CN210476885U - Plug positioning clamp assembly for automatic production of data lines - Google Patents

Abstract

The utility model relates to a data line automatic production technical field especially discloses a plug positioning fixture subassembly for data line automatic production, including first support, bearing jig, first manipulator and first actuating mechanism, first support is equipped with first spout, bears the weight of a plurality of bearing holes of jig, and first manipulator, first actuating mechanism all install on first support; in the automatic production process of the data line, a first mechanical arm automatically loads a connector plug output by an external vibration disc into a bearing hole of a bearing jig, a first driving mechanism drives the bearing jig provided with the connector plug to move along a first sliding groove, and an external second mechanical arm moves the bearing jig transferred by the first driving mechanism to a preset position from the first sliding groove; the automatic transfer of the connector plug is realized, the connector plug does not need to be manually transferred by an operator, the transfer efficiency of the connector plug is improved, and the production efficiency of the data line is further improved.

Description

Plug positioning clamp assembly for automatic production of data lines

Technical Field

The utility model relates to a data line automatic production technical field especially discloses a plug positioning fixture subassembly 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 comprises a lead and an electric connector electrically connected with two ends of the lead, in the production process of the data line, in the prior art, an operator is mainly used for manually transferring the electric connector between different stations and manually inserting the electric connector into a carrier (such as a mold strip) so that the transfer efficiency of the electric connector is low and the requirement of modern production cannot be met.

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 plug positioning fixture subassembly for data line automatic production realizes the automatic carrier (like mould strip etc.) of packing into of transferring and the automation of connector plug, need not the manual connector plug of transferring of operation personnel and manual with the plug insert the carrier, promotes the efficiency of transferring of connector plug, and then promotes the production efficiency of data line.

In order to realize the above-mentioned purpose, the utility model discloses a plug positioning fixture subassembly for data line automatic production, which comprises a first support, bear the tool, first manipulator and a actuating mechanism, first support is equipped with first spout, first spout is used for holding establishes and bears the tool, it has a plurality of bearing holes that are used for holding establishing external connector plug to bear the tool, first manipulator, an actuating mechanism is all installed on first support, first manipulator is used for packing into the bearing hole that bears the tool with external connector plug, a actuating mechanism is used for the drive to install the tool that bears the connector plug and removes along first spout, external second manipulator is used for shifting out first spout with the tool that bears after an actuating mechanism transfers.

Preferably, the first support is provided with a positioning jig, the positioning jig is provided with a positioning hole, a connector plug output by an external vibration disc moves into the positioning hole, and the first manipulator picks up the connector plug in the positioning hole and loads the picked connector plug into a bearing hole of the bearing jig.

Preferably, the carrying hole penetrates through the carrying jig, and the first manipulator loads the picked connector plug into the carrying hole through any side of the carrying jig.

Preferably, the shape and structure of the plurality of bearing holes are different.

Preferably, the end of the first manipulator is provided with a telescopic cylinder, a piston rod of the telescopic cylinder is provided with a cylinder clamp, and the cylinder clamp is provided with two clamping jaws for clamping the connector plug.

Preferably, the first support has the first groove of stepping down with first spout intercommunication, and the first groove of stepping down extends the setting along the length direction of first spout, and first actuating mechanism includes first cylinder, the push pedal of being connected with the piston rod of first cylinder, and in the push pedal stretched into first spout via the first groove of stepping down suddenly, first cylinder drive push pedal promoted to bear the tool and removed in first spout.

Preferably, the second cylinder is installed to the first support, and the piston rod of the second cylinder is connected with the depression bar, and the depression bar is used for pressing the bearing jig and holding the location on the diapire of first spout, and the first manipulator loads the connector plug that picks up into the depression bar and presses the bearing hole of holding the bearing jig after the location.

Preferably, the first support is provided with a second sliding groove communicated with the first sliding groove and a second abdicating groove communicated with the second sliding groove, the first sliding groove and the second sliding groove are arranged in a crossed mode, the first support is provided with a second driving mechanism, the second driving mechanism moves the bearing jig in the second sliding groove into the first sliding groove, and the pressing rod presses and holds the bearing jig in the first sliding groove, which is moved into the second sliding groove by the second driving mechanism, and is positioned in the first sliding groove.

Has the advantages that: in the automatic production process of the data line, a first mechanical arm automatically loads a connector plug output by an external vibration disc into a bearing hole of a bearing jig, a first driving mechanism drives the bearing jig provided with the connector plug to move along a first sliding groove, and an external second mechanical arm moves the bearing jig transferred by the first driving mechanism to a preset position from the first sliding groove; the automatic transfer of the connector plug is realized, the connector plug does not need to be manually transferred by an operator, the transfer efficiency of the connector plug is improved, and the production efficiency of the data line is further improved.

Drawings

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

Fig. 2 is a perspective view of the carrying jig of the present invention.

Fig. 3 is a partial explosion diagram of the present invention.

