KR101577620B1 - a pick-up apparatus of defective harness - Google Patents

Abstract

The present invention relates to a harness connector required for electrical/electronic products including all kinds of home appliances such as televisions, washing machines, computers and the likes and, specifically, relates to an automatic inspection device of a harness used for an automatic inspection process for the harness. A defective harness unloading device to take off a defective harness after an electrical inspection, a part of harness automation equipment which automatically executes electric and vision inspections on the harness when the harness is automatically carried along a conveyor, mainly comprises: tongs (41) to pick up a housing of the harness; a tong cylinder (42) to open and close the tongs (41); a vertical cylinder (44) mounted on the upper side of the tong cylinder (42); and a horizontal cylinder (46) to move the vertical cylinder (44) forward and backward. The tongs (41) are formed in an angled ′C′ shape. The vertical cylinder (44) is installed on a vertical plate (45) which is connected to the horizontal cylinder (46) and the tongs (41) are moved forward and backward. An operating plate (43) of the tong cylinder (42) is connected to either side with a piston, thus the tongs (41) are opened and closed while the operating plate (43) is folded and unfolded. The forward and backward movements of the tongs (41) by the horizontal cylinder (46) are formed with a guide by a movement in a guide body (47) installed on the side of the horizontal cylinder (46).

Description

A pick-up apparatus of defective harness < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a harness for an electrical and electronic product including various household appliances including a television, a washing machine, a computer, and the like, and more particularly to an automatic faulty harvesting device for harness used in a process for automatically inspecting a harness .

[Patent Document 1] Patent Registration 10-0886306 (Registered on February 23, 2009)

[Patent Document 2] Patent registration 10-1359716 (Registered on April 29, 2014)

[Patent Literature 3] Patent Publication No. 10-2002-0049961 (published on February 5, 2002)

[Patent Document 4] Patent Publication No. 10-2002-0031430 (published on June 26, 2002)

The harness or harness wire consists of components such as a wire (cable), a connection port including a connector and a housing, a terminal or a terminal of a lug, and the like,

These harnesses are connected to, for example, a motherboard, a control board, and a power board of a PC, a terminal, a smart phone, and a television, and the assembly process of the harness wire first cuts the coated wire to a required length, After that, the terminal is pressed and fixed to the unrouted cable or the electric wire is inserted into the connection port (housing) and fastened or soldered

The manufactured harness is inspected before shipment.

The conventional harness inspection is performed almost manually and requires a lot of time. There are electric characteristics tests including electric power inspections such as disconnection, miswiring and short-circuit inserting, resistance inspections such as contact resistance and insulation resistance, and voltage inspections and voltage inspections

The present invention has developed a mechanical device capable of automatically inspecting a harness to be inspected when automating the above inspection process, particularly when it is confirmed that a failure has occurred after an automatic power supply inspection device.

A main constitution of the present invention is a harness defective taking-out apparatus for taking out a defective harness after energization inspection in a harness automation facility in which a harness is automatically transported on a conveyor to automatically perform energization and vision inspection, A vertical cylinder 44 installed on the upper portion of the clamping cylinder 42 and a vertical cylinder 44 provided on the upper and lower sides of the clamping cylinder 42. The clamping cylinder 42 is provided with a clamping member 41 for clamping the clamping member 41, And the vertical cylinder 44 is installed on the vertical plate 45, and the vertical plate 44 is fixed to the vertical plate 45 45 are connected to the horizontal cylinder 46 so that the tongue 41 is moved forward and backward. The clamping cylinder 42 is connected to the operating plate 43 with pistons, The opening and closing of the operation plate 43 And the tongue 41 is opened and closed by the horizontal cylinder 46. The forward and backward movement of the tongue 41 by the horizontal cylinder 46 is performed by the guide 47 formed on the side of the horizontal cylinder 46, And a guide by movement.

According to the present invention as described above, when inspecting the harness, it is possible to automatically separate the pieces that are defective in the energization test of the harness, thereby preventing unnecessary progress of the subsequent process and improving the inspection efficiency of the harness inspection have.

In addition, the harness defect determination and separation method is automatically performed, so that the harness defect processing method is very convenient and everything is performed in an automated facility, which further increases the accuracy of labor cost saving and fault determination.

In addition, harnesses having different harness structure at both ends of the harness with the harness connector can be held by the gripper 41, thus ensuring versatility. That is, since the tongue 41 is opened and closed to a certain width, it can be held regardless of the size of the harness.

