KR20100107304A

KR20100107304A - Assembly device for combination switch and a jig used for same

Info

Publication number: KR20100107304A
Application number: KR1020090025523A
Authority: KR
Inventors: 김창덕
Original assignee: 한국단자공업 주식회사
Priority date: 2009-03-25
Filing date: 2009-03-25
Publication date: 2010-10-05

Abstract

PURPOSE: A combination switch assembly device and a jig used therein are provided to prevent a jig from becoming stuck in an assembling unit. CONSTITUTION: A combination switch assembly device comprises a jig conveying unit(10), a jig lifting unit(20), an assembly unit(30), and a second sensor(34). The jig conveying unit transfers multiple jigs(50) along an incline by gravity. A tray moves up and down in the inner space of the jig lifting unit. The jig lifting unit moves the jig upward. The assembly unit transfers the jig in a direction opposite to the transfer direction of the jig conveying unit. The second sensor senses the passing of the jig.

Description

Assembly device for combination switch and A jig used for same}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an assembly apparatus and a jig for a combination switch used in a process of assembling a main body of a combination switch mounted on an automobile handle.

The combination switch is assembled on the steering wheel of the car and configured to be operated by the user. The switch for manipulating the main functions of the car such as a light, a wiper, an audio, and an airbag is manufactured in one assembly. The appearance and skeleton of this combination switch are formed by the housing. A through hole is formed in the center of the housing so that the car handle shaft passes, and the rotator coupled to the car handle shaft is fixed to the through hole. The housing and the rotator are assembled with various parts, wires, flexible cables, etc. for transmitting a user's operation signal.

SUMMARY OF THE INVENTION An object of the present invention is to provide a combination switch assembling apparatus which allows a jig for a combination switch to be correctly delivered to an operator.

Another object of the present invention is to provide a jig for a combination switch that facilitates the assembly work of the combination switch.

According to a feature of the present invention for achieving the object as described above, the present invention is formed to be inclined in one direction, a plurality of jigs are transferred by gravity along the inclination jig transfer unit; A jig elevating unit provided at an end of the jig conveying unit in a jig conveying direction and provided with a tray capable of elevating an inner space to move the jig transferred from the jig conveying unit; An assembling work unit provided at an upper portion of the jig carrying unit, the jig moved up and down by the jig lifting unit being transferred in a direction opposite to the conveying direction of the jig carrying unit, and the jig being selectively fixed at a position at which the assembling work is performed; And a second sensor provided at a position adjacent to the exit of the jig lifting unit of the assembly work unit and detecting whether the jig is passed. The signal sensed by the second sensor is transmitted to the jig lifting unit to transfer the tray. The lowering operation, characterized in that the tray is raised when the next jig is seated.

The assembly work unit, the upper frame is formed long in one direction, connected to the outlet of the jig lifting portion; A roller assembly extending along both edges of the upper surface of the upper frame and minimizing friction with the jig; And a first stopper and a second stopper provided on the upper frame to be spaced apart a predetermined distance along the conveying direction of the jig, and fixed to the jig by being fixed to one side of the jig.

One end of the first and second stoppers is rotatably coupled to the hinge shaft, and the other end thereof is elastically supported to be rotated a predetermined angle in the conveying direction of the jig about the hinge axis and then restored to its original position. do.

The jig transfer unit, the lower frame is formed in one direction long and inclined downward toward the entrance of the jig lifting portion; A roller assembly extending along both edges of the upper surface of the lower frame and minimizing friction with the jig; And a jig guide protruding a predetermined height from both edges of the upper surface of the lower frame and guiding a moving direction of the jig.

At a position adjacent to the inlet of the jig lifting unit of the jig transfer unit, a supply limit stopper configured to elevate a predetermined height and selectively walk one side of the jig positioned at the tip of the jig transfer unit to prevent jig movement is provided. Limiting stopper is characterized in that when the tray is lowered and positioned at the inlet, the lowering operation is released to release the jam with the jig.

The jig transfer unit is provided with a first sensor for detecting the presence of the jig, the jig lifting unit is characterized in that the display unit for informing the time of replenishment of the jig by receiving the signal of the first sensor.

