KR101573545B1 - Ignition coil for vehicle - Google Patents

Abstract

The present invention relates to an ignition coil for a vehicle, and more particularly, to an ignition coil for a vehicle that prevents the flow of a magnetic core to maintain a constant performance of the ignition coil, and a condenser function extinguishing means is mounted on the magnetic core, To an ignition nose for a vehicle.

To this end, the vehicle ignition coil of the present invention comprises a primary spool, a secondary spool provided in the primary spool, a magnetic core inserted into the secondary spool, an outer case on the outer side, An ignition coil for a vehicle comprising an epoxy resin for insulating a core from an outer case,

A magnetic core flow preventing means for blocking the flow of the magnetic core is provided at a coupling portion between the primary spool and the secondary spool and a condenser function exiting means for removing noise is provided on the magnetic core. .

Description

{IGNITION COIL FOR VEHICLE}

The present invention relates to an ignition coil for a vehicle, and more particularly, to an ignition coil for a vehicle that prevents the flow of a magnetic core to maintain a constant performance of the ignition coil, and a condenser function extinguishing means is mounted on the magnetic core, To an ignition coil for a vehicle which can be removed inside.

In general, an internal combustion engine is an internal combustion engine that uses the expansion of a combustion gas by combustion of a fuel for mechanical work, and is divided into a diesel engine and a gasoline engine. Among them, the diesel engine is a compression ignition engine and does not require a separate ignition device.

On the other hand, the gasoline engine requires a separate ignition device for the combustion of the fuel. The ignition device includes an ignition switch serving as a switch of the coil primary circuit, an ignition coil for amplifying the low voltage of the battery to a high voltage, A high voltage cable for sending a high voltage generated from the ignition coil to the spark plug, and a distributor for distributing the ignition voltage to the spark plug.

On the other hand, recently, an ignition coil has been developed which is configured to directly transmit a high voltage to a spark plug without requiring the high-voltage cable and the distributor.

Fig. 1 is a view showing an example of the structure of the above-mentioned conventional ignition coil.

The ignition coil 100 shown in the figure has a magnetic core 60 concentrically disposed in the center and first and second spools 10 and 20 and an outer case 30 arranged in the outer direction of the magnetic core 60 Respectively.

A coil is wound on each of the primary spool 10 and the secondary spool 20. A relatively larger number of coils are wound on the secondary spool 20 than the primary spool 10. The coil wound on the primary spool is referred to as a primary coil and the coil wound on the secondary spool is referred to as a secondary coil.) This is because a mutual induction action occurs between coils wound in different numbers on the primary spool and the secondary spool It is a structure that can amplify the low voltage applied from the battery to high voltage.

In addition, the magnetic core 60 is provided to induce the voltage amplified by the mutual inductive action to a higher high voltage. The outer case (30) disposed at the outermost portion of the ignition coil (100) casing the inner parts, and prevents the generated voltage from flowing out to the outside.

In the above-described conventional ignition coil, after the magnetic core is inserted into the secondary spool, there is no correction for catching the magnetic core, so that the magnetic core swings up and down and right and left. The performance of the system is affected.

In addition, when the magnetic core and the ground pin are brought close to each other, electrical short-circuiting occurs and the coil is fatal. In addition, the noise generated in the ignition coil was tried to be reduced by using a capacitor outside. However, since there is a distance between the ignition coil and the condenser, the noise reduction effect was not obtained.

According to an aspect of the present invention, there is provided a spool for a spool, comprising: a magnetic core flow unit at a coupling portion between a primary spool and a secondary spool to maintain a constant performance of an ignition coil; And to provide an ignition coil for a vehicle that increases the durability of the coil by enhancing the insulation force by maintaining a constant distance between the pins.

It is another object of the present invention to provide an ignition coil for a vehicle that can remove ignition noise generated in an ignition coil from the inside of the ignition coil.

