EP1653571A2 - Contact element for electrically contacting component parts, particullary for ignition parts - Google Patents

Abstract

A contacting element for electrical contacting of components, especially for ignition voltage parts in internal combustion engines, including an external housing (2), containing an axial pressure spring (4), end (7) of which presses on a first stop (6) in a cup (12), while the spring end (8) under the action of the pressure spring presses on a second stop (16) inside the housing. An independent claim is included for a spark plug head.

Description

The invention relates to a contacting element, in particular Zündspannungssteilen in internal combustion engines, with an outer sleeve, inside which an axially acting compression spring is provided.

In the operation of internal combustion engines, the ignition of the gas filling in the cylinders is effected by means of sparks produced by spark plugs. The ignition voltage required for ignition is supplied by an ignition device, an ignition coil, via a rigid connection or an ignition cable.

For contacting the spark plug and the respective voltage supply contacting elements are used, which consist of a sleeve in which there is an axially acting compression spring. When attaching to the spark plug, the compression spring is pressed against the spring pressure in the sleeve. This creates a good transitional contact between the power supply and the spark plug.

The conventional compression spring of the known contacting element is wound from spring steel strip and moves out with the directed to the spark plug end of the sleeve. The compression spring is made of spring bronze or copper.

During operation of the internal combustion engine arise due to the high voltages to be transmitted, corona phenomena that lead to corrosion. Because the compression spring emerges from the sleeve and the inlet opening to the sleeve interior is therefore open, significant corrosion occurs at the compression spring. The sleeve with its spring must be replaced regularly.

It is an object of the invention to provide a Kontaktierungshülse, occurs at the less corrosion.

The stated object is achieved by a Kontaktierungshülse according to claim 1. Preferred embodiments are subject of the dependent claims or described below.

The significant feature of this construction is that one of the spring ends rests within the outer sleeve at a first stop and the other end of the spring engages in a cup with which this other spring end under the action of the spring up to a second stop is displaceable, which is in particular still within the outer sleeve or a bushing as part of the outer sleeve.

So the spring does not come out of the outer sleeve, because the cup closes the outer sleeve to the outside. Thus, the corona effects can not easily act on the parts within the contacting element and not easily cause corrosion, especially on the spring. The sliding cup allows a tolerance compensation.

Furthermore, it can be provided that the second stop for the cup is provided with the other spring end to a socket which is inserted into the outer sleeve. The second stop can thus be mounted after the spring and the cup.

The bush and the outer sleeve can be connected to each other by means of a screw connection, in particular on the outer diameter of the sleeve and the inner diameter of the outer sleeve.

The bushing can be extended within the outer sleeve so that it guides the compression spring in the outer sleeve. Preferably, the spring coils are applied to the inner walls of the socket.

Furthermore, it can be provided that adjoins the end of the outer sleeve with the first stop a feed section having an axial bore around which extends a federal government, which is enclosed by a spring terminal, which with Kontaktierungsstücken by wall openings of the federal an ignition voltage in contacted the axial bore. Thus, the voltage supply is well contacted.

The parts of the contacting element may be made of any current-conducting material, in particular metal. Preferably, all parts of the contacting element consist of material which is insensitive to corrosion.

Preferably, all parts of the contacting element of an alloyed steel, which is traded under the trade name V2A. This material is insensitive to corrosion. A regular exchange because of possible corrosion phenomena is therefore unnecessary.

Furthermore, it can be provided that the outer sleeve with the end in which the cup is displaceable, can be placed on the contacting end of a spark plug and the other end of the outer sleeve is connected to an ignition voltage supply.

For this purpose, the outer sleeve with the end in which the cup is displaceable on a spark plug preferably placed so that the contact end of the spark plug against the mechanical resistance of the spring with displacement of the cup in the contacting element and this case, the contact end of the spark plug more preferably at least partially conically tapered, so that the outer surfaces of the outer conical surfaces of the contact end of the spark plug bear against the correspondingly shaped, outwardly open inner walls of the cup base.