According to another feature of the present invention, the present invention is formed in a flat plate shape, one side is formed by the engaging groove that the supply restriction stopper is selectively hooked, the other side is formed so that the stopper groove is selectively stopped on the stopper Jig body; A rotator boss formed to protrude a predetermined height in the center of the jig body and inserted into a through hole of the rotator; A seating boss formed at both sides of the rotator boss of the jig body and having a wing portion of the housing seated thereon; And a leg boss formed on both sides of the rotator boss of the jig body and having leg legs of the housing seated thereon.

The front end of the leg boss is characterized in that the fixing projection is inserted into the bottom of the leg of the housing protrudes.

Both sides of the jig body is characterized in that the handle is formed.

According to the present invention, the following effects are expected. In the present invention, the assembly work portion is formed side by side on the jig transfer portion, the jig is transferred from the jig transfer portion to the assembly work portion by the liftable tray provided in the jig lifting portion. Then, when the second sensor detects the movement of the jig in the assembly work unit, the tray is lowered, the jam of the supply limit stopper is released, and the jig waiting for the jig transfer unit is supplied to the tray. Due to this, the jig waiting for the jig transfer part is correctly delivered one by one, and in particular, since the next jig is transferred only when the second sensor senses the movement of the jig, it is possible to prevent the jig from being accumulated in the assembly work part.

In addition, according to the present invention, when assembling the combination switch to work by fixing each component to the jig, there is an effect that the work is easy to improve the product productivity.

Hereinafter, a combination switch assembly according to the present invention and a preferred embodiment of the jig used therein will be described in detail with reference to the accompanying drawings.

1 is a partial perspective view showing a preferred embodiment of the combination switch assembly according to the present invention, Figure 2 is a configuration of the jig transfer unit of Figure 1 is shown in an enlarged perspective view, Figure 3 and the jig lifting portion of Figure 1 A part of the assembly work is shown in an enlarged perspective view, Figure 4 is a perspective view of the jig fixed to the working position in the embodiment of the present invention, Figure 5 and Figure 6 is a state in which the rotator and the housing assembled to the jig Is shown in plan view, and FIG. 7 shows a jig with the rotator and housing assembled, respectively, in a side view and a front view.

As shown in these figures, the combination switch assembly device (hereinafter referred to as "assembly device") is largely composed of a jig transfer unit 10, jig lifting unit 20, the assembly work unit 30.

First, the jig transfer unit 10 is a portion for transferring the jig for combination switch (hereinafter referred to as jig) 50 to the jig lifting unit 20. The jig transfer unit 10 is transported in a state in which a plurality of jig 50 is seated in a row.

The lower frame 11 forms the appearance and skeleton of the jig transfer part 10. The lower frame 11 is formed in a substantially rectangular plate shape with a penetrating portion 11 ′ extending in the longitudinal direction of the lower frame 11 at the center thereof. The lower frame 11 has a predetermined slope with respect to the floor. More precisely, the lower frame 11 is formed to be inclined downward toward the jig lifting unit 20 to be described later. This is to allow the jig 50 seated on the lower frame 11 to be moved toward the jig lifting unit 20 along the inclination of the lower frame 11 by gravity.

The roller assembly 12 is provided along both edges of the upper surface of the lower frame 11. The roller assembly 12 is configured to minimize friction when the jig 50 is transported along the lower frame 11. In this embodiment, the roller assembly 12 is composed of a plurality of rollers so that the jig 50 can be moved smoothly by rotating the rollers. And jig guide 13 is formed to protrude a predetermined height upward at both edges of the lower frame (11). The jig guide 13 supports both ends of the jig 50 to prevent the jig 50 from being separated from the lower frame 11.

Meanwhile, a supply limit stopper 14 is provided at a position adjacent to the inlet 22 of the jig lifting unit 20 which will be described later in the lower frame 11. The supply limit stopper 14 supports the waiting jig 50 in front of the inlet 22 of the jig lifting unit 20 so that the jig 50 arbitrarily enters the inlet 22 of the jig lifting unit 20. Serves to prevent this from happening. The supply limit stopper 14 selectively catches the engaging groove 51a (FIG. 4) of the jig 50. The supply limit stopper 14 is configured to be movable so that it can protrude a predetermined height above the roller assembly 12. That is, the supply limit stopper 14 supports the jig 50 in a state in which the roller assembly 12 protrudes to prevent the movement of the jig 50.

