EP2715098A1 - Cylinder of an internal combustion engine for a vehicle, and corresponding production method, means for producing the cylinder, spark plug, internal combustion engine and vehicle - Google Patents

Abstract

A cylinder (7) of an internal combustion engine (8) for a vehicle (10) comprises at least one inlet duct (4) and a spark plug (1) which for its part comprises an earth electrode (2). The spark plug (1) is fastened in the cylinder (7) in such a way that, during operation of the internal combustion engine (8), the earth electrode (2) is cooled in as optimum a manner as possible by an air flow which is generated by the at least one inlet duct (4).

Description

 description

Cylinder of an internal combustion engine for a vehicle and corresponding manufacturing method, means for producing the cylinder, spark plug, internal combustion engine and vehicle

The present invention relates to a cylinder of an internal combustion engine for a vehicle and a manufacturing method, which is designed for the production of the cylinder, and means which are used for the production of the cylinder. Moreover, the present invention relates to a spark plug, an internal combustion engine and a vehicle, each of which is receivable in the cylinder according to the invention, or have a cylinder according to the invention.

DE 10 2006 042 457 B4, DE 103 49 077 A1 and DE 10 2007 024 878 A1 disclose arranging a spark plug in a specific orientation to the intake valves of the cylinder in a cylinder.

DE 101 38 976 A1 describes a device for detecting a pre-ignition combustion in an internal combustion engine.

According to the prior art, a pre-ignition is known in which an uncontrolled ignition process of the cylinder charge occurs more or less clearly before the planned ignition timing. Due to the early implementation of the air-fuel mixture and the additional compression it comes to very high cylinder pressures. Due to the increased thermal state after the start of combustion, detonation with subsequent knocking combustion often occurs. The coincidence of these conditions can lead to a cylinder pressure of greater than 250 bar in an Otto engine and thus to the immediate failure of the engine.

Therefore, the present invention has the object to provide a cylinder in which a pre-ignition occurs less frequently than in a comparable prior art cylinder.

According to the invention this object is achieved by a cylinder according to claim 1, by a manufacturing method for producing a cylinder according to claim 7, by means for producing a cylinder according to claim 12, by a spark plug according to claim 13, by an internal combustion engine according to claim 15 and by a vehicle Claim 16 solved.

CONFIRMATION COPY In the present invention, a cylinder of an internal combustion engine for a vehicle is provided. In this case, the cylinder comprises one or more inlet channels and a spark plug. The spark plug in turn has a ground electrode. The spark plug is mounted in the cylinder such that the spark plug has an orientation within a predetermined orientation range (ie, an orientation of the cylinder within a predetermined range of tolerance (eg, angular range) relative to the at least one intake port of the cylinder) to bypass the mass electrode by a combustion engine Air flow, which is generated by or through the inlet channels to cool. That is to say the spark plug is mounted or arranged in the cylinder in such a way that the air flow generated by the at least one inlet duct optimally cools the mass electrode, taking into account tolerances during assembly of the spark plug.

In other words, the basic idea of the present invention is to use the air flow, which is generated by the at least one inlet channel during operation of the internal combustion engine, for cooling the mass electrode of the spark plug. In order to determine the optimum orientation of the spark plug and thus of the ground electrode, in which the mass electrode is best cooled by the air flow of the at least one inlet channel, numerous orientations have been investigated as to how hot the ground electrode becomes during operation of the internal combustion engine. To determine the optimal orientation of the spark plug temperature measurements were performed on the spark plug on an optically accessible engine, using a special measurement technique (infrared thermometry) was used.

The present inventors have recognized that for the cooling of the mass electrode by the air flow of the at least one inlet channel it is advantageous to fasten or mount the spark plug in the cylinder such that an open end of the mass electrode substantially (ie with a predetermined tolerance) is arranged in the direction of the at least one inlet channel.

In other words, the spark plug is mounted (eg, rotated) in the cylinder such that the open end (ie, unattached end) of the ground electrode is directed to the at least one inlet port such that the airflow entering via the at least one inlet port is directed toward the open port End of the ground electrode impinges and this cools.

The inventors have investigated two different variants. In the first variant, the open end of the ground electrode was arranged in the direction of the intake valves and in the second variant in the direction of the foreign valves. At the subsequent temperature measurement sung in the second variant, the hottest point of the ground electrode, which is usually at the open end of the ground electrode, a temperature higher by 40 to 60 ° C than the temperature of the hottest point of the ground electrode in the first variant. Therefore, the targeted mounting position of the spark plug with an orientation of the mass electrode in the direction of the inlet valve (inlet channels) advantageously reduces the temperature at the ground electrode considerably, whereby the maximum temperature of the spark plug and thereby the frequency of pre-ignition can be significantly reduced.

