KR101725920B1 - Ignition coil body automatic production device - Google Patents

Abstract

The present invention relates to an automatic production device for an ignition coil body and, more specifically, to an automatic production device for an ignition coil body, which enables talc powder to be automatically applied on the inner circumferential surface of a coil body in a coil body production process of an ignition coil. Therefore, the talc powder is evenly applied for the ignition coil to be easily coupled, and in a coupling process of the ignition coil, harness assembly productivity can be improved by convenience and reduction of working time.

Description

[0001] Ignition coil body automatic production device [0002]

The present invention relates to an automatic ignition coil body producing apparatus, and more particularly, to an automatic ignition coil body producing apparatus which applies a powder of talc to an inner circumferential surface of a coil body on which an ignition coil is mounted, And an automatic ignition coil body production apparatus for increasing the productivity.

Generally, an ignition coil is an ignition coil, which applies a high-voltage current to an ignition plug such that a flame is generated in an ignition plug for igniting fuel supplied to a combustion chamber of an engine.

Such an ignition coil is provided with a secondary spool assembly composed of a primary coil wound on the primary spool a plurality of turns and a secondary coil wound on the secondary spool more than the primary coil.

Such an ignition coil induces, for example, an induced electromotive force generated in the secondary coil when a current of about 12 V is supplied from the battery of the vehicle to the spark plug so that a spark occurs in the spark plug.

Meanwhile, when the ignition coil is installed in an engine of an automobile, the ignition coil is installed through a coil body in the form of a rubber material having a different elasticity.

At this time, the ignition coil is inserted and coupled into the coil body. In the process of inserting the ignition coil, the assembly is not easy due to friction between the outer circumferential surface of the ignition coil and the inner circumferential surface of the coil body.

As described above, it is necessary to facilitate the coupling between the ignition coil and the coil body. However, the technique has not been proposed so far. Therefore, a powder having insulation property by using a brush or the like on the inner circumferential surface of the coil body, And the friction is minimized in the process of applying the ignition coil.

However, in the powder coating method as described above, the powder is not uniformly applied to the inside of the coil body due to the characteristics of the manual work, and the work efficiency is remarkably lowered, in particular, the working time in the coating process becomes considerable.

Korean Patent Registration No. 10-0527516.

The present invention has been made to solve the above problems, and it is an object of the present invention to provide a method of manufacturing an ignition coil, in which the powder of talc is automatically applied to the inner circumferential surface of the coil body in the process of manufacturing the coil body of the ignition coil, The present invention provides an ignition coil body automatic production device for facilitating the joining of the ignition coil and the productivity of the harness assembly according to the convenience of the joining process of the ignition coil and the shortening of the working time. There is purpose.

In order to achieve the above object, there is provided a conveying conveyor for conveying a coil body, the conveying conveyor comprising: a pair of opposing pairs of opposing sides having a horizontal rotational force in mutually opposite directions; And

And a talc coating unit for coating the inner surface of the coil body with talc powder, the talc coating being applied to the inner surface of the coil body,

The double-

A belt is engaged with a periphery of a plurality of guide rollers formed between the driving shaft and the interlocking shaft and between the driving shaft and the interlocking shaft,

A driving gear and a driving motor are formed on a driving shaft of the conveying conveyor on one side so as to have a driving force,

The drive shaft of the conveying conveyor on the other side is formed with an interlocking gear meshed with the drive gear so that the conveying members of both sides are configured to have different rotational forces,

A plurality of pair of gripping jigs are formed on the belts of the respective conveying conveyors so as to be opposed to each other in which the gripping grooves opened to the vertical and opposing sides are formed on the opposing surface so that the coil body can be gripped. You can do it.

As described above, the ignition coil body automatic production apparatus of the present invention enables the ignition coil to be gripped and conveyed through a conveying conveyer having a plurality of jigs formed therein. In the process of passing the ignition coil through the talc application unit, It is possible to apply the talc on the inner circumferential surface of the coil body automatically such that the application of the talc can be performed by the application brush which is lifted and lowered up and down.