The supply limit stopper 14 is operated so that the jig 50 is no longer supported when the tray 21 ′ in the jig lifting unit 20 to be described below is lowered and positioned at the inlet 22 of the jig lifting unit 20. do. That is, when the tray 21 'is located at the inlet 22 of the jig lifting portion 20, the supply limit stopper 14 is lowered below the roller assembly 12 so that the jig 50 is no longer supported. As a result, the jig 50 enters the inlet 22 along the inclination of the lower frame 11 and is seated on the tray 21 '. When the jig 50 is seated on the tray 21 ', the jig 50 waiting thereafter is supported by the supply limit stopper 14, which moves up, and the movement is stopped. By this configuration, the jig 50 is transferred to the jig lifting unit 20 one by one. Then, the tray 21 'is raised again when the next jig 50 is seated.

In addition, one side of the lower frame 11 is provided with a first sensor 16. The first sensor 16 detects whether there is a jig 50 in the lower frame 11 and transmits a signal to the display unit 26 to be described later. That is, if there is no jig 50 in the lower frame 11, the first sensor 16 transmits a signal to the display unit 26 to operate the display unit 26. In this way, the worker can easily know when to replenish the jig 50 to the jig transfer part 10.

The jig lifting unit 20 serves to transfer the jig 50 from the jig transfer unit 10 to the assembly work unit 30. More precisely, as shown in FIG. 2, the tray 21 ′ is provided in the internal space 21 of the jig lifting unit 20 so as to be liftable, and the jig 50 is seated on the tray 21 ′. Ascends and is delivered to the assembly work unit 30.

More specifically, the tray 21 'is lowered by a signal sensed by the second sensor 34, and then lifted again when the next jig 50 is seated on the lowered tray 21'. . It is necessary to detect whether the jig 50 is seated on the tray 21 'for the lifting operation of the tray 21', which is a sensor (not shown) for sensing the weight of the jig 50 on the tray 21 '. It is possible by providing a sensor for checking the presence of the jig 50 by detecting the light passing across the upper portion of the tray 21 'in the inner space (21).

In addition, the jig lifting unit 20 is formed with an inlet 22 and an outlet 23 communicating the internal space 21 with the outside. The inlet 22 is connected to the jig transfer part 10. The outlet 23 is located above the inlet 22, and is connected to the assembly work unit 30.

As shown in FIG. 3, the display unit 26 is provided on the jig lifting unit 20. The display unit 26 is operated by receiving an electrical signal from the first sensor 16 that detects that there is no jig 50 in the jig lifting unit 20. In the present embodiment, the display unit 26 uses a lamp so that the operator can visually check the replenishment timing of the jig 50. However, the present invention is not limited thereto, and it is sufficient to be configured to be recognized by an operator by sight or hearing.

The assembly work unit 30 is located above the jig transfer unit 10. In the assembly work unit 30, the worker moves the jig 50 exiting from the outlet 23 of the jig lifting unit 20 one by one to the corresponding working position to perform the assembly work. That is, the moving direction of the jig 50 in the assembly work unit 30 is the direction opposite to the moving direction in the jig transfer unit 10 (see the arrow in FIG. 1).

The upper frame 31 forms the appearance and skeleton of the assembly work unit 30. The upper frame 31 has a substantially rectangular plate shape. A predetermined region penetrating portion 31 ′ is formed in the center of the upper frame 31 in the longitudinal direction of the upper frame 31. In the present embodiment, the upper frame 31 is formed horizontally with respect to the floor. However, the present invention is not limited thereto, and the upper frame 31 may be formed to be inclined downward in a direction away from the outlet 23 of the jig lifting unit 20. This is for the jig 50 to be easily transported along the upper frame 31.

The roller assemblies 32 are provided along both edges of the upper surface of the upper frame 31, respectively. The roller assembly 32 is configured to minimize friction when the jig 50 is transported along the upper frame 31. In this embodiment, the roller assembly 32 is composed of a plurality of rollers so that the jig 50 can be moved smoothly by rotating the rollers. And jig guide 33 is formed to protrude a predetermined height upward at both edges of the upper frame (31). The jig guide 33 supports both ends of the jig 50 to prevent the jig 50 from being separated from the upper frame 31.