If the at least one inlet channel consists of exactly one inlet channel, the open end of the mass electrode is directed precisely to this one inlet channel. In contrast, if the at least one inlet channel consists of exactly two inlet channels, the open end of the ground electrode is directed taking into account the tolerance between the two inlet channels.

The tolerance is advantageously at most ± 90 °, better ± 45 ° and best ± 5 °.

If the tolerance according to the invention ± 90 ° (± 45 ° or ± 5 °), the spark plug is rotated in the assembly according to the invention around its longitudinal central axis, that they with respect to the optimal orientation, in which the open end of the ground electrode exactly on the inlet channel (with exactly one inlet channel) or exactly between the two inlet channels (with exactly two inlet channels), maximum 90 ° (45 ° or 5 °) clockwise or maximum of 90 ° (45 ° or 5 °) opposite to Turned clockwise. In this case, precisely between the two inlet channels is meant in particular a point which is located between the two inlet channels on a straight line which connects the center of the outlet of the one inlet channel into the combustion chamber with the center of the outlet of the other inlet channel into the combustion chamber. In this case, this point has the same distance from the center of the exit of the one inlet channel from the center of the outlet of the other inlet channel.

In particular, the cylinder comprises means for arranging the spark plug in the cylinder according to the invention, so that the open end of the mass electrode is arranged in the direction of the at least one inlet channel taking into account the tolerance.

These means may, for example, include certain markings to place the spark plug in the desired manner in the cylinder. Another possibility is that a certain stop is present, so that the spark plug, when mounted in consideration of this stop, according to the invention is aligned with the at least one inlet channel. A preferred embodiment of the invention for the means according to the invention is that the cylinder (in particular the cylinder head) comprises a mounting hole with internal thread, which is designed to receive the spark plug. In this case, the spark plug comprises an external thread, which is adapted to the internal thread, that the spark plug after assembly, wherein the spark plug is screwed with a predetermined torque in the internal thread, aligned with the predetermined tolerance in the predetermined direction with respect to the at least one inlet channel becomes.

By the internal thread of the cylinder and the external thread of the spark plug are adapted accordingly, i. In particular, such that the spark plug for mounting in a predetermined orientation with respect to the cylinder must be arranged so that the internal thread can be brought into engagement with the external thread, the end position (ie the post-assembly position) of the spark plug and thus the orientation of the open end of the ground electrode to the at least one inlet channel, taking into account the tolerance.

The present invention also provides a manufacturing method for manufacturing a cylinder of an internal combustion engine for a vehicle. According to this manufacturing method, a spark plug is mounted in the cylinder so as to ensure that the spark plug is oriented in a predetermined orientation range with respect to one or more intake passages of the cylinder so that a spark plug mass electrode is generated by one of the at least one intake passage when the engine is running Air flow is optimally cooled.

In other words, the manufacturing process ensures that the spark plug (especially the open end of the ground electrode) has the desired orientation with respect to the at least one intake port after assembly. According to the above definition of the manufacturing method according to the invention, a production method which achieves this desired orientation only by chance (ie not guaranteed for each cylinder) does not ensure the desired alignment of the spark plug with the at least one inlet channel.

According to the manufacturing method according to the invention, the spark plug is in particular mounted by a rotation about the central longitudinal axis (or longitudinal center axis) of the spark plug in the cylinder. That is, the spark plug is screwed by the rotation about the central longitudinal axis in the cylinder (in particular the cylinder head). In this case, the spark plug is rotated in an end position such that the open end of the mass electrode, taking into account the tolerance in the direction of the at least one inlet channel. According to a preferred embodiment of the manufacturing method according to the invention, the spark plug comprises an external thread and the cylinder an internal thread. In this case, the internal thread and the external thread are adapted to each other such that the open end of the ground electrode due to the adaptation of the internal thread to the external thread almost inevitably shows the predetermined tolerance towards the at least one inlet channel when the spark plug has been screwed into the internal thread.

In the context of the present invention, means are also provided for producing a cylinder of an internal combustion engine for a vehicle. In this case, these means are such that with the aid of these means, the spark plug can be mounted in the cylinder, that ensures that the spark plug with respect to one or more inlet channels of the cylinder has an orientation in a predetermined orientation region, thus with the internal combustion engine, a ground electrode the spark plug is cooled as optimally as possible by an air flow generated by the at least one inlet channel.

