CN210475947U

CN210475947U - Multi-station turntable device for automatic production of data lines

Info

Publication number: CN210475947U
Application number: CN201921578601.5U
Authority: CN
Inventors: 杜守军
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-09-23
Filing date: 2019-09-23
Publication date: 2020-05-08
Anticipated expiration: 2029-09-23

Abstract

The utility model relates to the technical field of data line production, in particular to a multi-station turntable device for automatic production of data lines, which comprises a turntable mechanism, a feeding mechanism and a welding mechanism, wherein the turntable mechanism comprises a frame, a disc body rotationally arranged on the frame, a first driving piece for driving the disc body to rotate, a plurality of carriers arranged at the upper end of the disc body, and a plurality of supporting mechanisms arranged at the lower end of the disc body, and the carriers are used for bearing wires; the feeding mechanism is used for moving the bearing jig which simultaneously bears the electric connectors at two ends of the data line to the turntable mechanism, the welding mechanism welds the electric connector of the bearing jig transferred by the feeding mechanism and the wire material borne by the turntable mechanism together, the turntable mechanism is used for transferring the bearing jig processed by the welding mechanism together with the welded electric connector and the wire material, automatic welding and automatic transfer of the electric connector and the wire material are realized, manual welding and manual transfer of operators are not needed, and the production and manufacturing efficiency of the data line is improved.

Description

Multi-station turntable device for automatic production of data lines

Technical Field

The utility model relates to a data line production technical field especially discloses a multistation carousel device for data line automatic production.

Background

Intelligent electronic devices (such as smart phones and tablet computers) have gradually become one of the essential tools for people to work in daily life, and after the electric quantity of the intelligent electronic devices is exhausted, the intelligent electronic devices need to be charged by using data lines, and the data lines have become one of the essential electronic accessories.

The data line mainly includes wire rod and the welded electric connector in wire rod both ends, and in the production process of data line, mainly utilize the operation personnel to weld wire rod and electric connector together manually among the prior art, then will weld wire rod and electric connector together and manually transfer required station, the operating efficiency is low, can not satisfy the needs of modernized production.

SUMMERY OF THE UTILITY MODEL

In order to overcome the shortcoming and the not enough that exist among the prior art, the utility model aims to provide a multistation carousel device for data line automatic production realizes the automatic weld and the automatic transfer of electric connector and wire rod, need not the manual welding of operation personnel and manually transfers, promotes the production manufacturing efficiency of data line.

In order to achieve the above object, the utility model discloses a multistation carousel device for data line automatic production, including carousel mechanism, feed mechanism and welding mechanism, feed mechanism is used for moving the bearing jig that bears the electric connector to carousel mechanism, and welding mechanism welds the electric connector of the bearing jig that feed mechanism transferred and the wire rod that carousel mechanism bore together, and carousel mechanism is used for transferring the bearing jig after welding mechanism handles and electric connector and wire rod after the welding; the turntable mechanism comprises a frame, the turntable mechanism is rotatably arranged on a disc body of the frame, a first driving piece is used for driving the disc body to rotate, a plurality of carriers are arranged at the upper end of the disc body, a plurality of supporting mechanisms are arranged at the lower end of the disc body, the plurality of carriers are arranged around the rotating axis of the disc body, the carriers correspond to the supporting mechanisms one by one, the carriers are used for bearing external wires, the supporting mechanisms comprise second driving pieces arranged on the disc body, supporting plates connected with the output ends of the second driving pieces, and the second driving pieces are used for driving the supporting plates to extend out of the disc body so that the supporting plates support bearing jigs transferred by the feeding mechanism.

The multi-station turntable device further comprises a testing machine and a transfer mechanism, the transfer mechanism comprises a first mechanical arm and a first picking piece, the first mechanical arm is movably arranged, the first picking piece is arranged at the tail end of the first mechanical arm and used for picking up a bearing jig which is transferred by the turntable mechanism and processed by the welding mechanism, the transfer mechanism transfers the bearing jig to the testing machine, and the testing machine is used for automatically testing whether an electric connector welded by the welding mechanism is conducted with a wire rod.

The first picking piece comprises a first carrier plate, two third driving pieces arranged on the first carrier plate respectively, and two first clamping plates connected with the output ends of the two third driving pieces respectively, the two third driving pieces are used for driving the two first clamping plates to be close to or far away from each other, and the two first clamping plates are used for clamping the bearing jig.

Wherein, the one side that two first splint are close to each other all is equipped with the guide post suddenly, and the both sides of bearing the weight of the tool are provided with the blind groove of guide respectively, and the guide post suddenly is equipped with the guide inclined plane of being convenient for stretch into the blind groove of guide.