1 is a view showing a right-hand fixing chuck according to the present invention;
2 is a view showing a left fixing chuck according to the present invention;
Figure 3 is a perspective view of a harness fixing embodiment
Fig. 4 is a view for showing the automatic inspection process after the mounting of the harness
Figures 5 and 6 illustrate an embodiment
7 is a view showing an example of the automatic energization inspection apparatus
8 shows an example of a second connector box
9 is a view showing the connection between the housing and the energization tester 40
10 is a view showing a portion of the piston 29 and the connecting socket 36
11 is a view for explaining a harness defective taking-out apparatus according to the present invention;

Hereinafter, the present invention will be further described with reference to the accompanying drawings

First, before explaining the harness defective removal device, which is a gist of the present invention, a part of the overall configuration of the harness inspection device developed by the present applicant will be described first, followed by the harness defective removal device from FIG.

1 and 2 illustrate a harness fixing device.

Fig. 1 shows a structure for fixing the right side of the harness, and Fig. 2 shows a right side fixing chuck 3 with the harness removed

As shown in Figs. 1 and 2, the harness 1 is equipped with a housing 2, which is a harness connector portion, on both left and right ends of the wire. The left and right fixing chucks (3,4) fix the left and right ends of the housing (2). The left and right fixing chucks (3, 4) are almost symmetrical in shape, while the left fixing chuck (4) is further provided with a spring

It is more preferable that the fixing chuck has a concave shape corresponding to the shape of the housing 2. In order for the housing 2 to be fixed, a latching jaw 6 for holding the housing 2 must be formed. The latching jaw 6 is configured such that it can hold both the left and right projecting ends of the housing 2 but prevents the projecting end of the left housing 2 from escaping when pulled laterally

A seating portion 7 having a concave structure for holding the housing 2 is formed on the left side of the latching jaw 6

According to the above configuration, the left side of the harness 1 can be fixed by the right-hand fixing chuck 3 having a very simple structure.

2, a left fixing chuck 4 on the left side is mounted with a fixing block 8 on a die 11 and a fixing block 8 is equipped with a lead groove 12 for guiding a harness wire. The lead wire groove 12 is a place where the harness wire is located, and is made of a groove according to the shape of the harness wire. This lead wire groove 12 serves to guide the harness housing 2 conveniently to be mounted

The fixed block 8 is also formed with a shaft 10 to which a spring 5 is mounted and engaged with the transport block 9. A through hole into which the shaft 10 can be inserted is formed in the transport block 9, and the shaft 10 is inserted into the through hole. So that the transport block 9 is guided on the shaft 10 on the die 11 and is capable of moving back and forth. The conveying block 9 on which the spring 5 is mounted has a structure for holding the harness housing 2 in the same manner as the structure of the preceding right holding chuck 3.

According to the above arrangement, when the left housing of the harness is engaged with the left fixing chuck 4, the transfer block 9 is pushed inwardly to pull and pull the force of the spring 5, ) Is hooked on the latching jaw 6 of the transfer block 9. As shown in Fig. Since the wire 13 of the harness 1 always receives the tensile force of the spring 5, the harness 1 always receives the force of the spring 5 and is always held in a pulled-up state and is stably held in various tests in the subsequent process Can receive.

Even if the left and right fixing chucks 3 and 4 are prepared by adjusting the left and right lengths of the harness wires, it is necessary that the wire 13 is elongated inevitably, so that a pulling tension device is required.

3 shows a state in which the harness housing is mounted on both the left and right ends

As shown in FIG. 4, the harness 1 mounted on the conveyor 14 is conveyed by the conveyor 14, and the subsequent inspection process such as energization inspection and vision inspection is automatically performed do.