As has already been stated above, the following possibilities exist for these agents according to the invention:

 • markings designed to ensure that the spark plug after assembly, taking these markings into account, has the desired orientation with respect to the at least one inlet duct.

 • A stop to ensure that the spark plug has the desired orientation with respect to the at least one intake port when the spark plug has been turned all the way to the stop.

 Aligned threads, i. in particular, the adaptation of the external thread of the spark plug to the internal thread of the cylinder, as described above.

In the context of the present invention, a spark plug is provided. In this case, the thread of the spark plug is designed such that the profile of the surface of the thread is rolled. This thread is created in which a workpiece is deformed under enormous force between two rotating rolling tools. Due to the penetration of the rolling tool profiles into the workpiece surface, the material is pressed in the cold state to the bottom of the thread rolling tools and rolled up to the nominal size. After rolling, the position of the thread is checked. After knowing how the thread is made on the respective spark plug, the mass electrode is then attached (welded).

In addition, the collar of the spark plug metal housing on the combustion chamber side is extended so that the spark plug collar terminates with the spark plug ceramic or protrudes slightly beyond the spark plug ceramic. Thus, the spark plug ceramic is shielded as an insulator in the housing By this design, the possible spark gap is changed so that at high charge movement a possible sliding discharge does not take place on the ceramic, but is deflected to the metal housing. This ensures a safe ignition of the mixture and the ceramic is protected by this safe ignition, since the ceramic is at the same level or below the spark plug housing.

In addition, in the context of the present invention, an internal combustion engine for a vehicle is provided, wherein the internal combustion engine comprises a cylinder according to the invention, which is described above.

Finally, in the context of the present invention, a vehicle is provided which comprises an internal combustion engine according to the invention.

In the context of pre-ignition investigations a clear trend could be observed. The colder the spark plug is, the lower the frequency at which pre-ignition occurs for one operating point. It has been recognized that the spark plug is the hottest component in the combustion chamber and thus promotes pre-ignition. Heat is transferred from the hot spark plug to the colder fuel-air mixture throughout the intake and compression phases. By the directional installation of the spark plug according to the invention, the temperatures in the entire operating map are reduced. This temperature reduction, in addition to reducing the likelihood of pre-ignition, also reduces sensitivity to glow ignitions, thermal overload, and resulting spark plug damage.

In summary, the present invention has the particular advantage that the likelihood of the occurrence of pre-ignition is reduced. In addition, the burden of the spark plug is advantageously lowered, thus extending the durability of the spark plug.

The present invention is particularly suitable for use in internal combustion engines of motor vehicles. Of course, the present invention is not limited to this preferred application, since the present invention is also suitable for internal combustion engines of ships, aircraft and track-bound or track-guided vehicles.

In the following, the present invention will be described in detail based on preferred embodiments of the invention with reference to the figures.

Fig. 1 illustrates a cylinder head seen from the cylinder interior. FIG. 2 shows a section through the cylinder head according to the section line 6 in FIG. 1. FIG. 3 shows a spark plug according to the invention.

Fig. 4 illustrates an inventive vehicle with an internal combustion engine according to the invention.

In Fig. 1, a cylinder head is viewed from the interior of a cylinder. It can be seen two intake ports 4 and two exhaust ports 5, wherein symmetrically in the middle of these intake ports 4 and exhaust ports 5, a spark plug 1 is mounted.

FIG. 2 shows a sectional view depicting a section through the center of the cylinder head or the combustion chamber represented by the reference numeral 6 in FIG. In this case, on the left (in FIG. 2) an inlet channel 4, on the right an outlet channel 5 and in the middle the spark plug 1 are shown. It can be seen from the outer edge of the spark plug 1 to the longitudinal central axis of the spark plug 1 out bent mass electrode 2 of the spark plug 1. The designated by the reference numeral 3 open end of the ground electrode 2 is in Fig. 2 exactly to the left (ie exactly in the direction of section. 6 ). Therefore, the open end 3 of the ground electrode 2 is precisely aligned between the two inlet channels 4.

In Fig. 3 is a section through the spark plug 1 is shown. The spark plug collar 12 closes off with the spark plug ceramic 14 or even protrudes beyond the spark plug ceramic 14. The spark plug ceramic 14 is shielded in the spark plug housing 1 1 and forms the insulator.

FIG. 4 shows a vehicle 10 according to the invention, which has an internal combustion engine 8 according to the invention. This internal combustion engine 8 in turn comprises four cylinders 7 according to the invention.