In addition, it is possible to shorten the production time in the production process of the coil body and the convenience in assembling the ignition coil according to the application of the talc, and thus the productivity of the harness assembly can be remarkably improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall perspective view of an automatic production apparatus for an ignition coil body according to the present invention. FIG.
2 is a plan view of an automatic production apparatus for an ignition coil body according to the present invention.
3 is a sectional view of an automatic production apparatus for an ignition coil body according to the present invention.
Fig. 4 is a main part of the conveying conveyor of the automatic production apparatus for the ignition coil body of the present invention. Fig.
5 is a main part view of a talc coating part of an automatic production device for an ignition coil body according to the present invention.
6 is another embodiment of the talc applying portion of the automatic production apparatus for the ignition coil body of the present invention.
7 is a state in which the coil body of the automatic production apparatus for the ignition coil body is transferred.
8 is a state in which the talc is applied to the automatic production apparatus of the ignition coil body of the present invention.
FIG. 9 is a state in which the coil body of the automatic production apparatus for the ignition coil body is discharged. FIG.
10 is another embodiment of the talc application state of the automatic production apparatus for the ignition coil body of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

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

FIG. 1 is a perspective view of an automatic ignition coil body automatic producing apparatus according to the present invention, FIG. 2 is a plan view of an automatic ignition coil body producing apparatus of the present invention, and FIG. 3 is a sectional view of an automatic ignition coil body producing apparatus.

As shown in FIGS. 1 to 3, the automatic production apparatus 1 of the present invention includes a conveying conveyor 100 (100 ') and a talc applying unit 200.

Here, the conveying conveyors 100 and 100 'are formed to be opposed to each other in the width direction, and are configured as a pair on both sides by a rotational force in mutually opposite directions, so as to transfer the coil body (not shown).

Referring to FIG. 4, each of the conveying conveyors 100 and 100 'includes a drive shaft 110' and an interlocking shaft 120 'and a drive shaft 120' The interlocking operation of the driving shaft 110 and the interlocking shafts 120 and 120 'is performed by the driving shaft 110 and the interlocking shafts 120 and 120' But is not limited to, but may be constructed by friction of belts 140, 140 ', which may or may not be possible by means of a conventional chain (not shown) connection.

A plurality of guide rollers 130 and 130 'are formed between the driving shafts 110 and 110' and the interlocking shafts 120 and 120 '.

The driving shafts 110 and 110 'and the interlocking shafts 120 and 120' and the guide rollers 130 and 130 'are connected to each other by belts 140 and 140'.

In this case, the driving shafts 110 and 110 'and the interlocking shafts 120 and 120' are formed in a line on the same plane. Each of the guide rollers 130 and 130 ' Side conveying conveyors 100 and 100 'between the interlocking shafts 120 and 120' and the interlocking shafts 120 and 120 '. The eccentricity of the guide rollers 130 and 130' And the belts 140 and 140 'of the conveyors 100 and 100' are configured to spread apart.

The driving gear 150 and the driving motor 160 are connected to the driving shaft 110 of the conveying conveyor 100 on either side in order to impart rotational force in the opposite direction to the conveying conveyors 100 and 100 ' And the drive gear 150 and the drive shaft 110 are configured to rotate by driving the drive motor 160.

At this time, in the present invention, the driving motor 160 is configured such that driving and stopping are repeatedly operated for a predetermined time.

The drive shaft 150 of the transfer conveyor 100 'on the other side is coupled with the drive gear 150 to transmit a rotational force. The drive gear 150 and the interlocking gear 170, respectively, rotational forces in mutually opposite directions are given to the respective drive shafts 110, 110 '.

The pair of gripping jigs 141 and 141 'are formed on the belts 140 and 140' formed on the conveying conveyors 100 and 100 'so as to be able to grip the coil body, At this time, each of the gripping jigs 141 and 141 'is continuously formed at predetermined intervals in the belts 140 and 140'.

The gripping grooves 142 and 142 'are formed in the respective gripping jigs 141 and 141' so that the coil body can be received in the surfaces of the gripping jigs 141 and 141 ' The upper and lower portions are formed to pass through and open to the opposite surfaces.