The loading mechanism comprises a manipulator and a jacking mechanism, the manipulator transfers the bearing jig carrying the electric connector to the jacking mechanism, the jacking mechanism is used for upwards lifting the bearing jig transferred by the manipulator, and a supporting plate of the supporting mechanism is used for supporting the bearing jig lifted upwards by the jacking mechanism.

The manipulator comprises a second mechanical arm and a second picking piece, wherein the second mechanical arm is movably arranged, the second picking piece is arranged at the tail end of the second mechanical arm and used for picking up a bearing jig bearing an electric connector, the second mechanical arm drives the second picking piece to transfer the bearing jig to the jacking mechanism, and the second picking piece and the first picking piece are identical in structure.

The manipulator comprises an adjusting unit, the adjusting unit comprises a carrier, a first pushing assembly and a second pushing assembly, the first pushing assembly and the second pushing assembly are arranged on the carrier, the carrier is provided with an adjusting guide groove, the second mechanical arm drives the second picking piece to transfer the bearing jig into one end of the adjusting guide groove, the first pushing assembly comprises a fourth driving piece and a push piece connected with the output end of the fourth driving piece, the fourth driving piece drives the push piece to move the bearing jig in one end of the adjusting guide groove to the other end of the adjusting guide groove, and the second pushing assembly pushes the bearing jig at the other end of the adjusting guide groove to the jacking mechanism.

Has the advantages that: the feeding mechanism is used for moving the bearing jig which simultaneously bears the electric connectors at two ends of the data line to the turntable mechanism, the welding mechanism welds the electric connector of the bearing jig transferred by the feeding mechanism and the wire material borne by the turntable mechanism together, the turntable mechanism is used for transferring the bearing jig processed by the welding mechanism together with the welded electric connector and the wire material, automatic welding and automatic transfer of the electric connector and the wire material are realized, manual welding and manual transfer of operators are not needed, and the production and manufacturing efficiency of the data line is improved.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a perspective view of the tray body, the carrier and the supporting mechanism of the present invention.

Fig. 3 is a perspective view of the transfer mechanism and the carrying jig of the present invention.

Fig. 4 is an enlarged view of a portion a in fig. 3.

Fig. 5 is a perspective view of the present invention after the turntable mechanism is hidden.

Fig. 6 is a perspective view of the adjusting unit of the present invention.

The reference numerals include:

1-turntable mechanism 2-feeding mechanism 3-welding mechanism

4-frame 5-tray body 6-carrier

7-holding mechanism 8-second driving piece 9-supporting plate

11-tester 12-transfer mechanism 13-first arm

14-first picking member 15-first carrier plate 16-third driving member

17-first clamping plate 18-bearing jig 19-guiding protruding column

21-guide blind slot 22-manipulator 23-jacking mechanism

24-adjustment unit 25-carriage 26-first pusher assembly

27-second pushing assembly 28-adjusting guide groove 29-pushing piece.

Detailed Description

The present invention will be further described with reference to the following examples and accompanying drawings.

Please refer to fig. 1 to 6, the utility model discloses a multistation carousel device for data line automatic production, including carousel mechanism 1, feed mechanism 2 and welding mechanism 3, feed mechanism 2 is used for bearing simultaneously the weight of the tool 18 automatically move that bears the weight of data line both ends electric connector to carousel mechanism 1, and welding mechanism 3 is in the same place the automatic welding of the wire rod that bears the weight of tool 18 that feed mechanism 2 transferred and carousel mechanism 1, and carousel mechanism 1 is used for transferring the tool 18 that bears after welding mechanism 3 handled together with welded electric connector and wire rod.

Carousel mechanism 1 includes frame 4, rotate disk body 5 that sets up in frame 4, be used for driving disk body 5 pivoted first driving piece, a plurality of carriers 6 of setting in disk body 5 upper end, a plurality of holding mechanism 7 of setting in disk body 5 lower extreme, according to actual need, can install the cam wheel splitter in the frame 4, disk body 5 is installed on the output shaft of cam wheel splitter, a plurality of carriers 6, a plurality of holding mechanism 7 all set up around the axis of rotation annular array of disk body 5, carrier 6 and holding mechanism 7 one-to-one, carrier 6 is used for bearing external wire rod.

The supporting mechanism 7 comprises a second driving part 8 arranged on the disc body 5 and a supporting plate 9 connected with the output end of the second driving part 8, the second driving part 8 can be a telescopic cylinder or an electric cylinder, the second driving part 8 is used for driving the supporting plate 9 to extend out of the outer edge of the disc body 5 or retract into the outer edge of the disc body 5, after the second driving part 8 drives the supporting plate 9 to extend out of the outer edge of the disc body 5, the supporting jig 18 transferred by the feeding mechanism 2 is supported by the supporting plate 9, the supporting jig 18 is ensured to rotate along with the disc body 5, preferably, the supporting jig 18 is provided with a slot, and the supporting plate 9 is used for being inserted into the slot.