Claims

claims

Cylinder of an internal combustion engine (8) for a vehicle (10),

wherein the cylinder (7) comprises at least one inlet channel (4) and a spark plug (1), and

the spark plug (1) comprising a ground electrode (2),

characterized,

in that the spark plug (1) is fastened in the cylinder (7) in such a way that the spark plug (1) has an orientation in a predetermined orientation range with respect to the at least one inlet channel (4), in order to operate the mass electrode (2) during operation of the internal combustion engine (8) ) to be cooled by an air flow generated by the at least one inlet channel (4).

Cylinder according to claim 1, characterized in that the spark plug (1) is mounted in the cylinder (7) such that an open end (3) of the mass electrode (2) is arranged with a predetermined tolerance in the direction of the at least one inlet duct (4) is.

Cylinder according to claim 2,

characterized,

in that the at least one inlet channel comprises exactly two inlet channels (4), and that in the direction of the two inlet channels (4) means that the open end (3) of the ground electrode (2) is aligned with the tolerance between the two inlet channels (4).

Cylinder according to claim 2 or 3,

characterized,

that the tolerance lies within a range of ± 90 ° to ± 5 °.

Cylinder according to one of claims 2-4,

characterized,

in that the cylinder comprises means for mounting the spark plug in the cylinder (7) such that the open end (3) of the mass electrode (2) is arranged with the predetermined tolerance in the direction of the at least one inlet duct (4).

Cylinder according to one of claims 2-5,

characterized, the cylinder (7) comprises an internally threaded mounting hole for receiving the spark plug (1),

 the spark plug (1) comprises an external thread,

 in that the internal thread and the external thread are adapted to one another such that the spark plug (1) after assembly, with which the spark plug (1) is screwed into the internal thread with a predetermined torque, with a tolerance in a predetermined direction with respect to the at least one inlet channel (4) is aligned.

7. A manufacturing method for producing a cylinder (7) of an internal combustion engine (8) for a vehicle (10),

 characterized,

 in that a spark plug (1) is mounted in the cylinder (7) so as to ensure that the spark plug (1) is oriented in a predetermined orientation range with respect to at least one inlet duct (4) of the cylinder (7) of the internal combustion engine (8) to cool a mass electrode (2) of the spark plug (1) by an air flow generated by the at least one inlet channel (4).

8. A manufacturing method according to claim 7, characterized in that the spark plug

(1) is mounted in the cylinder (7) so as to ensure that an open end (3) of the ground electrode (2) is arranged with a predetermined tolerance toward the at least one inlet duct (4).

9. Production method according to claim 8,

 characterized,

 that the spark plug (1) by rotation about the central longitudinal axis of the spark plug (1) in the cylinder (7) is arranged, and

 that the spark plug (1) is rotated such that the open end (3) of the ground electrode

(2) with the tolerance in the direction of the at least one inlet channel (4) shows.

10. A manufacturing method according to claim 8 or 9,

 characterized,

 the spark plug (1) has an external thread,

 that the spark plug (1) is screwed with its external thread with a predetermined torque in an internal thread of the cylinder (7),

that the internal thread and the external thread are adapted to one another such that the open end (3) of the ground electrode (2) after the spark plug (1) has been screwed into the internal thread with the tolerance towards the at least one inlet channel (4).

1 1. A manufacturing method according to any one of claims 7-10,

 characterized,

 in that the production method for producing a cylinder (7) according to one of claims 1 to 6 is designed.

12. means for producing a cylinder (7) of an internal combustion engine (8) for a vehicle (10),

 wherein the means are arranged such that the means mount a spark plug (1) in the cylinder so as to ensure that the spark plug (1) is oriented in a predetermined orientation range with respect to at least one inlet duct (4) of the cylinder (7) in order to cool a mass electrode (2) of the spark plug (1) during operation of the internal combustion engine (8) by means of an air flow generated by the at least one inlet duct (4).

13. spark plug (1) for a cylinder according to one of claims 1 to 6, characterized in that the thread of the spark plug (1 1) is designed such that the profile of the surface of the thread (11) is rolled.

14. Spark plug (1) according to claim 13, characterized in that the spark plug collar (12) is extended on the combustion chamber side so that the spark plug collar (12) terminates at least with the spark plug ceramic (14) or protrudes slightly beyond the spark plug ceramic (14).

15. internal combustion engine for a vehicle (10) with a cylinder (7) according to any one of claims 1-6. 6. vehicle with an internal combustion engine (8) according to claim 15.