KR20220163333A - Connector wire sub auxiliary tool and wire sub method - Google Patents

Abstract

An objective of the present invention is to provide a wire subsidiary tool and a wire subsidiary method which can improve work efficiency and prevent misinsertion since a subsidiary work to insert a wire into a connector is possible without checking the subsidiary degree and a wire insertion location every time. The wire subsidiary method of the present invention comprises: an item number scanning step of scanning an item number of a connector by using a barcode scanner; a subsidiary degree generation step of outputting the subsidiary degree matching the scanned item number to a personal computer (PC); a connector mounting step of mounting the connector on a guide jig; a pin setting step of driving a pin so that the pin is inserted into a wire hole formed in the connector, passes through the connector, and protrudes outward according to the subsidiary degree matching the item number of the connector; and a wire subsidiary step of inserting a wire into a wire hole where the pin is not inserted.

Description

Wire sub auxiliary tool and wire sub method { Connector wire sub auxiliary tool and wire sub method }

The present invention relates to a connector, which is a connection mechanism for configuring an electric circuit by connecting an electric appliance and a wire, or a wire and a wire. More specifically, it relates to a wire sub assistant tool and a wire sub method for assisting a sub work of inserting a wire into a connector.

A connector is a connection mechanism constituting an electric circuit by connecting an electric appliance and a wire or a wire and a wire, and can be divided into a high voltage connector including a shielding structure and a general connector according to electric capacity. In general connectors, crimp terminals are formed at the end of small wire diameter wires, and by inserting the crimp terminals into the connector, they can be electrically connected to the bus bar in the connector. The operation of inserting a wire into a connector in this way is called a wire sub operation.

1 is a diagram for explaining a conventional wire sub-work. Referring to this, conventionally, in inserting the wire 2 into the wire hole 1a formed in the connector 1, look at the subfigure 3 showing the position of the hole into which the wire should be inserted by product number, and match accordingly. The terminal of wire 2 was inserted. However, in the case of such a conventional sub-work, there was a problem in that workability was deteriorated because the sub-diagram for each part number and the wire insertion position of the connector were checked every time before the sub-work was performed. In addition, there was a problem that the wire was incorrectly inserted into a position where the wire should not be inserted due to a worker's mistake.

The present invention is to solve the problems of the prior art as described above, and specifically, when the sub work of inserting the wire into the connector, it is possible to serve without checking the sub drawing and the wire insertion position every time, thereby improving workability and eliminating errors. It is an object of the present invention to provide a wire serve auxiliary tool and a wire serve method capable of preventing insertion.

Embodiments of the present invention provide the following connector wire serve auxiliary tool and wire serve method in order to solve the above problems.

The wire sub method of the present invention includes a part number scanning step of scanning the part number of a connector with a barcode scanner, a sub drawing generating step of outputting a sub drawing matching the scanned part number to a PC, and a connector seating the connector on a guide jig. A mounting step, a pin setting step of driving a pin so that the pin is inserted into a wire hole formed in the connector and protrudes outward through the connector according to a sub-drawing matching the part number of the connector, and a pin setting step in which the pin is not inserted and a wire sub-step of inserting a wire into the wire hole.

In the pin setting step, the pin may be linearly moved using any one of a rotary motor including a rack and pinion, a linear motor, or a cylinder device.

According to the problem solving means of the present invention as described above, various effects including the following can be expected. However, the present invention is not established when all of the following effects are exhibited.

According to the wire serve auxiliary tool and the wire serve method of the present invention, the wire is inserted after setting the pin to be inserted in advance into the wire hole where the wire is not to be inserted, thereby eliminating the possibility of erroneous insertion of the wire. Furthermore, since the same connector product can be continuously applied and used once the pin is set, there is no need to perform sub-work with reference to the sub-diagram for every job, which has an advantageous effect of improving workability.

Furthermore, the present invention has a structure in which, when a product number is scanned with a barcode scanner, a subdiagram stored in a PC is output for each product number, and a driving device is controlled according to the subdiagram to drive a pin. Accordingly, pin setting can be automatically performed for each connector, thereby preventing erroneous insertion.

In addition, the guide jig of the present invention is formed such that the width of the guide groove corresponds to the width of the flange of the connector. Accordingly, as long as the connector is mounted on the guide jig, the pin can be inserted into the pin hole without the operator needing to separately align the position of the pin and the position of the pin hole of the connector, so workability can be improved.