5, the talc applying part 200 is formed in the middle part of the conveying conveyors 100 and 100 ', and the talc applying part 200 is provided with a talc coating part 200 on the inner circumferential surface of the coil body conveyed along the conveying conveyors 100 and 100' And is configured to be able to apply the powder 201, and is configured in the shape of a rectangular housing.

At this time, the talc applying unit 200 is provided with an inlet 210 and an outlet 220 through which the conveying conveyors 100 and 100 'are passed, respectively. At the entrance 210 and the outlet 220, It is possible to prevent the talc powder 201 filled in the talc tank 230 from being scattered to the outside so as to be finished with the curtains 211 and 221 of the "sake" shape so as to be freely opened when an external force is applied .

In addition, a talc tank 230 is formed in the lower portion of the inside of the talc applying unit 200, and the talc powder 201 is filled in the talc tank 230.

In the present invention, when the talc powder 201 is applied to the present invention, the talc is insulated against electricity, and the refractory material is also used as a refractory material. It is possible to improve the fire resistance of the coil body made of a rubber material.

The upper part of the talc tank 230 inside the talc applying part 200 is partitioned with the conveying conveyors 100 and 100 'so that the talc powder 201 is scattered toward the conveying conveyors 100 and 100' A plurality of through holes 241 and 241 'are formed at the same spacing as the gripping jigs 141 and 141' through the scattering blocking plate 240, .

In addition, a plurality of application brushes 250 and 250 'are formed inside the talc tank 230, and the application brushes 250 and 250' are formed in the through holes 241 (241 ') At the same interval.

The operation of the upper and lower lifting and lowering operations is formed at the outer lower side of the talc tank 230 to enter the talc tank 230 It is preferable to form a state in which the talc powder 201 is buried at the time of descent by vertically moving up and down through the through holes 241 and 241 'by the operation of the cylinder 260.

6, a plurality of vibrators 270 may be further included in the talc tank 230, and the vibrations of the vibrator 270 may cause the talc tank 230 to be filled with The talc powder 201 is prevented from being aggregated with each other and scattered in the talc tank.

Hereinafter, the operation of the ignition coil body automatic production apparatus of the present invention having the above-described structure will be described in detail with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The automatic production apparatus 1 for the ignition coil body of the present invention is for automatically applying talc powder to the inner peripheral surface of the coil body of the ignition coil,

First, as shown in FIG. 7, the coil body 10 is mounted and transferred to the start end of the conveying conveyors 100 and 100 '.

For this purpose, the coil body 10 is mounted on the gripping jigs 141 and 141 'formed on the belts 140 and 140' of the respective conveying conveyors 100 and 100 ' The gripping jigs 141 and 141 'on both sides of the gripping jig 141 and 141' are formed to be separated from each other at the starting end and the gripping jigs 141 and 141 ' Are formed.

In the course of the operation of the conveying conveyors 100 and 100 'by the driving motor 160, the coil body 10 is moved from the starting end side to the opening end of the side holding jigs 141 and 141' It is possible to grasp the coil body 10 while the gripping jigs 141 and 141 'are broken, and the gripped coil body 10 can be gripped And conveyed along the conveying conveyors 100 and 100 '.

When the coil body 10 is fully inserted into the talc coating unit 200, the coil body 10 is moved into the talc coating unit 200 through the entry port 210. When the coil body 10 is fully inserted into the talc coating unit 200, Is temporarily stopped.

It is preferable that the drive motor 160 is driven and stopped in a manner corresponding to the number of the through holes 241 and 241 'formed in the scattering blocking plate 240, The respective coil bodies 10 entering the talc coating portion 200 are positioned on the same vertical line as the through holes 241 and 241 'of the scattering blocking plate 240. [

The coil body 10 is stopped in the interior of the talc applying unit 200 and the talc powder 201 is applied to the inner circumferential surface of the coil body 10, The application brushes 250 and 250 'buried in the talc powder 201 filled in the talc tank 230 are raised and the application brushes 250 and 250' The talc powder 201 that penetrates through the through holes 241 and 241 'of the plate 240 and enters the inside of the coil body 10 to be buried in the applicator brushes 250 and 250' And is then lowered by the operation of the cylinder 260 and returned.

