screws; the bracket plate is provided with an installation cylinder fixing block and an installation plate; the mounting cylinder is mounted on the mounting cylinder fixing plate; the mounting cylinder is provided with a product fixing block; the mounting plate is provided with a side-push cylinder fixing plate, a guide rail and a connecting plate; the guide rail is provided with a sliding block; the sliding block is provided with a feeding plate; the feeding plate and the connecting plate are both provided with product grooves; and the feeding plate is provided with a pushing cylinder. The utility model discloses a realize installing the feeder line connector automatically to shorten the time of assembly, improve work efficiency, increase output.

Description

Feeder line connector elbow assembly machine

Technical Field

The utility model relates to an elbow assembly machine specifically indicates a feeder line connector elbow assembly machine.

Background

Today, the rapid development of electronic information technology has diversified signal carriers, but in any signal path, a feeder connector is used, the feeder connector is an indispensable component in electronic information equipment, the rapid development of technology undoubtedly promotes the rush of various technologies, and how to accurately and rapidly realize the inevitable scheduling of automatic production of the connector. Therefore, the feeder connector elbow assembling machine is provided.

Disclosure of Invention

The utility model aims at solving current technique, during the assembly feeder connector in the mill, all adopt artifical single to assemble, adopt such assembly method can make the assemble duration long, and is inefficient, and the great scheduling problem of the artifical volume that needs moreover provides a feeder connector elbow assembly machine.

In order to achieve the above purpose, the utility model provides a following technical scheme: a feeder connector elbow assembly machine comprises a base, a PLC (programmable logic controller) arranged on the base, a side feeding mechanism, a top feeding mechanism and a rotating motor; the side feeding mechanism is characterized by comprising a support plate, a mounting cylinder, a side pushing cylinder and a pushing cylinder; the support plate is fixed on the base through screws; the bracket plate is provided with an air cylinder fixing plate and an installing plate; the mounting cylinder is mounted on the mounting cylinder fixing plate; the mounting cylinder is provided with a product fixing block; the mounting plate is provided with a side-push cylinder fixing plate, a guide rail and a connecting plate; the guide rail is provided with a sliding block; the sliding block is provided with a feeding plate; the feeding plate and the connecting plate are both provided with a material groove; and the feeding plate is provided with a pushing cylinder.

Preferably, the side feeding mechanism and the top feeding mechanism are both connected with vibrating discs; the vibration discs are provided with feeding pipes; the connecting plate is connected with the feeding pipe.

Preferably, the top feeding mechanism comprises a first support plate, a first mounting cylinder, a first side pushing cylinder and a first pushing cylinder; the first bracket plate is provided with a first cylinder fixing plate; a first mounting cylinder is mounted on the first mounting cylinder fixing plate; a product fixing block is arranged on the first mounting cylinder; the first bracket plate is also provided with a first side-push cylinder fixing plate; and a first side push cylinder and a first guide rail are arranged on the first side push cylinder fixing plate.

Preferably, a first sliding block is mounted on the first guide rail; the first sliding block is connected with the first side pushing cylinder; a first pushing cylinder fixing plate is mounted on the first sliding block; a first pushing cylinder and a fixing block are mounted on the first pushing cylinder fixing plate; the fixed block is provided with a connecting block; a feeding groove and a feeding cylinder I are arranged on the connecting block; the feeding groove is connected with the feeding pipe; the bottom of the feeding groove is provided with a linear vibrator; the linear vibrator is fixed on the base; the connecting block is also provided with a sliding chute; a sliding block is arranged in the sliding groove; the sliding block is connected with the first feeding cylinder; and the fixed block and the sliding block are both provided with a trough.

Preferably, the base is further provided with a material taking mechanism; a mechanism fixing plate is arranged on the base; a second side-push cylinder fixing plate is arranged on the mechanism fixing plate; a second guide rail and a second side-push cylinder are arranged on the second side-push cylinder fixing plate; a second sliding block is arranged on the second guide rail; a material taking cylinder can be arranged on the second sliding block; the side push cylinder II is connected with the sliding block II; and the material taking cylinder is provided with material taking pincers.

Preferably, the base is further provided with a rotating motor through a screw; the rotating motor is provided with a cylinder connecting plate; a motor is arranged on the cylinder connecting plate; the rotating motor and the motor are provided with synchronous belt wheels; and a synchronous belt is arranged on the synchronous belt wheel.