Furthermore, the ignition voltage is supplied directly via an ignition voltage contact of an ignition coil. Preferably, the entire region of the Zündspannungszuführung is surrounded with the Zündspannungskontakt and the contacting element by means of insulating material, except for at least the cup contact surface, which serves to contact with the spark plug contact.

The ignition voltage can be supplied via a resistive element, which is e.g. in a ceramic shell, which in turn is covered by a shell of e.g. PTFE-based material is enclosed, wherein one end of the resistive element is connected to the contacting element and the other end of the resistive element with a connector to an ignition cable, which is in communication with the ignition coil connected.

Furthermore, it can be provided that the connecting piece is cast with the ignition cable and the resistance element by means of an insulating material. Likewise, the contacting element may be at least partially encapsulated with the resistive element by means of an insulating material.

The potting compound is preferably in all cases of a two-component epoxy resin.

• Fig. 1 eine Kontaktierungshülse nach der Erfindung im Schnitt,
• Fig. 2 die Kontaktierungshülse nach Fig. 1 in Draufsicht,
• Fig. 3 die einzelnen Teile der Kontaktierungshülse in Explosionsansicht,
• Fig. 4 eine zur Anwendung kommende Klemmfeder in Seitenansicht,
• Fig. 5 eine Anwendung der Kontaktierungshülse in Verbindung mit einem starren Leiter einer Zündspule,
• Fig. 5 eine Anwendung in Verbindung mit einem Widerstandselement und einem Zündkabel und
• Fig. 6 die Kontaktierungshülse mit eingetauchtem Zündkerzenkontakt.

The invention will be explained in general with reference to the drawing without being limited thereto. Show it:

• 1 is a Kontaktierungshülse according to the invention in section,
• 2, the contacting sleeve of FIG. 1 in plan view,
• 3 shows the individual parts of the contacting sleeve in exploded view,
• 4 is an applied clamping spring in side view,
• 5 shows an application of the contacting sleeve in conjunction with a rigid conductor of an ignition coil,
• Fig. 5 shows an application in connection with a resistive element and an ignition cable and
• 6 shows the contacting sleeve with immersed spark plug contact.

A contacting element 1 shown in FIGS. 1 and 2 serves, for example, to connect a voltage supply to the spark plug. Of course, the contacting element can also be used for other contacting purposes. Examples of contacts are shown in Figs. 5 and 6 and will be described later.

In the interior 3 of an outer sleeve 2 of the contacting element 1 there is a compression spring coiled from spring steel wire 4. The outer sleeve 2 merges with a sleeve end 5 into a contact section 5a serving as a feed part. At the inner sleeve end 5, the outer sleeve 2 is closed and thus forms for the compression spring 4, a first stop 6. At this first stop 6, the compression spring 4 is located at a spring end 7 at.

The other spring end 8 is located in a cup 9 with a cup wall 10 and a cup bottom 11. The outer sleeve 2 is open in the region of the other spring end 8 before assembly. Thus, the compression spring 4 can be inserted with the cup 9 in the interior 3 of the outer sleeve 2. After insertion, a bush 13 is inserted into the open end 12 of the outer sleeve 2. For this purpose, the sleeve 13 is provided on its outer side 14 with a thread. Accordingly, the inner side 15 of the outer sleeve 2 is provided with a thread. The threads are not shown, because they are not absolutely necessary. Namely, the socket 13 becomes either screwed by means of the thread in the outer sleeve 2 or - if no threads are provided - glued or welded.

The sleeve 13 has on its inside a second stop 16. This second stop 16 holds the cup 9 in the socket 13, which in turn is at least partially located in the outer sleeve 2, against retraction. The cup 13 can thus be pushed further into the outer sleeve 2 or sleeve 13 when a part, for example a spark plug contact 17 (FIG. 5) is pushed in the direction of an arrow 17a, against the action of the compression spring 4, resulting in a good pressure contact. Vibrations and building tolerances are suppressed.