A second sensor 34 is provided at a position adjacent to the outlet 23 in the upper frame 31. The second sensor 34 serves to detect whether the jig 50 passes. That is, when the jig 50 exiting the outlet 23 passes the second sensor 34, the jig 50 detects this and transmits a signal to the jig lifting unit 20. The jig lifting unit 20 receiving the signal lowers the tray 21 ', and when the tray 21' is lowered and positioned at the inlet 22, the supply limit stopper 14 of the jig transfer unit 10 is moved. The jig 50, which is released and waiting, is moved to the tray 21 '.

On the other hand, one side of the upper frame 31 is provided with a first stopper 35 and the second stopper 37 spaced a predetermined distance in the conveying direction of the jig (50). The first stopper 35 and the second stopper 37 are engaged with the stopper groove 52 (FIG. 4) of the jig 50 to fix the position of the jig 50. In fact, the jig 50 is fixed at the position where the first stopper 35 and the second stopper 37 are provided, and each assembly work is performed.

Since the structure of the said 1st stopper 35 and the 2nd stopper 37 is the same, it demonstrates centering on the 1st stopper 35 from now on. As shown in FIG. 4, the first stopper 35 is formed in an approximately L shape. One end of the first stopper 35 is connected to a hinge shaft 36 provided outside the jig guide 33. As a result, the first stopper 35 may be rotated by a predetermined angle about the hinge shaft 36 connected to one end thereof. A hook portion 36 ′ is formed at the other end of the first stopper 35. The hook portion 36 ′ protrudes a predetermined amount into the upper frame 31 to be hooked to the stopper groove 52 of the jig 50.

The first stopper 35 is elastically supported such that the hook portion 36 'is held in the stopper groove 52. That is, the first stopper 35 is rotated by a predetermined angle in the conveying direction of the jig 50 about the hinge axis 36, and then the hook portion 36 'of the first stopper 35 is conveyed later. When the stopper groove 52 of the jig 50 is to be elastically supported to be restored to its original position.

Workers are disposed at positions corresponding to the first and second stoppers 35 and 37. The operator disposed in front of the first stopper 35 has a rotator 90 and a housing 95 in which grease is applied to the jig 50 in a position fixed by the first stopper 35 as shown in FIGS. 5 and 6. Assemble in order. Next, the operator disposed in front of the second stopper 37 pulls the jig 50 in which the rotator 90 and the housing 95 are assembled by hand to fix the position with the second stopper 37. Assemble the parts.

On the other hand, in the position adjacent to the upper frame 31 is provided with a Christigi 60 (see Fig. 1). The aeration 40 is a device for applying grease to the rotator 90 and the housing (95). The upper frame 31 is provided with a button 45 for operating the Christgigi 40.

Hereinafter, the configuration of the jig 50 will be described in detail with reference to FIG. 4.

A rectangular flat plate-like jig body 51 constitutes the appearance and skeleton of the jig 50. Four edges of the jig body 51 is formed with a chamfer (51 '). On one side of the jig body 51 is formed a locking groove 51a which is selectively supported by the supply restriction stopper 14. And the stopper groove 52 is formed to be recessed in a predetermined amount on one side of the jig body 51. The stopper groove 52 is a portion on which the stoppers 35 and 37 hang. The inner circumferential surface of the stopper groove 52 is rounded.

The center of the jig body 51 is provided with a rotator boss (53). The rotator boss 53 may protrude in a substantially cylindrical shape so that a part of the tip may be inserted into the through hole 91 of the rotator 90. A support protrusion 53 ′ supporting an inner circumferential surface of the rotator 90 is formed on an upper surface of the rotator boss 53.

A cylindrical mounting boss 54 protrudes on both sides of the rotator boss 53, respectively. Both wing parts 96 formed in the housing 95 of the combination switch are seated on the seating boss 54. In addition, the jig body 51 is provided with leg support bosses 56 protruding from both sides of the rotator boss 53, respectively. The leg support boss 56 is a portion corresponding to the leg 97 of the housing 95, and a fixing protrusion 57 is formed on an upper surface of the leg support boss 56. The fixing protrusion 57 is inserted into a fixing hole (not shown) of the leg 97 of the housing 95 to fix the position of the leg 97. One of the leg support bosses 56 is provided with an interference avoiding surface 58 having one side formed in a plane. The interference avoiding surface 58 serves to prevent the protrusion 98 (FIG. 7B) further protruding from the leading edge of the leg 97 from interfering with the leg support boss 56.