1 is a view for explaining a conventional wire sub work;
2 is a perspective view of the wire sub-assisted tool of the present invention;
Figure 3 is a perspective view of the connector in Figure 2;
Figure 4 is a plan view and a rear view of Figure 3;
5 is an enlarged perspective view showing a perspective view and an enlarged inner portion of the guide jig in FIG. 2;
6 is a view for explaining the wire sub work order of the present invention;
7 is a flow chart of the wire sub work method of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings.

Figure 2 is a perspective view of the wire sub tool of the present invention, Figure 3 is a perspective view of the connector in Figure 2, Figure 4 is a plan view and rear view of Figure 3, Figure 5 is a perspective view and an enlarged view of the inner portion of the guide jig in Figure 2 An enlarged perspective view, FIG. 6 is a view for explaining the wire sub work order of the present invention.

As shown in these drawings, one embodiment of the wire sub auxiliary tool of the present invention includes a guide jig 20, a barcode scanner 30 and a PC 50.

First, referring to FIGS. 3 and 4, the connector 10, which is the subject of the sub-work, will be described. The connector 10 includes a housing 11 of the tubular connector 10, and the housing of the connector 10 A plurality of wire holes 13 into which wires can be inserted in the longitudinal direction are formed through (11). Accordingly, the wire may be inserted through one end of the wire hole 13, and the pin 24 may be inserted into the other end of the wire hole 13.

Meanwhile, a plan view of the connector 10 having the wire hole 13 is shown in FIG. 4 (a), and a rear view of the connector 10 having the pin hole 14 is shown in FIG. 4 (b). As shown in FIG. 4 (b), the shape of the other end of the wire hole 13 may be formed to correspond to the shape of the pin 24. This is because the pin 24 is inserted through the other end of the wire, and accordingly, the other end of the wire hole 13 is referred to as a pin hole 14 as a separate term. Since the shape of the pin hole 14 corresponds to the cross-sectional shape of the pin 24, there is an effect that the pin 24 can be fixed without moving in the inserted state.

In addition, a flange 12 protrudes and extends along the outer circumference of the housing 11 of the connector 10 along the circumferential direction. A hole for fastening may be formed through the flange 12 . The connector 10 described in this specification may be either a male connector 10 or a female connector 10. Therefore, after assembling the male connector 10 and the female connector 10 such that the flanges 12 come into contact with each other, the holes may be fixed using bolts or the like.

Hereinafter, the guide jig 20 in which the connector 10 is fixed and the pin 24 protrudes will be described with reference to FIG. 5 . Referring to this, the guide jig 20 may include a guide body 21 in which a guide groove 22 into which the connector 10 can be inserted is concave. The guide groove 22 is preferably formed in a size and shape corresponding to the connector 10 . In particular, the width of the guide groove 22 may be formed to come into contact with the outer circumferential surface of the flange 12 of the connector 10, and the guide groove 22 and the flange 12 of the connector 10 may be formed on at least two or more different surfaces. can touch This is to fix the position of the connector 10 and facilitate insertion of the pin 24 .

A pin driving panel 23 may be installed on the most concave surface of the guide groove 22 . In the present invention, the pin driving panel 23 means a device installed so that the pin 24 can be driven, and may be manufactured and installed separately from the guide body 21 as shown in the drawing, The most concave surface of the guide groove 22 may serve as the pin driving panel 23 .

A plurality of pins 24 are installed to pass through the pin driving panel 23 . FIG. 5 (a) shows a state in which the pin 24 does not protrude, and FIG. 5 (b) shows a state in which the pin 24 is driven and protrudes. The position of the pin 24 may be a position corresponding to the wire hole 13 of the connector 10 at a position where the connector 10 is inserted into the guide groove 22 . Therefore, when the pin 24 protrudes, it can pass through the pin hole 14 of the connector 10 and be inserted into the connector 10 . Furthermore, it is preferable that the protruding length of the pin 24 is formed longer than the length of the connector 10 . This is because the pin 24 can penetrate the connector 10 and protrude to the outside when the connector 10 is mounted, so that a worker can easily recognize it from the wire hole 13 side.

Pin 24 can be driven by a driving device. The driving device is driven according to the control command of the PC 50 and is a device that causes the pin 24 to move linearly. The driving device may drive each of the plurality of pins 24 . In the driving device, the rack may be connected to the pin 24 and the pinion may be connected between the rotary motor and the rack to drive the pin 24 . Alternatively, the driving device may include a linear motor and the pin 24 may be coupled to a moving member of the linear motor to move the pin 24 . Alternatively, the pin 24 may be coupled to one end of the cylinder to move the pin 24, including a cylinder in which the driving device operates with pneumatic or hydraulic pressure.