5 is a photographic view of the left fixing chuck 4

As shown in the drawing, the transfer block 9 is formed with a latching jaw 6 and an insertion groove 16 to fix the housing 2. The insertion groove 16 is formed into a concave groove conforming to the shape of the housing 2. The shaft (10) is fixed by a shaft fixing hole (17) provided through the fixing block (8). Thereby causing the transport block 9 to be operated back and forth on the shaft 10

6 illustrates a state in which the housing of the harness 1 is fixed to the left and right fixing chucks 4 and 3

As shown in Fig. 6 and Figs. 1 and 2, a roller 18 is attached to a lower portion of the left and right fixing chucks 4 and 3, and the roller 18 rotates in contact with the guide rail 19. Thereby guiding the movement of the left and right fixing chucks 4 and 3

The left and right fixing chucks 4 and 3 are fixedly mounted on the left and right ends of the conveying table 20 by bolts or the like and moved together with the movement of the conveying table 20. The coupling between the conveying belt 20 and the conveyor 14 is carried out by coupling the conveying belt 20 with the projection 21 formed on the upper surface of the conveyor 14. [ Although the conveying table 20 is illustrated as being coupled to one of the conveying tables 20, the conveying table 20 is entirely coupled to the plurality of projections 21 formed on the conveying table 14 at regular intervals. The conveyor 14 is made of an infinite circular movement system in which the conveyor 14 is returned from the front to the rear when it is moved to the end.

After the harness 1 has been mounted, the harness having been inspected, such as energized inspection, vision inspection, etc., is taken out from the rear side, and the harness is returned from the rear by the conveyor 14, The other harness 1 to be inspected is newly mounted on the harnesses 4, 3 and the same inspection is carried out.

6, a sensor 22 is installed on the side of the conveyor 14

In FIG. 6, one sensor 22 is provided on the right side by the support table 23, but a plurality of sensors 22 may be provided on both sides of the conveyor 14 in the traveling direction. This sensor 22 is a sensor such as a position for detecting whether the harness 1 is mounted on the conveying table 20 and when the conveying table 20 equipped with the harness 1 is conveyed, It is detected whether or not the harness 1 is attached to the main body 20. This detection signal is displayed on the display screen in a form that can be visually recognized. Thus, whether or not the harness 1 to be inspected is positioned on the conveying table 20 is checked to perform energization inspection, vision inspection, and the like. For example, it is not necessary to carry out the inspection in the subsequent vision inspection, that is, in the state where the transfer sheet 20 is judged to be defective in the energization inspection and removed from the transfer table 20, So as to pass through.

Fig. 7 is a circuit diagram of the energization inspection apparatus shown in Fig. 4

The electrification testing device is a connecting device for electrical inspection of the harness 1

For the energization inspection, it is necessary to connect with a separate inspection device. The energization inspection device is connected to the harness (1) to be connected for electrical inspection.

The operation sequence is such that when the harness 1 is delivered to the electrification testing apparatus, the piston is lowered by the lowering cylinder 28 so that it can not move by pressing the housing 2 and the second connector box 27 is advanced Then, the connector formed in the second connector box 27 is connected to the connector mounted on the first connector box 26. The connection is made, for example, such that male and female housings having internal pin connection terminals are interconnected. When the die is advanced by the operation of the piston 29, the first and second connector boxes 26, 27 mounted on the die are advanced and connected to the terminals formed in the housing 2

The connector mounted on the first connector box 26 is prepared in advance by a connector having a structure connectable to the pin terminal in the housing 2 to be inspected. The first connector box 26 can be replaced with a different structure of the housing 2 of the harness 1 to be inspected.

As shown in FIG. 8, the first connector box 26 is formed with a space for accommodating the first connector therein, and the upper portion thereof is covered with the cover 32 and is detachably coupled by the bolts 31. The first connector box 26 is also fixed by the semicircular rotator assembly 30. The first connector box 26 can be removed and replaced by disassembling the bolts fastened when the first connector box 26 is rotated by turning the semi-circular rotator assembly 30.

In FIG. 8, although only the wires are shown in the second connector box 27, the plurality of wire bundles are connected to one connector and the connector is connected to the connector formed in the first connector box 26.

9, a first connector 33 connected to the housing 2 of the harness 1 by a terminal, a second connector 34 connected to the first connector 33, a second connector 34, A socket 35 connected to the socket 35 and a connection socket 36 connected to the socket 35. The cable embedded in the connection socket 36 is connected to the energization tester 40 to perform various energization tests required

10 shows a state in which the socket 35 is connected to the second connector box 27 and the connection socket 36 is connected thereto. 10, the first and second connector boxes 26 and 27 formed on the die 37 forward and backward of the piston 29 are moved forward and backward

11 is a harness defective taking-out apparatus according to the present invention

The harness having passed the energization inspection is moved on the conveyor 14. If the energization tester 40 determines that the harness is defective, the defective harness must be removed. This removal operation is performed in Fig.