The utility model discloses a multistation carousel device realizes the automatic weld and the automatic transfer of electric connector and wire rod, need not the manual welding of operation personnel and manual transfer, promotes the welding efficiency of electric connector and wire rod and the efficiency of transferring after the welding, promotes the production manufacturing efficiency of data line greatly.

The multi-station turntable device further comprises a testing machine 11 and a transfer mechanism 12, wherein the transfer mechanism 12 comprises a first mechanical arm 13 and a first picking piece 14, the first mechanical arm 13 is movably arranged, the first picking piece 14 is arranged at the tail end of the first mechanical arm 13, the first picking piece 14 is used for picking up a bearing jig 18 processed by the welding mechanism 3 transferred by the turntable mechanism 1, the first mechanical arm 13 of the transfer mechanism 12 moves the first picking piece 14 to transfer the bearing jig 18 picked by the first picking piece 14 to the testing machine 11, and the testing machine 11 is used for automatically testing whether an electric connector welded by the welding mechanism 3 is conducted with a wire. The welding yield between the electric connector and the wire rod is not required to be manually detected by operators, and the detection yield between the electric connector and the wire rod is improved.

The first picking member 14 includes a first carrier plate 15, two third driving members 16 respectively disposed on the first carrier plate 15, and two first clamping plates 17 respectively connected to output ends of the two third driving members 16, the two third driving members 16 are used for driving the two first clamping plates 17 to approach to or move away from each other, the third driving members 16 may be air cylinders or electric cylinders, and the two first clamping plates 17 are used for clamping the carrying jig 18.

After the two first clamping plates 17 of the first picking member 14 clamp the carrying fixture 18, the first robot arm 13 drives the first picking member 14 to move, so that the carrying fixture 18 clamped by the first picking member 14 is transferred to the detector for automatic detection, and the transfer efficiency and the detection efficiency of the carrying fixture 18 are improved.

The two first clamping plates 17 are provided with guide protruding columns 19 on the sides close to each other, guide blind grooves 21 are respectively formed in the left side and the right side of the bearing jig 18, the guide blind grooves 21 are formed by the concave arrangement of the side surfaces of the bearing jig 18, the guide protruding columns 19 are provided with guide inclined planes which are convenient to extend into the guide blind grooves 21, and the guide inclined planes can be used for carrying out secondary positioning on the bearing jig. By the cooperation of the guiding studs 19 and the guiding blind grooves 21, the first picking-up member 14 is ensured to tightly clamp the carrying jig 18, the carrying jig 18 is prevented from sliding off between the two first clamping plates 17, and the clamping yield of the first picking-up member 14 to the carrying jig 18 is improved.

The guiding protruding column 19 is made of silica gel, and the soft characteristic of the silica gel is utilized to absorb the impact force between the clamping plate and the bearing jig 18, so that the collision noise between the clamping plate and the bearing jig 18 is reduced, and the clamping plate is prevented from damaging the bearing jig 18. By utilizing the easy deformation characteristic of the silicone, the guiding studs 19 are ensured to easily enter the guiding blind grooves 21, and the clamping yield of the first picking member 14 clamping and carrying fixture 18 is improved.

The feeding mechanism 2 comprises a manipulator 22 and a jacking mechanism 23, the manipulator 22 automatically transfers the carrying jig 18 carrying the electric connector to the jacking mechanism 23, the jacking mechanism 23 is used for automatically lifting the carrying jig 18 transferred by the manipulator 22, and the supporting plate 9 of the supporting mechanism 7 is used for supporting the carrying jig 18 lifted upwards by the jacking mechanism 23. The automatic feeding of the bearing jig 18 is realized, and the feeding yield of the bearing jig 18 is improved.

The manipulator 22 includes a second mechanical arm movably disposed, and a second picking member disposed at an end of the second mechanical arm, the second picking member is used for picking up the carrier fixture 18 carrying the electrical connector, the second mechanical arm drives the second picking member to transfer the carrier fixture 18 to the jacking mechanism 23, and the second picking member is the same as the first picking member 14 in structure, and is not described herein again.

The manipulator 22 includes an adjusting unit 24, the adjusting unit 24 includes a carrier 25, a first pushing assembly 26 and a second pushing assembly 27 disposed on the carrier 25, the carrier 25 is provided with an adjusting guide groove 28, the adjusting guide groove 28 is recessed from a top surface of the carrier 25, the second robot arm is configured to drive the second picking member to move, and the second picking member moves with the picked carrier 18 until the carrier 18 moves into one end of the adjusting guide groove 28.

