Patent Grant
9982651
The present invention relates to a laser spark plug, in particular for an internal combustion engine, having a combustion chamber window through which laser radiation may be emitted from an interior of the laser spark plug toward an exterior, the laser spark plug having a component which surrounds at least in part the beam path of the laser radiation in the area of the exterior. The present invention further relates to a cleaning method for such a laser spark plug.
An object of the present invention is to improve upon a laser spark plug and a cleaning method of the aforementioned type in such a way as to enable an efficient cleaning, in particular of the combustion chamber window of the laser spark plug.
This object may be achieved with a laser spark plug of the aforementioned type according to the present invention in that the laser spark plug, in the area of the component, includes at least one channel which has at least two orifice sections and allows fluid communication between the orifice sections, a first orifice section being situated in the area of an outer surface of the combustion chamber window and a second orifice section being situated in a radially outer area of the laser spark plug, particularly of the component.
The channel according to the present invention allows for the particularly advantageous application of fluid, for example, a cleaning solution or the like, to the outer surface of the combustion chamber window. The channel according to the present invention further advantageously allows a targeted introduction of the cleaning fluid into the area of the laser spark plug to be cleaned.
In one advantageous specific embodiment it is provided that a longitudinal axis of at least one longitudinal section situated in the area of the first orifice section points essentially at a radially inward lying area of an outer surface of the combustion chamber window which allows a targeted introduction of a cleaning fluid onto the optically active area of the combustion chamber window, regardless of the spatial configuration of the second orifice section of the channel. This means that a flow direction of a cleaning fluid introduced by the channel may be advantageously determined or influenced by the longitudinal axis of the first longitudinal section, in particular its orientation.
According to one further specific embodiment it may be particularly advantageously provided that the longitudinal axis of the first longitudinal section is oriented in such a way that a point of intersection of the longitudinal axis with the outer surface of the combustion chamber window includes a distance relative to the optical axis of the laser spark plug, which amounts to at least 20%, which may be at least 40%, of a radiation cross section of the laser radiation in the area of the outer surface. Based on tests conducted by the applicant, this configuration allows for a particularly efficient cleaning of the outer surface of the combustion chamber window in the surface area through which the laser radiation provided by the laser spark plug passes into the exterior.
In one further advantageous specific embodiment it is provided that at least one second longitudinal section of the channel has a diameter of from 0.5 mm to approximately 4.0 mm, in particular from approximately 1.0 mm to approximately 2.0 mm.
This channel configuration allows for an optimal application of pressurized cleaning fluid to the combustion chamber window, the cleaning fluid being capable of being injected, in particular, at a relatively high pulse (high pressure, high speed) onto the combustion chamber window and thereby cleaning the latter. In addition to applying highly pressurized cleaning fluid to the combustion chamber window, a wetting with cleaning fluid, at, for example, relatively low pressure, is also advantageously possible via the channel according to the present invention. Alternatively or in addition, a mechanical cleaning through the channel may also be carried out, for example using a brush or a cotton swab or the like.
In one further advantageous specific embodiment it is provided that a first longitudinal section of the channel situated in the area of the first orifice section has a diameter of from approximately 0.1 mm to approximately 2.0 mm, in particular from approximately 0.2 mm to approximately 1.0 mm.
If the channel according to the present invention includes, for example, different longitudinal sections, each with different cross-sectional openings or diameters, a jet effect for a cleaning fluid flowing through the channel may advantageously be achieved, thereby allowing the pulse of the cleaning agent flow to be advantageously influenced.
In one further advantageous specific embodiment, the channel is configured in such a way that it may be temporarily closed so that no fluid communication is possible between the first and the second orifice section. For example, the channel may at least in sections advantageously include an internal thread, into which a set screw may be screwed in order to prevent fluid communication between the orifice sections of the channel according to the present invention.
The channel may be particularly advantageously configured at least in sections as a stepped bore, making it possible to manufacture the laser spark plug according to the present invention particularly cost-effectively. Generally, however, the channel according to the present invention may also have a geometry of greater complexity. In particular, the channel does not necessarily have to be essentially cylindrical in shape, rather it may, for example, also include one or multiple curved longitudinal sections which make it possible to change the direction of the cleaning fluid. It is also conceivable, for example, to provide the second orifice section into which the cleaning fluid to be applied to the combustion chamber window is to be introduced, in an axial end area of the laser spark plug which faces away from the combustion chamber, whereby a cleaning fluid would also be introducible, for example, in an installation state of the laser spark plug into a cylindrical shank of an internal combustion engine.