The bush 13 is provided in the interior 3 of the outer sleeve 2 with an extension 13 a, which is so long that it can lead the compression spring 4 completely or almost full length. Preferably, it pushes - fully assembled - against the first stop. 6

The contact section 5a of the outer sleeve 2 has an axial bore 18 into which an ignition voltage contact 19 (FIG. 5) or an ignition cable 20 (FIG. 6) can be inserted for ignition voltage supply. The contact portion 5a is provided according to a particular embodiment with a collar 21, the wall openings 22 has. On the collar 21 a terminal 23 shown in Fig. 4 is clickable. Contact pieces 24 of the terminal 23 engage through the wall openings 22. An inserted into the bore 18 ignition cable 20 or a stretched Zündspannungskontakt 19 are contacted and held in a corresponding collar.

Fig. 3 shows the individual parts of the contacting element 1, such as outer sleeve 2 with contact portion 5a, compression spring 4, cup 9, sleeve 13 with extension 13a in an exploded view. All of these parts 2, 5a, 4, 9, 13 and 13a are made of any electrically conductive material. This electrically conductive material may be, for example, copper. Preferably, a corrosion-insensitive material comes into consideration. Preferably, an alloyed steel is used, which is commercially available under the name V2A or V4A. The spring clip 23 is preferably made of V2A or V4A - steel.

5 shows an application form of the contacting element 1. An ignition coil 25 has a rod-shaped insulating body 26 through which the ignition voltage contact 19 serving axially of the ignition voltage supply extends. On the in the drawing lower end 26a of the insulating body 26, an adapter 27 is inserted, which engages in the interior 28 of the insulating body 26 with a support sleeve 27a. The adapter 27 is preferably made of silicone and guides the contacting element 1. A support ring 29 serves to guide a spark plug 30. The spark plug 30 presses the cup 9 in the assembled state in the interior 3 of the outer sleeve 2. This creates a higher contact pressure. The contacting element 1 is encapsulated with the adapter 27 and the ignition voltage contact 19 by means of an insulating compound, preferably by means of a two-component epoxy resin. In this way, corona effects are prevented in this area. Oxidation-initiating effects do not affect the contacting element 1 made of V2A steel.

Fig. 6 shows an application of the contacting element 1, in which the contacting element 1 at one end 31 of a resistor indicated by the numeral 31a, e.g. an inductive resistor, which is located in a ceramic shell 32. The contact portion is deviating than pin 5 a 'formed. A spark plug 30 is pressed into the outer sleeve 2 as in the application of FIG. The other end 33 of the arranged in the ceramic shell 32 resistor is contacted with a metallic transition piece 34. At this transition piece 34, the ignition cable 20 is connected as Zündspannungszuführung. The whole assembly is enclosed by a sheath 35 of PTFE-based material. The ignition cable 20 is potted with the transition piece 34 and the ceramic resistor 32 by means of an insulating material. Likewise, the contacting element 1 is encapsulated with the ceramic resistor 32 by means of an insulating material apart from the contact surface of the cup 9. As potting compound, a two-component epoxy resin is preferably used.

In Fig. 7 it is shown how the contact end 36 of a spark plug against a mechanical resistance with displacement of the cup 9 is immersed in the contacting element 1 and the contact end 36 of the spark plug 30 is formed at least partially conically tapered, so that the lateral surfaces of the conical surfaces of the Contact end 36 to the correspondingly shaped (ie conically tapering to the cup bottom) outer and outwardly open cup inner walls of the cup bottom 11 abut.

Claims (21)