Preferably, the rotating motor is provided with a turntable; a plurality of fixing plates are arranged on the rotary table; a third guide rail is arranged on the fixed plate; a third sliding block is arranged on the third guide rail; a product fixing plate is arranged on the third sliding block; a connecting fixing plate is arranged between the product fixing plate and the fixing plate; a product groove plate is arranged on the product fixing plate; and a product groove is arranged on the product groove plate.

The utility model has the advantages that: the assembly machine automatically installs the feeder connector through realization, thereby shortening the assembly time, improving the working efficiency and increasing the yield.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the side feeding mechanism of the present invention.

Fig. 3 is a schematic view of the top feeding mechanism of the present invention.

Fig. 4 is a partial schematic view of the top feeding mechanism of the present invention.

Fig. 5 is a schematic view of the material taking mechanism of the present invention.

Fig. 6 is a partial schematic view of the present invention.

Illustration of the drawings: 1, a base; 2, a PLC controller; 3, a lateral feeding mechanism; 4, a top feeding mechanism; 5 rotating the motor; 301 a mounting plate; 302 installing a cylinder; 303 laterally pushing the cylinder; 304 pushing cylinder; 305 side-pushing a cylinder fixing plate; 306 a guide rail; 307 connecting plates; 308 a slide block; 309 a feeding plate; a trough 310; 311 installing a cylinder fixing plate; 312 mounting plate; 6 vibrating the disc; 7 a feeding pipe; 401 supporting a first frame plate; 402, mounting a first air cylinder; 403, laterally pushing the first cylinder; 404 pushing cylinder one; 405 mounting a first cylinder fixing plate; 406 product securing block; 407 laterally pushing a cylinder fixing plate I; 408 a first guide rail; 409 a first sliding block; 410 pushing the first cylinder fixing plate; 411 fixed blocks; 412 connecting blocks; 413 a feed chute; 414 a first feeding cylinder; 415 a chute; 416 a slider; 8, a material taking mechanism; 801 mechanism fixing plate; 802 guide rail two; 803 side-pushing the cylinder II; 804, a second sliding block; 805 a material taking cylinder; 806 reclaiming tongs; 807 laterally pushing a cylinder fixing plate II; 9, connecting a cylinder plate; 10, a motor; 11 a synchronous pulley; 12 synchronous belts; 13 a rotating disc; 14 fixing the plate; 15, a third guide rail; 16, a third sliding block; 17 a product fixing plate; 18 connecting the fixed plate; 19 product trough plate; 20 product tanks; 21 linear vibrator.