According to an aspect of the present invention, there is provided a secondary spool comprising: a primary spool; a secondary spool provided in the primary spool; a magnetic core inserted into the secondary spool; And an epoxy resin for insulating the magnetic core from the outer case, the ignition coil comprising:

A magnetic core flow preventing means for blocking the flow of the magnetic core is provided at a coupling portion between the primary spool and the secondary spool and a condenser function exerting means for removing noise is provided on the magnetic core .

The magnetic core flow prevention means of the present invention includes grooves formed at regular intervals along the circumferential direction on the inner surface of the primary spool and protrusions formed on the secondary spool and inserted into grooves on the primary spool And the protruding portion is formed as an inclined surface whose bottom surface is inclined downward.

The bottom of the groove formed in the primary spool is preferably a pressing member that is pushed into the magnetic core when the protrusion of the secondary spool is inserted into the groove.

The capacitor function extinguishing means of the present invention may further comprise a positive electrode plate disposed on the outer side of the magnetic core and a dielectric interposed between the two electrode plates, The plate is connected to a power line of a low voltage (LV) pin through a contact terminal, and the (-) electrode plate is connected to a ground pin of the LV pin through a contact terminal.

According to the present invention, the performance of the ignition coil can be kept constant by fixing the position of the magnetic core which affects the coil performance.

In addition, the length of the magnetic core can be increased to improve the performance of the ignition coil, and the distance between the magnetic core and the ground pin can be kept constant, thereby enhancing the insulation force and enhancing the durability of the coil.

Further, according to the present invention, the ignition noise generated in the ignition coil can be removed from the inside of the ignition coil, and the capacitor and the shield wire mounted on the outside can be removed by the application of the present invention.

In addition, there is an effect that the noise of the ignition coil which becomes the noise generation source is immediately removed from the noise source.

Hereinafter, a preferred embodiment of an ignition coil for a vehicle according to the present invention will be described in detail with reference to the accompanying drawings.

FIGS. 2A and 2B are views showing a magnetic core flow prevention structure provided in the ignition coil according to the present invention,

FIG. 2A is a partial perspective view showing a coupling structure of a magnetic core and a first spool and a second spool in the vicinity of the magnetic core in the ignition coil according to the present invention,

FIG. 2B is an enlarged view of the portion A in FIG. 2A, showing the state viewed from a plane.

First, the ignition coil includes a primary coil (not shown) wound around the primary spool 10, a secondary coil (not shown) provided inside the primary coil and wound around the secondary spool 20, And serves to induce a high voltage by mutual electromagnetic induction action with the magnetic core 60 inside the primary coil and the secondary coil.

Therefore, the ignition coil for a vehicle includes an outer case 30 including a magnetic core 60, a primary coil and a secondary coil, and an epoxy resin 40 for insulating the magnetic core 60 and the outer case 30 from each other. And a resin (not shown).

The ignition coil according to the present invention is provided with a coupling structure for preventing the flow of the magnetic core (60) inserted in the primary spool (10) and the secondary spool (20).

2A and 2B, the primary spool 10 located on the outer side of the secondary spool 20 is provided with grooves 11 (see FIG. 2A) And the protrusion 21 inserted into the groove 11 formed in the primary spool 10 is formed in the secondary spool 20. At this time, the bottom surface of the protrusion 21 is formed as an inclined surface 21a. That is, the bottom inclined surface 21a of the protruding portion 21 is inclined downward from the tip end of the protruding portion 21 toward the rear side (see FIG. 2 (a)).

Therefore, as soon as the coupling between the primary spool 10 and the secondary spool 20 of the present invention is performed, the projection 21 of the secondary spool 20, as shown in FIG. 2B, Is inserted into the groove (11) formed on the inner surface of the primary spool (10). Since the bottom surface of the protrusion 13 is formed as an inclined surface inclined downwardly, the protrusion 13 of the secondary spool 20 is inserted into the plurality of grooves 11 formed along the inner circumferential surface of the primary spool 10 The core pressing portion 13 is pushed to the magnetic core 60 side while the portion located at the bottom of the groove 11 of the primary spool 10 is inserted. A plurality of core compression portions 13 of the primary spool 10 are formed at regular intervals along the inner surface of the primary spool 10 so that the magnetic core 13 inserted into the secondary spool 20 60 are pressed in various directions, so that the magnetic core 60 is supported in a balanced manner.

