JPS6337349B2 - - Google Patents

Description

[Detailed description of the invention] The present invention relates to a plug testing machine.

Corded plugs have been continuously molded, but this method involves holding a plurality of cords with terminals in a frame, then moving the frame to an injection molding position, and inserting the cords into the frame. After injection molding is performed by inserting a mold with a plug cavity corresponding to the number of plug cavities, the frame holding the molded plugs is moved to the side, the plugs are taken out, and the frame is returned to its original position. It also has the advantage of being able to perform continuous automatic molding as the frame is fed.

On the other hand, plugs cannot be sold unless they have passed the electrical conduction, insulation, etc. tests specified by the standards. For this reason, conventionally, molded plugs have to be inspected one by one by inspectors, which requires an extremely large amount of man-hours.
It makes plugs expensive. In addition, such a labor-intensive inspection does not take full advantage of the advantage of automatically and continuously performing plug forming.

Therefore, an object of the present invention is to provide a plug testing machine that can simultaneously test a plurality of automatically molded plugs.

According to the present invention, in order to achieve the above-mentioned object, a portion supporting the terminal of the plug provided on the top surface of one of the opposing walls and a portion integral with the plug provided on the top surface of the other wall are provided. A rectangular frame having a part for holding the cord, a device for grasping the terminal and cord held in the frame, lifting it upward, and bringing the terminal into contact with a current-carrying object, and a device for passing current through the current-carrying object and testing the energization of the plug. and a device for removing the plug from the current-carrying body after the current test is completed.

Examples of this invention will be described.

The frame 1 has a rectangular shape with a hollow part 2 in which a plug molding mold (not shown) is housed, and supports a terminal 5 of a molded plug 4 on one side 3 and a cord 7 on the other side 6. Hold. The figure shows a state in which the plug molding is completed, the mold is separated from the frame 1, and the frame is subsequently sent to the inspection position. This inspection position is adjacent to the injection molding position of the plug, and the conveyor 8 for feeding the frame 1 is arranged in series. When the frame 1 holding a plurality of molded plugs 4 stops at the inspection position, the plug extraction device 9 rises from below the frame 1 and extracts the plugs 4 from the frame 1. Sampling device 9
has opposing plates 10, 10', one plate 10' holding the terminal 5 and the other plate 10 having grooves 11, 11' supporting the cord 7. Grooves 11, 1 in the plate of the extraction device 9
1' is made corresponding to the number of plugs supported by the frame 1 and their positions. The plug 4, raised while being held by the extraction device 9, then has its terminal 5 inserted into the notch 13 of the conductor 12 and the cord 7 held in the clamp 14. The clamp 14 consists of a plate 16 having a groove 15 opened downward, and an actuating piece 17 that opens and closes the opening of the groove 15 according to a command.After the cord 7 enters the groove 15, the actuating piece 17 closes the groove. 15 is closed to prevent the cord 7 from falling. The terminal 5 is press-fitted into the notch 13 of the conductor 12 to prevent it from falling by itself. There are as many clamps 14 as there are plugs held in the frame, and the clamps 14 are configured to simultaneously grip a plurality of rising plugs. Once the clamp 14 has held the cord 7 and the conductor 12 has held the terminal 5, the extraction device 9 is lowered and the frame 1 is conveyed by the conveyor 8 from the inspection position to the next position.

After obtaining such a state, energize the conductive plate 12,
Performs withstand voltage and insulation tests between live wires as specified by standards. Furthermore, a surface pressure test is performed. These inspections are carried out sequentially, and workers are notified of defective plugs by means of lights, etc. The surface pressure resistance test is performed by pressing a brush-like object (not shown) against the plug surface. After the inspection is completed, the clamped plug 4 is moved to the worker's side. This movement is performed by transporting the conductor 12 and the clamp 14 using an air cylinder or the like. The clamp is then released and the cord 7 falls out of the groove 15. The worker pulls the cord 7 forward to remove the terminal 5 from the conductor 12, completing the plug forming and inspection work.

As is clear from the above, the plug testing machine of this example can move the frame to the inspection position after plug molding and inspect multiple molded clamps simultaneously and automatically, greatly improving work efficiency. The advantages of automatic continuous plug molding can be fully utilized.

[Brief explanation of the drawing]

The figure is an explanatory sketch of a plug testing machine as an example of the present invention. In the diagram: 1...frame, 4...plug, 5...terminal,
6... Cord, 9... Plug extraction device, 12...
...Conductor, 14...Clamp.

Claims (1)

[Claims] 1. A rectangular frame that has a part on the top of one of the opposing walls to support the plug terminal, and a part on the top of the other wall to hold the cord integrated with the plug; held in the frame. A device that grasps the terminal and cord that have been removed and lifts it upward and brings the terminal into contact with a current-carrying body; a device that applies current to the current-carrying body to test the plug for energization; and a device that removes the plug from the current-carrying body after the energization test has been completed. A plug testing machine with