As shown in the drawing, a tongue 41 for picking up a housing constituted at both ends of the harness is constituted

The tongue 41 is of a generally "C" shape in cross section and makes the structure so that the harness housing portion can be picked up. The tongue 41 is actuated by tilting the tongue cylinder 42 in the left and right direction. The pistons constituted on the right and left sides of the clamping cylinder 42 are connected to the left and right operating plates 43, respectively, so that the pistons are disengaged and opened.

The clamping cylinder 42 may have a vertical cylinder 44 formed thereon to vertically move the clamping cylinder 42 vertically. The vertical cylinder 44 is connected to the vertical plate 45 and the vertical plate 45 is connected to the piston of the horizontal cylinder 46 to be horizontally movable. Thus, three-dimensional movement is possible in the defective harness take-out apparatus.

More specifically, the vertical cylinder 44 is lowered and the harness cylinder 42 is operated to catch the harness housing by punching the opened tongue 41 and raise the vertical cylinder 44 again Lift the harness. In this case, since the housing formed at both ends of the harness must be picked up by the gripper 41, it is needless to say that the configuration of FIG. 11 is symmetrical

The raised harness thus lifted moves along the guide body 47 when the horizontal cylinder 46 is advanced by a predetermined distance, that is, the vertical plate 45 and the vertical cylinder 44 are moved forward, The gripper cylinder 42 is operated to drop the gripper 41 so as to drop the poor harness. A predetermined storage box capable of collecting the defective harness is provided at a lower position where the defective harness falls.

According to the present invention as described above, when inspecting the harness, it is possible to automatically separate the pieces that are defective in the energization test of the harness, thereby preventing unnecessary progress of the subsequent process and improving the inspection efficiency of the harness inspection have.

In addition, the harness defect determination and separation method is automatically performed, so that the harness defect processing method is very convenient, and everything is performed in the automated equipment, and the accuracy of the labor cost saving and defect determination is further enhanced.

In addition, harnesses having different harness structure at both ends of the harness with the harness connector can be held by the gripper 41, thus ensuring versatility. That is, since the tongue 41 is opened and closed to a certain width, it can be held regardless of the size of the harness.

1 Harness 2 Housing
3 Fixing Chuck 4 Fixing Chuck
6 locking jaw 7 seat part
8 Fixed block 9 Traversing block
10 axis 11 die
14 Conveyor 16 Inserting groove
17 Axial Fixture 19 Guide Rail
20 conveying table 21 projection
22 Sensor 23 Support
25 Cylinder 26 1st Connector Box
27 2nd Connector Box 28 Lowering Cylinder
29 Pistons 30 times Total fastening
33 Connector 1 Connector 34 Connector 2
37 die 41 tongs
42 Tongue cylinder 43 Operation plate
44 Vertical cylinder 45 Vertical plate
46 Horizontal cylinder 47 Guide body

Claims (5)

delete delete delete delete A harness defective picking-up device for picking up a defective harness after energizing inspection in a harness automation facility in which a harness is automatically transported on a conveyor to perform energization and vision inspection automatically,
The energization inspection is performed by fixing the harness 1 transferred for energization inspection and fixing the second connector 34 formed in the second connector box 27 to the first connector 33 mounted on the first connector box 26 So that the terminal formed in the housing 2 of the fixed harness 1 and the first connector 33 of the first connector box 26 are connected to each other so as to be connected to the second connector 34, The inspecting device 40 is configured to conduct the energization inspection of the harness 1,
The harness defective taking-out apparatus comprises a "C" shaped tongue 41 for picking up a housing 2 formed at both ends of a harness,
A clamping cylinder 42 for pulling the clamping device 41 left and right,
A vertical cylinder 44 installed on the upper part of the clamping cylinder 42 for vertically moving the clamping cylinder 42 up and down,
A vertical plate 45 connected to the vertical cylinder 44,
And a horizontal cylinder 46 connected to the vertical plate 45 and having a piston for moving the vertical plate 45 and the vertical cylinder 44 forward and backward,
The clamping cylinder 42 is connected to the piston of the clamping cylinder 42 on the left and right sides so that the clamping plate 41 is opened and closed by the expansion and contraction of the actuating plate 43 ,
The forward and backward movement of the gripper 41 by the horizontal cylinder 46 is performed by a guide by the movement of the guide member 47 provided on the side of the horizontal cylinder 46 Harness bad extraction device.

Images