9, the coil body 10 to which the talc powder 201 is applied is moved along the conveying conveyors 100 and 100 'to the discharge port 220 The gripping force of the gripping jigs 141 and 141 'is released and the coil body 10 is separated from the conveying conveyors 100 and 100' The application of the talc powder 201 is completed.

6, when the vibrator 270 is formed on the talc tank 230 as shown in FIG. 6, the inside of the inside of the talc tank 230, It is possible to prevent the talc powder 201 from being aggregated with each other by the flow of the talc powder 201, So that the talc powder 201 can be smoothly adsorbed on the applicator brushes 250 and 250 '.

As described above, in the operation of the ignition coil body automatic production apparatus 1 of the present invention, the mounting and dismounting of the coil body 10 can be performed manually by a worker, or may be performed by a conventional robot arm (not shown) .

As described above, the automatic manufacturing system of the ignition coil body according to the present invention enables the application of the talc powder automatically in the process of transferring the coil body on the conveying conveyor, enabling rapid and uniform application, (harness assembly), which leads to increased convenience and productivity in the production process.

100, 100 ': conveying conveyor 110, 110'
120, 120 ': interlocking shafts 130, 130': guide rollers
140, 140 ': Belts 141, 141': Finger jig
142, 142 ': gripping groove 150: driving gear
160: Driving motor 170: Interlocking gear
200: talc coating part 201: talc powder
210: Entry point 211: Curtain
220: outlet 221: curtain
230: talc tank 240: scattering plate
241, 241 ': Through hole 250, 250'
260: cylinder 270: vibrator

Claims (4)

A conveying conveyor 100 (100 ') composed of a pair of opposing opposite sides having a horizontal rotational force in opposite directions and conveying the coil body; And
And a talc coating unit 200 for coating the inner surface of the coil body to which the talc powder 201 is applied and which is coated with the talc powder. The talc coating unit 200 is provided at the intermediate portion of the conveying conveyors 100 and 100 '
The two-sided conveying conveyors 100 and 100 '
A plurality of guide rollers 130 (130) formed between the driving shafts 110 and 110 'and the interlocking shafts 120 and 120', and between the driving shafts 110 and 110 'and the interlocking shafts 120 and 120' And the belt 140 'and the belt 140'
A driving gear 150 and a driving motor 160 are formed on the driving shaft 10 of the conveying conveyor 100 on one side to have a driving force,
An interlocking gear 170 engaged with the driving gear 150 is formed on the driving shaft 110 'of the conveying conveyor 100' on the other side so that the conveying motors 100 and 100 '
A plurality of the belts 140 and 140 'of the conveying conveyors 100 and 100' are formed at regular intervals and are provided with gripping grooves 142 142 142 'opened to the opposite sides Wherein the pair of gripping jigs 141 and 141 'are formed so as to be opposed to each other.
The method according to claim 1,
Each conveying conveyor 100, 100 '
Each of the driving shafts 110 and 110 'and the interlocking shafts 120 and 120'
Each of the guide rollers 130 and 130 'is configured so as to protrude from the opposite side of the two conveying conveyors 100 and 100' between the drive shaft 110 and the interlocking shafts 120 and 120 ' So,
Wherein both sides of the conveying conveyors (100) and (100 ') are open to each other.
The method according to claim 1,
The talc application unit 200,
A conveying conveyor 100 'and a conveying conveyor 100' are respectively inserted into both ends of the conveyor 100. The curtains 211 and 221 are formed in a rectangular shape with an entrance 210 and an outlet 220,
A talc tank 230 filled with a talc powder 201 is formed at an inner lower portion thereof,
The upper part of the talc tank 230 is configured to be closed with a scattering blocking plate 240 having a plurality of through holes 241 and 241 'at the same interval as the holding jigs 141 and 141' ,
A plurality of applicator brushes 250 and 250 'which are vertically lifted and lowered through the through holes 241 and 241' by the operation of the cylinder 260 to apply talc to the inner circumferential surface of the coil body, Wherein the ignition coil body is provided with an ignition coil body.
The method of claim 3,
In the talc tank 230 of the talc applying unit 200,
And the oscillator 270 is further included so that the oscillation of the oscillator 270 prevents the talc powder 201 charged in the talc tank 230 from aggregating with each other. Production equipment.

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