The first pushing assembly 26 includes a fourth driving member and a pushing plate 29 connected to an output end of the fourth driving member, the pushing plate 29 is slidably disposed in the adjusting guide slot 28, the fourth driving member drives the pushing plate 29 to move the bearing jig 18 in one end of the adjusting guide slot 28 to the other end of the adjusting guide slot 28, so as to adjust the position of the bearing jig 18, and then the second pushing assembly 27 pushes the bearing jig 18 at the other end of the adjusting guide slot 28 to the jacking mechanism 23. The position of the bearing jig 18 relative to the disc body 5 does not need to be manually adjusted by an operator, and the feeding yield and the feeding accuracy of the bearing jig 18 are improved.

The above description is only for the preferred embodiment of the present invention, and the present specification should not be construed as limiting the present invention.

Claims

1. A multi-station turntable device for automatic production of data lines comprises a turntable mechanism, a feeding mechanism and a welding mechanism, wherein the feeding mechanism is used for moving a bearing jig bearing an electric connector to the turntable mechanism, the welding mechanism is used for welding the electric connector of the bearing jig transferred by the feeding mechanism and a wire rod borne by the turntable mechanism together, and the turntable mechanism is used for transferring the bearing jig processed by the welding mechanism together with the welded electric connector and the wire rod; the method is characterized in that: the turntable mechanism comprises a frame, the turntable mechanism is rotatably arranged on a disc body of the frame, a first driving piece is used for driving the disc body to rotate, a plurality of carriers are arranged at the upper end of the disc body, a plurality of supporting mechanisms are arranged at the lower end of the disc body, the plurality of carriers are arranged around the rotating axis of the disc body, the carriers correspond to the supporting mechanisms one by one, the carriers are used for bearing external wires, the supporting mechanisms comprise second driving pieces arranged on the disc body, supporting plates connected with the output ends of the second driving pieces, and the second driving pieces are used for driving the supporting plates to extend out of the disc body so that the supporting plates support bearing jigs transferred by the feeding mechanism.

2. The multi-station turntable device for the automatic production of data lines according to claim 1, wherein: the multi-station turntable device further comprises a testing machine and a transfer mechanism, the transfer mechanism comprises a first mechanical arm and a first picking piece, the first mechanical arm is movably arranged, the first picking piece is arranged at the tail end of the first mechanical arm and used for picking up a bearing jig which is processed by the welding mechanism and transferred by the turntable mechanism, the transfer mechanism transfers the bearing jig to the testing machine, and the testing machine is used for automatically testing whether an electric connector welded by the welding mechanism is conducted with a wire rod.

3. The multi-station turntable device for the automatic production of data lines according to claim 2, wherein: the first picking piece comprises a first carrier plate, two third driving pieces arranged on the first carrier plate respectively, and two first clamping plates connected with the output ends of the two third driving pieces respectively, the two third driving pieces are used for driving the two first clamping plates to be close to or far away from each other, and the two first clamping plates are used for clamping the bearing jig.

4. The multi-station turntable device for the automatic production of data lines according to claim 3, wherein: the two first clamping plates are provided with guide protruding columns on the sides close to each other, guide blind grooves are formed in the two sides of the bearing jig respectively, and guide inclined planes which are convenient to extend into the guide blind grooves are arranged on the guide protruding columns.

5. The multi-station turntable device for the automatic production of data lines according to claim 1, wherein: the feeding mechanism comprises a manipulator and a jacking mechanism, the manipulator transfers the bearing jig carrying the electric connector to the jacking mechanism, the jacking mechanism is used for upwards lifting the bearing jig transferred by the manipulator, and a supporting plate of the supporting mechanism is used for supporting the bearing jig lifted upwards by the jacking mechanism.

6. The multi-station turntable device for the automatic production of data lines according to claim 5, wherein: the manipulator is including the second arm that the activity set up, set up in the second piece of picking up of the end of second arm, and the second piece of picking up is used for picking up the tool that bears the weight of the electric connector, and the second arm drive second piece of picking up is in order to transfer the tool that bears to climbing mechanism, and the second piece of picking up is the same with the structure of first piece of picking up.

7. The multi-station turntable device for the automatic production of data lines according to claim 6, wherein: the manipulator comprises an adjusting unit, the adjusting unit comprises a carrier, a first pushing assembly and a second pushing assembly, the first pushing assembly and the second pushing assembly are arranged on the carrier, the carrier is provided with an adjusting guide groove, the second mechanical arm drives the second picking piece to transfer the bearing jig into one end of the adjusting guide groove, the first pushing assembly comprises a fourth driving piece and a push piece connected with the output end of the fourth driving piece, the fourth driving piece drives the push piece to move the bearing jig in one end of the adjusting guide groove to the other end of the adjusting guide groove, and the second pushing assembly pushes the bearing jig at the other end of the adjusting guide groove to the jacking mechanism.