The reference numerals include:

1-first support 2-bearing jig 3-first manipulator

4-first driving mechanism 5-first sliding chute 6-bearing hole

7-positioning jig 8-positioning hole 9-cylinder clamp

11-first groove of stepping down 12-first cylinder 13-push pedal

14-second cylinder 15-pressure bar 16-second chute

17 — a second drive mechanism.

Detailed Description

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

Please refer to fig. 1 to 3, the utility model discloses a plug positioning fixture assembly for data line automatic production, including first support 1, bear tool 2, first manipulator 3 and first actuating mechanism 4, be provided with first spout 5 on the first support 1, first spout 5 is established from the top surface of first support 1 is concave to form, first spout 5 is the blind groove, first spout 5 does not run through first support 1 promptly, first spout 5 is used for holding and establishes and bears tool 2, bear tool 2 and press under self action of gravity and hold on the diapire of first spout 5.

Bear the weight of and have a plurality of carrier holes 6 that are used for holding establishing external connector plug on the tool 2, carrier hole 6 is established from the surface of bearing tool 2 and is formed by the concave establishment, first manipulator 3, first actuating mechanism 4 all installs on first support 1, first manipulator 3 picks up external connector plug and loads into the carrier hole 6 of bearing tool 2 with its automation, first actuating mechanism 4 is used for driving to install the carrier tool 2 of connector plug and removes predetermined position along first spout 5, external second manipulator is used for shifting out first spout 5 with carrier tool 2 after first actuating mechanism 4 transfers.

The utility model discloses a connector plug positioning fixture subassembly realizes transferring of the automation of connector plug, need not the manual connector plug that transfers of operation personnel, promotes transferring efficiency of connector plug, and then promotes the production efficiency of data line.

The first support 1 is provided with a positioning jig 7, the positioning jig 7 is provided with a positioning hole 8, the positioning hole 8 penetrates through the side surface and the top surface of the positioning jig 7, a connector plug output by an external vibration disc moves from the side surface of the positioning jig 7 into the positioning hole 8, and the first manipulator 3 picks up the connector plug in the positioning hole 8 from the top surface of the positioning jig 7 and automatically loads the picked connector plug into the bearing hole 6 of the bearing jig 2. The connector plug is not required to be manually loaded into the bearing hole 6 by an operator, and the loading yield of the connector plug loaded into the bearing hole 6 is improved.

Bearing hole 6 runs through and bears tool 2, and in bearing hole 6 was packed into via the arbitrary side that bears tool 2 with the connector plug that picks up to first manipulator 3, make things convenient for first manipulator 3 to pack into bearing hole 6 with the connector plug that picks up, further promote the efficiency of packing into of connector plug.

In this embodiment, the shape and structure of the plurality of carrying holes 6 are different, and when the connector is used, the plurality of carrying holes 6 can be simultaneously inserted into two different types of connectors to meet the requirements of welding, injection molding, testing and the like of the subsequent data line which is completed at one time, such as USB-a, Type-C, USB-a, Lightning, USB-a, Micro, Lightning, Type-C, USB-a, Mini and the like.

The end of the first manipulator 3 is provided with a telescopic cylinder, a piston rod of the telescopic cylinder is provided with a cylinder clamp 9, and the cylinder clamp 9 is provided with two clamping jaws for clamping a connector plug. During the in-service use, first manipulator 3 drives cylinder clamp 9 and removes for the connector plug in the locating hole 8 of positioning jig 7 is cliied to two clamping jaws of cylinder clamp 9, then shifts out the connector plug from locating hole 8, and telescopic cylinder drives the connector plug level setting that cylinder clamp 9 was cliied afterwards, and then conveniently packs the connector plug level into in the carrier hole 6.

The first support 1 is provided with a first yielding groove 11 communicated with the first sliding groove 5, the first yielding groove 11 extends along the length direction of the first sliding groove 5, the first driving mechanism 4 comprises a first air cylinder 12 and a push plate 13 connected with a piston rod of the first air cylinder 12, the push plate 13 stretches into the first sliding groove 5 through the first yielding groove 11, and the first air cylinder 12 drives the push plate 13 to push the bearing jig 2 to move in the first sliding groove 5.

After the first manipulator 3 loads the connector plug into the bearing hole 6 of the bearing jig 2, the first cylinder 12 drives the push plate 13 to move, the moved push plate 13 abuts against the outer surface of the bearing jig 2, so as to push the bearing jig 2 to slide along the length direction of the first sliding groove 5, and the connector plug borne by the bearing jig 2 is moved to the end part of the first sliding groove 5 until the inner groove wall of the end part of the first sliding groove 5 abuts against and stops the bearing jig 2.

Install second cylinder 14 on first support 1, the piston rod of second cylinder 14 is connected with depression bar 15, and second cylinder 14 is used for driving depression bar 15 oscilaltion and moves, and depression bar 15 is used for holding the position on the diapire of first spout 5 with bearing jig 2 pressure, then first manipulator 3 packs the connector plug that picks up into in depression bar 15 presses the bearing hole 6 of holding the jig 2 after the location. Preferably, the first bracket 1 has a guide hole for guiding the moving direction of the pressing rod 15, and the pressing rod 15 is slidably accommodated in the guide hole to prevent the pressing rod 15 from being skewed during the moving process.