On the other hand, the handle 59 is provided on both sides of the jig body 51. The handle 59 is a part held by a worker when transferring the jig 50.

Hereinafter, a combination switch assembling process in the combination switch assembling apparatus according to the present invention will be described.

First, as shown in FIG. 1, in the state where a plurality of jigs 50 are seated on the lower frame 11 of the jig transfer unit 10, one jig 50 is positioned at the inlet 22 of the jig lifting unit 20. To the tray 21 '. The tray 21 ′ is lifted in the state where the jig 50 is seated and is positioned at the outlet 23 of the jig lifting unit 20.

At this time, the operator disposed in front of the first stopper 35 pulls the jig 50 from the tray 21 'through the outlet 23 and moves it to the first stopper 35 position. At this time, the hook portion 36 ′ of the first stopper 35 is engaged with the stopper groove 52 of the jig 50, thereby fixing the position of the jig 50. Meanwhile, the jig 50 moves from the outlet 23 to the position where the first stopper 35 is provided and passes through the second sensor 34. In this case, the second sensor 34 has a jig 50. It detects the passing and sends a tray movement signal to the jig lifting unit 20.

Accordingly, the tray 21 'received the movement signal is lowered, and when the tray 21' is completed, the supply limit stopper 14 is also lowered by a predetermined height so that the jig 50 is no longer supported. . As a result, the jig 50 stopped by the supply limit stopper 14 immediately before the inlet 22 of the jig lifting unit 20 is transferred to the tray 21 '. At this time, the movement of the jig 50 is possible by the gradient is formed so that the jig transfer unit 10 is inclined downward toward the inlet (22). By repeating this process, the jig 50 is delivered to the worker one by one. In addition, the jig 50 is transmitted in response to the working speed of the operator.

If there is no jig 50 in the jig transfer unit 10, the first sensor 16 detects this to operate the display unit 26 to inform the worker to replenish the jig 50.

On the other hand, in a state in which the jig 50 is fixed on the assembly work part 30 by the first stopper 35, the worker may not recognize the rotator 90 and the housing 95 constituting a combination switch (not shown). The jig 50 is sequentially seated. The rotator 90 and the housing 95 are evenly coated with grease by the Christ aeration 40 before being seated on the jig 50. As shown in FIG. 5, the rotator 90 rests on the rotator boss 53. 6, the housing 95 is seated on the jig 50. At this time, the wing portion 96 of the housing 95 is seated and supported on the mounting boss 54 of the jig 50, and the leg 97 of the housing 95 is seated and fixed to the leg support boss 56. . As such, when the rotator 90 and the housing 95 are seated on the jig 50, the positions of the rotator 90 and the housing 95 are fixed as well as the flow is prevented, so that the work can be easily performed when assembling the wire and the connector. Will be.

When the required work in the state where the jig 50 is located on the first stopper 35 is completed, the worker grasps the handle 59 of the jig 50 and transfers it toward the second stopper 37. At this time, the first stopper 35 rotates a predetermined angle in the counterclockwise direction about the hinge axis 36 by the force pushed by the operator. Then, the first stopper 35 exits the stopper groove 52 to allow the jig 50 to move.

The jig 50 in which the first stopper 35 is released is moved to a position where the second stopper 37 is provided by an operator disposed in front of the second stopper 37. Here too, the position of the jig 50 is fixed by the second stopper 37, and in this state, the operator performs the next assembling work.

As described above, the jig 50 is transported along the assembly work unit 30 and the assembly work is sequentially performed.

The scope of the present invention is not limited to the embodiments described above, but is defined by what is stated in the claims, and various changes and modifications can be made within the scope of the claims by those skilled in the art. It is self evident.

1 is a partial perspective view showing a preferred embodiment of the combination switch assembly apparatus according to the present invention.

2 is a partially enlarged perspective view showing the configuration of the jig transfer unit of FIG.

3 is a partially enlarged perspective view showing the jig lifting unit and the assembly work of FIG.