Detailed Description

The feeder connector elbow assembling machine of the present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1 to 6, the feeder connector elbow assembly machine in this embodiment includes a base 1, a PLC controller 2 mounted on the base 1, a side feeding mechanism 3, a top feeding mechanism 4, and a rotating motor 5; the side feeding mechanism 3 is characterized by comprising a support plate 301, a mounting cylinder 302, a side pushing cylinder 303 and a pushing cylinder 304; the support plate 301 is fixed on the base 1 through screws; the bracket plate 301 is provided with an installation cylinder fixing plate 311 and an installation plate 312; the mounting cylinder fixing plate 311 is provided with a mounting cylinder 302; the mounting cylinder 302 is provided with a product fixing block 406; the mounting plate 312 is provided with a side-push cylinder fixing plate 305, a guide rail 306 and a connecting plate 307; a slide block 308 is arranged on the guide rail 306; a feeding plate 309 is arranged on the sliding block 308; a trough 310 is arranged on each of the feeding plate 309 and the connecting plate 307; the feeding plate 309 is provided with a pushing cylinder 304; the side feeding mechanism 3 and the top feeding mechanism 4 are both connected with a vibrating disk 6; the vibration discs 6 are provided with feeding pipes 7; the connecting plate 307 is connected with the feeding pipe 7; the top feeding mechanism 4 comprises a first support plate 401, a first mounting cylinder 402, a first side pushing cylinder 403 and a first pushing cylinder 404; a first cylinder fixing plate 405 is mounted on the first support plate 401; a first mounting cylinder 402 is mounted on the first mounting cylinder fixing plate 405; a product fixing block 406 is arranged on the first mounting cylinder 402; a side-push cylinder fixing plate I407 is further mounted on the support plate I401; a first side push cylinder 403 and a first guide rail 408 are arranged on the first side push cylinder fixing plate 407; a first sliding block 409 is arranged on the first guide rail 408; the first sliding block 409 is connected with the first side pushing cylinder 403; a first pushing cylinder fixing plate 410 is arranged on the first sliding block 409; a first pushing cylinder 404 and a fixed block 411 are arranged on the first pushing cylinder fixing plate 410; a connecting block 412 is mounted on the fixed block 411; a feeding groove 413 and a feeding cylinder I414 are arranged on the connecting block 412; the feeding groove 413 is connected with a feeding pipe 7; the bottom of the feeding groove 413 is provided with a linear vibrator 21; the linear vibrator 21 is fixed on the base 1; a sliding groove 415 is further formed in the connecting block 412; a sliding block 416 is arranged in the sliding groove 415; the sliding block 416 is connected with the first feeding cylinder 414; a trough 310 is arranged on each of the fixed block 411 and the sliding block 416; the base 1 is also provided with a material taking mechanism 8; a mechanism fixing plate 801 is arranged on the base 1; a second side-push cylinder fixing plate 807 is arranged on the mechanism fixing plate 801; a second guide rail 802 and a second side-push cylinder 803 are arranged on the second side-push cylinder fixing plate 807; a second sliding block 804 is arranged on the second guide rail 802; a material taking cylinder 805 can be arranged on the second sliding block 804; the second side-push cylinder 803 is connected with the second sliding block 804; the material taking cylinder 805 is provided with a material taking clamp 806; the base 1 is also provided with a rotating motor 5 through a screw; a cylinder connecting plate 9 is arranged on the rotating motor 5; the cylinder connecting plate 9 is provided with a motor 10; the rotating motor 5 and the motor 10 are provided with synchronous pulleys 11; a synchronous belt 12 is arranged on the synchronous belt wheel 11; a rotary disc 13 is arranged on the rotating motor 5; a plurality of fixing plates 14 are arranged on the rotary table 13; a third guide rail 15 is arranged on the fixed plate 14; a third sliding block 16 is arranged on the third guide rail 15; a product fixing plate 17 is arranged on the third sliding block 16; a connecting fixing plate 18 is arranged between the product fixing plate 17 and the fixing plate 14; a product groove plate 19 is arranged on the product fixing plate 18; the product groove plate 19 is provided with a product groove 20.

In the utility model, the side-mounted thread insert and the top-mounted thread insert are both placed in the corresponding vibration plate 6, the parameters of each cylinder are set on the PLC controller 2, the side-mounted thread insert enters the feeding pipe 7 through the vibration of the vibration plate 6, and enters the trough 310 of the feeding plate 309 through the feeding pipe 7, then the side-push cylinder 303 pushes the feeding plate 309 to move to the product fixing block 406, then the push cylinder 304 pushes the thread insert to be fixed on the product fixing block 406, then the mounting cylinder 302 pushes the product fixing block 406 to move, the product fixing block 406 drives the thread insert to move to the product trough 20 on the product trough block 19 mounted on the rotary table 13, then the motor 10 drives the rotary motor 5 to rotate through the synchronous belt 12 mounted on the rotary motor 5, the rotary motor 5 drives the rotary table 13 to rotate, the side-mounted thread insert is controlled by the PLC controller 2 to be rotated to the top-mounted thread insert, the top-mounted threaded sleeve enters a feeding pipe 7 through a vibrating plate 6 and then enters a feeding groove 413, the threaded sleeve in the feeding groove 413 is vibrated by a linear vibrator 21 to enable the threaded sleeve to move forwards, then a feeding cylinder I414 drives a sliding block 416 to move along a sliding groove 415 on a connecting block 412, the threaded sleeve is pushed into a material groove 310 on a fixed block 411, then a side-pushing cylinder I403 pushes a sliding block I409 to move along a guide rail I408, the sliding block I409 drives the fixed block 411 and the threaded sleeve to move to the bottom of an installation cylinder I402, then the pushing cylinder I404 pushes the threaded sleeve to move upwards, the threaded sleeve is fixed on a product fixed block 406, then the installation cylinder I402 pushes the product fixed block 406 to move downwards, the product fixed block 406 drives the threaded sleeve to move to a product groove 20 to enable the threaded sleeve to be installed on a product, then a rotary table 13 drives the installed threaded sleeve to rotate to a material taking device, then the second side pushing cylinder 803 pushes the second sliding block 804 to move along the second guide rail 802, the second sliding block 804 drives the material taking cylinder 805 to move together, then the material taking cylinder 805 controls the material taking clamp 806 to clamp the installed thread insert, and finally the thread insert is placed in the collection box; thereby install the feeder line connector through realizing the automation to shorten the time of assembly, improve work efficiency, increase output.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims (7)