In one advantageous specific embodiment, the laser spark plug includes a fastening arrangement in a radially outward area for mechanical connection to a target system, in particular an external thread for screwing into a corresponding internal thread of a cylinder head of an internal combustion engine. In this configuration according to the present invention, the second orifice section of the channel according to the present invention may be situated particularly in the area of the fastening arrangement in such a way that the second orifice section is closed off when the laser spark plug is installed in the target system. This advantageously ensures that in the installation position of the laser spark plug, the second orifice section situated radially on the outside of the laser spark plug is not directly connected to a combustion chamber of the internal combustion engine into which the laser spark plug projects in its installation position.
Alternatively or in addition, the channel may, as previously described above, be closed off with the aid of an appropriate closure arrangement such as, for example, a set screw.
According to one further advantageous specific embodiment, the component which surrounds at least part of the beam path of the laser radiation is configured, for example, as a diaphragm and/or a prechamber. In both cases, the relevant component impedes access to the outer surface of the combustion chamber window so that it is particularly advantageous to use the channel according to the present invention for cleaning the combustion chamber window. Advantageously, the channel may be integrated, at least in part, into the diaphragm or the prechamber wall.
A further approach to the object of the present invention is provided by a method as described and disclosed herein.
Further advantageous embodiments are the subject matter of the descriptions herein.
Additional features, applications and advantages of the present invention result from the following description of exemplary embodiments of the present invention represented in the figures of the drawing. All features described or represented herein form, by themselves or in any arbitrary combination, the subject matter of the present invention, regardless of their subsumption in the patent claims or their back-reference, and regardless of their wording or representation in the description or in the drawings.
In the present case, laser spark plug 100 is supplied via a light guiding arrangement 22 with pump radiation which is provided by a pump light source 20. Laser spark plug 100 may, for example, include an integrated passive Q-switched solid state laser 102, which, when impacted by pump light from pump light source 20, generates high-energy laser ignition pulses in a manner known per se.
Situated optically downstream from solid state laser 102 are focusing optics 104 which focus the generated laser radiation on an ignition point IP situated in prechamber 120a. In other embodiments (cf. for example,
The laser spark plug, similar to the schematic representation according to
To protect outer surface 106a of combustion chamber window 106, the laser spark plug according to
Prechamber 120a of the laser spark plug illustrated in
In conventional laser spark plugs which have a prechamber, combustion chamber window 106, in particular outer surface 106a, may only be cleaned by introducing a cleaning fluid via overflow channels 120a′ into the interior of prechamber 120a, from where it contacts outer surface 106a of combustion chamber window 106 through the opening of diaphragm 120b. As a result, cleaning conventional laser spark plugs having a prechamber or diaphragm is costly and is only relatively minimally effective.
Hence, according to the present invention, the laser spark plug has at least one channel 122 which includes at least two orifice sections 122a, 122b and allows fluid communication between orifice sections 122a, 122b. According to the present invention, it is provided that a first orifice section 122a of channel 122 is situated in the area of outer surface 106a of combustion chamber window 106, and that a second orifice section 122b of channel 122 is situated in a radially outer area of laser spark plug 100, in particular of diaphragm 120b or prechamber 120a.
In this way it is possible to introduce, particularly advantageously in the radially outward area of laser spark plug 100, a cleaning fluid from outside into channel 122 which is guided through channel 122 directly to surface area 106a to be cleaned of combustion chamber window 106.
This means that during cleaning of laser spark plug 100 according to the present invention, a fluid transport of cleaning fluid takes place from exterior 200 or the radially outward area of prechamber 120a through channel 122 onto outer surface 106a of combustion chamber window 106. Cleaning fluid deflected from outer surface 106a may exit the laser spark plug or prechamber 120a advantageously through overflow channels 120a′.
In one further advantageous specific embodiment at least two channels 122 according to the present invention are provided, at least one first channel 122 capable of being used to deliver cleaning fluid to combustion chamber window 106, with at least one additional channel (not shown) being used to drain the delivered cleaning fluid from the area of prechamber 120a into exterior 200.
Channel 122 according to the present invention may also have more than two orifice sections and thus, for example, may have a Y-shaped branching (not shown) and the like, at least two orifice openings 122a, 122b as described above to be arranged to allow easy cleaning of combustion chamber 106 from outside laser spark plug 100.