Figure 4 is a perspective view showing a state in which the jig is fixed to the working position in the embodiment of the present invention.

5 and 6 are a plan view schematically showing a state in which the rotator and the housing are assembled to the jig.

Figure 7 is a side view and a front view schematically showing a jig with the rotator and the housing assembled.

Explanation of symbols on the main parts of the drawings

10: jig transfer unit 11: lower frame

12: Roller Assembly 13: Jig Guide

14: Supply restriction stopper 16: First sensor

20: Jig lift 21 ': Tray

22: entrance 23: exit

26: display unit 30: assembly work

31: upper frame 32: roller assembly

33: jig guide 34: second sensor

35: first stopper 37: second stopper

40: Abandonment of Christ 45: Button

50: jig 51: jig body

51a: engaging groove 52: stopper groove

53: rotator boss 54: seating boss

56: leg support boss 58: interference avoiding surface

59: handle 90: rotator

95: housing

Claims

It is formed to be inclined in one direction, the jig transfer unit is a plurality of jigs are transferred by gravity along the inclination;

A jig elevating unit provided at an end of the jig conveying unit in a jig conveying direction and provided with a tray capable of elevating an inner space to move the jig transferred from the jig conveying unit;

An assembling work unit provided at an upper portion of the jig carrying unit, the jig moved up and down by the jig lifting unit being transferred in a direction opposite to the conveying direction of the jig carrying unit, and the jig being selectively fixed at a position at which the assembling work is performed;

And a second sensor provided at a position adjacent to the exit of the jig lifting unit of the assembly work unit and detecting whether the jig passes through the assembly unit;

And a signal sensed by the second sensor is transmitted to the jig lifting unit to lower the tray, and the tray is raised when the next jig is seated.

According to claim 1, The assembly work unit,

An upper frame formed in one direction and connected to an outlet of the jig lifting unit;

A roller assembly extending along both edges of the upper surface of the upper frame and minimizing friction with the jig;

And first and second stoppers provided on the upper frame to be spaced apart from each other by a predetermined distance along the conveying direction of the jig, and fixed to the jig by being fixed to one side of the jig.

According to claim 2, wherein the first and the second stopper is rotatably coupled to one end of the hinge shaft, the other end is rotated by a predetermined angle in the conveying direction of the jig around the hinge axis to restore the original position Combination switch assembling apparatus characterized in that the elastic support.

The method of claim 2, wherein the jig transfer unit,

A lower frame formed to be elongated in one direction and inclined downward toward the entrance of the jig lifting unit;

A roller assembly extending along both edges of the upper surface of the lower frame and minimizing friction with the jig;

Combination switch assembly apparatus comprising a; jig guide protruding a predetermined height from both edges of the upper surface of the lower frame, to guide the movement direction of the jig.

5. The supply limit stopper according to claim 4, wherein a position that is adjacent to the inlet of the jig lifter and the jig lifter is configured to elevate a predetermined height to selectively walk one side of the jig positioned at the tip of the jig transporter to prevent jig movement. Is provided,

The supply limit stopper is a combination switch assembly device, characterized in that when the tray is lowered and positioned at the inlet, the operation is lowered to release the jam with the jig.

According to any one of claims 1 to 5, The jig transfer unit is provided with a first sensor for detecting the presence of the jig,

Combination switch assembly apparatus characterized in that the jig lifting unit is provided with a display unit for receiving the signal of the first sensor to inform the time of replenishment of the jig.

It is formed in a flat plate shape, one side of the jig body is formed to be recessed to the supply groove stopper selectively restrained, the other side is formed so that the stopper groove is selectively stopped on the stopper;

A rotator boss formed to protrude a predetermined height in the center of the jig body and inserted into a through hole of the rotator;

A seating boss formed at both sides of the rotator boss of the jig body and having a wing portion of the housing seated thereon;

And a leg boss formed on both sides of the rotator boss of the jig body and having leg legs of the housing seated thereon.

The jig for the combination switch according to claim 7, wherein the fixing protrusion inserted into the bottom surface of the leg of the housing protrudes from the front end of the leg boss.

9. The method according to claim 7 or 8,

Combination switch jig, characterized in that the handle is formed on both sides of the jig body.