1. Contacting element for the electrical contacting of components, in particular of ignition voltage parts in internal combustion engines, with an outer sleeve (2), inside which (3) an axially acting compression spring (4) is provided, one end of the spring (7) within the outer sleeve (2) abuts against a first stop (6) and the other spring end (8) engages in a cup (9) with which this other spring end (8) under the action of the compression spring (4) to a second stop (16) is displaceable. 2. contacting element according to claim 1, characterized in that the second stop (16) for the cup (12) with the other spring end (8) on a bushing (13) is provided, which is inserted into the outer sleeve (2), and in which the cup (9) is preferably at least partially guided. 3. contacting element according to claim 2, characterized in that the bushing (13) and the outer sleeve (2) are interconnected by means of a screw connection. 4. contacting element according to claim 2, characterized in that the bushing (13) within the outer sleeve (2) is extended so that it guides the compression spring (4) in the outer sleeve (2). 5. Contacting element according to one or more of the preceding claims, characterized in that adjoining the end (5) of the outer sleeve (2) with the first stop (6) as a supply part effective contact portion (5a) adjoins an axial bore (18 ), around which a collar (21) extends, which is enclosed by a, preferably removable, spring clip (23), which with contacting pieces (24) through wall openings (22) of the collar (21) has an ignition voltage lead (19, 20). contacted in the bore (18). 6. contacting element according to one or more of the preceding claims, characterized in that the other spring end (8) engages in the cup (9) within the outer sleeve (2) and the second stop (16) preferably within the outer sleeve (2) located. 7. Contacting element according to one or more of the preceding claims, characterized in that the parts of the contacting element (1) consist of any, electrically conductive material. 8. Contacting element according to one or more of the preceding claims, characterized in that parts, preferably all, of the contacting element (1) consist of corrosion-insensitive material, in particular of an alloyed steel, which is traded eg under the trade name V2A or V4A. 9. contacting element according to one or more of the preceding claims, characterized in that the outer sleeve (2) with the end (12) in which the cup (9) is displaceable, on a spark plug (30) can be placed, preferably the contact end ( 36) of the spark plug (30) against a mechanical resistance with displacement of the cup (9) is immersed in the contacting element, and independently thereof, the other end (5a) of the outer sleeve (2) with an ignition voltage supply (19,32) is connectable. 10. contacting element according to one or more of the preceding claims, characterized in that the Zündspannungszuführung directly via an ignition voltage contact (19) of an ignition coil (25). 11. contacting element according to claim 10, characterized in that the entire region of the Zündspannungszuführung with the Zündspannungskontakt (19) and the contacting element (1), apart from at least the outer contact surface of the cup (9) is surrounded by insulating material, preferably encapsulated , 12. contacting element according to one or more of claims 1 to 9, characterized in that the Zündspannungszuführung via a resistance element (31), which is in a sheath (32), in particular of ceramic, which in turn of a sheath (35) , in particular on fluoropolymers, such as PTFE, is enclosed, wherein a resistance end (31) to the contacting element (1) and the other resistance end (33) with a connecting piece (34) and / or directly to the ignition cable (20) is connected. 13. contacting element according to claim 12, characterized in that the connecting piece (34) with the ignition cable (20) and the resistance element (32) is enclosed by means of an insulating material, preferably encapsulated. 14. contacting element according to claim 12, characterized in that the contacting element (1) with the resistance element (32) is surrounded by an insulating material, preferably encapsulated. 15. contacting element according to claims 11, 13 and 14, characterized in that the insulating material / the potting compound consists of a two-component epoxy resin. 16. contacting element according to one or more of the preceding claims, characterized in that the contacting element (1) is part of a spark plug. 17. contacting element according to one or more of the preceding claims, characterized in that the contacting element outside substantially, but apart from the outer conductive contact surface of the cup (9), of a fluorinated polymer material, in particular PTFE is surrounded. 18. spark plug cap having the contacting element (1) according to one or more of the preceding claims, wherein the spark plug cap is preferably arranged on the spark plug shaft. 19. A spark plug cap according to claim 18, characterized in that the spark plug further comprises a Zündstromführung (20) are guided in the high voltage pulses, and having an insulating body and the insulating body is formed at least in the region of the contact with the spark plug shaft. 21. Spark plug cap according to one or more of claims 18 and 19, characterized in that the spark plug cap has a lower insulating sleeve which surrounds at least the upper part of the spark plug (30) with the spark plug contact and the contacting element (1) for making a contact with the Spark plug contact is received, preferably centrally along the axis of the sleeve, and more preferably the insulating sleeve is made of a fluoropolymer material. 22. Spark plug cap according to one or more of claims 18 to 21, characterized in that the spark plug cap has the resistance element (31) according to claim 12 to 14.

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