When the connector plug needs to be installed in the bearing hole 6 of the bearing jig 2, the second air cylinder 14 drives the pressing rod 15 to move downwards, the bearing jig 2 is pressed and positioned in the first sliding groove 5, then the first manipulator 3 installs the picked connector plug in the bearing hole 6 of the bearing jig 2 pressed and positioned by the pressing rod 15, the bad installation of the connector plug caused by the movement of the bearing jig 2 is prevented, and the installation yield of the USB is improved.

The first bracket 1 is provided with a second sliding chute 16 communicated with the first sliding chute 5 and a second abdicating chute communicated with the second sliding chute 16, the first sliding chute 5 and the second sliding chute 16 are arranged in a crossed manner, and preferably, the first sliding chute 5 and the second sliding chute 16 are arranged vertically. The first support 1 is provided with a second driving mechanism 17, the second driving mechanism 17 has the same structure as the first driving mechanism 4, and details are not repeated herein, the push plate 13 of the second driving mechanism 17 moves the loading jig 2 in the second sliding groove 16 into the first sliding groove 5 through the second abdicating groove, and the press rod 15 presses and positions the loading jig 2 in the first sliding groove 5, which is moved by the second driving mechanism 17 into the first sliding groove 5.

After the formed data line is taken down from the carrier, the external other mechanical hand moves the bearing jig 2 into the second chute 16, then the second driving mechanism 17 drives the bearing jig 2 to enter the head of the first chute 5 from the second chute 16, then the plug 15 extends downwards to block the bearing jig 2, so that the external other driving pushes four thimbles in the hole 6 to push the four electric connectors into the bearing jig 2, then the plug 15 retracts upwards, then the first driving mechanism 4 retracts the bearing jig 2 provided with the electric connectors to the tail end of the first chute 5, and finally the bearing jig 2 gradually flows to the position where the wire and the electric connectors are welded, and finally the carrier 2 is recycled.

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 (8)

1. The utility model provides a plug positioning fixture subassembly for data line automatic production which characterized in that: the first support is provided with a first sliding groove, the first sliding groove is used for accommodating and bearing the jig, the bearing jig is provided with a plurality of bearing holes used for accommodating and establishing external connector plugs, the first manipulator and the first driving mechanism are installed on the first support, the first manipulator is used for installing the external connector plugs into the bearing holes of the bearing jig, the first driving mechanism is used for driving the bearing jig provided with the connector plugs to move along the first sliding groove, and the external second manipulator is used for moving the bearing jig after the first driving mechanism is moved out of the first sliding groove.

2. The plug positioning jig assembly for automatic production of data lines of claim 1, wherein: the first support is provided with a positioning jig, the positioning jig is provided with a positioning hole, a connector plug output by an external vibration disc moves into the positioning hole, and the first mechanical arm picks up the connector plug in the positioning hole and loads the picked connector plug into a bearing hole of the bearing jig.

3. The plug positioning jig assembly for automatic production of data lines of claim 1, wherein: the bearing hole penetrates through the bearing jig, and the first manipulator loads the picked connector plug into the bearing hole through any side of the bearing jig.

4. The plug positioning jig assembly for automatic production of data lines of claim 1, wherein: the shape and the structure of the bearing holes are different.

5. The plug positioning jig assembly for automatic production of data lines of claim 1, wherein: the end of the first manipulator is provided with a telescopic cylinder, a piston rod of the telescopic cylinder is provided with a cylinder clamp, and the cylinder clamp is provided with two clamping jaws for clamping a connector plug.

6. The plug positioning jig assembly for automatic production of data lines of claim 1, wherein: the first support has the first groove of stepping down with first spout intercommunication, and the first groove of stepping down extends the setting along the length direction of first spout, and first actuating mechanism includes first cylinder, the push pedal of being connected with the piston rod of first cylinder, and in the push pedal stretched into first spout via the first groove of stepping down suddenly, first cylinder drive push pedal promoted to bear the weight of the tool and removed in first spout.

7. The plug positioning jig assembly for automatic production of data lines of claim 1, wherein: the second cylinder is installed to first support, and the piston rod of second cylinder is connected with the depression bar, and the depression bar is used for pressing the bearing tool to hold the location on the diapire of first spout, and the first manipulator loads the connector plug that picks up into the depression bar and presses the bearing hole of holding the bearing tool after the location.

8. The plug positioning jig assembly for automatic production of data lines of claim 7, wherein: the first support is provided with a second sliding groove communicated with the first sliding groove and a second abdicating groove communicated with the second sliding groove, the first sliding groove and the second sliding groove are arranged in a crossed mode, the first support is provided with a second driving mechanism, the second driving mechanism moves the bearing jig in the second sliding groove into the first sliding groove, and the pressing rod presses the bearing jig in the second driving mechanism, which moves into the first sliding groove, to be positioned in the first sliding groove.

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