1. A feeder connector elbow assembly machine comprises a base (1), a PLC (programmable logic controller) arranged on the base (1), a side feeding mechanism (3), a top feeding mechanism (4) and a rotating motor (5); the side feeding mechanism (3) is characterized by comprising a support plate (301), an installation cylinder (302), a side pushing cylinder (303) and a pushing cylinder (304); the support plate (301) is fixed on the base (1) through screws; the bracket plate (301) is provided with an installation cylinder fixing plate (311) and an installation plate (312); the mounting cylinder fixing plate (311) is provided with a mounting cylinder (302); a product fixing block (406) is arranged on the mounting cylinder (302); a side-push cylinder fixing plate (305), a guide rail (306) and a connecting plate (307) are arranged on the mounting plate (312); a sliding block (308) is arranged on the guide rail (306); a feeding plate (309) is arranged on the sliding block (308); a material groove (310) is formed in each of the feeding plate (309) and the connecting plate (307); and a pushing cylinder (304) is arranged on the feeding plate (309).

2. The feeder connector elbow assembly machine of claim 1, wherein: the side feeding mechanism (3) and the top feeding mechanism (4) are both connected with vibrating discs (6); the vibration discs (6) are provided with feeding pipes (7); the connecting plate (307) is connected with the feeding pipe (7).

3. The feeder connector elbow assembly machine of claim 2, wherein: the top feeding mechanism (4) comprises a first support plate (401), a first mounting air cylinder (402), a first side pushing air cylinder (403) and a first pushing air cylinder (404); a first cylinder fixing plate (405) is mounted on the first support plate (401); a first mounting cylinder (402) is mounted on the first mounting cylinder fixing plate (405); a product fixing block (406) is arranged on the mounting cylinder I (402); a first side-push cylinder fixing plate (407) is further mounted on the first support plate (401); and a first side push cylinder (403) and a first guide rail (408) are arranged on the first side push cylinder fixing plate (407).

4. A feeder connector elbow assembly machine as claimed in claim 3, wherein: a first sliding block (409) is arranged on the first guide rail (408); the first sliding block (409) is connected with the first side pushing cylinder (403); a first pushing cylinder fixing plate (410) is arranged on the first sliding block (409); a first pushing cylinder (404) and a fixed block (411) are arranged on the first pushing cylinder fixing plate (410); a connecting block (412) is arranged on the fixed block (411); a feeding groove (413) and a feeding cylinder I (414) are arranged on the connecting block (412); the feeding groove (413) is connected with the feeding pipe (7); the bottom of the feeding groove (413) is provided with a linear vibrator (21); the linear vibrator (21) is fixed on the base (1); a sliding groove (415) is further formed in the connecting block (412); a sliding block (416) is arranged in the sliding groove (415); the sliding block (416) is connected with the feeding cylinder I (414); and the fixed block (411) and the sliding block (416) are both provided with a trough (310).

5. The feeder connector elbow assembly machine of claim 1, wherein: a material taking mechanism (8) is further installed on the base (1); a mechanism fixing plate (801) is arranged on the base (1); a second side-push cylinder fixing plate (807) is arranged on the mechanism fixing plate (801); a second guide rail (802) and a second side-push cylinder (803) are arranged on the second side-push cylinder fixing plate (807); a second sliding block (804) is arranged on the second guide rail (802); a material taking cylinder (805) can be arranged on the second sliding block (804); the second side-push cylinder (803) is connected with the second sliding block (804); and the material taking cylinder (805) is provided with a material taking clamp (806).

6. The feeder connector elbow assembly machine of claim 5, wherein: a rotating motor (5) is further mounted on the base (1) through a screw; a cylinder connecting plate (9) is arranged on the rotating motor (5); a motor (10) is arranged on the cylinder connecting plate (9); the rotating motor (5) and the motor (10) are provided with synchronous pulleys (11); and a synchronous belt (12) is arranged on the synchronous pulley (11).

7. The feeder connector elbow assembly machine of claim 6, wherein: a rotary table (13) is arranged on the rotating motor (5); a plurality of fixing plates (14) are arranged on the rotary table (13); a third guide rail (15) is arranged on the fixed plate (14); a third sliding block (16) is arranged on the third guide rail (15); a product fixing plate (17) is arranged on the third sliding block (16); a connecting fixing plate (18) is arranged between the product fixing plate (17) and the fixing plate (14); a product groove plate (19) is arranged on the product fixing plate (17); and a product groove (20) is arranged on the product groove plate (19).

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