That is, the magnetic core 60 support structure of the ignition coil of the present invention is such that the coupling structure of the primary spool 10 and the secondary spool 20 is such that the secondary spool 20 is inserted into the primary spool 10 The core pressing member 13 formed on the inner surface of the primary spool 10 is opened to the inside due to fitting so that the magnetic core 60 is supported to prevent the magnetic core 60 from flowing.

Further, in the ignition coil of the present invention, in order to reduce the noise generated in the ignition coil, the condenser is mounted on the ignition coil which is the root cause of noise generation.

FIGS. 3A and 3B are views illustrating an internal structure of an ignition coil having a magnetic core with a capacitor function according to the present invention, and FIG. 3B is a cross-sectional view illustrating an interior of an ignition coil.

As shown in the figure, in the ignition coil of the present invention, a capacitor function exerting means is provided in the magnetic core (60) in order to optimize the noise of the ignition coil to exhibit the function of the capacitor.

That is, the following capacitor function extinguishing means is provided to enable the capacitor function to be exerted on the magnetic core 60 of the present invention.

For example, the (+) and (-) electrode plates 71 and 73 are provided around the magnetic core 60, and the dielectric 75 is inserted into the two electrode plates 71 and 73, .

That is, the capacitor function exerting means of the present invention includes (+) / (-) electrode plates 71 and 73 provided outside the magnetic core 60, And a dielectric 75 formed on the dielectric layer 75.

At this time, the (+) electrode plate 71 is in contact with the contact terminal 73a formed in the vicinity of the magnetic core 60 and the (-) electrode plate 73 is in contact with the contact terminal 73b.

The (+) electrode plate 71 is connected to the power line of a low voltage (LV) pin, and the (-) electrode plate is connected to the ground pin of the LV pin. So that the capacitor can be used as a capacitor.

As described above, the ignition coil of the present invention can fix the position of the magnetic core to keep the performance of the ignition coil constant, increase the length, and improve the performance of the coil.

In addition, by adding the function of a capacitor to the magnetic core, it is possible to prevent noise from occurring in the ignition coil.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. And all such modifications as may be practiced within the spirit and scope of the appended claims.

1 is a view showing an example of the structure of a conventional ignition coil,

FIGS. 2A and 2B are views showing the structure of the magnetic core flow preventing means provided in the ignition coil according to the present invention;

3A and 3B are views showing a state where a capacitor function extinguishing means is provided in a magnetic core of an ignition device according to the present invention.

Description of the Related Art

10: Primary spool 11: Home

13: Compression member 20: Secondary spool

21: protrusion 30: outer case

60: magnetic core 71: (+) electrode plate

73: (-) electrode plate 75: dielectric

Claims (4)

A secondary spool comprising: a primary spool; a secondary spool provided in the primary spool; a magnetic core inserted in the secondary spool; an outer case on the outer side; and an insulating case between the magnetic core and the outer case A vehicle ignition coil comprising an epoxy resin, A magnetic core flow preventing means for blocking the flow of the magnetic core is provided at a coupling portion between the primary spool and the secondary spool, A capacitor function exerting means for removing noise is provided on the magnetic core, Wherein the magnetic core flow preventing means comprises: A groove formed on the inner surface of the primary spool at regular intervals along the circumferential direction and a protrusion formed on the secondary spool and inserted into the groove on the primary spool, Wherein the protruding portion has an inclined surface whose bottom surface is inclined downward. delete The method according to claim 1, And the bottom of the groove formed in the primary spool is constituted by a pressing member which is pushed into the magnetic core side when the protrusion of the secondary spool is inserted into the groove. The method according to claim 1, The capacitor function extinguishing means includes: (+) / (-) electrode plate provided on the outside of the magnetic core, And a dielectric inserted between the two electrode plates, (+) Electrode plate is connected to a power line of a low voltage (LV) pin through a contact terminal, and the (-) electrode plate is connected to a ground pin of an LV pin through a contact terminal, .

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