In one further particular specific embodiment of the invention, see the detailed view in
In one particular specific embodiment, it is provided that the longitudinal axis of first longitudinal section LA1 is oriented in such a way that a point of intersection of the longitudinal axis with outer surface 106a of combustion chamber window 106 includes a distance Y (
In one further advantageous specific embodiment, see
In one further advantageous specific embodiment, it is provided that longitudinal section LA1 of channel 122 situated in the area of first orifice section 122a has a diameter Z1 of from approximately 0.1 mm to approximately 2.0 mm, in particular from approximately 0.2 mm to approximately 1.0 mm.
A return flow of the cleaning fluid applied to combustion chamber window 106 to outlet A of cleaning device 300 may take place in the configuration illustrated in
Cleaning device 300 may advantageously also include an arrangement for tempering, in particular heating, of the cleaning fluid, which may result in the shortening of a cleaning period. The heater may be advantageously configured in such a way that the cleaning fluid is heated to below boiling point or also at most up to a predefinable limit of approximately 50° C. in order to prevent burns when handling device 300.
As previously mentioned,
The outer orifice or outer orifice section 122b of channel 122 is particularly advantageously situated in the area of an external thread 108, with which laser spark plug 100 may be screwed into a cylinder head. This advantageously ensures that channel 122 is sealed off from its surroundings while laser spark plug 100 is screwed into the cylinder head.
Alternatively or in addition, an internal thread 122c may also be provided in channel 122, into which a set screw may be screwed in order to seal off channel 122.
Angle α of channel 122 or at least its end section facing combustion chamber window 106 or its longitudinal axis LA1 is, in one further specific embodiment, advantageously selected in such a way that a point of intersection of the corresponding longitudinal axis with outer surface 106a of combustion chamber window 106 extends a distance Y relative to optical axis OA or beam path S of laser spark plug 100, which amounts to at least approximately 20%, which may be at least approximately 40%, of a beam cross section of laser radiation L in the area of outer surface 106a, see reference symbol S′ in
Alternatively, the degree of distance between a point of intersection of the outer edge of channel 122 in area 122a with combustion chamber window 106 and optical axis OA or beam path S may be selected to be so large that it corresponds to the laser beam radius on outer surface 106a or to at least approximately 75% thereof, see reference symbol Y′ in
According to the present invention, the cleaning fluid may be introduced with a tube or a lance which may be screwed directly or with a flange in an internal thread of flushing channel 122. Thereafter, the cleaning fluid may, as previously described, exit the laser spark plug or its prechamber via “light path”-element 120b or overflow channels 120a′.
In the design of channel 122 having at least two different cross sections, it may be advantageously ensured that when using a lance which is inserted from the outside into channel 122, the lance may not be inserted so deeply into channel 122 that it comes into contact with combustion chamber window 106. In addition, this allows the position of the lance to be precisely determined.
A weak, aqueous acid may be provided as a cleaning fluid for use with the at least one channel 122 according to the present invention, for example, an aqueous solution of acetic acid, in particular a 30% acetic acid solution. Alternatively, the cleaning fluid may also contain between approximately 10% and approximately 80%, which may be between 15% and approximately 50% acetic acid (C2H4O2) diluted in water (H2O).
All other aqueous acids which are weakened or diluted to the point that they do not attack the laser spark plug or combustion chamber window 106 itself may likewise be considered, in particular if they are able to dissolve oil ash such as, for example, calcium sulphate (anhydride) or calcium phosphate compounds.
In a subsequent step 410 the cleaning fluid is injected under pressure from the lance into channel 122 and finally onto combustion chamber window 106, then drained through the conical aperture of diaphragm 120b (
In one further specific embodiment at least one further step may also advantageously follow after step 410, for example, rinsing with a neutral liquid, for example, purified water, ethyl alcohol (ethanol), isopropanol, in order to protect the spark plug from corrosion. A quick drying liquid that evaporates without residue is advantageous.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10 2011 079 043 | Jul 2011 | DE | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/EP2012/059957 | 5/29/2012 | WO | 00 | 6/6/2014 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2013/007439 | 1/17/2013 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 20090107436 | Schultz | Apr 2009 | A1 |
| 20090159031 | Gruber | Jun 2009 | A1 |
| 20090159032 | Gruber | Jun 2009 | A1 |
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| 20100260454 | Mills | Oct 2010 | A1 |
| 20100275867 | Weinrotter | Nov 2010 | A1 |
| 20110120404 | Weinrotter | May 2011 | A1 |
| 20120180744 | Gruber | Jul 2012 | A1 |
| 20120210969 | Gruber | Aug 2012 | A1 |
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|---|---|---|
| 102008043961 | May 2010 | DE |
| 2 072 803 | Jun 2009 | EP |
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| Number | Date | Country | |
|---|---|---|---|
| 20140305394 A1 | Oct 2014 | US |