Also, the present invention may include a barcode scanner 30 and a PC 50. The connector 10 has a product number 41 determined for each product, and when the barcode scanner 30 scans the product number 41 formed as a barcode on the transfer slip 40 of the connector 10, the connector 10 is connected to the barcode scanner 30. Part number 41 information is transmitted to the PC 50 . Then, the PC 50 outputs the subdiagram 51 stored for each part number 41, and controls the driving device so that the pin 24 protrudes from the wire hole 13 where the wire is not inserted in the subdiagram 51. .

6 shows a sub-task sequence according to the above configuration. First, the connector 10 is inserted into the guide jig 20 as shown in FIGS. 6 (a) and (b), and the mobile slip of the connector 10 corresponding to the barcode scanner 30 as shown in FIG. 6 (c) In (40), the product number (41) formed as a barcode is scanned. Then, as shown in (d) of FIG. 6, the PC 50 connected to the barcode scanner 30 outputs the sub diagram 51, and the PC 50 drives the pin 24 to the driving device according to the sub diagram 51. create a command Then, as shown in (e) of FIG. 6, the pin 24 is driven through the wire hole 13 to protrude. Therefore, the operator can serve the wire terminal to the wire hole 13 where the pin 24 does not protrude without checking the sub diagram 51 separately.

Once the pin 24 is set according to the connector 10 part number 41 in this way, after the wire sub work is done on the connector 10, the finished connector 10 is removed, and the new connector 10 to be worked can be re-installed to continue working. Therefore, there is an operational advantage of not having to insert a wire into each connector 10 as compared to the sub-do 51 each time. In addition, since the pin 24 to be automatically protruded is driven by the PC 50 and the driving device, there is an effect of preventing erroneous insertion due to a worker's mistake.

Hereinafter, the wire serve method of the present invention will be described with reference to FIG. 7 . Since the wire serve method of the present invention uses the above-described wire serve auxiliary tool, a detailed description thereof will be omitted.

7 is a flow chart of the wire sub work method of the present invention. Referring to this, the wire serve method of the present invention includes a connector 10 mounting step (S1) of inserting and seating the connector 10 into the guide groove 22 formed in the guide jig 20. And through the part number 41 scanning step (S2) of scanning the part number 41 of the mounted connector 10 using the barcode scanner 30, the sub-figure 51 matching the scanned part number 41 A step (S3) of generating a sub-diagram 51 that is output to the PC 50 and displayed is performed. Since the pin 24 to be driven is determined according to the generated sub diagram 51, the pin 24 drives the pin 24 so that the pin 24 penetrates the connector 10 and protrudes to the outside of the connector 10. (24) A setting step (S4) is performed. And a wire sub-step (S5) of inserting a wire terminal into the wire hole 13 where the pin 24 does not protrude.

On the other hand, it is also possible that the connector 10 mounting step (S1) is performed after the part number 41 scanning step (S2) and the sub-drawing 51 generating step (S3), so after creating the sub-drawing 51, the connector (10) may be mounted, and the pin 24 setting step (S4) may be performed.

In the present specification, each configuration has been divided and described in detail. However, embodiments that can be derived by arbitrarily combining only some configurations also fall within the scope of the present invention.

The above description is only illustrative of the technical idea of the present invention, and those skilled in the art can make various modifications and variations without departing from the essential characteristics of the present invention. The protection scope of should be interpreted by the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

10 connector 11 housing
12 flange 13 wire hole
14 pin hole 20 guide jig
21 guide body 22 guide groove
23 pin drive panel 24 pin
30 Barcode scanner 40 Transfer slip
41 part number 50 pcs
51 subdo

Claims (2)

Part number scanning step of scanning the part number of the connector with a barcode scanner;
a subfigure generating step of outputting a subfigure matching the scanned item number to a PC;
A connector mounting step of seating the connector on a guide jig;
a pin setting step of driving a pin to protrude outward through the connector while being inserted into a wire hole formed in the connector according to a sub-drawing matching the part number of the connector; and
a wire sub-step of inserting a wire into the wire hole where the pin is not inserted;
A wire sub method comprising a.
According to claim 1,
The pin setting step,
A wire serve method characterized in that the pin is linearly moved using any one of a rotary motor including a rack and pinion, a linear motor or a cylinder device.

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